New Holland Backhoe Loader B100C B100CLR B100CTC B110C B110CTC B115C Service Manual (84568042A) -PDF by www.heydownloads.com

SERVICE MANUAL Backhoe Loaders B100C / B100CLR / B100CTC B110C / B110CTC / B115C

Print No. 84568042A

TO READER This manual has been printed for a skilful engineer to supply necessary technical information to carry out service operations on this machine. Read carefully this manual to collect correct information relevant to repair procedures.

CNH ITALIA S.p.A. Technical Information Via Plava, 80 10135 Torino - Italy

For any question or remark, or in case of any error relevant the contents of this manual, please contact:

REFERENCES Beyond this Service Manual, also refer to the documents listed below: - Operator’s Manual - Service Parts Catalogue

SERVICE MANUAL The Service Manual consists of two volumes: - B100C - B100CLR - B100CTC - B110C B110CTC - B115C Service Manual for “Loader backhoe” - B100C - B100CLR - B100CTC - B110C B110CTC - B115C Service Manual for “Engine”

The Service Manuals for “Loader backhoe” and “Engine” contain the necessary technical information to carry out service and repair on machine and on engine, necessary tools to carry out those operations and information on service standard, on procedures for connection, disconnection, disassembly and assembly of parts. The Service Manual which covers the loader backhoe models B100C - B100CLR - B100CTC B110C - B110CTC - B115C consists of the following volumes, which can be identified by their print number as stated below:

VOLUME

MACHINE TYPE

PRINT NUMBER

Service Manual for “Loader backhoe”

B100C - B100CLR - B100CTC - B110C - B110CTC - B115C

84568042A

Service Manual - “Engine”

B100C - B100CLR - B100CTC - B110C - B110CTC - B115C

84496793

PREVENT ACCIDENTS The majority of accidents and injuries which occur in the workshop, at the worksite or on the road, are caused by the failure of some individual to follow simple and fundamental safety rules or precautions. For this reason most accidents can be prevented by recognizing the real cause and taking the necessary precautions, before the accident occurs. Regardless of the care used in design and construction of any type of equipment, there may be conditions that cannot be completely safeguarded against, without interfering with reasonable accessibility and efficient operation. A careful operator and / or technician is the best insurance against accidents. The careful observance of this single safety rule would be sufficient to prevent serious injuries: Never attempt to clean, lubricate or adjust a machine while it is in motion.

S WARNING S Before carrying out any maintenance operation, adjustment and or repair on machines equipped with attachments, controlled hydraulically or mechanically, make sure that the attachment is lowered and safely set on the ground. If it is necessary to have the equipment partially or fully raised to gain access to certain items, be sure the equipment is suitably supported by means other than the hydraulic lift cylinders, cable and /or mechanical device used for controlling the equipment.

LOADER BACKHOE MODELS The complete range of Loader Backhoe models described in this manual are identified below: B100C B100CLR B100CTC

B110C B110CTC

B115C

Powershift

Powershuttle

Stabilizer sideshift

Stabilizer center pivot

Cab

Rops

2WD

4WD

4WS

Pilot control

Mechanical control

Engine Iveco 72 kW - 97 HP model F5HFL413C*A (electronic)

Engine 82 kW - 110 HP model F5HFL413B*A (electronic)

Short backhoe dipper

Long backhoe dipper

INDEX SECTION 00 - SAFETY RULES FOREWORD..................................................................................................................................................... 4 SAFETY INSTRUCTIONS ................................................................................................................................ 6 PREVENTION OF FIRE OR EXPLOSIONS..................................................................................................... 8 PREVENTION OF BURNS ............................................................................................................................... 9 PRECAUTIONS FOR WASTE DISPOSAL..................................................................................................... 10

SECTION 01 - MAINTENANCE SECTION 02 - TECHNICAL SPECIFICATIONS MODELS........................................................................................................................................................... 3 IDENTIFICATION OF MAIN COMPONENTS................................................................................................... 4 TECHNICAL SPECIFICATIONS....................................................................................................................... 7 DIESEL ENGINE ......................................................................................................................................... 7 TRANSMISSION.......................................................................................................................................... 9 AXLES ....................................................................................................................................................... 10 BRAKES .................................................................................................................................................... 10 STEERING................................................................................................................................................. 11 HYDRAULIC SYSTEM .............................................................................................................................. 11 FRONT COUNTERWEIGHT ..................................................................................................................... 12 BUCKETS .................................................................................................................................................. 12 TYRES ....................................................................................................................................................... 13 DPF SYSTEM ............................................................................................................................................ 14 DIMENSIONS AND PERFORMANCE............................................................................................................ 18 DIMENSIONS - 2WS SIDESHIFT ............................................................................................................. 18 DIMENSIONS - 2WS CENTER PIVOT...................................................................................................... 19 DIMENSIONS - 2WS TC - SIDESHIFT ..................................................................................................... 20 DIMENSIONS - 4WS SIDESHIFT ............................................................................................................. 21 DIMENSIONS - 4WS CENTER PIVOT...................................................................................................... 22 LOADER ATTACHMENT PERFORMANCE.............................................................................................. 23 PERFORMANCE OF LOADER ATTACHMENT WITH FORKS ................................................................ 33 BACKHOE ATTACHMENT PERFORMANCE........................................................................................... 38 BACKHOE ATTACHMENT LIFTING CAPACITY ........................................................................................... 58 MAXIMUM LIFTING LOADS........................................................................................................................... 63 LOADER ATTACHMENT MAXIMUM LIFTING LOAD TABLE .................................................................. 63 BACKHOE ATTACHMENT MAXIMUM LIFTING LOAD TABLE ............................................................... 64 SUPPLY SUMMARY TABLE .......................................................................................................................... 65

INDEX SECTION 10 - ENGINE REMOVAL AND INSTALLATION THE ENGINE HOOD, THE RADIATOR AND ENGINE .............................. 3 PRELIMINARY OPERATIONS .................................................................................................................... 3 BATTERY.......................................................................................................................................................... 4 DISCONNECT ............................................................................................................................................. 4 ENGINE HOOD................................................................................................................................................. 6 REMOVE...................................................................................................................................................... 6 RADIATOR........................................................................................................................................................ 9 REMOVE...................................................................................................................................................... 9 ENGINE .......................................................................................................................................................... 16 REMOVE.................................................................................................................................................... 16 INSTALL..................................................................................................................................................... 26 RADIATOR...................................................................................................................................................... 35 INSTALL..................................................................................................................................................... 35 ENGINE HOOD............................................................................................................................................... 41 INSTALL..................................................................................................................................................... 41 BATTERY........................................................................................................................................................ 44 CONNECT ................................................................................................................................................. 44 ENGINE ERROR CODES............................................................................................................................... 46

SECTION 21 - TRANSMISSION POWERSHUTTLE TRANSMISSION................................................................................................................ 3 TECHNICAL SPECIFICATIONS.................................................................................................................. 4 CONTROLS ................................................................................................................................................. 8 LUBRICATION ........................................................................................................................................... 12 GREASING ................................................................................................................................................ 15 REMOVAL FROM MACHINE .................................................................................................................... 17 DISASSEMBLY AND ASSEMBLY............................................................................................................. 20 TROUBLESHOOTING ............................................................................................................................. 132 TRANSMISSION ERROR CODES .......................................................................................................... 136 REPAIR TIMES........................................................................................................................................ 140 SPECIAL TOOLS..................................................................................................................................... 141 POWERSHIFT TRANSMISSION.................................................................................................................. 142 TECHNICAL SPECIFICATIONS.............................................................................................................. 142 CONTROLS ............................................................................................................................................. 153 LUBRICATION ......................................................................................................................................... 155 GREASING .............................................................................................................................................. 157 REMOVAL FROM MACHINE .................................................................................................................. 158 DISASSEMBLY AND ASSEMBLY........................................................................................................... 161 TROUBLESHOOTING ............................................................................................................................. 325 TRANSMISSION ERROR CODES .......................................................................................................... 329 REPAIR TIMES........................................................................................................................................ 333 SPECIAL TOOLS..................................................................................................................................... 334

INDEX SECTION 25 - FRONT AXLES 2WS FRONT AXLE........................................................................................................................................... 3 TECHNICAL SPECIFICATIONS.................................................................................................................. 3 LUBRICATION AND GREASING ................................................................................................................ 4 REMOVAL FROM MACHINE ...................................................................................................................... 6 DISASSEMBLY AND ASSEMBLY............................................................................................................... 7 TROUBLESHOOTING................................................................................................................................. 7 4WD - 2WS FRONT AXLE ............................................................................................................................. 10 TECHNICAL SPECIFICATIONS................................................................................................................ 10 LUBRICATION AND GREASING .............................................................................................................. 11 REMOVAL FROM MACHINE .................................................................................................................... 13 DISASSEMBLY AND ASSEMBLY............................................................................................................. 14 TROUBLESHOOTING............................................................................................................................... 57 SPECIAL TOOLS....................................................................................................................................... 61 4WS FRONT AXLE......................................................................................................................................... 62 TECHNICAL SPECIFICATIONS................................................................................................................ 62 LUBRICATION AND GREASING .............................................................................................................. 63 REMOVAL FROM MACHINE .................................................................................................................... 65

SECTION 27 - REAR AXLE 2WS REAR AXLE (B100C - B100CTC)............................................................................................................ 3 TECHNICAL SPECIFICATIONS.................................................................................................................. 3 LUBRICATION AND GREASING ................................................................................................................ 5 REMOVAL FROM MACHINE ...................................................................................................................... 7 DISASSEMBLY AND ASSEMBLY............................................................................................................... 8 TROUBLESHOOTING............................................................................................................................... 61 REPAIR TIMES.......................................................................................................................................... 67 SPECIAL TOOLS....................................................................................................................................... 68 2WS REAR AXLE (B110C - B110CTC).......................................................................................................... 69 TECHNICAL SPECIFICATIONS................................................................................................................ 69 LUBRICATION AND GREASING .............................................................................................................. 71 REMOVAL FROM MACHINE .................................................................................................................... 73 DISASSEMBLY AND ASSEMBLY............................................................................................................. 74 TROUBLESHOOTING............................................................................................................................. 127 REPAIR TIMES........................................................................................................................................ 133 SPECIAL TOOLS..................................................................................................................................... 134 4WS REAR AXLE (B115C)........................................................................................................................... 135 TECHNICAL SPECIFICATIONS.............................................................................................................. 135 LUBRICATION AND GREASING ............................................................................................................ 138 REMOVAL FROM MACHINE .................................................................................................................. 140 DISASSEMBLY AND ASSEMBLY........................................................................................................... 141 TROUBLESHOOTING............................................................................................................................. 219 REPAIR TIMES........................................................................................................................................ 225 SPECIAL TOOLS..................................................................................................................................... 227

INDEX SECTION 33 - BRAKE SYSTEM PARKING BRAKE............................................................................................................................................. 3 TECHNICAL SPECIFICATIONS.................................................................................................................. 3 OPERATION ................................................................................................................................................ 3 ADJUSTMENT ............................................................................................................................................. 4 DISASSEMBLY AND ASSEMBLY............................................................................................................... 6 SERVICE BRAKE ........................................................................................................................................... 15 TECHNICAL SPECIFICATIONS................................................................................................................ 15 OPERATION .............................................................................................................................................. 15 BRAKE PUMP - Remove ........................................................................................................................... 16 BRAKE PUMP - Install ............................................................................................................................... 18

SECTION 35 - HYDRAULIC SYSTEM HYDRAULIC DIAGRAMS ................................................................................................................................. 3 HYDRAULIC DIAGRAM - 2WS SIDESHIFT MECHANICAL MODELS POWERSHUTTLE (B100C - B100CTC)...................................................................................................... 3 HYDRAULIC DIAGRAM - 2WS SIDESHIFT PILOT MODELS POWERSHUTTLE (B100C - B100CTC - B110C - B110CTC) .................................................................... 5 HYDRAULIC DIAGRAM - 2WS SIDESHIFT PILOT MODELS POWERSHUTTLE (B100CLR) .................. 7 HYDRAULIC DIAGRAM - 2WS SIDESHIFT MECHANICAL MODELS POWERSHUTTLE (B100CLR) ..... 9 HYDRAULIC DIAGRAM - 2WS SIDESHIFT MECHANICAL MODELS POWERSHIFT (B110CTC)......... 11 HYDRAULIC DIAGRAM - 4WS SIDESHIFT MECHANICAL MODELS POWERSHIFT (B115C).............. 13 HYDRAULIC DIAGRAM - 4WS SIDESHIFT PILOT MODELS POWERSHIFT (B115C)........................... 15 HYDRAULIC DIAGRAM - 4WS CENTER PIVOT PILOT MODELS POWERSHIFT (B115C) ................... 17 HYDRAULIC PUMP ........................................................................................................................................ 19 HYDRAULIC FIXED-FLOW-RATE GEAR PUMP...................................................................................... 19 HYDRAULIC VARIABLE-FLOW-RATE PISTON PUMP............................................................................ 30 CONTROL VALVES........................................................................................................................................ 44 LOADER CONTROL VALVE ..................................................................................................................... 53 BACKHOE ATTACHMENT CONTROL VALVE......................................................................................... 57 RELIEF VALVES........................................................................................................................................ 69 BACKHOE ATTACHMENT CONTROL VALVE PILOT SOLENOID VALVE .................................................. 78 ACCUMULATOR “AUTO GLIDE RIDE” PARKER .......................................................................................... 81 TECHNICAL SPECIFICATIONS................................................................................................................ 81 MAINTENANCE ......................................................................................................................................... 81 SAFETY ..................................................................................................................................................... 81 CHECKING AND ADJUSTING THE PRECHARGE PRESSURE ............................................................. 82 HYDRAULIC SWING SYSTEM ...................................................................................................................... 84 OPERATION .............................................................................................................................................. 84 HYDRAULIC CYLINDERS.............................................................................................................................. 87 LOADER ATTACHMENT BOOM CYLINDER............................................................................................ 88 LOADER BUCKET CYLINDER.................................................................................................................. 95 4X1 LOADER BUCKET CYLINDER ........................................................................................................ 101 BACKHOE BOOM CYLINDER ................................................................................................................ 104 BACKHOE ATTACHMENT DIPPER CYLINDER .................................................................................... 108 BACKHOE BUCKET CYLINDER............................................................................................................. 112 TELESCOPIC CYLINDER ....................................................................................................................... 116

INDEX STABILIZER CYLINDER - CENTER PIVOT ........................................................................................... 120 STABILIZER CYLINDER - SIDESHIFT ................................................................................................... 124 SWING CYLINDER.................................................................................................................................. 128 BACKHOE ATTACHMENT LOCK CYLINDER - SIDESHIFT.................................................................. 132 SPECIAL TOOLS..................................................................................................................................... 133 HYDRAULIC CONTROL LEVERS ............................................................................................................... 134 TECHNICAL SPECIFICATIONS.............................................................................................................. 134 CONTROLS AND OPERATION .............................................................................................................. 135 COMPONENTS ....................................................................................................................................... 136 DISASSEMBLY AND ASSEMBLY........................................................................................................... 138 CONTROL LEVER VALVE ...................................................................................................................... 141 TROUBLESHOOTING.................................................................................................................................. 143 PRELIMINARY CHECKS......................................................................................................................... 143 TROUBLESHOOTING (WITH “REXROTH” CONTROL VALVES).......................................................... 144 SWING..................................................................................................................................................... 146 HYDRAULIC PUMP................................................................................................................................. 147

SECTION 39 - CHASSIS DESCRIPTION ................................................................................................................................................. 3 REMOVAL AND INSTALLATION OF COMPONENTS .................................................................................... 6 COMPONENTS WITHIN THE CHASSIS .................................................................................................... 6 COMPONENTS OF THE LOWER PART OF THE CHASSIS ..................................................................... 7 COMPONENTS ATTACHED OUTSIDE THE CHASSIS........................................................................... 11 COMPONENTS OF THE UPPER PART ................................................................................................... 12

SECTION 41 - STEERING SYSTEM DESCRIPTION ................................................................................................................................................. 3 2WS STEERING SYSTEM ............................................................................................................................... 4 4WS STEERING SYSTEM ............................................................................................................................... 7 POWER STEERING ....................................................................................................................................... 11 TECHNICAL SPECIFICATIONS................................................................................................................ 11 COMPONENTS ......................................................................................................................................... 13 DISASSEMBLY.......................................................................................................................................... 15 ASSEMBLY................................................................................................................................................ 18

INDEX AIR CONDITIONING....................................................................................................................................... 12 PRINCIPLES OF AIR CONDITIONING ..................................................................................................... 12 CONTROLS ............................................................................................................................................... 17 OPERATION .............................................................................................................................................. 18 TROUBLESHOOTING AND TESTING...................................................................................................... 25 FLUSHING THE SYSTEM ......................................................................................................................... 43 DRAINING THE SYSTEM.......................................................................................................................... 45 CHARGING THE SYSTEM........................................................................................................................ 46 OVERHAUL ............................................................................................................................................... 47 COMPRESSOR .............................................................................................................................................. 52 TECHNICAL SPECIFICATIONS................................................................................................................ 52 REMOVAL AND INSTALLATION .............................................................................................................. 53 DISASSEMBLY AND ASSEMBLY............................................................................................................. 56 TROUBLESHOOTING ............................................................................................................................... 65

SECTION 55 - ELECTRIC SYSTEM ELECTRIC DIAGRAMS .................................................................................................................................... 3 ELECTRIC DIAGRAMS - POWERSHUTTLE CAB (B100C - B100CTC - B110C - B110CTC) ................... 3 ELECTRIC DIAGRAMS - POWERSHIFT CAB (B110C - B110CTC) ........................................................ 21 ELECTRIC DIAGRAMS - 4WS POWERSHIFT CAB (B115C) .................................................................. 40 CONTROLS AND INSTRUMENTS................................................................................................................. 59 FRONT INSTRUMENT PANEL ................................................................................................................. 59 SIDE INSTRUMENT CLUSTER PANEL (B100C - B100CTC - B110C - B110CTC - B115C)................... 62 SIDE INSTRUMENT CLUSTER (B100C - B100CTC - B110C - B110CTC - B115C)................................ 64 ANTI-START SYSTEM .............................................................................................................................. 66 DIAGNOSTIC DISPLAY (B100C - B100CTC - B110C - B110CTC - B115C) ................................................. 67 SYMBOLS.................................................................................................................................................. 69 SETUP MENU............................................................................................................................................ 70 PROCEDURE ABOUT SELF TEST........................................................................................................... 71 ON BOARD ERROR CODE RETRIEVAL.................................................................................................. 72 BACKLIGHTING AND DIMMING............................................................................................................... 73 WORK HOURS .......................................................................................................................................... 74 OPERATION .............................................................................................................................................. 75 WARNING SYSTEM .................................................................................................................................. 79 MAINTENANCE ......................................................................................................................................... 80 WARNING MESSAGES............................................................................................................................. 82 STARTING SYSTEM ...................................................................................................................................... 88 OPERATION .............................................................................................................................................. 88 STARTER MOTOR .................................................................................................................................... 91 TROUBLESHOOTING ............................................................................................................................... 98 ALTERNATOR .............................................................................................................................................. 100 TECHNICAL SPECIFICATIONS.............................................................................................................. 100 OPERATION ............................................................................................................................................ 100 COMPONENTS ....................................................................................................................................... 102 REMOVAL................................................................................................................................................ 103 PRELIMINARY CHECKS AND TESTS.................................................................................................... 104 TROUBLESHOOTING ............................................................................................................................. 113

INDEX BATTERY ..................................................................................................................................................... 114 TECHNICAL SPECIFICATIONS.............................................................................................................. 114 OPERATION............................................................................................................................................ 114 REPLACEMENT ...................................................................................................................................... 115 CHARGE AND ELECTROLYTE LEVEL CHECK .................................................................................... 116 CONNECTING A BOOSTER BATTERY ................................................................................................. 117 BATTERY MASTER SWITCH ................................................................................................................. 117 TROUBLESHOOTING.................................................................................................................................. 118

SECTION 82 - LOADER LOADER ATTACHMENT CONTROLS............................................................................................................. 4 LOADER ATTACHMENT OPERATION ...................................................................................................... 4 4x1 LOADER BUCKET CONTROL (Optional) ............................................................................................ 7 LOADER ATTACHMENT CONTROL LOCK (Specific to certain countries)................................................ 8 LOADER BUCKET SELF-LEVELLING............................................................................................................. 9 LOADER ATTACHMENT SAFETY STRUT.................................................................................................... 12 LOADER ATTACHMENT SAFETY STRUT (B100C - B110C) .................................................................. 12 LOADER ATTACHMENT SAFETY STRUT (B100CTC - B110CTC - B115C) .......................................... 14 REMOVAL AND INSTALLATION OF LOADER BUCKET .............................................................................. 15 LOADER BUCKET (B100C - B110C) ........................................................................................................ 15 LOADER BUCKET (B100CTC - B110CTC - B115C) ................................................................................ 16 LOADER BUCKET WITH FORKS (Optional) ............................................................................................ 17 BUCKET TEETH REPLACEMENT............................................................................................................ 18 LOADER REMOVAL....................................................................................................................................... 19 LOADER ATTACHMENT (B100C - B110C) .............................................................................................. 19 LOADER ATTACHMENT (B100CTC - B110CTC - B115C) ...................................................................... 21

SECTION 84 - BACKHOE DESCRIPTION AND OPERATION................................................................................................................... 3 BACKHOE ATTACHMENT CONTROLS.......................................................................................................... 6 BACKHOE ATTACHMENT MECHANICAL CONTROLS ............................................................................ 7 BACKHOE ATTACHMENT HYDRAULIC CONTROLS ............................................................................. 17 BACKHOE ATTACHMENT SIDESHIFT (Sideshift version) ...................................................................... 23 BACKHOE ATTACHMENT DISASSEMBLY .................................................................................................. 25 CENTER PIVOT BACKHOE ATTACHMENT DISASSEMBLY.................................................................. 25 SIDESHIFT BACKHOE ATTACHMENT DISASSEMBLY.......................................................................... 28 BACKHOE BUCKET REPLACEMENT...................................................................................................... 30 BUCKET TEETH REPLACEMENT............................................................................................................ 31 DIPPER REMOVE ..................................................................................................................................... 32 TELESCOPIC DIPPER REVISION................................................................................................................. 35 OVERHAUL ............................................................................................................................................... 35 BACKHOE ATTACHMENT HYDRAULIC HANDLING ................................................................................... 38 CONTROLS ............................................................................................................................................... 38 HYDRAULIC DIAGRAM ............................................................................................................................ 38 DISASSEMBLY AND ASSEMBLY............................................................................................................. 39

INDEX

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 00 - SAFETY RULES

SAFETY INSTRUCTIONS

S WARNING S This warning symbol points out important messages involving your safety. Carefully read the safety rules contained herein and follow advised precautions to avoid potential hazards and to safeguard your safety and personal integrity. In this manual you will find this symbol together with the following keywords:

S WARNING S This symbol warns about the possibility of potential damages to the machine that can involve the operator’s safety.

S WARNING S With specific warnings about potential dangers for the operator’s or other persons integrity directly or indirectly involved. The non-compliance with the warnings preceded by the above-mentioned keywords (WARNING and DANGER) can cause serious accidents or even the death of the persons involved. Moreover, in the present Manual, some instructions are given with text in italics, preceded by the words NOTE and CAUTION. NOTA: it emphasizes and underlines to the operator the correct technique or correct procedure to follow.

S WARNING S This symbol warns about the possibility of potential damages to the machine that can involve the operator’s safety.

SECTION 00 - SAFETY RULES

FOREWORD Loader backhoes B100C - B100CLR - B100CTC B110C - B110CTC - B115C have been designed to perform most earth-moving operations. If you use this machine for duties involving the use of attachments, accessories, or special tools, consult your Dealer to make sure that the adaptations or modifications carried out are in conformity with the machine’s technical specifications and with current regulations on safety. Any modifications or adaptations which are not approved by the manufacturer may invalidate the machine’s original conformity with safety requirements. The machine must be used according to its intended use, respecting the safety and precautionary rules and strictly following the operating instructions. Any functional disorders, especially those affecting the safety of the machine, should therefore be rectified immediately.

S DANGER S A different use of the excavator or of its working equipment: - for lifting or transporting persons; - as working platform; - for lifting loads without the attachment being approved for this purpose; - for pulling loads; - is considered unintended use. Unintended use may cause injury or life-threatening risks for the operator and for other persons. The manufacturer/supplier cannot be held responsible for any damage resulting from unintended use. The risk involved in such misuse lies entirely with the user.

S DANGER S It is absolutely forbidden to tamper with and/or change the setting of any of the hydraulic system valves to avoid damaging machine components, with a consequent risk for personal safety. The current Operator’s Manual is the user’s guide for correct run-in, use and maintenance of the machine.

SECTION 00 - SAFETY RULES Carefully read this Operator’s Manual and store it in the cab for quick location and reference. Instructions concerning safety, operation and maintenance have been developed to permit safe service and repair of this machine without any risk. In the event of queries or suggestions relevant to your machine do not hesitate to address to your Dealer. Dealers have qualified and trained personnel at disposal as well as Original Spares, means and equipment suitable to carry out all necessary maintenance. Any modifications or adaptations which are not approved by the manufacturer may invalidate the machine’s original conformity with safety requirements. IMPORTANTE: the engine and fuel system on your machine are designed and built to government emissions standards. Tampering by dealers, customers, operators and users is strictly prohibited by law. Failure to comply with this prohibition could result in government fines, rework charges, invalid warranty, legal action and possible confiscation of the machine until rework to original condition is completed. Engine service and/or repairs must be carried out by a certified technician only. NOTA: each machine is supplied complete with a copy of this Manual. Descriptions and illustrations provided herein are not binding. The Manufacturer, provided that the basic characteristics of machine types described and shown in this Manual remain the same, reserves the right to change components, parts and accessories supplied without any commitment to timely update this publication; and this any time it deems it convenient for improvement purposes or due to commercial or manufacturing requirements. For exact information, please consult your Dealer or contact the Manufacturer’s Branch Offices, who remain at your disposal for further help.

SPARE PARTS The “non-genuine” spare parts have not been checked and authorized by the Manufacturer. The assembly and/or use of such products may have negative effects on the machine design features and could impair its operation safety. The Manufacturer is not liable for any damage caused by “non-genuine” spare parts or accessories.

WARRANTY This machine is under warranty according to the regulations in force in Your Country and in compliance with the sales agreement drawn up with the Dealer. The warranty, however, expires if the operation and maintenance instruction for this machine and contained in this manual, have not been followed.

SECTION 00 - SAFETY RULES

SAFETY INSTRUCTIONS Carefully read the safety rules contained herein and follow advised precautions to avoid potential hazards and to safeguard your safety and personal integrity. Your safety and that of the people around you depends on you. It is essential that you understand this manual for a correct inspection, lubrication and repair of this machine. Read this manual carefully and check that: - you understand fully the symbols on the controls and the safety signs used in this manual and on the machine; - you understand fully the speed, stability, braking and steering characteristics of the machine. If you are in any doubt, consult your Dealer. The safety messages in this section concern situations which may arise during normal machine operation, servicing and repair. These safety messages also indicate the different ways of coping with these situations. Other safety messages are used throughout the manual to indicate specific dangers. The information given in this chapter is a summary of the basic rules to respect at all times and does not exempt you from observing traffic regulations or the requirements of insurance companies. The presence of grease, oil, mud or (in winter) ice on the steps and access handles can cause accidents. Make sure they are always clean. When mounting or dismounting from the machine always face the machine and use the steps and access handles on the left-hand side of the machine.

SECTION 00 - SAFETY RULES Wear close fitting clothing and safety equipment appropriate for the job: - safety helmet; - safety shoes; - heavy gloves; - reflective clothing; - wet weather clothing. If the environment conditions make it necessary, the following personal safety equipment should be at hand: - respirators (or dustproof masks); - ear plugs or acoustic ears protections; - goggles with lateral shield or masks for eyes protection. Do not wear rings, wristwatches, jewels, unbuttoned or flapping clothing such as ties, torn clothes, scarves, open jackets or shirts with open zips which could get caught into moving parts. Any functional disorders, especially those affecting the safety of the machine, should therefore be rectified immediately. Make sure that you fully understand the symbols of the safety decals applied on the machine. Make sure that they are always clean and perfectly legible. Be prepared for emergencies. Always keep a first aid kit and a fire extinguisher close at hand on the machine. Make sure that the fire extinguisher is serviced in accordance with the manufacturerâ&#x20AC;&#x2122;s instructions.

SECTION 00 - SAFETY RULES

PREVENTION OF FIRE OR EXPLOSIONS The engine fuel can originate an explosion or a fire. Never refuel when the engine is running. Do not smoke during refuelling. Take all the necessary safety measures when welding, grinding or when working near a naked flame. Use a non-inflammable product for cleaning parts.

A spark or a flame can cause the electrolyte of the battery to explode. To prevent any risk of explosion, observe the following instructions: - when disconnecting the battery cables, always disconnect the negative (-) cable first; - to reconnect the battery cables, always connect the negative (-) cable last; - never short-circuit the battery clamps with metal objects; - do not weld, grind or smoke near a battery. The engine exhaust may produce sparks. Before using the machine in an area which may contain inflammable vapours, ensure that there is good ventilation. Always keep a fire extinguisher available on the machine. Make sure that it is properly maintained in conformity with the manufacturerâ&#x20AC;&#x2122;s instructions.

SECTION 00 - SAFETY RULES

PREVENTION OF BURNS The battery electrolyte generates severe burns. The battery contains sulphuric acid. Avoid any contact with the skin, eyes or clothing. Antidote: - EXTERNAL: rinse well with water, removing any soiled clothing. - INTERNAL: avoid vomiting. Drink water to rinse your mouth. Consult a doctor. - EYES: rinse thoroughly with water for 15 minutes and get prompt medical attention. When the electrolyte of a battery is frozen, it can explode if you attempt to charge the battery or if you try to start the engine using a booster battery. Always keep the battery charged to prevent the electrolyte freezing. Batteries generate explosive gases. Keep all flames, sparks and cigarettes away. Provide good ventilation when changing a battery or using a battery in an enclosed space. Always protect your eyes when working near a battery. Never touch the battery terminals with your hands. This can induce a state of electrolysis and impair the main organs of the body.

Hot coolant could spray out if the radiator cap is removed while the system is still hot. To remove the cap: allow the system to cool down, turn the cap to the first notch and wait until there is no more pressure. Then remove the cap.

SECTION 00 - SAFETY RULES

PRECAUTIONS FOR WASTE DISPOSAL Improperly disposing of waste can threaten the environment. Each country has its own Regulations on this subject. It is therefore advisable to prepare suitable containers to collect and store momentarily all solid and fluid materials that must not be scattered in the environment to avoid pollution. At preset intervals these products will be delivered to disposal stations legally recognized and present in this Country. Here below is a list of the products in the machine which require disposal: - hydraulic oil; - brake system oil; - coolant mixture, condensation residue and pure anti-freeze; - diesel oil; - oil and diesel oil filter elements; - engine and air conditioning air filter elements; - battery. Also polluting rags, paper, sawdust and gloves must be disposed in compliance with the same procedures. Do not use food or beverage containers that may mislead someone into drinking from them. Do not pour waste onto the ground, down a drain, or into any water source. Air conditioning coolant escaping into the air can damage the Earthâ&#x20AC;&#x2122;s atmosphere. Government regulations may require a certified air conditioning service centre to recover and recycle used air conditioning coolant. Obtain information on the proper way to recycle or dispose of waste from your local environmental or recycling centre, or from your Dealer.

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 01 - MAINTENANCE

SECTION 01 - MAINTENANCE Do not carry out any service operation until you have read and understood the instructions and warnings given in this manual. Observe the adjusting, maintenance and inspection activities and intervals set out in the operating instructions, including information on the replacement of parts and equipment as this service concerns exclusively the qualified personnel. Wear safety equipment and suitable clothing to perform maintenance operations on the machine. During maintenance operations, apply a warning plate. Always wear eye protection when using a tool which might project metal particles. Use a hammer with a soft face, such as copper, for pin assembly. Incorrectly performed maintenance or adjustments can cause serious injury. If you do not understand a maintenance or adjustment procedure, consult your Dealer. Before performing any maintenance operation on this machine, make sure it is in a safety condition.

Move the machine to a level and firm ground, away from any soft ground, excavations and poorly shored cavity. Rest the loader attachment on the ground if no maintenance operation is to be performed on it. Otherwise, raise the attachment and block the support strut. Place the backhoe attachment in road travel position if no maintenance operation is to be performed on it. Otherwise, rest it on the ground. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Completely raise the stabilizers and lock them mechanically. Stop the engine and remove the starter key. Open the oil tank plug. Release the hydraulic pressure by operating the control levers in all directions. On hydraulically controlled machines, turn the key to ON and release the pressure by moving the hydraulic control levers in all directions. Disconnect the electric system by disconnecting the battery master switch.

SECTION 01 - MAINTENANCE

Place some wedges under the wheels so as to prevent the machine from moving. Unauthorized modifications of the machine can cause serious injuries. Do not carry out any modification on this machine without obtaining prior authorization from your Dealer. Any modification carried out must be in conformity with the machine’s technical specifications and must conform to current safety regulations. Do not carry out any welding operation on the machine without prior authorization from your Dealer. Some of the machine’s components are subject to type approvals. It is mandatory when replacing those components to ensure that they are in conformity with regulations. Hydraulic fluid or grease under pressure which penetrates the skin can cause serious injury. Take the necessary safety precautions (protective clothing and face and hand protection) to prevent all such risks. In addition, before handling these products, read the manufacturer’s specific instructions for their use. If hydraulic fluid penetrates the skin a doctor must be called immediately. When carrying out a welding operation on the machine, as authorized by the manufacturer and in accordance with his specifications, disconnect the electric system by means of the battery master switch, connect the welding set earth lead to the component on which the welding is to be carried out (never connect the ground lead to a hydraulic system component) and disconnect the electric cables of the motor control unit (in case of electronic motors). A burst tyre can cause serious injury. Regularly check the condition of tyres and always observe the inflation pressures defined in accordance with the type of tyre and ground conditions.

SECTION 01 - MAINTENANCE When checking the tyre pressure or during an inflation operation, never stay in front of the tyre but always keep to the tread side. Always use an inflation cage when the wheel is removed from the machine. Keep all other persons away from the area. Never weld near a tyre. It is essential to remove the tyre before any welding operation. Take the necessary safety measures to protect your face when using compressed air. The machineâ&#x20AC;&#x2122;s structure is in conformity with the FOPS and ROPS protection standards. Any modification (drilling, welding, etc.) may cause that conformity to be invalidated.

6 NOTE:

SECTION 01 - MAINTENANCE

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 02 - TECHNICAL SPECIFICATIONS MODELS........................................................................................................................................................... 3 IDENTIFICATION OF MAIN COMPONENTS................................................................................................... 4 TECHNICAL SPECIFICATIONS....................................................................................................................... 7 DIESEL ENGINE ......................................................................................................................................... 7 TRANSMISSION.......................................................................................................................................... 9 AXLES ....................................................................................................................................................... 10 BRAKES .................................................................................................................................................... 10 STEERING................................................................................................................................................. 11 HYDRAULIC SYSTEM .............................................................................................................................. 11 FRONT COUNTERWEIGHT ..................................................................................................................... 12 BUCKETS .................................................................................................................................................. 12 TYRES ....................................................................................................................................................... 13 DPF SYSTEM ............................................................................................................................................ 14 DIMENSIONS AND PERFORMANCE............................................................................................................ 18 DIMENSIONS - 2WS SIDESHIFT ............................................................................................................. 18 DIMENSIONS - 2WS CENTER PIVOT...................................................................................................... 19 DIMENSIONS - 2WS TC - SIDESHIFT ..................................................................................................... 20 DIMENSIONS - 4WS SIDESHIFT ............................................................................................................. 21 DIMENSIONS - 4WS CENTER PIVOT...................................................................................................... 22 LOADER ATTACHMENT PERFORMANCE.............................................................................................. 23 PERFORMANCE OF LOADER ATTACHMENT WITH FORKS ................................................................ 33 BACKHOE ATTACHMENT PERFORMANCE........................................................................................... 38 BACKHOE ATTACHMENT LIFTING CAPACITY ........................................................................................... 58 MAXIMUM LIFTING LOADS........................................................................................................................... 63 LOADER ATTACHMENT MAXIMUM LIFTING LOAD TABLE .................................................................. 63 BACKHOE ATTACHMENT MAXIMUM LIFTING LOAD TABLE ............................................................... 64 SUPPLY SUMMARY TABLE .......................................................................................................................... 65

SECTION 02 - TECHNICAL SPECIFICATIONS

MODELS B100C B100CLR B100CTC

B110C B110CTC

B115C

Powershift

Powershuttle

Stabilizer sideshift

Stabilizer center pivot

Cab

Rops

2WD

4WD

4WS

Pilot control

Mechanical control

Engine Iveco 72 kW - 97 HP model F5HFL413C*A (electronic)

Engine 82 kW - 110 HP model F5HFL413B*A (electronic)

Short backhoe dipper

Long backhoe dipper

SECTION 02 - TECHNICAL SPECIFICATIONS

IDENTIFICATION OF MAIN COMPONENTS SIDESHIFT VERSION

9 8 10 11

5 4 3 1

TBR00126

1. Loader bucket

8. Backhoe attachment boom

2. Loader arm

9. Dipper or telescopic dipper

3. Front axle

10. Backhoe bucket

4. Fuel tank

11. Backhoe attachment sideshift carriage

5. Rear axle

12. Stabilizers

6. Operatorâ&#x20AC;&#x2122;s compartment - Cab

13. Battery box

7. Engine guard

14. Hydraulic oil tank

SECTION 02 - TECHNICAL SPECIFICATIONS

TC VERSION

9 8 10 11

5 4 3 1

TBR00127

1. Loader bucket

8. Backhoe attachment boom

2. Loader arm

9. Dipper or telescopic dipper

3. Front axle

10. Backhoe bucket

4. Fuel tank

11. Backhoe attachment sideshift carriage

5. Rear axle

12. Stabilizers

6. Operatorâ&#x20AC;&#x2122;s compartment - Cab

13. Battery box

7. Engine guard

14. Hydraulic oil tank

SECTION 02 - TECHNICAL SPECIFICATIONS

CENTER PIVOT VERSION

8 9 10

13 14

11 6 7

5 4 3 2 1 TBR00128

1. Loader bucket

8. Backhoe attachment boom

2. Loader arm

9. Dipper or telescopic dipper

3. Front axle

10. Backhoe bucket

4. Fuel tank

11. Stabilizers

5. Rear axle

12. Battery box

6. Operatorâ&#x20AC;&#x2122;s compartment - Cab

13. Hydraulic oil tank

7. Engine guard

14. Swing cylinders

SECTION 02 - TECHNICAL SPECIFICATIONS

TECHNICAL SPECIFICATIONS DIESEL ENGINE 72 kW - 97 HP ENGINE (B100C - B100CLR - B100CTC) Specifications (ISO 14396) ..................................................................................... 72 kW - 97 HP @ 2200 rpm Model ........................................................................................................................................... F5HFL413C*A Type ..........................................................................................................................................diesel, electronic No. of cylinders ................................................................................................................................................. 4 Valves per cylinder............................................................................................................................................ 2 Bore ............................................................................................................................................. 99 mm (3.9 in) Stroke....................................................................................................................................... 110 mm (4.33 in) Displacement ................................................................................................................... 4485 cm3 (237.69 in3) Compression ratio..................................................................................................................................... 16.5:1 Maximum torque (EC).......................................................................................453 Nm (334 lbf·ft) @ 1400 rpm Low idle speed at no load ............................................................................................................ 1000 ± 50 rpm High idle speed at no load ........................................................................................................... 2380 ± 60 rpm Maximum speed at full load ................................................................................................................. 2200 rpm Air intake .................................................................................................... TAA (turbocharged with aftercooler)

Supply Type ......................................................................................................................... high-pressure, common rail Injection pump............................................................................................................. CP3 high-pressure pump Control unit............................................................................................................................................... EDC17 Injection sequence ................................................................................................................................... 1-3-4-2 Cold-start device .............................................................................................................. Glow plugs (standard) Cooling Pump type.......................................................................................................................................... H2O pump Pump drive............................................................................................................................................ belt drive Temperature switch (opening start) ......................................................................... 81 ± 2 °C (177.8 ± 35.6 °F)

SECTION 02 - TECHNICAL SPECIFICATIONS

82 kW - 110 HP ENGINE (B110C - B110CTC - B115C) Specifications (ISO 14396) ................................................................................... 82 kW - 110 HP @ 2200 rpm Model (B110C-B110CTC-B115C)................................................................................................ F5HFL413B*A Type ......................................................................................................................................... diesel, electronic No. of cylinders ................................................................................................................................................. 4 Valves per cylinder............................................................................................................................................ 4 Bore.............................................................................................................................................. 99 mm (3.9 in) Stroke....................................................................................................................................... 110 mm (4.33 in) Displacement ................................................................................................................... 4485 cm3 (237.69 in3) Compression ratio ..................................................................................................................................... 16.5:1 Maximum torque (EC) ..................................................................................516 Nm (380,58 lbf·ft) @ 1400 rpm Low idle speed at no load ............................................................................................................ 1000 ± 50 rpm High idle speed at no load............................................................................................................ 2380 ± 60 rpm Maximum speed at full load ................................................................................................................. 2200 rpm Air intake .................................................................................................... TAA (turbocharged with aftercooler)

Supply Type .........................................................................................................................high-pressure, common rail Injection pump............................................................................................................. CP3 high-pressure pump Control unit...............................................................................................................................................EDC17 Injection sequence ...................................................................................................................................1-3-4-2 Cold-start device ..............................................................................................................“grid heater” (optional) Cooling Pump type .......................................................................................................................................... H2O pump Pump drive ............................................................................................................................................belt drive Temperature switch (opening start) ......................................................................... 81 ± 2 °C (177.8 ± 35.6 °F)

SECTION 02 - TECHNICAL SPECIFICATIONS

TRANSMISSION 4WD/2WS TRANSMISSION - POWERSHUTTLE (B100C - B100CTC - B110C - B110CTC) Model ..................................................................................................................... CARRARO TLB1 MPB 4WD Type (4x4)..................................................................................................4 forward and 4 reverse travel gears Torque converter ratio.................................................................................................................................. 2.38 Transmission ratios: 1st gear .........................................................................forward travel 5.603:1

reverse travel 4.643:1

2nd gear........................................................................forward travel 3.481:1

reverse travel 2.884:1

3rd gear ........................................................................forward travel 1.585:1

reverse travel 1.313:1

4th gear.........................................................................forward travel 0.793:1

reverse travel 0.657:1

4WD/2WS TRANSMISSION - POWERSHIFT (B110C - B110CTC) Model ..................................................................................................................... CARRARO TLB2 MPB 4WD Type (4x4)..................................................................................................4 forward and 4 reverse travel gears Torque converter ratio.................................................................................................................................. 2.38 Transmission ratios: 1st gear .........................................................................forward travel 5.533:1

reverse travel 4.549:1

2nd gear........................................................................forward travel 3.359:1

reverse travel 2.762:1

3rd gear ........................................................................forward travel 1.553:1

reverse travel 1.260:1

4th gear.........................................................................forward travel 0.811:1

reverse travel 0.677:1

4WD/4WS TRANSMISSION - POWERSHIFT (B115C) Model ..................................................................................................................... CARRARO TLB2 MPB 4WS Type (4x4)..................................................................................................4 forward and 4 reverse travel gears Torque converter ratio.................................................................................................................................. 2.38 Transmission ratios: 1st gear .........................................................................forward travel 4.468:1

reverse travel 3.657:1

2nd gear........................................................................forward travel 2.700:1

reverse travel 2.220:1

3rd gear ........................................................................forward travel 1.232:1

reverse travel 1.013:1

4th gear.........................................................................forward travel 0.652:1

reverse travel 0.536:1

SECTION 02 - TECHNICAL SPECIFICATIONS

AXLES FRONT AXLES 4WD/2WS front axle (B100C - B100CTC - B110C - B110CTC) Model .......................................................................................................................................................... CNH Type ....................................................................................................................................................... steering 4WD/4WS front axle (B115C) Model ...................................................................................................................................... CARRARO 26.32 Type ....................................................................................................................................................... steering REAR AXLES 2WS rear axle Model (B100C - B100CTC) ..................................................................................................... CARRARO 28.44 Model (B110C - B110CTC) ..................................................................................................... CARRARO 28.50 Type ............................................................................................................................................................. rigid 4WS rear axle (B115C) Model ................................................................................................................................... CARRARO 26.32M Type ....................................................................................................................................................... steering Differential lock......................................................................................................................................... electric

BRAKES SERVICE BRAKES 2WS Type ........................................................................................................wet multi-discs, 4 x axle (2 x half axle) Braking surface .................................................................................................................... 1236 cm2 (191 in2) 4WS Type ........................................................................................................wet multi-discs, 6 x axle (3 x half axle) Braking surface ..................................................................................................................... 1092 cm2 (169 in2) PARKING BRAKE Type ...................................................................................................................................... manual, with lever Maximum lever pull .................................................................................................................. 1650 N (371 lbf) Lever stroke .............................................................................................................................. 21 mm (0.87 in) Maximum torque - POWERSHUTTLE .................................................................................. 2000 Nm (450 lbf) Maximum torque - POWERSHIFT ........................................................................................ 1500 Nm (337 lbf)

SECTION 02 - TECHNICAL SPECIFICATIONS

STEERING 2WS ............................................................................................................................................... 2 wheel steer 4WS ............................................................................................................................................... 4 wheel steer System pressure .............................................................................................. 170 รท 175 bar (2465 รท 2538 psi) POWER STEERING 2WS (with variable-flow-rate pump) Model .........................................................................................................................EATON P/N 403 -8754-04 Flow rate .................................................................................................................... 160 cm3/rev (9.76 in3/rev) Shock valve adjustment ......................................................................................................... 235 bar (3408 psi) Load-sensing pressure relief valve adjustment...................................................................... 175 bar (2538 psi) 2WS (with gear pump) Model .........................................................................................................................EATON P/N 403 -8754-08 Flow rate .................................................................................................................... 160 cm3/rev (9.76 in3/rev) Shock valve adjustment ......................................................................................................... 235 bar (3408 psi) Load-sensing pressure relief valve adjustment...............................................................................................No 4WS Model .........................................................................................................................EATON P/N 403 -7754-04 Flow rate .................................................................................................................... 160 cm3/rev (9.76 in3/rev) Shock valve adjustment ......................................................................................................... 235 bar (3408 psi) Load-sensing pressure relief valve adjustment...................................................................... 175 bar (2538 psi)

HYDRAULIC SYSTEM GEAR PUMP 72 kW - 97 HP Pump (B100C - B100CTC) Model ...........................................................................................................CASAPPA KP 30.34 - 05 S6 - LMF Type ....................................................................................................................................... double gear pump Flow rate .................................................................................... 35.427 + 35.427 cm3/rev (2.16 + 2.16 in3/rev) 82 kW - 110 HP Pump (B110C - B110CTC - B115C) Model ...........................................................................................................CASAPPA KP 30.38 - 05 S6 - LMF Type ....................................................................................................................................... double gear pump Flow rate .................................................................................... 40.258 + 35.427 cm3/rev (2.45 + 2.16 in3/rev) VARIABLE-FLOW-RATE PUMP 72 kW - 97 HP Pump (B100C - B100CTC) Model ....................................................................................................................... DANFOSS J71C Series 45 Type ......................................................................................................................................... with axial pistons Flow rate ..................................................................................................................... 71 cm3/rev (4.33 in3/rev) 82 kW - 110 HP Pump (B110C - B110CTC - B115C) Model ....................................................................................................................... DANFOSS J75C Series 45 Type ......................................................................................................................................... with axial pistons Flow rate ..................................................................................................................... 75 cm3/rev (4.57 in3/rev)

SECTION 02 - TECHNICAL SPECIFICATIONS

FRONT COUNTERWEIGHT COUNTERWEIGHT - 2WS Standard................................................................................................................................... 127.3 kg (281 lb) Medium ....................................................................................................................................... 370 kg (816 lb) Big .......................................................................................................................................... 483.7 kg (1066 lb) COUNTERWEIGHT - 4WS Standard................................................................................................................................... 125.5 kg (276 lb) Medium ....................................................................................................................................... 333 kg (733 lb)

BUCKETS LOADER BUCKETS Type

0.88 m3 (31.07 ft3) standard

2WS Heaped capacity 0.88 m3 (31.07 ft3) Width

4WS

1 m3 (35.3 ft3) standard

4x1

6x1 (with forks)

1.0 m3 (35.3 ft3)

2250 mm (88.58 in) 2250 mm (88.58 in) 2250 mm (88.58 in) 2250 mm (88.58 in)

Weight

310 kg (682 lb)

400 kg (880 lb)

750 kg (1650 lb)

950 kg (2090 lb)

Heaped capacity

1.15 m3 (40.6 ft3)

Width

Weight

2350 mm (92.52 in) 2350 mm (92.52 in) 2350 mm (92.52 in) 415 kg (913 lb)

770 kg (1694 lb)

970 kg (2134 lb)

BACKHOE BUCKETS

2WS + 4WS

Width

305 mm (12 in)

457 mm (17.99 in)

610 mm (24.01 in)

762 mm (30 in)

910 mm (35.82 in)

Capacity

0.067 m3 (2.36 in3)

0.108 m3 (3.81 in3)

0.149 m3 (5.26 in3)

0.190 m3 (6.70 in3)

0.231 m3 (8.15 in3)

Heaped capacity

0.081 m3 (2.86 in3)

0.137 m3 (4.83 in3)

0.198 m3 (6.99 in3)

0.260 m3 (9.18 in3)

0.323 m3 (11.4 in3)

SECTION 02 - TECHNICAL SPECIFICATIONS

TYRES TYRE TYPES Tyres - 2WS

4WD

Front tyres

Rear tyres

12.5/80 - 18 I3

18.4-26 R4 10PR

12.5/80 - 18 I3

16.9-28 R4 10PR

320/80 R18 IT 520

480/80 R26

Tyres - 4WS Front and rear tyres 16.9/24 R4 12PR 16.9/28 R4 12PR 440/80 R28 IT520 440/80 R28 IT530 NUT TORQUES Front nuts (2WS)...................................................................................................................330 Nm (243 lbf·ft) Rear nuts (2WS) ...................................................................................................................540 Nm (398 lbf·ft) Front and rear nuts (4WS) .....................................................................................................700 Nm (516 lbf·ft)

SECTION 02 - TECHNICAL SPECIFICATIONS

DPF SYSTEM A diesel particulate filter (or DPF) is a device designed to remove diesel particulate matter or soot from the exhaust gas of a diesel engine. The manufacturer has chosen high efficiency DPF (Diesel Particulate Filter) technology for its own light engine, medium engine and heavy engine portfolio to meet, starting from current Euro IV up to Euro VI / Tier4, emission standards. DPF technology is typically coupled with an engine-based NOx emission reduction strategy, mainly leveraging on EGR (exhaust gas recirculation): - DPF is today a widely used technology for removing particulate matter (both in mass and number, whichever is the raw soot particles quantity and distribution); - filtration efficiency is close to 100%, up to the maintenance or substitution target; - modern common-rail based Diesel engines are capable to safely regenerate by post-injections DPF, even with very high soot mass loading; - DPF regeneration at high temperature by common-rail could yield, in some very severe applications, to an accelerated deterioration of the lube oil quality (oil dilution caused by late post-injections), so that, if both passive and active DPF regenerations are not working, unit will de-rate and DPF replacement may be required; - lube oil ashes are collected in the filter and cause an increase of the average pressure drop (i.e. higher fuel consumption). Technical description Application: - engine type: Engine FPT; - emission level: Tier4i. Aftertreatment concept: - flow-through DOC; - high efficiency DPF (ceramic wall-flow monolith). DPF regeneration: - mixed passive and active regeneration. Engine layout: - HPL cooled EGR.

SECTION 02 - TECHNICAL SPECIFICATIONS

Canning / substrate main details

S W

TBR00086

1. Metallic can 2. Ceramic fibre mat 3. SIC substrate 4. Ceramic substrate S. Repeat distance W. Wall thickness N. Cell density N. 1/S2 S. Cell pitch

NOTE: when the level of soot exceeds a certain level, the DPF filter have to be replaced or regenerated in a specialized centre which has a regeneration station (thermal regenerator / pulse cleaner).

SECTION 02 - TECHNICAL SPECIFICATIONS

Functional sketch (1)

9 8 7 4 2 6

1 5

3 TBR00087

1. 2. 3. 4. 5. 6. 7. 8. 9. 10.

DPF DOC Delta P sensor Temperature sensor Outlet flange Inlet flange EGR valve Air flow meter Turbine ECU

SECTION 02 - TECHNICAL SPECIFICATIONS

Functional sketch (2) 5 1

TBR00088

1. 2. 3. 4. 5. 6.

DPF DOC Delta P sensor Temperature sensor Outlet flange Inlet flange

DOC = Diesel Oxidant Catalyst +

DPF = Diesel Particulate Filter

CRT = Continuous Regenerating Trap

SECTION 02 - TECHNICAL SPECIFICATIONS

DIMENSIONS AND PERFORMANCE DIMENSIONS - 2WS SIDESHIFT

Front tyres ..................................................................................................................................... 12.5/80-18 I3 Rear tyres.......................................................................................................................................... 18.4-26 R4 Standard loader bucket ..........................................................................................................0.88 m3 (31.07 ft3) Standard backhoe bucket ...................................................................................................... 910 mm (35.82 in)

Overall machine length

5825 mm (229.33 in)

Loader bucket reach

1870 mm (73.62 in)

Wheel base

2175 mm (85.62 in)

Backhoe bucket dimensions

1780 mm (70.07 in)

Rear wheel base - backhoe attachment swing support

Maximum machine height

3875 mm (152.55 in)

Stabilizer width

2275 mm (89.56 in)

Cab height

2940 mm (115.74 in)

Loader bucket width

2250 mm (88.58 in)

1321 mm (52 in)

SECTION 02 - TECHNICAL SPECIFICATIONS

DIMENSIONS - 2WS CENTER PIVOT

Front tyres ..................................................................................................................................... 12.5/80-18 I3 Rear tyres ..........................................................................................................................................18.4-26 R4 Standard loader bucket..........................................................................................................0.88 m3 (31.07 ft3) Standard backhoe bucket ...................................................................................................... 910 mm (35.82 in)

Overall machine length

6985 mm (274.99 in)

Loader bucket reach

1870 mm (73.62 in)

Wheel base

2175 mm (85.62 in)

Backhoe bucket dimensions

2940 mm (115.74 in)

Rear wheel base - backhoe attachment swing support

1120 mm (44.09 in)

Maximum machine height

3875 mm (152.55 in)

Stabilizer width

2290 mm (90.15 in)

Cab height

2940 mm (115.74 in)

Loader bucket width

2250 mm (88.58 in)

SECTION 02 - TECHNICAL SPECIFICATIONS

DIMENSIONS - 2WS TC - SIDESHIFT

Overall machine length

5928 mm (233.38 in)

Loader bucket reach

1973 mm (77.68 in)

Wheel base

2175 mm (85.62 in)

Backhoe bucket dimensions

1780 mm (70.07 in)

Rear wheel base - backhoe attachment swing support

1321 mm (52.00 in)

Maximum machine height

3875 mm (152.55 in)

Stabilizer width

2275 mm (89.56 in)

Cab height

2940 mm (115.74 in)

Loader bucket width

2250 mm (88.58 in)

SECTION 02 - TECHNICAL SPECIFICATIONS

DIMENSIONS - 4WS SIDESHIFT

Front and rear tyres ............................................................................................................... 440/80-R28 IT530 Standard loader bucket.......................................................................................................... 1.15 m3 (40.61 ft3) Standard backhoe bucket ...................................................................................................... 910 mm (35.82 in)

Overall machine length

5945 mm (234.05 in)

Loader bucket reach

1965 mm (77.36 in)

Wheel base

2200 mm (86.61 in)

Backhoe bucket dimensions

1780 mm (70.07 in)

Rear wheel base - backhoe attachment swing support

1321 mm (52.00 in)

Maximum machine height

4010 mm (157.87 in)

Stabilizer width

2275 mm (89.56 in)

Cab height

3060 mm (120.47 in)

Loader bucket width

2400 mm (94.48 in)

SECTION 02 - TECHNICAL SPECIFICATIONS

DIMENSIONS - 4WS CENTER PIVOT

Front and rear tyres ............................................................................................................... 440/80 R28 IT530 Standard loader bucket ..........................................................................................................1.15 m3 (40.61 ft3) Standard backhoe bucket ...................................................................................................... 910 mm (35.82 in)

Overall machine length

7080 mm (278.73 in)

Loader bucket reach

1970 mm (77.55 in)

Wheel base

2200 mm (86.61 in)

Backhoe bucket dimensions

2910 mm (114.56 in)

Rear wheel base - backhoe attachment swing support

1120 mm (44.09 in)

Maximum machine height

4000 mm (157.48 in)

Stabilizer width

2380 mm (93.70 in)

Cab height

3065 mm (120.66 in)

Loader bucket width

2400 mm (94.48 in)

SECTION 02 - TECHNICAL SPECIFICATIONS LOADER ATTACHMENT PERFORMANCE B100C AND B110C [WITH STANDARD BUCKET 1 m3 (35.3 ft3)]

Front counterweight

A. Maximum height/dimensions B. Maximum height of loader bucket pin/pivot C. Maximum dumping height D. Digging depth E. Loader attachment reach when raised in dumping position F. Loader attachment reach when lowered with retracted bucket G. Attachment reach in digging position H. Attachment reach when lowered

α. Angle of lowered closed bucket β. Angle of closed bucket at maximum height χ. Dumping angle

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 320/80 11L-16 F3 11L-16 F3 I3 I3 I3 R18 IT520

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

4309 (169.64)

4310 (169.68)

4309 (169.64)

4302 (169.37)

4227 (166.41)

4228 (166.45)

4333 (170.59)

4328 (170.39)

3481 (137.04)

3482 (137.08)

3481 (137.04)

3474 (136.77)

3400 (133.85)

3505 (137.99)

3501 (137.83)

2749 (108.22)

2750 (108.26)

2749 (108.22)

2742 (107.95)

2654 (143.85)

2655 (104.52)

2778 (109.37)

2771 (109.09)

100 (3.93)

98 (3.85)

99 (3.89)

106 (4.17)

187 (7.36)

73 (2.87)

79 (3.11)

783 (30.82)

780 (30.70)

782 (30.78)

838 (32.99)

837 (32.95)

759 (29.88)

771 (30.35)

1423 (56.02)

1427 (56.18)

1467 (57.75)

1466 (57.72)

1410 (55.51)

1413 (55.62)

1416 (55.74)

1417 (55.78)

1399 (55.07)

1400 (55.11)

1423 (56)

1420 (55.90)

1491 (58.70)

1496 (58.89)

1541 (60.66)

1477 (58.14)

1479 (58.22)

39.4°

39.6°

40.4°

39.3°

39.1°

49.9°

50°

48.4°

50.6°

50.3°

43.4°

43.3°

43.4°

44.9°

42.7°

43.1°

Rear tyres

mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

[WITH STANDARD BUCKET 1 m3 (35.3 ft3)]

Front counterweight

A. Maximum height/dimensions

Front tyres

12.5-18 SLR4

B. Maximum height of loader bucket pin/pivot

Rear tyres

18.4-28 SLR4

C. Maximum dumping height

4250 (167.32)

D. Digging depth

3458 (136.14)

3218 (126.69)

120 (4.72)

829 (32.64)

43.4°

45°

E. Loader attachment reach when raised in dumping position F. Loader attachment reach when lowered with retracted bucket G. Attachment reach in digging position H. Attachment reach when lowered

α. Angle of lowered closed bucket β. Angle of closed bucket at maximum height χ. Dumping angle

mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B100C AND B110C [WITH 4x1 BUCKET 1 m3 (35.3 ft3)]

Front counterweight

α. Angle of lowered closed bucket β. Angle of closed bucket at maximum height χ. Dumping angle

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 320/80 11L-16 F3 11L-16 F3 I3 I3 I3 R18 IT520

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

4461 (175.62)

4462 (175.66)

4461 (175.62)

4454 (175.35)

4379 (172.40)

4484 (176.53)

4480 (176.37)

3481 (137.04)

3482 (137.08)

3481 (137.04)

3474 (136.77)

3400 (133.85)

3505 (137.99)

3501 (137.83)

2777 (109.33)

2779 (109.40)

2777 (109.33)

2770 (109.05)

2677 (105.40)

2678 (105.43)

2808 (110.55)

2800 (110.23)

147 (5.78)

146 (5.74)

147 (5.78)

154 (6.06)

235 (9.25)

234 (9.21)

120 (4.72)

126 (4.96)

970 (38.18)

967 (38.07)

969 (38.14)

1026 (40.40)

1025 (40.35)

946 (37.24)

958 (37.71)

1559 (61.37)

1558 (61.33)

1562 (61.49)

1601 (63.03)

1546 (60.86)

1548 (60.94)

1502 (59.13)

1503 (59.17)

1485 (58.46)

1486 (58.50)

1509 (59.40)

1506 (59.29)

1610 (63.38)

1615 (63.58)

1659 (65.31)

1596 (62.83)

1598 (62.91)

38.6°

38.7°

38.6°

38.8°

39.6°

38.5°

38.4°

47.8°

47.9°

47.8°

46.3°

48.5°

48.2°

31.7°

31.6°

33.2°

31°

31.3°

Rear tyres

mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B100CTC AND B110CTC [WITH STANDARD BUCKET 4x1 1 m3 (35.3 ft3)]

Front counterweight

A. Maximum height/dimensions

Front tyres

12.5-18 SLR4

B. Maximum height of loader bucket pin/pivot

Rear tyres

18.4-28 SLR4

C. Maximum dumping height

4405 (173.42)

D. Digging depth

3458 (136.14)

2693 (106.02)

125 (4.92)

813 (32.01)

43.4°

45°

E. Loader attachment reach when raised in dumping position F. Loader attachment reach when lowered with retracted bucket G. Attachment reach in digging position H. Attachment reach when lowered

α. Angle of lowered closed bucket β. Angle of closed bucket at maximum height χ. Dumping angle

mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS B115C [WITH STANDARD BUCKET 1.15 m3 (40.6 ft3)]

Front tyres

α. Angle of lowered closed bucket β. Angle of closed bucket at maximum height χ. Dumping angle

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

16.9-24 R4

16.9-28 R4

440/80 R28 IT530

440/80 R28 IT520

4281 (168.54)

4345 (171.06)

4335 (170.66)

4342 (170.94)

3424 (134.80)

3488 (137.32)

3478 (136.92)

3485 (137.20)

2613 (102.87)

2677 (105.39)

2667 (105)

2674 (105.27)

181 (7.12)

117 (4.60)

127 (5)

120 (4.72)

728 (28.66)

665 (26.18)

662 (26.06)

661 (26.02)

1340 (52.75)

1234 (48.58)

1238 (48.74)

1232 (48.50)

1280 (50.39)

1217 (47.91)

1214 (47.79)

1213 (47.75)

1415 (55.70)

1307 (51.45)

1311 (51.61)

1305 (51.37)

44.2°

43.9°

44°

43.9°

Rear tyres

59.6°

50.3° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS B115C [WITH 4x1 BUCKET 1.15 m3 (40.6 ft3)]

Front tyres

α. Angle of lowered closed bucket β. Angle of closed bucket at maximum height χ. Dumping angle

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

16.9-24 R4

16.9-28 R4

440/80 R28 IT530

440/80 R28 IT520

4413 (173.74)

4477 (176.25)

4467 (175.86)

4474 (176.14)

3424 (134.80)

3488 (137.32)

3478 (136.92)

3485 (137.20)

2583 (101.69)

2647 (104.21)

2637 (103.81)

2644 (104.09)

208 (8.18)

144 (5.66)

154 (6.06)

147 (5.78)

893 (35.15)

830 (32.67)

827 (32.55)

826 (32.51)

1449 (57.04)

1344 (52.91)

1348 (53.07)

1342 (52.83)

1381 (54.36)

1318 (51.88)

1315 (51.77)

1314 (51.73)

1534 (60.39)

1427 (56.18)

1431 (56.33)

1425 (56.10)

44.3°

44°

Rear tyres

59.6°

42.3° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS PERFORMANCE OF LOADER ATTACHMENT WITH FORKS B100C AND B110C

Front counterweight

A. Maximum height of loader bucket pin/pivot B. Fork maximum height C. Height of loader bucket pin/pivot with lowered forks D. Fork reach when raised E. Fork reach when lowered

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

12.5/8018 I3

12.5/80320/80 11L-16 F3 11L-16 F3 18 I3 R18 IT520

12.5-18 SLR4

Rear tyres

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

A (standard bucket)

3209 (126.33)

3211 (126.41)

3210 (126.37)

3203 (126.10)

3121 (122.87)

3236 (127.40)

3230 (127.16)

A (6x1 bucket)

3370 (132.67)

3372 (132.75)

3371 (132.71)

3364 (132.44)

3286 (129.37)

3396 (133.7)

3391 (133.50)

B (standard bucket)

2770 (109.05)

2772 (109.13)

2771 (109.09)

2764 (108.81)

2682 (105.60)

2683 (105.63)

2797 (110.11)

2792 (109.92)

B (6x1 bucket)

2973 (117.04)

2974 (117.08)

2973 (117.04)

2966 (116.77)

2889 (113.74)

2998 (118.03)

2993 (117.83)

C (standard bucket)

479 (18.85)

C (6x1 bucket)

437 (17.20)

D (standard bucket)

2462 (96.92)

2459 (96.81)

2461 (96.88)

2530 (99.60)

2528 (99.52)

2433 (95.78)

2447 (96.33)

D (6x1 bucket)

2304 (90.71)

2300 (90.55)

2303 (90.66)

2376 (93.54)

2374 (93.46)

2273 (89.49)

2288 890.08)

E (standard bucket)

2719 (107.04)

2718 (107.00)

2719 (107.04)

2722 (107.16)

2763 (108.77)

2762 (108.74)

2706 (106.53)

2708 (106.61)

E (6x1 bucket)

2679 (105.47)

2678 (105.43)

2679 (105.47)

2683 (105.63)

2723 (107.20)

2666 (104.96)

2668 (105.03) mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B100CTC AND B110CTC

1 4

Front counterweight

A. Maximum height of loader bucket pin/pivot with lifted forks B. Fork maximum height

Front tyres

12.5-18 SLR4

Rear tyres

18.4-28SLR4 A

3458 (136.14)

2340 (5148)

D. Fork reach when raised

460 (18.11)

E. Fork reach when lowered

2320 (91.34)

4245 (167.12)

C. Height of loader bucket pin/pivot with lowered forks

mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B115C

Front tyres

A. Maximum height of loader bucket pin/pivot with lifted forks B. Fork maximum height C. Height of loader bucket pin/pivot with lowered forks D. Fork reach when raised E. Fork reach when lowered

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

16.9-24 R4

16.9-28 R4

440/80 R28 IT530

440/80 R28 IT520

A (standard bucket)

3424 (134.80)

3488 (137.32)

3478 (136.92)

3485 (137.20)

A (6x1 bucket)

3424 (134.80)

3488 (137.32)

3478 (136.92)

3485 (137.20)

B (standard bucket)

3036 (119.52)

3100 (122.04)

3090 (121.65)

3097 (121.92)

B (6x1 bucket)

3032 (119.37)

3096 (121.88)

3086 (121.49)

3093 (121.77)

Rear tyres

C (standard bucket)

428 (16.85)

C (6x1 bucket)

432 (17)

D (standard bucket)

2282 (89.84)

2219 (87.36)

2216 (87.24)

2215 (87.20)

D (6x1 bucket)

2255 (88.77)

2192 (86.29)

2189 (86.18)

2188 (86.14)

E (standard bucket)

2593 (102.08)

2493 (98.14)

2496 (98.26)

2491 (98.07)

E (6x1 bucket)

2568 (101.10)

2468 (97.16)

2471 (97.28)

2466 (97.08) mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

BACKHOE ATTACHMENT PERFORMANCE B100C AND B100CTC SIDESHIFT (WITH SHORT STANDARD DIPPER)

A. Maximum digging height B. Maximum height at full load C. Maximum digging depth D. Digging depth [L = 2438.4 mm (95.99 in)] E. Digging reach at maximum height F. Maximum reach when loaded G. Maximum digging reach with lowered bucket

Î±. Bucket digging angle

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 320/80 11L-16 F3 11L-16 F3 I3 I3 I3 R18 IT520

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

5555 (218.70)

5545 (218.31)

5517 (217.20)

5550 (218.50)

5687 (223.90)

5651 (222.48)

5637 (221.93)

5545 (218.31)

3692 (145.35)

3682 (144.96)

3655 (143.90)

3687 8145.16)

3821 (150.43)

3785 (149.02)

3773 (148.54)

3683 (145)

4255 (167.51)

4265 (167.91)

4291 (168.93)

4260 (167.61)

4125 (162.40)

4162 (163.85)

4175 (164.37)

4264 (167.87)

3865 (152.16)

3875 (152.56)

3901 (153.58)

3871 (152.40)

3743 (147.36)

3779 (148.77)

3787 (149.09)

3874 (152.51)

1760 (3872)

1769 (69.64)

1793 (70.59)

1759 (69.25)

1569 (61.77)

1602 (63.07)

1703 (67.05)

1783 (70.20)

1173 (46.18)

1179 (46.42)

1194 (47.01)

1173 (46.18)

1050 (41.34)

1071 842.16)

1136 (44.72)

1188 846.77)

5174 (203.7)

5175 (203.74)

5178 (203.85)

5175 (203.74)

5165 (203.34)

5169 (203.50)

5166 (203.38)

5175 (203.74)

Rear tyres

204.7° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B100C, B100CTC, B110C AND B110CTC SIDESHIFT (WITH LONG STANDARD DIPPER)

Î±. Bucket digging angle

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 320/80 11L-16 F3 11L-16 F3 I3 I3 I3 R18 IT520

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

5732 (225.67)

5721 (225.23)

5693 (224.13)

5727 8225.47)

5874 (231.26)

5836 (229.76)

5817 (229.01)

5722 (225.27)

3869 (152.32)

3858 (151.88)

3830 (150.79)

3864 (152.12)

4007 (157.75)

3969 (156.26)

3953 (155.63)

3858 (151.88)

4557 (179.40)

4566 (179.76)

4592 (180.78)

4562 (179.60)

4428 (174.33)

4465 (175.78)

4477 (176.25)

4565 (179.72)

4189 (164.92)

4198 (165.27)

4224 (166.30)

4194 (165.11)

4068 (160.15)

4103 (161.53)

4111 (161.85)

4197 (165.23)

2010 (79.13)

2019 (79.48)

2043 (80.43)

2008 (79.05)

1811 (71.30)

1846 (72.68)

1950 (76.77)

2033 (80.04)

1435 (56.50)

1441 (56.73)

1457 (57.36)

1434 (56.46)

1305 (51.37)

1327 (52.24)

1396 (54.96)

1450 (57.09)

5440 (214.17)

5441 (214.21)

5443 (214.30)

5440 (214.17)

5431 (213.81)

5434 (213.93)

5432 (213.85)

5440 (214.17)

Rear tyres

204° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B100C AND B100CTC SIDESHIFT (WITH SHORT TELESCOPIC DIPPER)

Î±. Bucket digging angle

SECTION 02 - TECHNICAL SPECIFICATIONS

RETRACTED DIPPER Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 320/80 11L-16 F3 11L-16 F3 I3 I3 I3 R18 IT520

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

5647 (222.32)

5636 (221.89)

5608 (220.78)

5641 (222.09)

5785 (227.75)

5747 (226.25)

5731 (225.63)

5636 (221.89)

3788 (149.13)

3778 (148.74)

3750 8147.64)

3783 (148.94)

3922 (154.41)

3885 (152.95)

3871 (152.40)

3778 (148.74)

4415 (173.81)

4425 (174.21)

4451 (175.23)

4420 (174.01)

4286 (168.74)

4323 (170.19)

4335 (170.66)

4424 (170.17)

4038 (158.97)

4048 (159.37)

4073 (160.35)

4043 (159.17)

3916 (154.17)

3952 (155.60)

3960 (155.90)

4046 (159.29)

1928 (75.90)

1937 (76.26)

1961 (77.20)

1927 (75.87)

1733 (68.23)

1766 (69.53)

1869 (73.58)

1951 (76.81)

1283 (50.51)

1289 (50.75)

1305 (51.37)

1282 (50.47)

1155 (45.47)

1177 (46.34)

1245 (49.01)

1298 (51.10)

5316 (209.30)

5317 (209.33)

5319 (209.40)

5316 (209.30)

5307 (208.93)

5310 (209.05)

5307 (208.93)

5316 (209.30)

Rear tyres

204° mm (in)

EXTENDED DIPPER Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 320/80 11L-16 F3 11L-16 F3 I3 I3 I3 R18 IT520

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

6303 (248.15)

6291 (247.68)

6260 (246.45)

6298 (247.95)

6469 (254.68)

6426 (252.99)

6395 (251.77)

6289 (247.60)

4434 (174.57)

4422 (174.09)

4391 (172.87)

4429 (174.37)

4600 (181.10)

4557 (179.40)

4527 (178.23)

4420 (174.01)

5454 (214.72)

5464 (215.11)

5489 (216.10)

5460 (214.96)

5330 (209.84)

5366 (211.25)

5376 (211.65)

5462 (215.03)

5144 (202.51)

5153 (202.87)

5178 (203.85)

5149 (202.71)

5027 (197.91)

5062 (199.29)

5067 (199.48)

5151 (202.80)

2111 (83.11)

2118 (83.38)

2137 (84.13)

2110 (83.07)

1957 (77.04)

1984 (78.11)

2065 (81.30)

2129 (83.82)

2756 (108.50)

2766 (108.90)

2793 (109.96)

2754 (108.42)

2535 (99.80)

2573 (101.30)

2690 (105.90)

2781 (109.49)

6267 (246.63)

6268 (246.77)

6270 (246.85)

6268 (246.77)

6259 (246.41)

6262 (246.53)

6260 (246.45)

6267 (246.73)

Rear tyres

204° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B100C, B100CTC, B110C AND B110CTC SIDESHIFT (WITH LONG TELESCOPIC DIPPER)

Î±. Bucket digging angle

SECTION 02 - TECHNICAL SPECIFICATIONS

RETRACTED DIPPER Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 I3 I3 I3

320/80 R18

11L-16 F3 11L-16 F3

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

5728 (225.51)

5717 (225.08)

5688 (223.93)

5723 (225.31)

5872 (231.18)

5833 (229.64)

5814 (228.90)

5716 (225.03)

3871 (152.40)

3860 (151.97)

3832 (150.87)

3866 (152.20)

4010 (157.87)

3792 (149.29)

3955 (155.71)

3860 (151.97)

4564 (179.68)

4574 (180.07)

4600 (181.10)

4569 (179.88)

4436 (174.64)

4473 (176.10)

4485 (176.57)

4573 (180.03)

4196 (165.19)

4206 (165.60)

4231 (166.57)

4201 (165.40)

4076 (160.47)

4111 (161.85)

4119 (162.16)

4204 (165.51)

2064 (81.26)

2074 (81.65)

2098 (82.60)

2063 (81.22)

1866 (73.46)

1900 (74.80)

2005 (78.94)

2088 (82.20)

1407 (55.39)

1413 (55.62)

1429 (56.26)

1406 (55.35)

1276 (50.24)

1298 (51.10)

1368 (53.86)

1422 (55.98)

5445 (216.36)

5446 (214.40)

5448 (214.48)

5446 (214.40)

5436 (214.01)

5473 (215.51)

5437 (214.05)

5445 (214.36)

Rear tyres

204° mm (in)

EXTENDED DIPPER Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 320/80 11L-16 F3 11L-16 F3 I3 I3 I3 R18 IT520

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

6459 (254.29)

6447 (253.82)

6413 (252.48)

6454 (254.09)

6640 (261.42)

6595 (259.64)

6556 (258.11)

6443 (253.66)

4602 (181.18)

4590 (180.71)

4557 (179.40)

4597 (180.98)

4777 (188.07)

4733 (186.34)

4697 (184.92)

4587 (180.59)

5751 (226.42)

5760 (226.77)

5785 (227.75)

5756 (226.61)

5629 (221.61)

5665 (223.03)

5673 (223.35)

5659 (222.79)

5452 (214.64)

5462 (215.03)

5486 (215.98)

5458 (214.88)

5337 (210.12)

5372 (211.50)

5376 (211.65)

5460 (214.96)

3016 (118.74)

3026 (119.13)

3054 (120.24)

3014 (118.66)

2788 (109.76)

2828 (111.34)

2948 (116.06)

3042 (119.76)

2358 (92.83)

2366 (93.15)

2386 (93.94)

2357 (92.79)

2198 (86.53)

2226 (87.64)

2310 (90.94)

2377 (93.58)

6540 (257.48)

6542 (257.56)

6540 (257.48)

6532 (257.16)

6535 (257.28)

6533 (257.20)

6540 (257.48)

Rear tyres

204° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B110C CENTER PIVOT (WITH LONG STANDARD DIPPER)

Î±. Bucket digging angle

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 320/80 11L-16 F3 11L-16 F3 I3 I3 I3 R18 IT520

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

5761 (226.81)

5751 (226.42)

5724 (225.35)

5756 (226.61)

5892 (231.97)

5855 (230.51)

5843 (230.04)

5752 (226.46)

3893 (153.27)

3882 (152.83)

3855 (151.77)

3887 (153.03)

4023 (158.38)

3987 (156.97)

3974 (156.46)

3883 (152.87)

4533 (178.46)

4542 (178.81)

4567 (179.80)

4538 (178.66)

4413 (173.74)

4448 (175.11)

4456 (175.43)

4541 (178.77)

4165 (163.97)

4174 (164.33)

4199 (165.31)

4170 (164.17)

4052 (159.52)

4086 (160.86)

4172 (164.25)

2010 (79.13)

2019 (79.48)

2043 (80.43)

2008 (79.05)

1811 (71.30)

1846 (72.68)

1950 (76.77)

2033 (80.04)

1435 (56.50)

1441 (56.73)

1457 (57.36)

1434 (56.46)

1305 (51.37)

1327 (52.24)

1396 (54.96)

1450 (57.09)

5437 (214.05)

5438 (214.09)

5440 (214.17)

5437 (214.05)

5429 (213.74)

5432 (213.85)

5429 (213.74)

5437 (214.05)

Rear tyres

204° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B110C CENTER PIVOT (WITH LONG TELESCOPIC DIPPER)

Î±. Bucket digging angle

SECTION 02 - TECHNICAL SPECIFICATIONS

RETRACTED DIPPER Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 320/80 11L-16 F3 11L-16 F3 I3 I3 I3 R18 IT520

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

5752 (226.46)

5741 (226.02)

5713 (224.92)

5746 (226.22)

5887 (231.77)

5850 (230.31)

5835 (229.72)

5741 (226.02)

3894

3884

3857

3889

4025

3989

3976

3885

4541 (178.77)

4550 (179.13)

4575 (180.11)

4546 (178.80)

4420 (174.01)

4456 (175.43)

4464 (175.74)

4548 (174.05)

4173 (164.30)

4182 (164.64)

4206 (165.60)

4178 (164.48)

4060 (154.84)

4094 (161.18)

4097 (161.30)

4180 (164.56)

2064 (81.26)

2074 (81.65)

2098 (82.60)

2063 (81.22)

1866 (73.46)

1900 (74.80)

2005 (78.94)

2088 (82.20)

1407 (55.39)

1413 (55.62)

1429 (56.26)

1406 (55.35)

1276 (50.24)

1298 (51.10)

1368 (53.86)

1422 (55.98)

5442 (214.25)

5443 (214.30)

5445 (214.36)

5443 (214.30)

5434 (213.93)

5438 (214.09)

5434 (213.93)

5442 (214.25)

Rear tyres

204° mm (in)

EXTENDED DIPPER Front tyres

12.5/80-18 12.5/80-18 12.5/80-18 320/80 11L-16 F3 11L-16 F3 I3 I3 I3 R18 IT520

12.5-18 SLR4

18.4-26 R4

18.4-26 R1

16.9-28 R4

480/80 R26 IT520

18.4-26 R4

16.9-28 R4

18.4-26 SLR4

16.9-28 SLR4

6483 (255.24)

6471 (254.76)

6438 (253.46)

6478 (255.03)

6655 (262.00)

6612 (260.31)

6577 (258.94)

6468 (254.64)

4626 (182.12)

4614 (181.65)

4582 (180.39)

4621 (181.93)

4793 (188.70)

4750 (187.01)

4718 (185.75)

4612 (181.57)

5227 (205.79)

5736 (225.83)

5760 (226.77)

5732 (225.67)

5613 (220.98)

5648 (222.36)

5652 (222.52)

5734 (225.75)

5429 (213.74)

5438 (214.09)

5461 (215)

5434 (213.93)

5322 (209.53)

5355 (210.83)

5435 (213.98)

3016 (118.74)

3026 (119.13)

3054 (120.24)

3014 (118.66)

2788 (109.76)

2828 (111.34)

2949 (116.10)

3042 (119.76)

2358 (92.83)

2366 (93.15)

2386 (93.94)

2357 (92.79)

2198 (86.53)

2226 (87.64)

2310 (90.94)

2377 (93.58)

6537 (257.36)

6538 (257.40)

6540 (257.48)

6538 (257.40)

6530 (257.09)

6533 (257.20)

6530 (257.09)

6537 (257.36)

Rear tyres

204° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B115C SIDESHIFT (WITH LONG STANDARD DIPPER)

Î±. Bucket digging angle

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

16.9-24 R4

16.9-28 R4

440/80 R28 IT530

440/80 R28 IT520

5735 (225.79)

5798 (228.26)

5801 (228.39)

5802 (228.42)

3873 (152.48)

3936

3936 (154.96)

3940 (155.11)

4547 (179.01)

4484 (176.57)

4481 (176.41)

4480 (176.37)

4177 (164.44)

4114 (161.96)

4111 (161.85)

4110 (161.81)

Rear tyres

2065 (81.30)

1471 (57.91)

5436 (210.07)

5428 (213.70)

5427 (213.66)

5427 (213.67)

204° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B115C SIDESHIFT (WITH LONG TELESCOPIC DIPPER)

Î±. Bucket digging angle

SECTION 02 - TECHNICAL SPECIFICATIONS

RETRACTED DIPPER Front tyres

16.9-24 R4

16.9-28 R4

440/80 R28 IT530

440/80 R28 IT520

5731 (225.63)

5794 (228.11)

5797 (228.23)

5798 (228.26)

3875 (152.55)

3938 (155.03)

3941 (155.15)

3942 (155.20)

4555 (179.33)

4492 (176.85)

4489 (176.73)

4488 (176.70)

4185 (146.76)

4122 (162.28)

4119 (162.16)

4118 (162.12)

Rear tyres

2120 (83.46)

1444 (56.85)

5442 (214.25)

5433 (213.90)

204° mm (in)

EXTENDED DIPPER Front tyres

16.9-24 R4

16.9-28 R4

440/80 R28 IT530

440/80 R28 IT520

6451 (253.98)

6514 (256.45)

6517 (256.57)

6518 (256.61)

4596 (180.94)

4659 (183.42)

4662 (183.54)

4663 (183.58)

5739 (225.94)

5676 (223.46)

5673 (223.34)

5672 (223.31)

5439 (214.13)

5376 (211.65)

5373 (211.53)

5372 (211.50)

Rear tyres

3079 (121.22)

2403 (94.61)

6537 (257.36)

6530 (257.09)

6529 (257.05)

204° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B115C CENTER PIVOT (WITH LONG STANDARD DIPPER)

Î±. Bucket digging angle

SECTION 02 - TECHNICAL SPECIFICATIONS

Front tyres

16.9-24 R4

16.9-28 R4

440/80 R28 IT530

440/80 R28 IT520

5768 (227.09)

5831 (229.56)

5834 (229.68)

5835 (229.72)

3899 (153.50)

3962 (155.98)

3965 (156.10)

3966 (156.14)

4521 (178.00)

4458 (175.51)

4455 (175.40)

4454 (175.35)

4152 (163.46)

4089 (160.98)

4086 (160.86)

4085 (160.82)

Rear tyres

2065 (81.30)

1471 (57.91)

5392 (212.28)

5383 (211.92)

204° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

B115C CENTER PIVOT (WITH LONG TELESCOPIC DIPPER)

Î±. Bucket digging angle

SECTION 02 - TECHNICAL SPECIFICATIONS

RETRACTED DIPPER Front tyres

16.9-24 R4

16.9-28 R4

440/80 R28 IT530

440/80 R28 IT520

5756 (226.61)

5819 (229.09)

5822 (229.21)

5823 (229.25)

3901 (153.58)

3964 (156.06)

3967 (156.18)

3968 (156.22)

4529 (178.30)

4466 (175.82)

4463 (175.70)

4462 (175.66)

4159 (163.74)

4096 (161.25)

4093 (161.14)

4092 (161.10)

Rear tyres

2120 (83.46)

1444 (56.85)

5439 (214.13)

5430 (213.77)

5429 (213.74)

204° mm (in)

EXTENDED DIPPER Front tyres

16.9-24 R4

16.9-28 R4

440/80 R28 IT530

440/80 R28 IT520

6477 (255.00)

6540 (257.48)

6543 (257.60)

6544 (207.63)

4622 (181.97)

4685 (184.45)

4688 (184.57)

4689 (184.60)

5713 (224.92)

5650 (222.44)

5647 (222.32)

5646 (222.28)

5414 (213.15)

5351 (210.67)

5348 (210.55)

5347 (210.51)

Rear tyres

3079 (121.22)

2403 (94.61)

6534 (257.24)

6527 (256.97)

6526 (256.93)

204° mm (in)

SECTION 02 - TECHNICAL SPECIFICATIONS

BACKHOE ATTACHMENT LIFTING CAPACITY LIFTING CAPACITY - MODELS B100C, B100CLR AND B100CTC Lifting capacity in normal operating mode - SAE rated The following table reports the lifting capacities of the dipper (A) and the boom (B). NOTE: the capacities indicated may slightly vary from one machine to another, according to the accessories mounted, the pressure settings and the market requirements. Lifting capacities are given in kg (lb) for a standard dipper and a telescopic dipper.

Dipper Dipper A

Telescopic dipper (retracted) Boom B

Dipper A

Boom B

Telescopic dipper (extended) Dipper A

Height/Depth

Boom B

m (ft)

600 (1323)

+5.4 (18)

900 (1984)

+4.9 (16)

1165 (2568)

1090 (2403)

1560 (3439)

1460 (3219)

1455 (3208)

1030 (2271)

+4.3 (14)

1925 (4244)

1680 (3704)

1815 (4001)

1570 (3461)

1400 (3087)

1095 (2414)

+3.6 (12)

1865 (4112)

1700 (3748)

1755 (3869)

1585 (3494)

1380 (3042)

1125 (2480)

+3.0 (10)

1900 (4189)

1560 (3439)

1785 (3935)

1440 (3175)

1400 (3087)

1115 (2458)

+2.4 (8)

2045 (4508)

1475 (3252)

1925 (4244)

1355 (2987)

1460 (3219)

1065 (2348)

+1.8 (6)

2480 (5468)

1425 (3142)

2345 (5170)

1300 (2866)

1585 (3494)

1035 (2282)

+1.2 (4)

3645 (8036)

1405 (3098)

3475 (7661)

1280 (2822)

1835 (4046)

1020 (2249)

+0.6 (2)

1415 (3120)

1285 (2833)

2615 (5765)

1020 (2249)

0 (ground)

1450 (3197)

1320 (2910)

3625 (7992)

1035 (2282)

-0.6 (2)

1525 (3362)

1395 (3075)

1070 (2359)

-1.2 (4)

1550 (3417)

1395 (3075)

1130 (2491)

-1.8 (6)

1570 (3461)

1410 (3109)

1150 (2535)

-2.4 (8)

1645 (3627)

1470 (3241)

1180 (2602)

-3.0 (10)

1965 (4332)

1755 (3869)

1240 (2734)

-3.6 (12)

1395 (3075)

-4.2 (14)

2055 (4531)

-4.8 (16)

SECTION 02 - TECHNICAL SPECIFICATIONS

LIFTING CAPACITY - MODELS B110C, B110CTC (SIDESHIFT) Lifting capacity in normal operating mode - SAE rated The following table reports the lifting capacities of the dipper (A) and the boom (B). NOTE: the capacities indicated may slightly vary from one machine to another, according to the accessories mounted, the pressure settings and the market requirements. Lifting capacities are given in kg (lb) for a standard dipper and a telescopic dipper.

Dipper Dipper A

Telescopic dipper (retracted) Boom B

Dipper A

Boom B

Telescopic dipper (extended) Dipper A

Height/Depth

Boom B

m (ft)

600 (1323)

+5.4 (18)

900 (1984)

+4.9 (16)

1165 (2568)

1090 (2403)

1560 (3439)

1460 (3219)

1455 (3208)

1030 (2271)

+4.3 (14)

1925 (4244)

1680 (3704)

1815 (4001)

1570 (3461)

1400 (3087)

1095 (2414)

+3.6 (12)

1865 (4112)

1700 (3748)

1755 (3869)

1585 (3494)

1380 (3042)

1125 (2480)

+3.0 (10)

1900 (4189)

1560 (3439)

1785 (3935)

1440 (3175)

1400 (3087)

1115 (2458)

+2.4 (8)

2045 (4508)

1475 (3252)

1925 (4244)

1355 (2987)

1460 (3219)

1065 (2348)

+1.8 (6)

2480 (5468)

1425 (3142)

2345 (5170)

1300 (2866)

1585 (3494)

1035 (2282)

+1.2 (4)

3645 (8036)

1405 (3098)

3475 (7661)

1280 (2822)

1835 (4046)

1020 (2249)

+0.6 (2)

1415 (3120)

1285 (2833)

2615 (5765)

1020 (2249)

0 (ground)

1450 (3197)

1320 (2910)

3625 (7992)

1035 (2282)

-0.6 (2)

1525 (3362)

1395 (3075)

1070 (2359)

-1.2 (4)

1550 (3417)

1395 (3075)

1130 (2491)

-1.8 (6)

1570 (3461)

1410 (3109)

1150 (2535)

-2.4 (8)

1645 (3627)

1470 (3241)

1180 (2602)

-3.0 (10)

1965 (4332)

1755 (3869)

1240 (2734)

-3.6 (12)

1395 (3075)

-4.2 (14)

2055 (4531)

-4.8 (16)

SECTION 02 - TECHNICAL SPECIFICATIONS

LIFTING CAPACITY - MODELS B110C (CENTER PIVOT) Lifting capacity in normal operating mode - SAE rated The following table reports the lifting capacities of the dipper (A) and the boom (B). NOTE: the capacities indicated may slightly vary from one machine to another, according to the accessories mounted, the pressure settings and the market requirements. Lifting capacities are given in kg (lb) for a standard dipper and a telescopic dipper.

Dipper Dipper A

Telescopic dipper (retracted) Boom B

Dipper A

Boom B

Telescopic dipper (extended) Dipper A

Height/Depth

Boom B

m (ft)

590 (1301)

+5.4 (18)

880 (1940)

+4.9 (16)

1160 (2557)

1085 (2392)

1545 (3406)

1445 (3186)

1510 (3329)

1015 (2238)

+4.3 (14)

2640 (5820)

1665 (3671)

2585 (5699)

1555 (3428)

1605 (3538)

1080 (2381)

+3.6 (12)

2615 (5765)

1695 (3737)

2505 (5523)

1575 (3472)

1655 (3649)

1110 (2447)

+3.0 (10)

2665 (5875)

1680 (3704)

2550 (5622)

1560 (3439)

1680 (3704)

1125 (2480)

+2.4 (8)

2915 (6427)

1660 (3660)

2790 (6151)

1530 (3373)

1755 (3869)

1125 (2480)

+1.8 (6)

3700 (8157)

1630 (3594)

3555 (7837)

1495 (3296)

1850 (4079)

1125 (2480)

+1.2 (4)

6080 (13404)

1600 (3527)

5910 (13029)

1460 (3219)

2075 (4575)

1120 (2469)

+0.6 (2)

1570 (3461)

1430 (3153)

3235 (7132)

1115 (2458)

0 (ground)

1545 (3406)

1400 (3087)

5787 (12758)

1110 (2447)

-0.6 (2)

1530 (3373)

1380 (3042)

1110 (2447)

-1.2 (4)

1525 (3362)

1370 (3020)

1115 (2458)

-1.8 (6)

1540 (3395)

1380 (3042)

1125 (2480)

-2.4 (8)

1610 (3549)

1435 (3164)

1150 (2535)

-3.0 (10)

1920 (4233)

1710 (3770)

1210 (2668)

-3.6 (12)

1350 (2976)

-4.2 (14)

1990 (4387)

-4.8 (16)

SECTION 02 - TECHNICAL SPECIFICATIONS

LIFTING CAPACITY - MODELS B115C (SIDESHIFT) Lifting capacity in normal operating mode - SAE rated The following table reports the lifting capacities of the dipper (A) and the boom (B). NOTE: the capacities indicated may slightly vary from one machine to another, according to the accessories mounted, the pressure settings and the market requirements. Lifting capacities are given in kg (lb) for a standard dipper and a telescopic dipper.

Dipper Dipper A

Telescopic dipper (retracted) Boom B

Dipper A

Boom B

Telescopic dipper (extended) Dipper A

Height/Depth

Boom B

m (ft)

565 (1243)

+5.4 (18)

850 (1870)

+4.9 (16)

1110 (2442)

1025 (2255)

1500 (3300)

1395 (3069)

1525 (3355)

995 (2189)

+4.3 (14)

2425 (5335)

1645 (3619)

2315 (5093)

1530 (3366)

1625 (3575)

1070 (2354)

+3.6 (12)

2350 (5170)

1685 (3707)

2245 (4939)

1565 (3443)

1625 (3575)

1110 (2442)

+3.0 (10)

2395 (5269)

1685 (3707)

2280 (5016)

1560 (3432)

1650 (3630)

1130 (2486)

+2.4 (8)

2575 (5665)

1670 (3674)

2455 (5401)

1540 (3388)

1735 (3817)

1135 (2497)

+1.8 (6)

3115 (6853)

1645 (3619)

2980 (6556)

1515 (3333)

1885 (4147)

1140 (2508)

+1.2 (4)

4555 (10021)

1620 (3564)

4385 (9667)

1485 (3267)

2125 (4675)

1140 (2508)

+0.6 (2)

1600 (3520)

1460 (3212)

3315 (7293)

1135 (2497)

0 (ground)

1580 (3476)

1435 (3157)

4565 (10043)

1135 (2497)

-0.6 (2)

1570 (3454)

1420 (3124)

1140 (2508)

-1.2 (4)

1575 (3472)

1420 (3124)

1145 (2519)

-1.8 (6)

1600 (3527)

1440 (3168)

1165 (2563)

-2.4 (8)

1690 (3726)

1515 (3333)

1200 (2640)

-3.0 (10)

2095 (4619)

1875 (4125)

1270 (2794)

-3.6 (12)

1440 (3168)

-4.2 (14)

2255 (4961)

-4.8 (16)

SECTION 02 - TECHNICAL SPECIFICATIONS

LIFTING CAPACITY - MODELS B115C (CENTER PIVOT) Lifting capacity in normal operating mode - SAE rated The following table reports the lifting capacities of the dipper (A) and the boom (B). NOTE: the capacities indicated may slightly vary from one machine to another, according to the accessories mounted, the pressure settings and the market requirements. Lifting capacities are given in kg (lb) for a standard dipper and a telescopic dipper.

Dipper Dipper A

Telescopic dipper (retracted) Boom B

Dipper A

Boom B

Telescopic dipper (extended) Dipper A

Height/Depth

Boom B

m (ft)

545 (1202)

+5.4 (18)

835 (1841)

+4.9 (16)

1085 (2392)

1005 (2216)

1485 (3274)

1385 (3053)

1500 (3307)

975 (2150)

+4.3 (14)

2620 (5776)

1625 (3583)

2425 (5346)

1510 (3329)

1600 (3527)

1050 (2315)

+3.6 (12)

2560 (5644)

1660 (3660)

2450 (5401)

1540 (3395)

1615 (3561)

1090 (2403)

+3.0 (10)

2620 (5776)

1660 (3660)

2505 (5523)

1535 (3384)

1640 (3616)

1105 (2436)

+2.4 (8)

2875 (6338)

1645 (3627)

2750 (6063)

1515 (3340)

1730 (3814)

1115 (2458)

+1.8 (6)

3700 (8157)

1620 (3572)

3550 (7826)

1490 (3185)

1870 (4123)

1120 (2469)

+1.2 (4)

6280 (13845)

1600 (3527)

6075 (13393)

1460 (3219)

2120 (4674)

1120 (2469)

+0.6 (2)

1575 (3472)

1435 (3164)

3660 (8069)

1115 (2458)

0 (ground)

1555 (3428)

1410 (3109)

5745 (12666)

1115 (2458)

-0.6 (2)

1545 (3406)

1400 (3087)

1120 (2469)

-1.2 (4)

1550 (3417)

1395 (3075)

1125 (2480)

-1.8 (6)

1580 (3483)

1415 (3120)

1145 (2524)

-2.4 (8)

1670 (3682)

1500 (3307)

1180 (2602)

-3.0 (10)

2070 (4564)

1855 (4090)

1250 (2756)

-3.6 (12)

1430 (3153)

-4.2 (14)

2230 (4916)

-4.8 (16)

SECTION 02 - TECHNICAL SPECIFICATIONS

MAXIMUM LIFTING LOADS LOADER ATTACHMENT MAXIMUM LIFTING LOAD TABLE 2WS

4WS

SECTION 02 - TECHNICAL SPECIFICATIONS

BACKHOE ATTACHMENT MAXIMUM LIFTING LOAD TABLE 2WS

4WS

SECTION 02 - TECHNICAL SPECIFICATIONS

SUPPLY SUMMARY TABLE RECOMMENDED FLUIDS AND APPLICATION ENGINE - OIL Unitek CJ-4

NEW INTERNATIONAL HOLLAND Specifications Specifications

MODELS

Q.TY Litres

Gal

2WS - with filter 4WS - with filter

2.11

MAT 3521

API CJ-4, ACEA E9, 15W - 40

NH 900 A

ASTM D 6210

ALL

6.30

HYDRAULIC SYSTEM Ambra Multi G

NH 410 B

API GL4, ISO VG 32/46, 10W - 30

ALL

118

31.10

Hydrosystem biodegradable 46 BIO-S

NH 646 BS

ISO VG 46, DIN 51524 - part II

ALL

118

31.10

4WD

20.8

4.57

ALL

20.8

4.57

Differential

6.5

1.70

Wheel reduction gear (each)

0.7

0.20

Differential

10.5

2.80

Wheel reduction gear (each)

1.3

0.34

B100C

15.5

3.41

B110C

3.74

Differential

2.90

Wheel reduction gear (each)

1.3

0.34

ALL

135

35.50

COOLING SYSTEM Ambra Agriflu antifreeze 50% water 50%

POWERSHUTTLE TRANSMISSION MAT3505 (complete with torque converter and pipework) Ambra Mastertran POWERSHIFT TRANSMISSION (complete with torque converter and pipework) Ambra Mastertran FRONT AXLE (2WS) Ambra TRX 80W - 140

NH 600/TR

API GL4, 80W - 140 4WD

FRONT AXLE (4WS) Ambra TRX 80W - 140

REAR AXLE (2WS) Ambra TRX 80W - 140

Differential

REAR AXLE (4WS) Ambra TRX 80W - 140

FUEL Decanted and filtered diesel fuel VARIOUS JOINTS Ambra MG2 grease

NH 585/GR

NLGI 2

ALL

As required

TELESCOPIC DIPPER Ambra Grease GR EXP

NH 587/GR

NLGI 2

ALL

As required

ALL

240

AIR CONDITIONING COMPRESSOR PAG SP 20 oil

cm3

14.6 in3

66 NOTES:

SECTION 02 - TECHNICAL SPECIFICATIONS

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 10 - ENGINE REMOVAL AND INSTALLATION THE ENGINE HOOD, THE RADIATOR AND ENGINE .............................. 3 PRELIMINARY OPERATIONS .................................................................................................................... 3 BATTERY ......................................................................................................................................................... 4 DISCONNECT ............................................................................................................................................. 4 ENGINE HOOD ................................................................................................................................................ 6 REMOVE ..................................................................................................................................................... 6 RADIATOR ....................................................................................................................................................... 9 REMOVE ..................................................................................................................................................... 9 ENGINE .......................................................................................................................................................... 16 REMOVE ................................................................................................................................................... 16 INSTALL .................................................................................................................................................... 26 RADIATOR ..................................................................................................................................................... 35 INSTALL .................................................................................................................................................... 35 ENGINE HOOD .............................................................................................................................................. 41 INSTALL .................................................................................................................................................... 41 BATTERY ....................................................................................................................................................... 44 CONNECT ................................................................................................................................................. 44 ENGINE ERROR CODES .............................................................................................................................. 46

SECTION 10 - ENGINE

REMOVAL AND INSTALLATION OF THE ENGINE HOOD, THE RADIATOR AND ENGINE Preliminary operations Z Position the machine on a flat and compact surface. Z Apply the parking brake and chock the wheels with wedges. Z Use only the recommended tools. Z Do not insert hands or extraneous components between parts. Z Disconnect the battery before proceeding.

S WARNING S Do not allow unauthorized persons to repair or service this machine. Be certain to read the Use and Maintenance Manual with care before starting, operating, servicing, refuelling or repairing this machine. Turn the STARTER SWITCH to the OFF position and display the â&#x20AC;&#x153;DO NOT STARTâ&#x20AC;? warning notice. IMPORTANT: From this point onwards, mark all electrical connections and hydraulic pipes to facilitate the process of RESTORING CONNECTIONS DURING REFITMENT. Z Unscrew the cap of the hydraulic oil tank slowly to release the air pressure from inside the tank. Z Move the control lever repeatedly back and forth to release pressure in the hydraulic circuit. Z With oil warm, remove plug from the bottom of the machine and drain the oil into a receptacle of suitable capacity.

S DANGER S Fluid under pressure; Before removing the plug or cap, turn slowly to release pressure from the system. See the Use and Maintenance Manual. Put a container below radiator drain. Remove radiator cap. Remove cap and drain coolant into container. Install cap after coolant has drained. Install radiator cap. Put a container below engine oil drain. Remove cap and drain oil into container. Install cap after oil has drained.

SECTION 10 - ENGINE

Battery - Disconnect

S WARNING S Explosive gas! Batteries emit explosive hydrogen gas and other fumes while charging. Ventilate the charging area. Keep the battery away from sparks, open flames, and other ignition sources. Never charge a frozen battery. Failure to comply could result in death or serious injury.

S WARNING S Hazardous chemicals! Battery electrolyte contains sulfuric acid. Contact with skin and eyes could result in severe irritation and burns. Always wear splash-proof goggles and protective clothing (gloves and aprons). Wash hands after handling.Failure to comply could result in death or serious injury. Remove the battery cover hardware.

TBR00002

Remove the battery cover.

TBR00003

SECTION 10 - ENGINE

Disconnect the negative battery cable from the negative battery terminal.

TBR00004

SECTION 10 - ENGINE

Engine hood - Remove Raise the loader in the full upright position. Lock the support strut to hold the loader in the upright position.

TBR00005

Remove grill hardware.

TBR00007

Remove grill bumpers.

TBR00008

Remove the grill.

TBR00006

SECTION 10 - ENGINE

Open hood and remove hood struts.

TBR00009

Remove hood straps.

TBR00010

Lower hood and attach lifting device.

TBR00011

Remove hood pivot point hardware.

TBR00012

SECTION 10 - ENGINE

Remove pivot point tubes.

TBR00013

Remove hood.

TBR00014

SECTION 10 - ENGINE

Radiator - Remove Discharge the A/C system, (if present). NOTICE: Use appropriate reclaiming devices when recovering A/C refrigerant.

TBR00020

Disconnect the electrical connection X2 from the horn.

TBR00044

Disconnect the hoses and electrical connection X70 from the filter drier air conditioned (if present) and remove the filter.

TBR00015

SECTION 10 - ENGINE

Disconnect the exhaust gas pipe.

TBR00016

Remove the four screws that secure the top cover of the engine hood to the frame of the machine.

TBR00017

Remove the top cover of the engine hood from the machine.

TBR00018

SECTION 10 - ENGINE

Remove hood hinge plates.

TBR00027

Remove the screws that secure the radiator wrapper of the engine hood to the frame of the machine.

TBR00019

Remove the radiator wrapper.

TBR00026

Remove the radiator purge hose.

TBR00021

SECTION 10 - ENGINE

Remove the upper radiator hose.

TBR00022

Remove the charge air cooler hoses and pipes.

TBR00023

Cap (seal) all open ports to keep contaminates from entering the system.

TBR00024

Remove the lower radiator hose.

TBR00025

SECTION 10 - ENGINE

Tag and disconnect the four front cooler lines and cap all open ports.

TBR00029

Disconnect the duct air intake from air cleaner.

TBR00030

Remove the duct air intake.

TBR00028

Tag and disconnect the two cooler lines right hand and cap open ports.

TBR00035

SECTION 10 - ENGINE

Tag and disconnect the two cooler lines left hand and cap open ports.

TBR00031

Attach a suitable device.

TBR00032

Remove cooling package mounting hardware.

TBR00033

Slowly raise cooling package from chassis. Be sure all harness connections and hoses have been disconnected and are clear of the cooling package. Remove cooling package from machine.

TBR00034

SECTION 10 - ENGINE

3 4 1

6 2

7 TBR00084

1. Cooler charged air 2. Condenser 3. Radiator 4. Oil cooler 5. Cooler fuel 6. Washer 7. M12X30 hex screw [tightening torque 90รท110 Nm (66รท81 lbfโ ขft)]

SECTION 10 - ENGINE

Engine - Remove Remove and disconnect compressor electrical connection X473 (if present).

TBR00036

Identify, tag and disconnect the high pressure and low pressure A/C lines, (if present).

TBR00037

Disconnect the air temperature sensor X474.

TBR00038

Remove the electrical connection X4 from 2-way aircleaner connector.

TBR00045

SECTION 10 - ENGINE

Remove the pipe connecting the aircleaner with turbocharger.

TBR00039

Remove the aspirator tube.

TBR00040

Remove crank case vent.

TBR00041

Remove the hoses right and left from delta pressure sensor and the electrical connection X475.

TBR00042

SECTION 10 - ENGINE

Disconnect the connecting exhaust pipe from the turbocharger with a silencer/DPF opening the clamp.

TBR00043

Remove from electronic module control the electrical connection X469.

TBR00046

Remove from the engine electronic control unit the electrical connection X470 (1) and X471 (2).

2 1

TBR00047

Remove the connection X468.

TBR00048

SECTION 10 - ENGINE

Remove the ground cable and ground strap.

TBR00049

Remove the connection X69.

TBR00050

Remove the connection X477 from temperature sensor DPF.

TBR00051

Remove the alternator connection X67 and connection X10.

TBR00052

SECTION 10 - ENGINE

Disconnect the electrical connection X508 from starter motor and the ignition connection.

TBR00053

Remove the connection X476 from temperature sensor DPF.

TBR00054

Remove the connection from heated Lambda sensor.

TBR00058

Attach the aircleaner/DPF a lifting device suitable and remove the screws (q.ty 4, two on each side).

TBR00055

SECTION 10 - ENGINE

Carefully remove the aircleaner/DPF from the chassis and be rest on a special support.

TBR00056

Remove the four screws that secure the aircleaner support of the DPF devise.

TBR00057

Remove the four screws that secure the aircleaner to the support plate. Remove the aircleaner from the support.

TBR00059

SECTION 10 - ENGINE

Remove the silencer/DPF from its mounting by removing the four screws (1) securing the two half flanges (2), firstly measuring and making a note of distances A, B and C shown in the diagram in order to ensure a precise connection between the component pipes when reassembling.

TBR00060

Remove the flywheel access cover.

TBR00061

SECTION 10 - ENGINE

Rotate the engine to access flywheel flexplate hardware. Use hardware tool 380000988.

TBR00062

Remove flywheel to flex plate hardware.

TBR00063

Attach a suitable lifting device.

TBR00064

Remove motor mount hardware.

TBR00065

SECTION 10 - ENGINE

Remove engine to transmission hardware.

TBR00066

Slowly raise engine fromchassis. Be sure all harness connections and hoses have been disconnected and are clear of the engine. Remove engine from machine.

TBR00067

SECTION 10 - ENGINE

7 6

1 3 4

TBR00085

1. Bracket RH engine mount

8. Washer

2. Bracket LH engine mount

9. M16 nut [tightening torque 210รท240 Nm (156รท178 lbfโ ขft)]

3. Washer 4. M12X35 hex screw 5. Anti-vibration devise 6. Washer 7. M16X120 hex screw

SECTION 10 - ENGINE

Engine - Install Carefully lower the engine into the chassis.

TBR00067

Install engine to transmission hardware. [Tightening torque 52÷57 Nm (38÷42 lbf•ft)]

TBR00066

Install engine mount hardware. [Tightening torque 210÷240 Nm (155÷177 lbf•ft)]

TBR00065

Remove the lifting device.

TBR00064

SECTION 10 - ENGINE

Rotate the engine to access flywheel. Use hardware tool 380000988.

TBR00062

Reinstall the flywheel to flex plate hardware. [Tightening torque 52รท57 Nm (38รท42 lbfโ ขft)].

TBR00063

Install the flywheel access cover.

TBR00061

SECTION 10 - ENGINE

Fit the silencer/DPF on its mounting using the four screws (1) securing the two half flanges (2), complying with the distances A, B and C shown in the diagram and noted during the dismantling in order to ensure a precise connection between the component pipes.

TBR00060

Install the aircleaner on the support and secure it with four screws.

TBR00059

Assembly the aircleaner with a silencer/DPF and secure using the four screws.

TBR00057

SECTION 10 - ENGINE

Attach a suitable lifting device and carefully install on the frame.

TBR00056

Assembly the aircleaner/DPF to the plate mounted on the frame using the four screws (two on each side).

TBR00055

Connect the exhaust pipe of the silencer/DPF to the turbocharger with the clamp.

TBR00043

Connecting the hose aircleaner to the turbocharger.

TBR00039

SECTION 10 - ENGINE

Connect the heated Lambda sensor connection.

TBR00058

Connect the connection X476 of temperature sensor DPF.

TBR00054

Connect the connection X477 of temperature sensor DPF.

TBR00051

Connect the hoses right and left on delta pressure sensor and connect the electrical connection X475.

TBR00042

SECTION 10 - ENGINE

Connect the high pressure and low pressure A/C lines (if present).

TBR00037

Connect the electrical connection X473 on the compressor (if present).

TBR00036

Connect the air temperature sensor.

TBR00038

Connect the electrical connection X508 on the starter motor and the ignition connection.

TBR00053

SECTION 10 - ENGINE

Connect the electrical connections X67 and X10 on the alternator.

TBR00052

Connect the electrical connection X69.

TBR00050

Connect the ground cable and ground strap.

TBR00049

Connect the electrical connection X468.

TBR00048

SECTION 10 - ENGINE

Connect the connections X470 (1) and X471 (2) on the electronic control unit.

2 1

TBR00047

Connect the electrical connection X469 on the electronic module control.

TBR00046

Connect crank case vent.

TBR00041

Connect the aspirator tube.

TBR00040

SECTION 10 - ENGINE

Connect the electrical connection X4 on 2-way aircleaner connector.

TBR00045

Top up the engine oil to the level indicated, using the specific recommended lubricant. Top up the hydraulic oil to the level indicated, using the specific recommended lubricant.

SECTION 10 - ENGINE

Radiator - Install Carefully lower the cooling package into place.

TBR00034

Install the cooling package with the existing mounting hardware.

TBR00033

Remove the lifting device.

TBR00032

Connect the two cooler lines left hand.

TBR00031

SECTION 10 - ENGINE

Connect the two cooler lines right hand.

TBR00035

Connect the duct air intake on aircleaner.

TBR00030

Connect the four front cooler lines.

TBR00029

Install the lower radiator hose.

TBR00025

SECTION 10 - ENGINE

Remove the caps from the open ports.

TBR00024

Install the charge air cooler hoses and pipes.

TBR00023

Install the upper radiator hose.

TBR00022

Install the radiator purge hose.

TBR00021

SECTION 10 - ENGINE

Install the radiator wrapper.

TBR00026

Install the radiator wrapper mounting bolts.

TBR00019

Install hood hinge plates.

TBR00027

Install the top cover of the engine hood on the machine.

TBR00018

SECTION 10 - ENGINE

Install the four screws that secure the top cover of the engine hood to the frame of the machine. NOTE: Exhaust cone on the hood must be concentric with DPF exhaust tube to within Âą 6 mm (0.23 in). Insufficient gap between DPF and fixed hood cone will result in damage to the fixed hood finish.

TBR00017

Install the exhaust gas pipe.

TBR00016

Install filter drier air conditioning (if present), connect the hoses and electrical connection X70.

TBR00015

SECTION 10 - ENGINE

Connect the electrical connection X2 on the horn.

TBR00044

Recharge the A/C system.

TBR00020

Refill the system with coolant.

TBR00068

SECTION 10 - ENGINE

Engine hood - Install Lower the hood into place.

TBR00014

Install pivot point tubes.

TBR00013

Install the hood pivot point hardware.

TBR00012

Remove the lifting straps.

TBR00011

SECTION 10 - ENGINE

Install the hood straps.

TBR00010

Open hood and install the hood struts.

TBR00009

Install the grill.

TBR00006

Install the grill bumpers.

TBR00008

SECTION 10 - ENGINE

Install all grill hardware.

TBR00007

Remove the support strut that are holding the loader in the upright position.

TBR00005

SECTION 10 - ENGINE

Battery - Connect

S WARNING S Hazardous chemicals! Battery electrolyte contains sulfuric acid. Contact with skin and eyes could result in severe irritation and burns. Always wear splash-proof goggles and protective clothing (gloves and aprons). Wash hands after handling. Failure to comply could result in death or serious injury. Connect the negative battery cable to the negative battery terminal.

TBR00004

Install the battery cover.

TBR00003

SECTION 10 - ENGINE

Install the battery cover hardware.

TBR00002

SECTION 10 - ENGINE

ENGINE ERROR CODES CODE

SHORT FAILURE DESCRIPTION

AMBER WARNING

RED STOP

One second alarm upon activation for key cycle

3006

Coolant Temperature Sensor - Signal Not Plausible (Compared with Engine Oil Temperature).

3008

Coolant Temperature Sensor - Signal Below Range Min.

3009

Coolant Temperature Sensor - (via CAN) No Signal.

3015

Fuel Temperature Signal - Signal Above Range Max.

3016

Fuel Temperature Signal - Signal Below Range Min.

3019

Boost Pressure Sensor - Signal Above Range Max.

3021

Boost Pressure Sensor - (via CAN) No Signal.

3022

Boost Pressure Sensor - Signal Not Plausible.

3023

Atmospheric Pressure Sensor - Signal Not Plausible Compared with Boost Pressure.

3024

Atmospheric Pressure Sensor - Signal Above Range Max.

3025

Atmospheric Pressure Sensor - Signal Below Range Min.

3028

Oil Pressure Too Low.

3029

Oil Pressure Sensor – Short circuit to Battery.

3030

Oil Pressure Sensor – Short circuit to Ground.

3031

Oil Pressure Sensor - Hardware Error.

3032

Oil Pressure Sensor - Value Too High.

3033

Oil Temperature Sensor - Signal Not Plausible (Compared with Coolant Temperature).

3034

Oil Temperature Sensor - Signal Above Range Max.

3035

Oil Temperature Sensor - Signal Below Range Min.

3036

Oil Temperature Sensor - (via CAN) No Signal.

3037

Boost Pressure Sensor - Signal Low.

3051

Battery Voltage to ECM too High.

3052

Battery Voltage to ECM too Low

X***

*** Note: Per direction from Engineering group this amber flag will be overriden by Cluster to a Red.

SECTION 10 - ENGINE

CODE

SHORT FAILURE DESCRIPTION

AMBER WARNING One second alarm upon activation for key cycle

3060

Cylinder1 - Unclassifiable Error in Injector.

3061

Cylinder1 - Injector Cable Short circuit (Low Side to Battery).

3063

Cylinder1 - Injector Cable Short circuit (High Side to Ground).

3068

Cylinder3 - Unclassifiable Error in Injector.

3069

Cylinder3 - Injector Cable Short circuit (Low Side to Battery).

3071

Cylinder3 - Injector Cable Short circuit (High Side to Ground).

3076

Cylinder2 - Unclassifiable Error in Injector.

3077

Cylinder2 - Injector Cable Short circuit (Low Side to Battery).

3079

Cylinder2 - Injector Cable Short circuit (High Side to Ground).

3080

Cylinder4 - Unclassifiable Error in Injector.

3081

Cylinder4 - Injector Cable Short circuit (Low Side to Battery).

3083

Cylinder4 - Injector Cable Short circuit (High Side to Ground).

3088

Crankshaft Sensor - No Signal.

3089

Crankshaft Sensor - Invalid Signal.

3090

Camshaft Sensor - No Signal.

3091

Camshaft Sensor - Invalid Signal.

3093

Offset Between Camshaft and Crankshaft Outside Boundaries.

3095

Operating with Camshaft Sensor Only Backup Mode.

3102

Rail Pressure Sensor CP3 - Signal Below Range Min.

3104

Rail Pressure Relief Valve – Open.

3105

Rail Pressure Relief Valve - Pressure Shock Requested.

3106

Rail Pressure Relief Valve - Did Not Open After Pressure Shock.

3107

Metering Unit – Short circuit to Battery.

3110

Rail Pressure Sensor Monitoring - Signal Above Range Max.

RED STOP

SECTION 10 - ENGINE

CODE

SHORT FAILURE DESCRIPTION

AMBER WARNING

RED STOP

One second alarm upon activation for key cycle

3111

Rail Pressure Sensor Monitoring - Signal Below Range Min.

3112

Rail Pressure Sensor CP3 - Signal Above Range Max.

3113

Main Relay 1 – Short circuit to Battery.

3114

Main Relay 1 – Short circuit to Ground.

3118

ECM 12V Sensor Supply Voltage High.

3119

ECM 12V Sensor Supply Voltage Low.

3131

Grid Heater Always Switched On

3137

Metering Unit - Open Load.

3138

Metering Unit - Temperature Too High.

3141

Fuel Flow Set point Too Low.

3147

Oil Temperature Too High.

3154

Grid Heater Relay – Short circuit to Battery.

3155

Grid Heater Relay – Short circuit to Ground.

3156

Grid Heater Relay - No Load.

3171

Rail Pressure Governor Deviation Exceeded Max. Limit with Fuel Delivery Quantity on Limit.

3172

Rail Pressure Governor Deviation Exceeded Min. Limit with Fuel Delivery Quantity on Limit.

3173

Rail Pressure Governor Deviation Below Min. Limit for Speed.

3174

Rail Pressure Governor Deviation Exceeded Max. Limit.

3175

Rail Pressure Drop Rate is higher then expected.

3176

Set point of Metering Unit Not Plausible in Overrun.

3188

Cylinder 1 Warning - Open Load.

3192

Cylinder 2 Warning - Open Load.

3196

Cylinder 3 Warning - Open Load.

3200

Cylinder 4 Warning - Open Load.

3210

Bank1 - General Short circuit on Injection Cable.

3211

Bank1 - Injection Cable Short circuit Low Side to Ground.

3213

Bank1 - Unclassifiable Error.

3218

Bank2- General Short circuit on Injection Cable

SECTION 10 - ENGINE

CODE

SHORT FAILURE DESCRIPTION

AMBER WARNING

RED STOP

One second alarm upon activation for key cycle

3219

Bank2 - Injection Cable Short circuit Low Side to Ground.

3221

Bank2 - Unclassifiable Error.

3227

Injection Processor (CY33X) Error - Internal Reset / Voltage Too Low.

3228

Injection Processor (CY33X) Error - Unlocked / Initialization Failure.

3229

Injection Processor (CY33X) Error Injections Limited By Software.

3230

Injection Processor (CY33X) Error - SPI Communication Failure.

3231

Injection Processor Error - Internal Reset / Clock Loss / Voltage Too Low.

3232

Injection Processor Error - Unlocked / Initialization Failure.

3233

Injection Processor Error - Test Mode.

3234

Injection Processor Error - SPI Communication Failure.

3238

ECM Internal SPI Communication Error - CJ940.

3242

ECM (Locked) Recovery Occurred.

3243

ECM Recovery (Suppressed) - Recovery Occurred.

3244

ECU Recovery (Visible) - Recovery Occurred.

3245

ECM Processor - Watchdog Not Plausible.

3246

Shutoff Paths During Initialization - Watchdog.

3247

Shutoff Paths During Initialization Supply Voltage Too High.

3248

Shutoff Paths During Initialization Supply Voltage Too Low.

3249

TPU Monitoring - Time Deviation between TPU and System Not Plausible.

3250

Dataset - Variant Defective.

3251

Dataset - Requested Variant Could Not Be Set.

3252

Controller Watchdog - SPI Communication Failure.

3253

ADC Monitoring - Reference Voltage Too Low.

3254

ADC Monitoring - Reference Voltage Too High.

3255

ADC Monitoring - Test Impulse Error.

X X

SECTION 10 - ENGINE

CODE

SHORT FAILURE DESCRIPTION

AMBER WARNING

RED STOP

One second alarm upon activation for key cycle

3256

ADC Monitoring - Queue Error.

3258

High Side Power – Short circuit to Battery.

3259

High Side Power – Short circuit to Ground.

3260

Low Side Power - Open Load.

3261

Low Side Power – Short circuit to Battery of Excess Temperature.

3262

Low Side Power – Short circuit to Ground.

3265

Overrun Monitoring - Injection Time Too Long.

3266

Redundant Engine Speed in Overrun Monitoring Speed Signal Not Plausible.

3278

ECM Internal Supply Voltage Too High CJ940 Above Limit.

3279

ECM Internal Supply Voltage Too Low CJ940 Below Limit.

3280

Sensor Supply Voltage 1 – High.

3281

Sensor Supply Voltage 1 – Low.

3283

Sensor Supply Voltage 2 – High.

3284

Sensor Supply Voltage 2 – Low.

3285

Sensor Supply Voltage 3 – High.

3286

Sensor Supply Voltage 3 - Low.

3334

Timeout of CAN message TSC1-PE Torque.

See note below

3339

Timeout of CAN message TSC1-VE Speed.

See note below

3363

Atmospheric Pressure Sensor - Processed via ADC (no CAN Plausibility Performed).

3856

Coolant Temperature signal test failure.

3998

Unknown error code with amber lamp from ECU.

3999

Possible unknown error code with red lamp from ECU.

Note: 3334, 3339 initial visualize as amber due to ECU coding in DM1 message. Message then turns to red based on rules above.

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 21 - TRANSMISSION POWERSHUTTLE TRANSMISSION................................................................................................................ 3 TECHNICAL SPECIFICATIONS.................................................................................................................. 4 CONTROLS ................................................................................................................................................. 8 LUBRICATION........................................................................................................................................... 12 GREASING ................................................................................................................................................ 15 REMOVAL FROM MACHINE .................................................................................................................... 17 DISASSEMBLY AND ASSEMBLY............................................................................................................. 20 TROUBLESHOOTING............................................................................................................................. 132 TRANSMISSION ERROR CODES.......................................................................................................... 136 REPAIR TIMES........................................................................................................................................ 140 SPECIAL TOOLS..................................................................................................................................... 141 POWERSHIFT TRANSMISSION.................................................................................................................. 142 TECHNICAL SPECIFICATIONS.............................................................................................................. 142 CONTROLS ............................................................................................................................................. 153 LUBRICATION......................................................................................................................................... 155 GREASING .............................................................................................................................................. 157 REMOVAL FROM MACHINE .................................................................................................................. 158 DISASSEMBLY AND ASSEMBLY........................................................................................................... 161 TROUBLESHOOTING............................................................................................................................. 325 TRANSMISSION ERROR CODES.......................................................................................................... 329 REPAIR TIMES........................................................................................................................................ 333 SPECIAL TOOLS..................................................................................................................................... 334

SECTION 21 - TRANSMISSION

POWERSHUTTLE TRANSMISSION This transmission is used on powershuttle loader backhoe models B100C - B100CLR - B100CTC B110C - B110CTC.

SECTION 21 - TRANSMISSION

TECHNICAL SPECIFICATIONS 4WD/2WS TRANSMISSION - POWERSHUTTLE (B100C - B100CTC - B110C - B110CTC) Model ..................................................................................................................... CARRARO TLB1 MPB 4WD Type (4x4) ................................................................................................. 4 forward and 4 reverse travel gears Torque converter ratio.................................................................................................................................. 2.38 Transmission ratios: 1st gear .........................................................................forward travel 5.603:1

reverse travel 4.643:1

2nd gear ........................................................................forward travel 3.481:1

reverse travel 2.884:1

3rd gear.........................................................................forward travel 1.585:1

reverse travel 1.313:1

4th gear .........................................................................forward travel 0.793:1

reverse travel 0.657:1

SECTION 21 - TRANSMISSION DIMENSIONS 4WD

SECTION 21 - TRANSMISSION

PORTS

Ref. Dimension 1 7/8” - 14 UNF 2 7/8” - 14 UNF 3 1/2” - 14 UNF 4 5

Use Oil inlet from cooler Oil outlet to cooler Transmission temperature switch Oil drain plug

1/8” - 28 BSP ISO 228 Oil cooler return

Notes - Miscellaneous

0.5 + 3.5 bar (7.3 + 50 psi) ON forward / reverse travel position 0.5 + 3.5 bar (7.3 + 50 psi) ON neutral position 11 + 13 bar (159 + 188 psi)

8 9 10 11 12 13 14

1/8” - 28 BSP ISO 228 Forward gear pressure check port 0.3 bar (4.3 psi) = maximum pressure in neutral position 11 + 13 bar (159 + 188 psi) 1/8” - 28 BSP ISO 228 Reverse gear pressure check port 0.3 bar (4.3 psi) = maximum pressure in neutral position 11 + 13 bar (159 + 188 psi) Forward / reverse gear pressure 1/8” - 28 BSP ISO 228 0.3 bar (4.3 psi) = maximum pressure in neutral check port position 1/8” - 28 BSP ISO 228 Converter pressure check port 0.5 + 0.9 bar (7.3 + 13 psi) 9/16” - 18 UNF Oil inlet / outlet for differential lock 13 bar (188 psi) at 900 rpm 9/16” - 18 UNF Brake oil outlet / inlet 14.5 bar (210 psi) at 2200 rpm 9/16” - 18 UNF Oil inlet from the brake Oil inlet from service pump to 9/16” - 18 UNF Brake pressure switch = 10 ± 1 bar (145 ± 14 psi) brake release 13 + 14 bar (188 + 203 psi) at 900 rpm 4WD pressure check port 13 + 15.5 bar (188 + 225 psi) at 2200 rpm

SECTION 21 - TRANSMISSION

CONTROLS

1. GEARSHIFT LEVER: it is possible to select four forward and four rearward travel gears. 2. TRANSMISSION DISCONNECT BUTTON (on gearshift level): prior to gearshifting, press and hold the disconnect switch; select the desired gear with the gearshift lever and release the switch to re-engage transmission.

3. POWERSHUTTLE TRANSMISSION DIRECTION LEVER: the movement of this lever from the neutral position will engage the forward or reverse travel. NOTE: the warning horn activates in reverse travel. 4. HORN BUTTON 5. TRANSMISSION DISCONNECT BUTTON (on loader attachment control lever)

SECTION 21 - TRANSMISSION The transmission is fully synchronised providing 4 forward and 4 reverse speeds allowing gear ratio changes on the move. A torque converter is used to connect the engine to the transmission and the column mounted powershuttle lever (3) enables shifts between forward and reverse travel without disengaging gear ratios. A device for “transmission disconnection” is activated by pushing button (2), placed on the gearshift lever (1) or by pushing button (5), placed on the loader attachment control lever.

S WARNING S Always apply the parking brake whenever the machine is parked as the machine is free to roll even though the transmission gearshift lever and power reversing lever may be “In Gear” and the engine is turned OFF. GEARSHIFT LEVER The single gearshift lever (1) is used to select any of the four gear ratios. The transmission disconnect button (2) is depressed and held as the lever is shifted from one gear to another and then released to re-connect transmission drive.

FORWARD/REVERSE POWERSHUTTLE LEVER (TRAVEL DIRECTION CHANGE) To select the forward travel, engage the required gear ratio with the gearshift lever; then, with the engine idling, lift the powershuttle lever from the neutral lock position (1) and move it to the forward position (2). Use the accelerator pedal to control the engine rpm and the ground speed. To reverse the direction of travel, reduce engine speed and move the power reversing from neutral lock position (1) and rearwards (3) for reverse travel an audible alarm device sounds.

SECTION 21 - TRANSMISSION

IMPORTANT: the powershuttle lever is equipped with a neutral lock to prevent an accidental engagement of the transmission. With this design, the powershuttle lever moves through a â&#x20AC;&#x153;Tâ&#x20AC;? slot to the forward or reverse positions. IMPORTANT: when operating at low environmental temperatures with cold transmission oil, allow the oil to warm up before attempting to shift the powershuttle lever. The transmission can be shifted normally after the oil warms up. IMPORTANT: the horn will sound if the powershuttle lever is operated with the parking brake engaged. IMPORTANT: the powershuttle lever can be shifted at any engine speed; however, as a safety and precautionary measure, the engine must run at approximately 1200 rpm. This action is easily controlled by means of the foot accelerator to control engine and ground speed. TRANSMISSION DISCONNECTION The 4x4 transmission provides for easy upward and downward gear ratio changes on the move. However, as a clutch is not used between the engine and transmission, the power flow from the engine to the transmission must be interrupted to shift from one gear ratio to another. This is accomplished by means of a transmission disconnect (dump) button. The finger operated button (2) on the main gearshift lever knob (1) is easy to operate.

S WARNING S To avoid personal injury do not use the disconnect switch control to coast down hill. Excessive speed may cause loss of control, personal injury to a bystander or failure of the transmission. To make upward gear ratio changes simply depress and hold the button (2) on the gearshift lever (1), while moving the lever from one gear ratio to another. When the desired gear ratio has been selected release the button and allow the unit to gain engine speed and ground speed. If another higher ratio is required repeat the procedure.

SECTION 21 - TRANSMISSION IMPORTANT: to prevent possible damage to the transmission hydraulic clutches, never use the disconnect switch for inching the machine forward. Inching the machine forward with the button will cause the clutches to slip excessively and overheat. To make downward gear ratio changes or reduce ground speed, simply lower the engine speed, depress and hold the gearshift lever button and downshift the transmission. When the desired gear ratio has been selected release the button and adjust the engine speed to suit ground speed required. Operating the machine in a too high gear or under a too heavy load will cause the torque converter to slip excessively and overheat. If the machine is overloaded, the engine speed will not exceed a range of 1800-2200 rpm at maximum accelerator and the torque converter will “stall” bringing the machine to a complete stop. If “stall” does occur, there is still sufficient engine power to operate the loader attachment; however, to prevent the transmission from overheating, either reduce the load on the machine or select a lower gear ratio. IMPORTANT: operating at a “stall” for more than 20 seconds can cause the transmission to overheat and can possibly damage the transmission. If the transmission overheats, the needle (3) reaches the red field. Shift both the powershuttle lever and the gearshift lever to neutral. Let the engine run idle (1000 rpm) until transmission oil cools down enough to have the needle (3) return to correct position. Once the needle is returned to its position, all operations can be resumed.

12 LUBRICATION

1. Oil filler tube interface 2. Oil drain plug 3. Breather

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION LEVEL CHECK The oil level check should be carried out with the engine running at low speed and at normal operating temperature. Move the machine to a level and firm ground. Raise the loader attachment and assemble the safety support strut. Place the backhoe attachment in the road travel position. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Open and raise the engine guard and lock it in opened position by means of the safety lock on the left-hand gas spring. Extract the dipstick (1), clean it with a clean cloth and completely insert it into the tube, then take it out again. If the oil level is below the mini mark, top up. Stop the engine. Unlock the safety lock and close the engine guard.

SECTION 21 - TRANSMISSION

OIL CHANGE Move the machine to a level and firm ground. Raise the loader attachment and assemble the safety support strut. Place the backhoe attachment in the road travel position. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Stop the engine and remove the starter key. Open and raise the engine guard and lock it in opened position by means of the safety lock on the left-hand gas spring. Remove the dipstick (1). NOTE: change the oil while the transmission is still warm; the oil will flow more easily. Place a container with suitable capacity under the drain plug (2). Unscrew and remove the drain plug. Let the transmission oil drain.

Re-install the drain plug (2). Fill with new oil of specified type through the dipstick hole. NOTE: transmission oil capacity 20.8 litres (4.57 gal). Reassemble the dipstick (1). Check the oil level by means of the dipstick and, if necessary, add more oil. Drive the machine for a few minutes in first and second gear, then stop the engine. Check the oil level again by means of the dipstick and, if necessary, add more oil.

SECTION 21 - TRANSMISSION GREASING Tecnolube POLYMER 400 grease Transmission oil

*: no grease, no oil

SECTION 21 - TRANSMISSION

REMOVAL FROM MACHINE

1 8

9 5

4 5

2 13

12 11 7 10

TBR00071

TABLE 1 1. Transmission

8. M16x120 hex screw

2. Anti-vibration

9. Washer

3. Left transmission support 4. Right transmission support

10. M16 nut [tightening torque 210÷240 Nm (156÷178 lbf·ft)]

5. Washer

11. Washer

6. M12x30 hex screw [tightening torque 90÷110 Nm (66÷81 lbf·ft)]

12. M12x30 hex screw [tightening torque 90÷110 Nm (66÷81 lbf·ft)]

7. Washer

13. Bracket transmission mounting

NOTE: ensure chassis bolt on mount is seated against locating block on chassis.

SECTION 21 - TRANSMISSION

TBR00072

TABLE 2 1. Transmission 2. Torque converter 3. Plate 4. Plate 5. Snap ring 6. Washer 7. M10x20 hex screw [tightening torque 52÷57 Nm (38÷42 lbf·ft)] 8. M10x30 hex screw [tightening torque 52÷57 Nm (38÷42 lbf·ft)]

SECTION 21 - TRANSMISSION

2 4 5

TBR00073

TABLE 3 1. Fitting (apply Loctite 577) 2. Dipstick tube

4. M10x30 hex screw [tightening torque 52÷57 Nm (38÷42 lbf·ft)]

3. Dipstick

5. Washer

SECTION 21 - TRANSMISSION

DISASSEMBLY AND ASSEMBLY Some of the following pictures could not exactly show your transmission, but the procedure is correct. TIGHTENING TORQUES AND APPLICATION OF SEALANTS / ADHESIVES A. Loctite 510 B. Loctite 518

C. Loctite 638 D. Loctite 542

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION PLUGS AND FILTERS

Disassembly Remove the oil drain plug (5) and drain the oil from the transmission.

Loosen and remove the 2 screws (1). Remove the cap (2).

SECTION 21 - TRANSMISSION

Remove the oil filter (4) and the O-ring (3).

Unscrew and remove the oil filter (6).

Remove fitting (7).

Remove the spool (8).

SECTION 21 - TRANSMISSION Remove the spring (9).

Use a puller to remove the pressure relief valve (10). NOTE: the pressure relief valve is adjusted by the Manufacturer. Never disassemble nor adjust it. If any of its parts are damaged, replace the valve with a new one.

Do not remove the plug unless there are leaks. The plug is sealed with Loctite 542 and is difficult to remove. If the removal is necessary, clean it and apply Loctite 542 prior to assembly.

If necessary, remove the plugs (13) or the breather (11).

SECTION 21 - TRANSMISSION

Assembly Assemble the plugs (13) and the breather (11).

Assemble valve (10).

Assemble the spring (9).

Assemble the spool (8).

SECTION 21 - TRANSMISSION Assemble fitting (7). Tighten to the prescribed torque of 80 Nm (59 lbf·ft).

Assemble a new oil filter (6). Lubricate the gasket. Tighten clockwise until the gasket makes contact with its seat, then tighten further 2/3 of a turn.

Assemble the oil filter (4) and the O-ring (3).

Assemble the cover (2). Screw in and tighten the screws (1) to a tightening torque of 23 Nm (17 lbf·ft).

SECTION 21 - TRANSMISSION

Assemble the plug (5). Tighten to the prescribed torque of 30 Nm (22 lbfÂ·ft).

SECTION 21 - TRANSMISSION OIL PUMP

Disassembly Loosen and remove the screws (1). Mark the oil pump position with respect to the bell housing before loosening the screws.

Use two levers (A) to pull out the oil pump (2).

SECTION 21 - TRANSMISSION

Remove the oil pump (2). The pump seal ring can be damaged during this operation.

If necessary, remove the O-ring (3).

S WARNING S Do not disassemble the pump or its operation may be compromised.

If necessary, remove the seal ring (4).

SECTION 21 - TRANSMISSION Assembly Assemble the seal ring (4) onto the oil pump (2). Use tool 380200218. Lubricate the seal ring.

Assemble the O-ring (3).

Before pump assembly (if new), check that the oil passage holes (between pump and half box) or the visual marks coincide.

Lubricate the seal ring (4) to keep it centred, in order to facilitate its introduction onto the oil pump.

SECTION 21 - TRANSMISSION

Lubricate the matching seat with the front half box. Assemble the oil pump (2).

Screw in and tighten the screws (1) to a tightening torque of 23 Nm (17 lbfÂˇft). Check that the mark on the oil pump and on the bell housing coincide.

SECTION 21 - TRANSMISSION TUBES

Disassembly Drain transmission oil. Loosen and remove the screws (1) and (2). Remove the tube (3). Collect the gaskets (4).

Assembly Assemble the tube (3) with the gaskets (4). Screw in and tighten the screws (1) and (2) to the prescribed torque of 40 Nm (30 lbfÂˇft).

SECTION 21 - TRANSMISSION

HYDRAULIC CONTROL VALVE

Disassembly Disconnect all electric connections. Drain the transmission oil. Loosen and remove the screws (13). Remove the hydraulic control valve (53).

SECTION 21 - TRANSMISSION Remove the gasket (49).

Remove the screws (48), and the plate (50).

Remove the gasket (51).

Lock the hydraulic control valve with a clamp. Remove the plug (1) and the O-ring (2).

SECTION 21 - TRANSMISSION

Push piston (4) downwards and remove the snap ring (3).

Remove the piston (4) and the spring (5).

Verify the wear condition of the piston (4) and of the spring (5).

Do not disassemble the piston (8) from the control valve body. If the piston is to be disassembled (8), the control valve body must be replaced (47). If the piston (8) is to be replaced, also order the control valve body (47).

SECTION 21 - TRANSMISSION Remove the plug (6) and the O-ring (7).

Remove the spring (9).

Remove the washer (10).

Loosen and remove the screws (33).

SECTION 21 - TRANSMISSION

Remove the valve cover (34).

Remove the gasket (35).

Remove the plate (36).

Remove the outer piston (38), the springs (39), (40) and (41), the pin (42) and the inner piston (43).

SECTION 21 - TRANSMISSION Verify the wear condition of the springs (39), (40) and (41) and of the pin (42).

Remove the gasket (37).

Remove the ball (26).

Remove the spring (25).

SECTION 21 - TRANSMISSION

Remove the plug (32) and the O-ring (31).

Remove the solenoid valve coil (30) and the O-ring (29).

Remove the solenoid valve coil (28) and the O-ring (27).

Unscrew the solenoid tube (24).

SECTION 21 - TRANSMISSION Remove the solenoid tube (24) with the piston (21).

Disassemble the piston (21) and the solenoid tube (24).

Remove the spring (23) and the washer (22). Verify the wear condition of the piston (21) and of the solenoid tube (24).

Unscrew and remove the nut (20).

SECTION 21 - TRANSMISSION

Remove the O-ring (19). Remove the solenoid valve coil (18) and the O-ring (17).

Unscrew the solenoid tube (18).

Remove the O-rings (17).

Verify the wear condition of the solenoid tube (18), of the O-ring (19) and of the nut (20).

SECTION 21 - TRANSMISSION Assembly Assemble the O-rings (17).

Assemble the solenoid tube (18). Tighten to the prescribed torque of 25 ÷ 30 Nm (18 ÷ 22 lbf·ft).

Assemble the O-ring (17). Assemble the solenoid coil (18). Assemble the O-ring (19).

Screw in and tighten the nut (20) to the tightening torque of 5 ÷ 7 Nm (3.6 ÷ 5 lbf·ft).

SECTION 21 - TRANSMISSION

Assemble the solenoid tube (24), the spring (23), the piston (21) and the washer (22).

Assemble the solenoid tube (24) and the piston (21).

Screw in and tighten the solenoid tube (24) to a tightening torque of 21.5 ÷ 24.5 Nm (15.9 ÷ 18 lbf·ft).

Assemble the O-ring (27). Assemble the solenoid coil (28).

SECTION 21 - TRANSMISSION Assemble the O-ring (29). Assemble the solenoid coil (30).

Assemble the O-ring (31) on the plug (32). Assemble the plug (32). Tighten to the prescribed torque of 7 ÷ 10 Nm (5 ÷ 7.4 lbf·ft).

Insert the spring (25).

Insert the ball (26).

SECTION 21 - TRANSMISSION

Position the gasket (37).

Pre-assemble the springs (39), (40) and (41) and the pin (42) with the pistons (38) and (43).

Assemble the outer piston (38), the springs (39), (40) and (41), the pin (42) and the inner piston (43).

Position the plate (36).

SECTION 21 - TRANSMISSION Position and lubricate the gasket (35).

Assemble the valve cover (34).

Screw in and tighten the screws (33) to a tightening torque of 9.8 ÷ 11.8 Nm (7 ÷ 8.7 lbf·ft).

Turn the hydraulic control valve (47). Assemble the washer (10).

SECTION 21 - TRANSMISSION

Assemble the spring (9).

Assemble the O-ring (7) on the plug (6). Screw in and tighten the plug (6) to the tightening torque of 80 Nm (59 lbfÂˇft).

Assemble the piston (4) and the spring (5).

Push piston (4) downwards and assemble the snap ring (3).

SECTION 21 - TRANSMISSION Assemble the O-ring (2) on the plug (1). Screw in and tighten the plug (1) to the tightening torque of 80 Nm (59 lbf·ft).

Position and lubricate the gasket (51).

Assemble the plate (50). Screw in and tighten the screws (40) to a tightening torque of 50 Nm (37 lbf·ft).

Position and lubricate the gasket (49). Lubricate the gasket (49).

SECTION 21 - TRANSMISSION

Assemble the hydraulic control valve (53). Screw in and tighten the screws (13) to a tightening torque of 15 ÷ 24.2 Nm (11 ÷ 17.9 lbf·ft).

SECTION 21 - TRANSMISSION 4WD SOLENOID VALVE

Disassembly Prior to disassembling the 4WD solenoid valve, disconnect all electric connections. Drain the transmission oil. Loosen and remove the screws (1). Remove the solenoid body (2).

SECTION 21 - TRANSMISSION

Remove the nut (8). Remove the solenoid valve coil (7).

Remove the shaft (6). Remove the O-rings (5).

Remove the gasket (4).

If necessary, remove the valve (3). Do not disassemble the valve (3). There are no serviceable parts. If there is a problem, use a new valve.

SECTION 21 - TRANSMISSION Assembly Assemble valve (3).

Assemble the O-rings (5) on the shaft (6).

Assemble the 4WD solenoid coil (7). Screw in and tighten the nut (8) to the tightening torque of 5 ÷ 8 Nm (3.6 ÷ 5.9 lbf·ft).

Position the gasket (4).

SECTION 21 - TRANSMISSION

Remove the solenoid body (2). Screw in and tighten the screws (1) to a tightening torque of 23 Nm (17 lbfÂ·ft).

SECTION 21 - TRANSMISSION PARKING HANDBRAKE

Disassembly Drain the transmission oil.

Unscrew the screw (1). Use a screwdriver and 2 screws to lock the flange. Remove the screw (1) and the washer (2). Remove the flange (4) and the O-ring (3).

SECTION 21 - TRANSMISSION

Loosen and remove the screws (5), (6) and (7). Remove the brake (8) assembly. Remove the O-ring (9) from the brake (8).

Remove the seal ring (15). Remove the plug (16).

S WARNING S The seal ring can be damaged.

Remove the rings (10), the 5 brake discs (11) and the 5 counterdiscs (12).

Remove the hub (13).

SECTION 21 - TRANSMISSION Assembly Assemble the hub (13).

Use a gauge to check that each counterdisc (12) and each brake disc (11) is flat. If necessary, replace them. If the brake discs (11) are nearly smooth, replace them. If the friction material is damaged or appears burned, replace it. Check the grooves for wear. Check counterdiscs (12) for pitting, scoring, or other damage. If necessary, replace them. If you will be using new brake discs, soak them in oil for at least an hour before assembly. If you are using the old friction discs, make sure that the contact surfaces are coated with oil before assembly, check the wear condition. If this is 50% compared to the nominal value, we suggest its replacement.

Brake disc kit Brake disc number

Counterdisc number

Nominal brake disc thickness

3.6 ± 0.05 mm (0.14 ± 0.002 in)

Brake disc kit nominal thickness [with 163 kg (359.34 lbs) of load] Brake disc maximum wear (each side)

37.40 ÷ 37.60 mm (1.47 ± 1.48 in) 0.65 mm (0.02 in)

SECTION 21 - TRANSMISSION

Assemble the counterdisc (12), the brake disc (11) and the ring (10). Repeat this operation until the brake disc kit is complete.

Assemble the plug (16). Assemble the seal ring (15) onto the brake (8), use tool 380200226.

Insert the O-ring (9) on the brake (8). Assemble the brake assy (8) on transmission. Screw in and tighten the screws (5), (6) and (7) to a tightening torque of 50 Nm (37 lbfÂˇft).

Assemble the flange (4) and the O-ring (3). Lubricate the O-ring (3). Assemble the washer (2) and the screw (1). Use a screwdriver and 2 screws to lock the flange (A). Tighten the screw (1) to a tightening torque of 139 Nm (102.5 lbfÂˇft).

SECTION 21 - TRANSMISSION 4WD - TRANSMISSION BOX

Disassembly Remove the snap ring (1).

SECTION 21 - TRANSMISSION

Loosen and remove flange retaining screw (2). Use a screwdriver and 2 screws to prevent the flange rotation.

Remove the washer (3).

Remove the flange (5) and the O-ring (4).

Loosen and remove the 3 screws (6).

SECTION 21 - TRANSMISSION Remove cover (7).

Remove the O-ring (8) from the cover (7).

Remove the seal ring (9) from rear cover (7).

Loosen and remove the 3 screws (10). Remove the gearshift control assy (11) and the O-ring (12).

SECTION 21 - TRANSMISSION

Loosen and remove the 7 screws (13) and the flange (14).

Loosen and remove the screws (15) fastening the cover (16). Use a prybar to loosen the rear cover from the housing. Remove the rear cover (16).

Remove the O-ring (17).

Remove the pins (18) by means of a punch.

SECTION 21 - TRANSMISSION Remove the retainers (20).

Loosen and remove the 2 screws (21).

Remove the plate (22).

Remove the 2 balls (23).

SECTION 21 - TRANSMISSION

Loosen and remove the screws (24) and the washers (25).

Remove the springs (26).

Remove the balls (27).

Pull the secondary shaft to the rear so that there is backlash between the snap ring and the rear housing. Remove the snap ring (28).

SECTION 21 - TRANSMISSION Remove transmission shaft PTO (29) by pushing lightly on the opposite side.

If necessary, replace the seal ring (30) by cutting it.

Remove the snap ring (31).

Take out the bearing (32) with tool 380200190.

SECTION 21 - TRANSMISSION

Loosen and remove the screws (33).

Loosen and remove the screws (34).

Use a lever to remove the front half box (35). Raise the front half box.

The outer rings of the bearings on the primary shaft (36) and on the secondary shaft (37) can either stay on the shafts or on the front box seat. Remove the 2 bearings (36) and (37).

SECTION 21 - TRANSMISSION Remove the bearing (38).

If necessary, replace the O-rings (39).

Assembly Push the secondary shaft toward the back of the rear box, so that there is backlash between the snap ring seat and the rear box. Assemble the snap ring (28).

Assemble the O-rings (39).

SECTION 21 - TRANSMISSION

Apply a thin film of sealant on the edge of the rear half box.

Lubricate the primary shaft bearing (36) and the secondary shaft bearing (37). Assemble the 2 bearings (36) and (37).

Assemble the front half box (35) on the rear one. Make sure that the bearings of the shafts go straight into the bores in the front box. Push the front half box onto the rear one.

Screw in and tighten the screws (34) to a tightening torque of 50 Nm (37 lbfÂˇft).

SECTION 21 - TRANSMISSION Screw in and tighten the screws (33) to a tightening torque of 50 Nm (37 lbfÂˇft).

Lubricate the bearing of the 4WD shaft. Assemble the bearing (38) on 4WD shaft by means of tool 380200230.

By means of tool 380200213 assemble the seal ring (9) on the cover (7). Push just until the seal ring stops moving. Do not use excessive force. Fill the cavity under the lip with grease.

Assemble the O-ring (8).

SECTION 21 - TRANSMISSION

Assemble the cover (7).

Screw in the 3 screws (6) fastening the cover to the front box and tighten them to a tightening torque of 23 Nm (17 lbfÂˇft).

Assemble and lubricate the O-ring (4) in the 4WD flange.

Assemble the 4WD flange (5).

SECTION 21 - TRANSMISSION Assemble the washer (3).

Screw in the screw (2). Use a screwdriver to prevent the flange rotation. Tighten the screw (2) to a tightening torque of 139 Nm (102.5 lbfÂˇft).

Assemble the snap ring (1).

Insert the ball (27). NOTE: later on the parts of the 1st and 2nd gearshift lower control will be installed. It is necessary to install both the upper control parts for 3rd and 4th speed and the lower ones for 1st and 2nd speed, according to the instructions given by the procedure. Make sure that you start with both shift rods in the neutral position.

SECTION 21 - TRANSMISSION

Insert the spring (26).

Assemble the washer (25) and the screw (24). Tighten the screw (24) to a tightening torque of 80 Nm (59 lbf·ft).

Insert the ball (27) and the spring (26). Assemble the screw (24) and the washer (25). Tighten the screw (24) to a tightening torque of 80 Nm (59 lbf·ft).

Assemble the bearing (32) on the transmission shaft PTO (29).

SECTION 21 - TRANSMISSION Assemble the snap ring (31).

To assemble the teflon seal ring (30) perform following operations by means of the listed tools in sequence: 380200257 (without shim); 380200225; 380200214.

Insert transmission shaft PTO (29) to stroke end.

Grease the balls. Insert the 2 balls (23).

SECTION 21 - TRANSMISSION

Assemble the plate (22).

Apply sealant on the threads of the 2 screws. Screw in the 2 screws (21) to fasten the plate correctly and tighten them to the prescribed torque of 50 Nm (37 lbfÂˇft).

Assemble the retainers (20) on the gearbox pins.

Assemble the pins (18) to fasten the retainers on the gearshift pins.

SECTION 21 - TRANSMISSION Apply a thin film of sealant on the edge of the rear cover (16). Assemble the O-ring (17). Do not grease the O-ring.

Place the rear cover (16). Make sure that the pin (19) is correctly installed both in the rear box and in the hole of the rear cover. Tighten the screws (15), to fasten the cover on the rear half box at the tightening torque of 80 Nm (59 lbf·ft). If necessary, tap the rear cover with a soft faced hammer to close the gap between the rear half housing and the rear cover to tighten the cap screws. Apply a thin film of sealant on the edge of the flange (14). Place the flange (14). Screw in and tighten the screws (13) to a tightening torque of 50 Nm (37 lbf·ft).

Assemble a new O-ring (12) on the gearshift control assy (11). Use clean oil to lubricate the ring and assembly it on the rear box. Screw in the 3 screws (10) fastening the gearshift control assy to the rear cover and tighten to the prescribed torque of 23 Nm (17 lbf·ft).

SECTION 21 - TRANSMISSION

A, D SHAFTS

Disassembly Grab the shaft with the (A) pliers and pull out the shaft assy (D).

SECTION 21 - TRANSMISSION Shaft (A) If necessary, remove the seal ring (1).

Remove the snap ring (2).

Assemble a bearing separator under the gear (do not assemble the bearing separator between the gear and the bearing). Use a puller on the bearing separator and insert a shaft protector between the puller and the end of the input shaft. By means of puller which operates between separator and shaft protection, pull only until the bearing is free, otherwise the parts can be damaged.

Remove the bearing (3).

78 Remove the spacer (4).

Remove the gear (6).

Remove the roller retainer (7).

Remove the thrust washer (8).

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION Remove the pin (9).

Remove the snap ring (10).

Lift and remove the snap ring (11).

Remove the discs (18) and the counterdiscs (17).

SECTION 21 - TRANSMISSION

Place a mark below the groove on the clutch bell.

Mark the snap ring (11), the discs (18) and the counterdiscs (17). These marks will be used as a reference during assembly.

Lower the cover (13) by means of tool 380200215.

Remove the snap ring (14).

SECTION 21 - TRANSMISSION Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

Remove the cover (13) and the spring (15).

Remove the sleeve (5).

Remove the clutch piston (19) by blowing in compressed air through the delivery hole.

SECTION 21 - TRANSMISSION

If necessary, remove the seal ring (20) with the inner O-ring from the outside seat of the piston and the seal ring (21) with the relevant O-ring from the inner seat of the piston. To remove the rings it is necessary to cut them.

Turn the shaft. If necessary, remove the seal rings (22).

Remove the snap ring (23).

Use a puller to remove the bearing (24).

SECTION 21 - TRANSMISSION Remove the bearing (24) and the thrust washer (25).

Remove the gear (26) and the roller retainer (12).

For the disassembly of other parts, repeat the operations described previously.

Check the seal ring grooves (large and small) for wear or damage. Check if the output shaft is worn or damaged. Check oil passages in the output shaft to be sure that they are open and free of foreign material. Check the ball bearings and the needle bearings for flat areas, pitting or other damage.

SECTION 21 - TRANSMISSION

If you are to re-use the clutch discs, observe the assembly order.

Use a gauge to check that each counterdisc (17) and each clutch disc (18) is flat. If they are not flat, replace them with new ones. If the clutch discs (18) are nearly smooth, or if their friction faces are damaged or burnt, they must be replaced. Check the grooves for wear. Check counterdiscs (17) for pitting, scoring, or other damage. If you will be using new clutch discs, soak them in oil for at least an hour before assembly. If you are using the old clutch discs, make sure that the contact surfaces are coated with transmission oil before assembly, check their wear condition (see chart below). If the wear exceeds the 50% of the rated value, replace them. Verify the bore and the housing of the input shaft for damage that will cause leakage during the assembly of the clutch. Check if the slots in the housing of the input shaft are damaged by the tangs of the counterdiscs.

SECTION 21 - TRANSMISSION

Forward - reverse gear clutch Disc number (each side)

Counterdisc number (each side)

Counterdisc rated thickness

2.5 ± 0.05 mm (0.10 ± 0.002 in)

Rated thickness of disc

1.75 ± 0.05 mm (0.07 ± 0.002 in)

Disc maximum wear (each side)

0.2 mm (0.009 in)

Disc number (each side)

Counterdisc number (each side)

Rated thickness of disc Disc kit nominal thickness [with 163 kg (359.34 lbs) of load] Disc maximum wear (each side)

Shaft (D) Remove the bearing (16) from the shaft (D) by means of a puller.

Remove the bearing (37) from the shaft (D) by means of a puller.

2.4 ± 0.05 mm (0.09 ± 0.002 in) 29.00 ÷ 29.20 mm (1.14 ± 1.15 in) 0.35 mm (0.01 in)

SECTION 21 - TRANSMISSION

Assembly Shaft (A) Assemble the seal ring (20) with the relevant O-ring and the seal ring (21) with the relevant inner O-ring, respectively in the outer and inner seat of the piston.

Apply a thin film of oil on the seal rings.

Insert the piston (19) with tool (T) 380001926.

SECTION 21 - TRANSMISSION Assemble the sleeve (5).

Assemble the spring (15) and the cover (13).

Lower the cover (13) and insert the snap ring (14) by means of tool 380200215.

Remove the 380200215 tool and fit the pin (9).

SECTION 21 - TRANSMISSION

Insert the thrust washer (8).

Insert the roller retainer (7).

To assemble the clutch discs start with the gear (6) on the bench. Assemble the thrust washer (11) so that the reference mark on top of the plate, made during disassembly, is facing towards the gear.

Assemble the discs (18) and the counterdiscs (17) on the gear (6). The assembled clutch disc kit must contain 6 steel discs and 6 friction discs.

SECTION 21 - TRANSMISSION Use 2 screwdrivers to position the disc kit.

Assemble the snap ring (10).

Assemble the spacer (4).

Heat the bearing (3) to 80 ÷ 100 °C (176 ÷ 212 °F). Assemble the bearing (3) with tool 380200190.

SECTION 21 - TRANSMISSION

Assemble the snap ring (2).

NOTE: for clarity of the seal ring installation procedure, the following photos do not show the disc kit, gear, spacer, bearing, and snap ring installed on the input shaft. Insert the seal ring (1).

Assemble the 380200224 tool onto the input shaft with the chamfered end facing inwards.

SECTION 21 - TRANSMISSION Let the tool 380200224 slide on the input shaft and above the spacer. The tool will stop in the correct position to install the seal ring in the groove.

Heat the seal ring to 60 ÷ 80 °C (140 ÷ 176 °F) for 5 minutes. Assemble the seal ring on the tool 380200224.

Assemble the 380200225 tool over the 380200224 tool and slide the seal ring until it reaches the groove in the shaft. Remove the tools 380200224 and 380200225, the expander/protector and the spacer from the shaft.

Assemble the end of the 380200214 seal compressor with the deep chamfer onto the shaft and over the seal ring. Use a back and forth twisting motion to allow the seal compressor to slip over the top of the seal ring and seat this latter into the groove. Be careful not to damage the seal ring. After the seal ring is seated in the groove, remove the seal compressor from the shaft.

SECTION 21 - TRANSMISSION

Turn the seal compressor around and slide the end with the narrow chamfer over the shaft and over the seal ring. Leave the seal compressor in place for 15 minutes until the seal ring has cooled and is properly seated in the groove. After the seal ring has cooled, remove the seal compressor from the shaft.

Turn the shaft upside down to carry out the operations described previously. Lubricate the thrust washer (25). Assemble the thrust washer so that the notch in the inner edge fits over the pin. Make sure that the side with the oil grooves is down.

Heat the bearing (24) to 80 ÷ 100 °C (176 ÷ 212 °F). By means of tool 380200197 place the bearing (24) onto the input shaft until it makes contact with the thrust washer.

Assemble the snap ring (23).

SECTION 21 - TRANSMISSION Assemble the snap rings and place the spacer in the protection (tool 380001933).

Place the tool 380001933 and the spacer on the shaft. The tool will stop in the correct position to install the seal ring in the groove.

Heat the seal ring to 60 ÷ 80 °C (140 ÷ 176 °F) for 5 minutes. Assemble the seal ring on the tool 380001933.

Assemble the 380001928 tool over the 380001933 tool and slide the seal ring until it reaches the groove in the shaft. Remove the tools 380001928 and 380001933.

SECTION 21 - TRANSMISSION

Assemble the end of the 380001927 seal compressor with the deep chamfer onto the shaft and over the seal ring. Use a back and forth twisting motion to allow the seal compressor to slip over the top of the seal ring and seat this latter into the groove. Be careful not to damage the seal ring. After the seal ring is seated in the groove, remove the seal compressor from the shaft.

SECTION 21 - TRANSMISSION In order to insert the other 3 rings, repeat the operations described previously, by means of following spacer rings: 380001933/3 for the 2nd ring; 380001933/2 for the 3rd ring; 380001933/1 for the 4th ring.

1. Lubrication oil passage 2. Forward gear clutch passage 3. Reverse gear clutch passage 4. Forward gear engagement 5. Forward gear clutch disc kit 6. Reverse gear clutch disc kit 7. Reverse gear engagement 8. Input shaft Apply compressed air of approximately 6 bar (87 psi) to the forward clutch passage. Listen for the forward gear piston to move and to lock the relevant clutch disc kit. Try to shift the forward travel gear. It must not turn on the input shaft. Try to shift the reverse travel gear. It must turn freely on the input shaft. If the clutches do not work correctly, disassemble them to find the problem.

SECTION 21 - TRANSMISSION

Carry out the check procedure of the clutch disc kit play on both sides of the clutch. Position the shaft on a suitable support (S) and apply load F on the counterdisc (11) surface by means of a proper buffer (T), as shown. This operation clears any possible play.

To check the backlash, supply the piston chamber with compressed air at 6 bar (87 psi) and verify the actual stroke “X” with a dial indicator. Determine clearance “X”.

The piston stroke (19) and (38) must be such to ensure a play corresponding to (according to the clutch disc kit) X = 2.15 ÷ 4.10 mm (0.08 ÷ 0.16 in) X = 1.60 ÷ 2.45 mm (0.06 ÷ 0.10 in) If the distance is not within specification, the clutch is probably wrongly installed. Turn the clutch shaft upside down and repeat the operation for the other clutch disc kit.

SECTION 21 - TRANSMISSION Shaft (D) Assemble the bearing (16) on shaft (D) by means of tool 380200230.

Assemble the bearing (37) on shaft (D) by means of tool 380200230.

Lubricate with oil the shaft seat (A).

Insert shaft (D) and shaft (A). The operation is correct only if the 2 shafts are fitted at the same time.

98 B, C SHAFTS

Disassembly Remove the shafts (B) and (C).

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION Remove the gearshift control yokes. To remove the shaft (C) use tool 380200246.

Shaft (C) By means of a puller remove the bearing (1).

Remove the thrust washer (2) and 3rd speed gear (3).

Remove the 3rd/4th speed synchronizer assy (4).

100

SECTION 21 - TRANSMISSION

Remove the ring (5) from each side of the synchronizer assy. The components of the synchronizer assy are serviced as a complete unit. The synchronizer assy may be disassembled for inspection and cleaning. If some parts are damaged, replace the synchronizer assy.

Use a suitable gauge to measure the backlash between the bottom of the teeth on the synchronizer ring and the edge of the sleeve on the outside of the synchronizer assy. The backlash (S) should be approximately 1.0 mm (0.04 in) with used parts in good condition. If the backlash (S) is 0.5 mm (0.02 in) or less, use a new synchronizer assy. Before disassembly, repeat the measurement on the opposite side of the synchronizer.

Remove the ring (6) from each side of the synchronizer.

Remove the sleeve (7) from the synchronizer hub. When the sleeve is removed from the hub, the spring plates, the hub pins and the hub springs will be released from the hub. Be careful not to lose any of these parts.

SECTION 21 - TRANSMISSION Remove the blocks (8), the balls (9), the springs (10) and the synchronizer hub (11). The synchronizer hub contains 3 blocks (8), 3 balls (9) and 3 springs (10).

Remove the 4th speed gear (12).

Turn the shaft. Remove outer ring of bearing (15).

Use a puller to remove inner ring of bearing (15). NOTE: do not try to remove the bearing by pulling the gear since it is locked by snap ring (16).

101

102

SECTION 21 - TRANSMISSION

Remove the snap ring (16).

Remove the shims (20) and the thrust washer (17).

Remove the pin (19).

Remove the 2nd speed gear (18).

SECTION 21 - TRANSMISSION Remove the spacer (21).

Remove the 1st/2nd speed synchronizer assy (23). Remove the synchronizer ring (22).

Remove the steel ring (24) and the sintered ring (25) together. Install the synchronizer with the synchronizer assy. Use a suitable gauge to measure the backlash between the bottom of the teeth on the synchronizer ring and the edge of the sleeve on the outside of the synchronizer assy.

The backlash (S1) should be approximately 1.0 mm (0.04 in) with used parts in good condition. If the backlash (S1) is 0.5 mm (0.02 in) or less, use a new synchronizer assy. Repeat the measurement on the opposite side.

103

104

SECTION 21 - TRANSMISSION

Remove the ring (26).

Overturn the synchronizer and remove the ring (27) from the other side.

Remove the steel ring (28) and the sintered ring (29) together.

Remove the ring (30).

SECTION 21 - TRANSMISSION Support the sleeve on blocks. Push it down and, at the same time, extract the detent devices of sleeve and hub. Remove the sleeve (31).

Remove the balls (32), the blocks (33), the springs (34) and the hub (35).

Remove the spacer (36).

Remove the 1st speed gear (37).

105

106 Remove the snap ring (38).

Remove the 4WD gear (14).

Remove the snap ring (13).

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION Shaft (B) Use a puller to remove the inner ring of bearing (39).

Turn the shaft (41). Remove the bearing (40).

107

108

SECTION 21 - TRANSMISSION

Assembly Shaft (C) Put the secondary shaft on the bench so that the first-second gear end is up. You can use a vice with soft jaws to hold the shaft in position. Install the snap ring (13).

Assemble the 4WD gear (14).

Assemble the snap ring (38).

SECTION 21 - TRANSMISSION Assemble the 1st speed gear (37).

Assemble the spacer (36).

Assemble the 1st/2nd speed synchronizer (23). Before final assembly, check the correct location of the hub (35), sleeve (31), springs (34), blocks (33) and balls (32). The springs are installed on the hub. The blocks are not yet pushed down into the sleeve and are holding the hub outside the sleeve. The balls are loose in the recesses of the blocks.

Use a punch or a screwdriver to push the balls (32) into the blocks and push these latter downwards, so that the balls are on the flat faces of the teeth, but not into the detent grooves. When all the balls are in position, push the hub and the blocks downwards until the balls move into the detent groove.

109

110

SECTION 21 - TRANSMISSION

Assemble the ring (30).

Lubricate the sintered ring (29) and the steel ring (28). Assemble the sintered ring (29) and the steel ring (28).

Assemble the ring (27). The flat sides of the teeth must be directed upwards.

Overturn the synchronizer and assemble the ring (26) from the other side.

SECTION 21 - TRANSMISSION Lubricate the sintered ring (25) and the steel ring (24) with oil. Assemble the sintered ring (25) and the steel ring (24). Install the top synchronizer ring on the synchronizer assy. Make sure that the teeth on the top synchronizer ring are aligned with the teeth inside the sleeve. Push the sleeve upwards until it engages with the teeth on top of synchronizer ring. To do this, you must use enough force to overcome the strength of the detent springs and balls. When the synchronizer ring and the sleeve are engaged, the detent must hold the sleeve in this position. Push the sleeve back to neutral position, turn over the synchronizer assy and repeat the procedure with the lower synchronizer ring. If the sleeve does not engage with the teeth or does not hold the position to which it was shifted, the synchronizer assy is damaged or was not correctly assembled. Disassemble the synchronizer assy to find the problem. Install the ring (22) so that the flat sides of the teeth are directed upwards. Assemble the 1st/2nd speed synchronizer (23).

Install the spacer (21) on the 2nd speed gear (18).

111

112

SECTION 21 - TRANSMISSION

Assemble the 2nd speed gear (18).

Assemble the pin (19).

Assemble the thrust washer (17) and the shims (20).

Assemble the snap ring (16). Measure the backlash “X” between gear (18) and thrust washer (17): the value must be between 0.2 ÷ 0.42 mm (0.01 ÷ 0.02 in).

SECTION 21 - TRANSMISSION Use a thickness gauge.

If backlash “X” is more than the prescribed value, remove the snap ring and the thrust washer from their seats and, using the shims shown in the chart, reach the prescribed value. Correctly assemble the shims (20) between the thrust washer (17) and the snap ring (16). SHIM RANGE Shims mm (in)

0.05 0.1 0.3 (0.002) (0.004) (0.012)

0.5 (0.02)

Heat the inner ring of the bearing (15) to 80 ÷ 100 °C (176 ÷ 212 °F). Assemble the inner ring of the bearing (15) by means of tool 380200203.

Assemble the outer ring of bearing (15).

113

114

SECTION 21 - TRANSMISSION

Turn the shaft. Assemble the 4th speed gear (12).

Assemble the 3rd/4th speed synchronizer (4). Before final assembly, check the correct location of the hub (11), sleeve (7), springs (10), blocks (8) and balls (9). The springs are installed on the hub. The blocks are now on the spring and not yet on the sleeve and are holding the hub outside the sleeve. The balls are loose in the recesses of the blocks.

Install the 3 sets of blocks (8), balls (9) and springs (10) onto the hub (11). Use a punch or a screwdriver to push the spring plates as the synchronizer hub is installed into the sleeve (7). Be sure that the spring plates are aligned with the grooves of the sleeve.

Assemble the ring (6) on each side of the synchronizer assy.

SECTION 21 - TRANSMISSION Use oil to lubricate the ring (5) and install it on each side of the synchronizer assy. Install the top synchronizer ring on the synchronizer assy. Make sure that the teeth on the top synchronizer ring are aligned with the teeth inside the sleeve. Push the sleeve upwards until it engages with the teeth on top of synchronizer ring. To do this, you must use enough force to overcome the strength of the detent springs and balls. When the synchronizer ring and the sleeve are engaged, the detent must hold the sleeve in this position. Push the sleeve back to neutral position, turn over the synchronizer assy and repeat the procedure with the lower synchronizer ring. If the sleeve does not engage with the teeth or does not hold the position to which it was shifted, the synchronizer assy is damaged or was not correctly assembled. Disassemble the synchronizer assy to find the problem. Assemble the 3rd/4th speed synchronizer assy (4) on the shaft.

Lubricate the thrust washer (2). Assemble the 3rd speed gear (3) and the thrust washer (2) on the shaft.

115

116

SECTION 21 - TRANSMISSION

Heat the bearing (1) to 80 ÷ 100 °C (176 ÷ 212 °F). Assemble the bearing (1) with tool 380200190.

Heat the inner ring of the bearing (39) to 80 ÷ 100 °C (176 ÷ 212 °F). Assemble the inner ring of the bearing (39) by means of tool 380200203.

Turn the shaft (41). Heat the bearing to 80 ÷ 100 °C (176 ÷ 212 °F). Assemble the bearing (40) with tool 380200190.

Re-position the shaft assemblies (B) and (C) into the half box. Use tool 380200246.

S WARNING S The shaft assemblies must be inserted with pins and yokes. Insert the pre-fitted yokes for 3rd and 4th speed and for 1st and 2nd speed as shown.

SECTION 21 - TRANSMISSION Position the assy with care, paying attention that the ends of the yoke pins are correctly seated.

117

118 4WD - E SHAFT

Disassembly Remove the shaft (E).

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION Remove the 4WD clutch gear (10).

Remove the bearing (11).

Use tool 380200258 to compress the spring retainer downwards in order to reach the snap ring. Remove the snap ring (1). Release the tension and remove the tool. Remove the washer (2).

Remove the spacer (3).

119

120 Remove the springs (4).

Remove the sleeve (5).

Remove the 2 O-rings (6) and (9).

Remove the seal rings (8).

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION Remove the 4WD clutch tube (7) from the front box. If necessary, or if the tube is leaking or damaged, replace the front box.

Assembly Assemble and lubricate the O-rings (6) and (9).

Assemble the sleeve (5).

Assemble the springs (4).

121

122

SECTION 21 - TRANSMISSION

Assemble the spacer (3).

Position the washer (2) and the snap ring (1).

Use tool 380200258 to press the spring retainer down until you have access to the snap ring. Assemble the snap ring (1). Release the tension and remove the tool. Make sure that the snap ring (1) is seated correctly in the recess of the spring retainer.

Place tool 380200207 on the shaft. The tool will stop in the correct position to install the seal ring in the groove. Heat the seal ring (8) to 60 ÷ 80 °C (140 ÷ 176 °F). Assemble the seal ring on the tool.

SECTION 21 - TRANSMISSION Assemble the 380200225 tool on the 380200207 tool and slide the seal ring until it reaches the groove of the shaft. Remove the tools 380200225 and 380200207 and the spacer from the shaft.

Insert the tool 380200208. Repeat the previously described operations to insert the second ring. Lubricate the seal rings.

123

124

SECTION 21 - TRANSMISSION

Apply compressed air at about 6 bar (87 psi) to 4WD clutch oil passage (see arrow) by plugging the opposite hole with a finger. The sleeve (5) should move when compressing the springs (4). The 4WD gear (10) should turn freely on 4WD shaft. If the operation is not correct, dismantle to find the problem.

SECTION 21 - TRANSMISSION Assemble the bearing (11).

Assemble the gear (10).

Assemble the shafts (B) and (C). Assemble shaft (E).

Reassemble the 4WD clutch tube (7), if previously removed from the front box. Assemble the front half box on the rear half box.

125

126

SECTION 21 - TRANSMISSION

SPEED CONTROLS

Disassembly Loosen and remove the screws (1). For the disassembly of the two half boxes it is necessary to remove the gearshift control assy. Remove the gearshift control assy (2) and the O-ring (3).

SECTION 21 - TRANSMISSION Use proper pliers to release the catch on the collar fastening the boot. Remove the collar (4).

Remove the protection boot (5).

Remove the 2 pins (7).

Remove the snap ring (8).

127

128

SECTION 21 - TRANSMISSION

Remove the bushing (9).

Remove the spring (10).

Remove the gearshift lever (6).

If disassembly is required, remove the pins (11) and separate the yokes from the shift rods. Make sure that you remember how the parts are assembled and which parts go together. Inspect all parts for burrs or excessive wear. Assembly is the reverse procedure of disassembly.

SECTION 21 - TRANSMISSION Assembly Apply grease to the ball of the gearshift lever. Assemble the gearshift lever (6).

Check for the correct position of the control lever (6) according to the gearbox cover (2): - direct the recess (A) towards the straight side of cover (B); - the slots (C) aligned with the cover holes (D).

Insert the spring (10).

Assemble the bushing (9).

129

130

SECTION 21 - TRANSMISSION

Assemble the snap ring (8).

Insert the pins (7) through the holes of the cover flange, so that they engage in the slots of the gearshift lever.

Assemble the protection boot (5) so that its end is correctly positioned over the pin ends. Be careful so that the pins do not fall out during this step.

Assemble the collar (4) on the protection. Use proper pliers to engage the collar block.

SECTION 21 - TRANSMISSION Assemble and lubricate the O-ring (3) in the seat of the cover flange. Put the gearshift control assy behind the rear cover. Screw in and tighten the screws (1) to a tightening torque of 23 Nm (17 lbfÂˇft).

Insert the two pins (11) to lock the 3rd and 4th speed control yoke (13) and the 1st and 2nd speed control yoke (14).

131

132

SECTION 21 - TRANSMISSION

TROUBLESHOOTING FAULT The vehicle does not move.

POSSIBLE CAUSE

ACTION

Control valve supply problem.

Check and, if necessary, replace the control valves.

Damaged connections of transmission and vehicle wiring harness.

Repair and, if necessary, replace the wiring harness.

Oxidation in the contacts of the electric cables of the wiring harness.

Clean the contacts.

Interruption of the electric cable.

Replace the electric cable.

Damage to the solenoids/solenoid valves.

Replace the solenoids.

Damage to sensors.

Replace sensors.

Short circuits or bad contact.

Check and, if necessary, replace the fuses.

Incorrect oil level.

Restore the oil level.

Check for possible oil leaks.

Eliminate the leaks and restore the oil level.

Suction strainer restriction.

Clean the suction strainer.

Damaged oil pump.

Replace the oil pump.

Damaged oil pump pressure relief valve.

Replace the oil pump.

Damaged/restricted filter.

Replace the filter.

Damaged / stuck control valve.

Replace the control valve.

Damaged converter.

Replace the converter.

Oil temperature below 0 Â°C (32 Â°F).

Wait for the operating temperature to be reached (stall test).

Damaged rotary seal rings.

Replace the rotary seal rings.

Synchronizers damaged.

Replace the synchronizers.

Stuck shuttle lever.

Repair the shuttle lever.

Excessively worn-out clutch assembly. Repair and, if necessary, replace the clutch disc kit. Lack of motion transmission (broken gears, shafts, bearings, etc.).

Check, repair and, if necessary, replace.

SECTION 21 - TRANSMISSION

FAULT

POSSIBLE CAUSE The brake does not release.

133

ACTION Check the general pressure of transmission. Check voltage. Check the operation of the solenoid valve. Check the mounting of the brake solenoid valve block after operating on the brake. After the above-described verifications, disassemble the brake cover and check the condition of the parts for unlocking/locking the brake (seal rings, belleville washers, brake disc deformation, etc.).

The vehicle has a reduced power transmission.

Overheating.

Incorrect oil temperature.

Wait for the operating temperature to be reached (stall test).

Transmission oil overheating.

Restore acceptable temperature values.

Incorrect operating pressures.

Check the hydraulic circuit and replace (oil pump, filters, control valve).

Damaged converter.

Replace the converter.

Incorrect oil level.

Restore the oil level.

Worn-out clutch assembly.

Replace/repair.

4WD fails to engage.

Repair/replace the 4WD shaft assy.

Overheated solenoids/solenoid valves.

Replace.

Damage to sensors.

Replace sensors.

Damaged cooling system.

Repair the cooling system.

Dirty heat exchanger.

Clean the heat exchanger.

Unintentionally activated parking brake.

Deactivate the parking brake.

Excessive soil deposit on axle wheel hubs.

Clean the axle wheel hubs.

Seizure (broken gears, shafts, bearings, etc.).

Check, repair and, if necessary, replace.

134

SECTION 21 - TRANSMISSION

FAULT

Wheel rotation with lifted vehicle.

Noise.

Irregular coupling.

POSSIBLE CAUSE

ACTION

Braking force external to transmission: axle operating problem.

Check and repair the axle.

Dragging of clutch discs.

Repair and, if necessary, replace the clutch discs.

Damaged converter.

Replace the converter.

Damaged oil thermostat.

Replace the oil thermostat.

Incorrect oil level.

Restore the oil level.

Worn-out oil pump.

Replace the oil pump.

Dragging of clutch discs.

Repair and, if necessary, replace the clutch discs.

Low oil temperature (high oil viscosity).

Wait for the operating temperature to be reached (stall test).

Incorrect oil gradient.

Change oil and filters.

Damaged control valve.

Replace the control valve.

Stuck shuttle lever.

Repair and, if necessary, replace the shuttle lever.

Damaged converter.

Replace the converter.

Damaged oil pump.

Replace the oil pump.

Ventilation/Cavitation.

Check the oil level. Check the oil gradient.

Seizure (broken gears, shafts, bearings, etc.).

Check, repair and, if necessary, replace.

Worn-out clutch discs.

Replace the clutch discs.

Synchronizer coupling wear.

Replace the synchronizer coupling.

Damaged 4WD coupling assy.

Replace the 4WD coupling assy.

Damaged hydraulic control valve.

Replace the control valves.

Electric system fault.

Repair the electric system.

Worn-out clutch discs.

Replace the clutch discs.

Damaged converter.

Replace the converter.

Low oil temperature (high oil viscosity).

Wait for the operating temperature to be reached (stall test).

Overheating.

See â&#x20AC;&#x153;overheatingâ&#x20AC;?.

Damaged hydraulic system.

Repair the hydraulic system.

SECTION 21 - TRANSMISSION

135

FAULT

POSSIBLE CAUSE

The gear remains engaged.

Damaged/stuck shuttle lever.

Repair and, if necessary, replace the shuttle lever.

Electric system fault.

Repair the electric system.

Damaged control valve.

Replace the control valve.

Damaged hydraulic system.

Repair the hydraulic system.

Damaged clutch assembly.

Repair and, if necessary, replace the clutch assembly.

Gearshift lever damaged.

Replace gearshift lever.

Synchronizers damaged.

Replace the synchronizers.

Damaged 4WD connection assy.

Replace the 4WD coupling assy.

Hydraulic system fault.

Repair the hydraulic system.

Damaged control valve.

Replace the control valve.

Braking sensor fault.

Check and, if necessary, replace the braking sensors.

Electric system fault.

Repair the electric system.

Gearshift lever damaged.

Replace the gearshift lever.

Synchronizers damaged.

Replace the synchronizers.

Lack of 4WD power transmission.

Gear fails to engage.

ACTION

136

SECTION 21 - TRANSMISSION

TRANSMISSION ERROR CODES CODE

DESCRIPTION

Amber Telltale LED

Red Telltale LED

4000

Power supply (pin 2), forward FWD drive (pin 3), or RVS (pin 4) drive shorted to ground.

4002

Power supply for digital outputs (pin 8) does not have power.

4004

Battery voltage (Pin 34) voltage below 10 volts for 2.5 seconds with engine speed above 900 rpm.

4005

Downshift delayed due to possible engine overspeed condition.

4006

FWD input (Pin 12) feedback circuit is reading too much current with command. (>1.1 A for 1ms).

4007

FWD input (Pin 12) current is less than 0.05 A with more than 0.1 A commanded for more than 250 ms.

4008

FWD solenoid is drawing more current than commanded.

4009

FWD solenoid is drawing less current than commanded.

4011

RVS input (pin 40) feedback circuit is reading too much current with command. (>1.1 A for 1ms).

4012

RVS input (pin 40) current is less than 0.05 A with more than 0.1 A commanded for more than 250 ms.

4013

RVS solenoid is drawing more current than commanded (Error=20% of command or more).

4014

RVS solenoid is drawing less current than commanded (Error=20% of command or more).

4028

Differential lock or 4 wheel drive solenoid shorted to ground.

4029

Shift lever improperly connected, no power to pin 16, pin 18, or pin 46 for more than 3 seconds.

4030

Shift lever malfunction; transmission in neutral receives forward and neutral together more than 5 seconds.

4031

Shift lever malfunction; transmission in neutral receives reverse and neutral together more than 5 seconds.

4032

Shift lever malfunction; transmission in forward receives forward and reverse together more than 5 seconds.

4033

Shift lever malfunction; transmission in reverse receives forward and reverse together more than 5.

SECTION 21 - TRANSMISSION

137

CODE

DESCRIPTION

Amber Telltale LED

Red Telltale LED

4034

Shift lever malfunction; transmission in forward receives neutral and forward together more than 5 seconds.

4035

Shifter lever malfunction; transmission in reverse receives neutral and reverse together more than 5 seconds.

4036

During transition from second to third gear, and GearCMD_01 signal erratic or incorrect.

4037

During transition from first to second gear, and GearCMD_02 signal erratic or incorrect.

4038

During transition from third to fourth gear, and GearCMD_02 signal erratic or incorrect.

4040

Transmission Controller Driveline Configuration.

4041

Transmission output shaft frequency above 3000 Hz detected. (0.5 second debouce).

4042

Temperature signal erratic or incorrect (Consecutive samples differ by more than 50Â°C).

4043

Temperature sensor input (Pin 43) is shorted to a ground.

4044

Temperature sensor input (Pin 43) is open circuited or shorted to a voltage above 5 volts.

4045

Charge pressure is not detected when engine speed is above 700 rpm for 10 seconds.

4046

Charge pressure is not detected for 0.5 seconds and vehicle speed is over 10 km/hr.

4047

Charge pressure switch is closed with no frequency input to the TRAX controller.

4054

Unknown vehicle model value from VCM. Verify model in VCM or upgrade transmission controller software.

4101

Internal TRAX failure, hardware measurement, replace TRAX controller if reoccurring.

4102

Internal TRAX failure, software timing, replace TRAX controller if reoccurring.

4103

Internal TRAX failure, software not running, replace TRAX controller if reoccurring.

4105

Internal TRAX failure, redundant flash memory, replace TRAX controller if reoccurring.

4106

Internal TRAX failure, sensor supply high, replace TRAX controller if reoccurring.

X X X

138

SECTION 21 - TRANSMISSION

CODE

DESCRIPTION

Amber Telltale LED

Red Telltale LED

4107

Internal TRAX failure, sensor supply low, replace TRAX controller if reoccurring.

4200

First shift solenoid shorted to ground.

4201

Second or Third shift solenoid shorted to ground.

4203

Fourth shift solenoid shorted to ground.

4204

System detects different gear than commanded.

4205

System can not engage required gear. (Engaged gear is different than requested gear).

4206

Gear engagement failed.

4207

1ST/2ND gear shift rail position reporting first gear at startup.

4208

1ST/2ND gear shift rail position reporting second gear at startup.

4209

3RD/4TH gear shift rail position reporting third gear at startup.

4210

3RD/4TH gear shift rail position reporting forth gear at startup.

4211

First and second gear sensor input shorted to ground.

4212

First and second gear sensor input voltage too high.

4213

Third and forth gear sensor input shorted to ground.

4214

Third and forth gear sensor input voltage too high.

4300

CANBus speed sensor message missing.

4301

CANBus speed sensor frequency input out of range.

4302

CANBus speed sensor frequency input erratic.

4303

CANBus speed sensor frequency input abnormal rate of change.

4304

CANBus speed sensor supply voltage too low.

4305

CANBus speed sensor supply voltage too high.

4306

CANBus speed sensor can not recover.

4825

Loss of TC1 message after 15 seconds.

4850

Possible detection wrong transmission type for installed software.

4995

Incorrect VCM configuration of transmission type. Electronic is transmission present.

X X X

SECTION 21 - TRANSMISSION

CODE

DESCRIPTION

139

Amber Telltale LED

4996

Electronic transmission offline or incorrect VCM configuration of transmission type.

4997

Loss of message from TRAX controller.

4998

Generic error code for a SPN/FMI combination that is not stored in this list.

4999

Generic error code for a SPN/FMI combination that is not stored in this list.

Red Telltale LED

140

SECTION 21 - TRANSMISSION

REPAIR TIMES The times are referred to average values of maintenance performed by skilled personnel in workshops equipped with all necessary fixtures for a proper execution of the required works. The repair and/or replacement times are indicated in minutes. We assume that the transmission assy has already been removed from the machine. ASSY

OPERATION

TIME (minutes)

Plugs and filters

Oil filter replacement

Oil pump

Oil pump replacement

Replacement of lubrication tube

Replacement of supply tube for solenoid valve of parking brake

Control valve replacement

Control valve overhauling

Solenoid valve replacement

PTO shaft replacement

Replacement of seal rings on input shaft

Half box replacement

Open, clean, close the half boxes

Replacement of shaft A / bearings

Overhauling of shaft A

150

Replacement of seal rings on shaft A

120

Replacement of shaft D / bearings

B shaft replacement

Overhauling/replacement of C shaft

150

Replacement of B shaft bearings

Replacement of C shaft bearings

Overhauling/replacement of shaft E

100

E shaft

Replacement of E shaft bearings

(only with 4WD models)

Replacement of seal rings

Gear/sleeve replacement

Gearshift lever replacement

Disc kit replacement

Brake overhauling/replacement

Lines

Control valve 4WD solenoid valve (only with 4WD models)

Transmission box

A and D shafts

B and C shafts

Gearshift control Parking brake

SECTION 21 - TRANSMISSION

141

SPECIAL TOOLS PN CNH

DESCRIPTION

USE

380002211

Handle

To be used with the various pushers and buffers

380200190

Buffer

Assembly / disassembly of several bearings

380200197

Buffer

Assembly of shaft A bearings

380200203

Buffer

Assembly of B and C shaft bearings

380200207

Protection

Assembly of shaft seal ring

380200208

Protection

Assembly of shaft seal ring

380200213

Protection

Assembly of shaft cover seal ring

380200214

Calibrator

Assembly of seal ring on PTO shaft

380200215

Attachment

Disassembly / assembly of clutch

380200218

Buffer

Assembly of oil pump seal ring

380200224

Cover and shims

Assembly of seal ring on shaft A

380200225

Plunger

Assembly of seal ring on PTO shaft

380001926

Protection

Clutch piston assembly

380200226

Buffer

Assembly of SAHR seal ring for parking brake

380200230

Buffer

Assembly of D shaft bearings

380001933

Cover and shims

Assembly of seal ring on shaft A

380001927

Calibrator

Assembly of seal ring on shaft A

380001928

Plunger

Assembly of seal ring on shaft A

380200246

Hook

Lifting of shafts B and C and of gear control yokes

380200257

Protection

Assembly of seal ring on PTO shaft

380200258

Tool

Disassembly / Assembly of snap ring on shaft

142

SECTION 21 - TRANSMISSION

POWERSHIFT TRANSMISSION This transmission is used only on powershift loader backhoe models B110C-B110CTC-B115C.

TECHNICAL SPECIFICATIONS 4WD/2WS TRANSMISSION - POWERSHIFT (B110C - B110CTC) Model ..................................................................................................................... CARRARO TLB2 MPB 4WD Type (4x4) ................................................................................................. 4 forward and 4 reverse travel gears Torque converter ratio.................................................................................................................................. 2.38 Transmission ratios: 1st gear .........................................................................forward travel 5.533:1

reverse travel 4.549:1

2nd gear ........................................................................forward travel 3.359:1

reverse travel 2.762:1

3rd gear.........................................................................forward travel 1.553:1

reverse travel 1.260:1

4th gear .........................................................................forward travel 0.811:1

reverse travel 0.677:1

4WD/4WS TRANSMISSION - POWERSHIFT (B115C) Model ..................................................................................................................... CARRARO TLB2 MPB 4WS Type (4x4) ................................................................................................. 4 forward and 4 reverse travel gears Torque converter ratio.................................................................................................................................. 2.38 Transmission ratios: 1st gear .........................................................................forward travel 4.468:1

reverse travel 3.657:1

2nd gear ........................................................................forward travel 2.700:1

reverse travel 2.220:1

3rd gear.........................................................................forward travel 1.232:1

reverse travel 1.013:1

4th gear .........................................................................forward travel 0.652:1

reverse travel 0.536:1

SECTION 21 - TRANSMISSION

143

HYDRAULIC CONTROL VALVE 2/3 proportional solenoid valve specifications Absorption:.................................................................................................................................................. 10 W Protection degree:......................................................................................................................................IP69K Solenoid resistance:......................................................................................................... 7.25 Ω [20 °C (68 °F)] Power supply voltage:............................................................................................................................12 V DC 2/3 solenoid valve specifications Power supply voltage:............................................................................................................................12 V DC Absorption:........................................................................................................................ 1.68 A [20 °C (68 °F)] Protection degree:......................................................................................................................................IP69K Solenoid resistance:......................................................................................................... 7.14 Ω [20 °C (68 °F)] 2/4 solenoid valve specifications Power supply voltage:............................................................................................................................12 V DC Absorption:........................................................................................................................ 1.68 A [20 °C (68 °F)] Protection degree:......................................................................................................................................IP69K Solenoid resistance:......................................................................................................... 7.14 Ω [20 °C (68 °F)] Diagram A.

2/3 proportional solenoid 2nd - 4th speed actuation

2/3 proportional solenoid reverse speed

2/3 proportional solenoid forward speed

2/3 proportional solenoid 1st - 3rd speed actuation

2/3 solenoid valve 4WD engagement

2/4 solenoid valve 2nd or 4th speed selection

2/3 solenoid valve differential lock engagement

2/4 solenoid valve 1st or 3rd speed selection

PS.

Supply pressure check port

HDL2. Differential lock engagement control port

144

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION DIMENSIONS 2WS

145

146 4WS

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION HYDRAULIC DIAGRAM 2WS

147

148

SECTION 21 - TRANSMISSION

REF.

DESCRIPTION

NOTES

Suction filter

Pump

Oil filter relief valve

23 bar (333 psi)

Filter

10 Nm (7.4 lbf·ft)

Torque converter

Oil cooler

Torque converter relief valve

Pressure regulator for sequential valve

Air breather

Forward gear pressure check port

Reverse gear pressure check port

Forward gear clutch

Reverse gear clutch

4WD clutch

HDL

Shaft lubrication inlet

Brake oil return port

Transfer oil return port

Main pressure check port

Pressure check port of 1st gear clutch

Pressure check port of 2nd gear clutch

1st gear clutch

2nd gear clutch

3rd gear clutch

4th gear clutch

Main shaft lubrication

Output shaft lubrication

Temperature thermostat

Parking brake lubrication

250 Nm (184.39 lbf·ft) 36 cm3/rev (2.20 in3/rev)

3.5 ÷ 5.5 bar (50 ÷ 80 psi)

SECTION 21 - TRANSMISSION 4WS

149

150

SECTION 21 - TRANSMISSION

REF.

DESCRIPTION

NOTES

Suction filter

Pump

Oil filter relief valve

23 bar (333 psi)

Spin-on filter

10 Nm (7.4 lbf·ft)

Torque converter

Oil cooler

Torque converter relief valve

Pressure regulator for sequential valve

Air breather

Forward gear pressure check port

Reverse gear pressure check port

Forward gear clutch

Reverse gear clutch

4WD clutch

HDL

Shaft lubrication inlet

Brake oil return port

Transfer oil return port

Main pressure check port

Pressure check port of 1st gear clutch

Pressure check port of 2nd gear clutch

1st gear clutch

2nd gear clutch

3rd gear clutch

4th gear clutch

Main shaft lubrication

Output shaft lubrication

Temperature thermostat

Parking handbrake lubrication

250 Nm (184.39 lbf·ft) 36 cm3/rev (2.20 in3/rev)

3.5 ÷ 5.5 bar (50 ÷ 80 psi)

SECTION 21 - TRANSMISSION

151

PORTS 2WS

REF.

DIMENSION

USE

7/8” - 14 UNF

Oil inlet from cooler

7/8” - 14 UNF

Oil outlet to cooler

9/16” - 18 UNF

Check port for torque converter input pressure

NOTES - MISCELLANEOUS

3 ÷ 9 bar (43.5 ÷ 130 psi) 13.5 ÷ 16.5 bar (196 ÷ 239 psi)

9/16” - 18 UNF

Forward gear pressure check port

0.3 bar (4.3 psi) = maximum pressure in neutral position 13.5 ÷ 16.5 bar (196 ÷ 239 psi)

9/16” - 18 UNF

Reverse gear pressure check port

0.3 bar (4.3 psi) = maximum pressure in neutral position

Oil drain plug

9/16” - 18 UNF

Oil pressure delivery to differential lock

14 ÷ 17 bar (203 ÷ 246 psi)

Lubrication pressure check port (from cooler) 1 ÷ 5 bar (14.5 ÷ 72.5 psi) forward/reverse gear Oil outlet to brake tank

1 ÷ 5 bar (14.5 ÷ 72.5 psi) neutral position

9/16” - 18 UNF

Brake oil pressure delivery

14 ÷ 17 bar (203 ÷ 246 psi)

9/16” - 18 UNF

Oil return

9/16” - 18 UNF

Oil level check port

9/16” - 18 UNF

Oil main pressure check port

1/8” - BSP

Lubrication check port

1/8” - BSP

Check port of 1st gear

1/8” - BSP

Check port of 2nd gear

1/8” - BSP

Check port of 4th gear

14 ÷ 17 bar (203 ÷ 246 psi)

152

SECTION 21 - TRANSMISSION

4WS

REF.

DIMENSION

USE

7/8” - 14 UNF

Oil inlet from cooler

7/8” - 14 UNF

Oil outlet to cooler

9/16” - 18 UNF

Check port for torque converter input pressure

NOTES - MISCELLANEOUS

3 ÷ 9 bar (43.5 ÷ 130 psi) 13.5 ÷ 16.5 bar (196 ÷ 239 psi)

9/16” - 18 UNF Forward gear pressure check port

0.3 bar (4.3 psi) = maximum pressure in neutral position 13.5 ÷ 16.5 bar (196 ÷ 239 psi)

9/16” - 18 UNF Reverse gear pressure check port

0.3 bar (4.3 psi) = maximum pressure in neutral position

Oil drain plug

9/16” - 18 UNF Oil pressure delivery to differential lock

9/16” - 18 UNF

9/16” - 18 UNF Brake oil pressure delivery

9/16” - 18 UNF Oil return

9/16” - 18 UNF Oil level check port

9/16” - 18 UNF Oil main pressure check port

1/8” - BSP

Lubrication check port

1/8” - BSP

Check port of 1st gear

1/8” - BSP

Check port of 2nd gear

1/8” - BSP

Check port of 4th gear

14 ÷ 17 bar (203 ÷ 246 psi)

Lubrication pressure check port (from cooler) 1 ÷ 5 bar (14.5 ÷ 72.5 psi) forward/reverse gear Oil outlet to brake tank

1 ÷ 5 bar (14.5 ÷ 72.5 psi) neutral position 14 ÷ 17 bar (203 ÷ 246 psi)

14 ÷ 17 bar (203 ÷ 246 psi)

SECTION 21 - TRANSMISSION

153

CONTROLS

1. POWERSHIFT TRANSMISSION GEARSHIFT AND DIRECTION LEVER: it is possible to select four forward and four rearward travel gears. The lever has 3 positions, according to which the travel direction is defined: F = forward travel N = idle/neutral R = reverse By turning the knob, instead, the following gears are selected: 1 = 1st gear 2 = 2nd gear 3 = 3rd gear 4 = 4th gear 2. KICKDOWN SWITCH: if the machine is in second gear and it is necessary to shift to the first gear to work with the loader attachment, activating the kickdown switch to a lower ration allows the machine to instantly shift from second to first gear. When the reverse travel is activated, transmission reverts to second gear.

3. HORN BUTTON 4. TRANSMISSION DISCONNECT BUTTON (on loader attachment control lever)

154

SECTION 21 - TRANSMISSION

KICKDOWN (QUICK SHIFTING TO LOWER GEAR RATIO) The kickdown function (2nd to 1st gear only) instantly increases the torque on the driving wheels and, hence, the digging power. For example when the loader is pushing into a pile and more torque is required at the wheels. This is achieved by an instant gearshift from 2nd to 1st by means of button (2) without activating the gearshift lever.

TRANSMISSION DISCONNECTION The disconnect feature is useful when loading, for example when pushing the loader attachment onto a pile of material, with the bucket sufficiently filled. For this purpose, press the disconnect switch (4) which disengages the transmission, thus allowing the full power of the engine to be directed to the hydraulic oil pump. Disconnection is available in 1st and 2nd gear. NOTE: transmission disconnection is selectable when the machine speed is lower than 5 km/h (3 mph), by depressing the button on the loader lever, and remains active until the switch is released.

SECTION 21 - TRANSMISSION LUBRICATION

1. Hole for filling and fastening of oil dipstick 2. Oil level plug 3. Oil drain plug 4. Breather

LEVEL CHECK The oil level check should be carried out with the engine running at low speed and at normal operating temperature. Move the machine to a level and firm ground. Raise the loader attachment and assemble the safety support strut. Place the backhoe attachment in the road travel position. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Open and raise the engine guard and lock it in opened position by means of the safety lock on the left-hand gas spring. Extract the dipstick (1), clean it with a clean cloth and completely insert it into the hose, then take it out again. If the oil level is below the mini mark, top up. Stop the engine. Unlock the safety lock and close the engine guard.

155

156

SECTION 21 - TRANSMISSION

OIL CHANGE Move the machine to a level and firm ground. Raise the loader attachment and assemble the safety support strut. Place the backhoe attachment in the road travel position. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Stop the engine and remove the starter key. Open and raise the engine guard and lock it in opened position by means of the safety lock on the left-hand gas spring. Remove the dipstick (1). NOTE: change the oil while the transmission is still warm; the oil will flow more easily. Place a container with suitable capacity under the drain plug (2). Loosen and remove the drain plug (2). Let the transmission oil drain.

SECTION 21 - TRANSMISSION

157

GREASING Tecnolube POLYMER 400 grease Transmission oil

4WS

F45638

158

SECTION 21 - TRANSMISSION

REMOVAL FROM MACHINE

1 8

5 9 4

5 6

13 11

7 10 TBR00074

TABLE 1 1. Transmission

8. M16x120 hex screw

2. Anti-vibration

9. Washer

3. Left transmission support 4. Right transmission support

10. M16 nut [tightening torque 210÷240 Nm (156÷178 lbf·ft)]

5. Washer

11. Washer

6. M12x30 hex screw [tightening torque 90÷110 Nm (66÷81 lbf·ft)]

12. M12x30 hex screw [tightening torque 90÷110 Nm (66÷81 lbf·ft)]

7. Washer

13. Bracket transmission mounting

NOTE: ensure chassis bolt on mount is seated against locating block on chassis.

SECTION 21 - TRANSMISSION

159

11 9

8 13

TBR00075

TABLE 2 2. Torque converter

8. M10x30 hex screw [tightening torque 52÷57 Nm (38÷42 lbf·ft)]

3. Plate

9. O-Ring

4. Plate

10. Dipstick tube

5. Snap ring

11. Dipstick

6. Washer

12. Washer

7. M10x20 hex screw [tightening torque 52÷57 Nm (38÷42 lbf·ft)]

13. M8x25 hex screw [tightening torque 26÷31 Nm (19÷23 lbf·ft)]

1. Transmission

160

SECTION 21 - TRANSMISSION

1 2

3 4

TBR00076

TABLE 3 1. Washer

4. Washer

2. M10x30 hex screw [tightening torque 52÷57 Nm (38÷42 lbf·ft)]

5. M10x35 hex screw [tightening torque 52÷57 Nm (38÷42 lbf·ft)]

3. Clamp

SECTION 21 - TRANSMISSION DISASSEMBLY AND ASSEMBLY Some of the following pictures could not exactly show your transmission, but the procedure is correct. TIGHTENING TORQUES AND APPLICATION OF SEALANTS / ADHESIVES A. Loctite 510 B. Loctite 542 C. Loctite 518 D. Loctite 638

161

162

SECTION 21 - TRANSMISSION

163

164 Only 4WS

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION PLUGS AND FILTERS

Disassembly Remove the oil drain plug (1) and drain the oil from the transmission.

165

166

SECTION 21 - TRANSMISSION

Loosen and remove the 2 screws (1).

Remove cover (3). Remove the oil filter (4) and the O-ring (5).

Unscrew and remove the oil filter (6). If necessary, remove the fitting (7).

Loosen and remove the valve (8).

SECTION 21 - TRANSMISSION Check the valve (8). Clean the valve. If necessary, replace the O-rings (9) and (10).

If necessary, remove the breather (11).

NOTE: this port enables you to check the supply pressure for forward gear engagement. Remove the plug (12).

NOTE: this port enables you to check the supply pressure for reverse gear engagement. Remove the plug (13).

167

168

SECTION 21 - TRANSMISSION

NOTE: this port enables you to check the lubrication pressure. Remove the plug (14).

Remove the revolution sensor (15).

Remove the oil thermostat (16).

SECTION 21 - TRANSMISSION Assembly Assemble the revolution sensor (15). Tighten to the prescribed torque of 50 Nm (37 lbf·ft).

Assemble the oil thermostat (16). Tighten to the prescribed torque of 30 Nm (22 lbf·ft).

Assemble the plugs (12) and (13). Tighten to the prescribed torque of 30 Nm (22 lbf·ft).

Assemble and tighten the breather (11) by hand.

169

170

SECTION 21 - TRANSMISSION

Clean the valve (8). Assemble the O-rings (9) and (10) onto the valve (8).

Assemble valve (8). Tighten to the prescribed torque of 28 Nm (21 lbf·ft).

Assemble fitting (7). Tighten to the prescribed torque of 50 Nm (37 lbf·ft).

Assemble the oil filter (6). Lubricate the gasket. Tighten clockwise until the gasket makes contact with its seat, then tighten further 2/3 of a turn.

SECTION 21 - TRANSMISSION Assemble the O-ring (5) on the filter (4). Insert the filter (4).

Assemble the cover (3). Screw in the 2 screws (2) and tighten to the prescribed torque of 23 Nm (17 lbf·ft).

Assemble the oil drain plug (1). Tighten to the prescribed torque of 30 Nm (22 lbf·ft).

171

172

SECTION 21 - TRANSMISSION

OIL PUMP

Disassembly Loosen and remove the screws (1). Mark the oil pump position with respect to the bell housing before loosening the screws.

Pull out the oil pump (2) by means of two levers (A).

SECTION 21 - TRANSMISSION Remove the oil pump (2).

S WARNING S The O-ring can be damaged.

Remove the O-ring (3).

S WARNING S Do not disassemble the pump or its operation may be compromised.

If necessary, remove the seal ring (4).

S WARNING S The seal ring can be damaged.

173

174

SECTION 21 - TRANSMISSION

Assembly Assemble the seal ring (4) onto the oil pump (2). Use tool 380200218. Lubricate the seal ring (4).

Assemble the O-ring (3).

Before pump assembly (if new), check that the oil passage holes (between pump and half box) or the visual marks coincide.

Lubricate the seal ring (4) to keep it centred, in order to facilitate its introduction onto the oil pump.

SECTION 21 - TRANSMISSION Lubricate the matching seat with the front half box. Assemble the oil pump (2).

Screw in and tighten the screws (1) to a tightening torque of 23 Nm (17 lbfÂˇft). Check that the mark on the oil pump and on the bell housing coincide.

175

176 HYDRAULIC CONTROL VALVE

Disassembly Disconnect cable (12).

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION Drain the transmission oil. Disconnect the electric connections. Loosen all the fittings of the delivery pipes connected with the control valve (2). Loosen and remove the screws (1).

Remove the control valve (2).

Remove the gasket (3).

Remove the pressure switch (4).

177

178

SECTION 21 - TRANSMISSION

Place the control valve on a workbench. Loosen and remove the screws (5) of the valves.

Pull out the valves (6), (7) and (8) with a screwdriver.

Check the valves (6), (7) and (8).

Loosen and remove the valve (9).

SECTION 21 - TRANSMISSION Check the valve (9). Clean the valve and, if necessary, replace the O-rings (10) and (11).

Assembly Clean the valve (9). Assemble the O-rings (10) and (11).

Assemble valve (9). Tighten to the prescribed torque of 25 ÷ 30 Nm (18 ÷ 22 lbf·ft).

179

180

SECTION 21 - TRANSMISSION

Assemble the valves ON/OFF (6) and (7) and the proportional valves (8) by observing the shown positions.

Assemble the pressure switch (4).

Screw in and tighten the screws (5) to a tightening torque of 3 ÷ 4 Nm (2 ÷ 3 lbf·ft).

SECTION 21 - TRANSMISSION Assemble the gasket (3).

Assemble the control valve (2).

Screw in and tighten the screws (1) to a tightening torque of 20 Nm (15 lbfÂ·ft).

181

182 HYDRAULIC SYSTEM LINES

Disassembly Drain the transmission oil. Remove the tube (1) (2nd gear).

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION Remove the tube (2) (4th gear).

Remove the tube (3) (3rd gear).

Remove the tube (4) (1st gear).

Remove the tube (5) (4WD).

183

184 Remove the tube (6) (lubrication).

Remove the tube (7) (lubrication).

SECTION 21 - TRANSMISSION

SECTION 21 - TRANSMISSION Assembly Assemble the tube (7) (lubrication) by tightening the fittings to the tightening torque of 30 Nm (22 lbf路ft).

Assemble the tube (6) (lubrication) by tightening the fittings to the tightening torque of 30 Nm (22 lbf路ft).

Assemble the tube (5) (4WD) by tightening the fittings to the tightening torque of 30 Nm (22 lbf路ft).

Assemble the tube (4) (1st gear) by tightening the fittings to the tightening torque of 30 Nm (22 lbf路ft).

185

186

SECTION 21 - TRANSMISSION

Assemble the tube (3) (3rd gear) by tightening the fittings to the tightening torque of 30 Nm (22 lbf·ft).

Assemble the tube (2) (4th gear) by tightening the fittings to the tightening torque of 30 Nm (22 lbf·ft).

Assemble the tube (1) (2nd gear) by tightening the fittings to the tightening torque of 30 Nm (22 lbf·ft).

SECTION 21 - TRANSMISSION PARKING BRAKE

Disassembly Remove the oil drain plug (T) and drain the oil from the transmission.

187

188

SECTION 21 - TRANSMISSION

Unscrew the screw (1). Use a screwdriver and 2 screws to lock the flange. Remove the screw (1) and the washer (2). Remove the flange (4) and the O-ring (3).

Loosen and remove the screws (6) and (7). Remove the brake (8) assembly. Remove the O-ring (9) from the brake (8).

Remove the seal ring (15).

S WARNING S The seal ring can be damaged. Remove the plug (5).

Remove the rings (10), the 5 brake discs (11) and the 5 counterdiscs (12).

SECTION 21 - TRANSMISSION Remove the hub (13).

Only 4WS Remove the brake and the disc kit. Do not remove the plug (16).

Only 4WS Remove the screw (17), the washer (18) and the hub (19).

189

190

SECTION 21 - TRANSMISSION

Assembly Assemble the hub (13).

Counterdisc number

Nominal brake disc thickness Brake disc kit nominal thickness [with 163 kg (359.34 lbs) of load] Brake disc maximum wear (each side)

3.6 ± 0.05 mm (0.14 ± 0.002 in) 37.40 ÷ 37.60 mm (1.47 ± 1.48 in) 0.65 mm (0.02 in)

SECTION 21 - TRANSMISSION Assemble the counterdisc (12), the brake disc (11) and the ring (10). Repeat this operation until the brake disc kit is complete.

Assemble the plug (5). Assemble the seal ring (15) onto the brake (8), use tool 380200226. Lubricate the seal ring (15).

Insert the O-ring (9) on the brake (8). Assemble the brake assy (8) on transmission. Screw in and tighten the screws (6) and (7) to the prescribed torque of 50 Nm (37 lbfÂˇft).

Assemble the flange (4) and the O-ring (3). Lubricate the O-ring (3). Assemble the washer (2) and the screw (1). Use a screwdriver and 2 screws to lock the flange. Tighten the screw (1) to a tightening torque of 139 Nm (102.5 lbfÂˇft).

191

192

SECTION 21 - TRANSMISSION

Only 4WS Assemble the hub (19), the washer (18) and the screw (17). Tighten the screw (1) to a tightening torque of 139 Nm (102.5 lbf·ft).

Only 4WS Assemble the brake disc kit and the brake (8). Tighten the screws (6) and (7) to a tightening torque of 50 Nm (37 lbf·ft).

SECTION 21 - TRANSMISSION TRANSMISSION BOX

Disassembly Remove the snap ring (16).

193

194

SECTION 21 - TRANSMISSION

Drain the transmission oil. Unscrew and remove the screw (1) for flange fastening (2).

If necessary, use a screwdriver and 2 screws to lock the flange.

Collect the washer (3).

Remove the flange (2) and the O-ring (4).

SECTION 21 - TRANSMISSION Remove the seal ring (5).

S WARNING S The seal ring can be damaged.

Only 4WS Loosen and remove the screw (A) and the washer (B). If necessary, replace the O-ring (E). Remove the flange (D). If necessary, replace the seal ring (G). Loosen and remove the screws (C). Remove the hub (F).

Unscrew and remove the screws (6) for flange fastening (7).

Remove the flange (7).

195

196

SECTION 21 - TRANSMISSION

Pull out the transmission shaft PTO (8).

If necessary, replace the seal ring (9) by cutting it.

Remove the snap ring (10).

Take out the bearing (11) with tool 380200190.

SECTION 21 - TRANSMISSION Loosen and remove the screws (12) from the rear (13) and the front half box (14).

Insert a lever (L) in the special slot and remove the cover. NOTE: the surfaces are attached with some sealant.

If necessary, use a plastic hammer to facilitate the separation of the half box.

S WARNING S Do not lift the transmission shafts; the removal of the shafts from their housings can damage the seal rings.

Lift the front half box (14).

197

198

SECTION 21 - TRANSMISSION

Remove the 4 O-rings (15).

Seal all oil recirculation holes with rubber plugs (T).

Assembly Clean the edge of the rear half box. Carefully verify the box and its inner components for the possible presence of debris (dirt, filings or burrs). Thoroughly clean all possible dirt.

S WARNING S Only after a careful inspection of the whole transmission, proceed with the re-assembly. Remove the old sealant from the mating surface of the rear half box by means of a proper scraper.

SECTION 21 - TRANSMISSION We suggest the use of a sealant solvent.

Carefully clean the O-ring seats.

Degrease and dry accurately the mating surface of the rear half box. NOTE: we suggest the use of a proper solvent.

Apply sealant on the mating surface of the rear half box.

199

200

SECTION 21 - TRANSMISSION

Spread the sealant uniformly.

Prevent the penetration of the sealant in the O-ring seats.

Carefully clean the O-ring seats.

Assemble the O-rings (15). Do not lubricate the O-rings.

SECTION 21 - TRANSMISSION Place the 4 O-rings (15) into their seats with a buffer.

Assemble the front half box (14) on the rear one. Make sure that the bearings of the shafts go straight into the bores in the front box. Push the front half box onto the rear one.

Assemble the snap ring (16).

Tighten the screws (12) to the rear half box (13) and to the front half box (14). Tighten the screws (12) to a tightening torque of 50 Nm (37 lbfÂˇft).

201

202

SECTION 21 - TRANSMISSION

Assemble the seal ring (5) on the output of the front shaft by means of tool 380200226.

Assemble the flange (2) and a new O-ring (4).

Assemble the washer (3) and tighten the screw (1).

Tighten the screw (1) to a tightening torque of 139 Nm (102.5 lbfÂ·ft). Use a screwdriver and 2 screws to lock the flange.

SECTION 21 - TRANSMISSION Assemble the bearing (11) on the transmission shaft PTO (8).

Assemble the snap ring (10).

To assemble the seal ring (9) perform following operations by means of the listed tools in sequence: 380200257; 380200225; 380200214.

Insert transmission shaft PTO (8) to stroke end.

203

204

SECTION 21 - TRANSMISSION

Smear a thin layer of sealant on the flange (7).

S WARNING S During flange assembly, the 2 holes for the oil passage (P) should coincide.

Screw in and tighten the screws (6) to a tightening torque of 50 Nm (37 lbf·ft).

Only 4WS Assemble the hub (F). Screw in and tighten the screws (C) to the tightening torque of 50 Nm (37 lbf·ft). Assemble the seal ring (G) by means of tool 380200226. Assemble O-ring (E). Assemble the flange (D). Place the washer (B), screw in and tighten the screw (A) to the tightening torque of 139 Nm (102.5 lbf·ft).

SECTION 21 - TRANSMISSION A, D SHAFTS

Disassembly Grab the shaft with the (A) pliers and pull out the shaft assy (D).

205

206

SECTION 21 - TRANSMISSION

Shaft (A) If necessary, remove the seal ring (1).

Remove the snap ring (2).

Remove the bearing (3).

SECTION 21 - TRANSMISSION Remove the spacer (4).

Remove the gear (6).

Remove the roller retainer (7).

Remove the thrust washer (8).

207

208

SECTION 21 - TRANSMISSION

Remove the pin (9).

Remove the snap ring (10).

Lift and remove the snap ring (11).

Remove the discs (18) and the counterdiscs (17).

SECTION 21 - TRANSMISSION Place a mark below the groove on the clutch bell.

Mark the snap ring (11), the discs (18) and the counterdiscs (17). These marks will be used as a reference during assembly.

Lower the cover (13) by means of tool 380200215.

Remove the snap ring (14).

209

210

SECTION 21 - TRANSMISSION

Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

Remove the cover (13) and the spring (15).

Remove the sleeve (5).

Remove the piston (19) by blowing in compressed air through the delivery hole.

SECTION 21 - TRANSMISSION If necessary, remove the seal ring (20) with the inner O-ring from the outside seat of the piston and the seal ring (21) with the relevant O-ring from the inner seat of the piston. To remove the rings it is necessary to cut them.

Turn the shaft. If necessary, remove the seal rings (22).

Remove the snap ring (23).

Remove the bearing (24) by means of a puller.

211

212

SECTION 21 - TRANSMISSION

Remove the bearing (24) and the thrust washer (25).

Remove the gear (26) and the roller retainer (12).

For the disassembly of other parts, repeat the operations described previously.

SECTION 21 - TRANSMISSION Check the seal ring grooves (large and small) for wear or damage. Check if the output shaft is worn or damaged. Check oil passages in the output shaft to be sure that they are open and free of foreign material. Check the ball bearings and the needle bearings for flat areas, pitting or other damage. If you are to re-use the clutch discs, observe the assembly order.

At each disassembly check with a gauge that the total thickness of the clutch discs remains in the wear limits; otherwise replace the clutch disc kit (18) with a new one. Verify that all clutch discs are free from burns, that the friction surfaces are not damaged and that the grooves of the friction surfaces are well outlined. Moreover, verify that the counterdiscs (17) are perfectly flat, without scrapes or pittings. In case any of the discs shows even just one of the above-mentioned faults, replace the clutch disc kit with a new one. If you are to use a new kit of clutch discs, let it soak into a bath of oil for at least one hour before its use. In any case, prior to assembling the clutch disc kit, lubricate the contact surfaces of the counterdiscs with oil. Check that the hole of the input shaft on the rear half box does not show damages that could cause leaks when the clutch is assembled. Check that the grooves of the input shaft are not damaged by the steel discs.

213

214

SECTION 21 - TRANSMISSION

2WS forward - reverse gear clutch Disc number (each side)

Counterdisc number (each side)

Rated thickness of disc Disc kit nominal thickness [with 163 kg (359.34 lbs) of load] Disc maximum wear (each side)

A. Reverse B. Forward 1. Clutch disc (no. 6) 2. Clutch counterdisc (no. 3) 3. Clutch counterdisc (no. 3)

2.4 ± 0.05 mm (0.09 ± 0.002 in) 29.00 ÷ 29.20 mm (1.14 ± 1.15 in) 0.35 mm (0.01 in)

SECTION 21 - TRANSMISSION

215

4WS forward gear clutch Disc number (each side)

Counterdisc number (each side)

Rated thickness of disc Disc kit nominal thickness [with 163 kg (359.34 lbs) of load] Disc maximum wear (each side)

A. Reverse B. Forward 1. Reverse clutch disc (no. 6) 2. Reverse clutch counterdisc (no. 2) 3. Reverse clutch counterdisc (no. 2) 4. Forward clutch disc (no. 7) 5. Forward clutch counterdisc (no. 3) 6. Forward clutch counterdisc (no. 4)

2.4 ± 0.05 mm (0.09 ± 0.002 in) 33.90 ÷ 34.10 mm (1.33 ± 1.34 in) 0.35 mm (0.01 in)

216

SECTION 21 - TRANSMISSION

Shaft (D) Remove the bearing (16) from the shaft (D) by means of a puller.

Remove the bearing (37) from the shaft (D) by means of a puller.

SECTION 21 - TRANSMISSION Assembly Shaft (A) Assemble the seal ring (20) with the relevant O-ring and the seal ring (21) with the relevant inner O-ring, respectively in the outer and inner seat of the piston.

Apply a thin film of oil on the seal rings.

Insert the piston (19) by means of tool (T) 380001926 to protect the seal rings (21).

217

218

SECTION 21 - TRANSMISSION

Assemble the sleeve (5).

Assemble the spring (15) and the cover (13).

Lower the cover (13) by means of tool 380200215.

Insert the snap ring (14). NOTE: make sure that the snap ring (14) is correctly fitted into its seat.

SECTION 21 - TRANSMISSION Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

Remove the 380200215 tool and fit the pin (9).

Insert the thrust washer (8).

Insert the roller retainer (7).

219

220

SECTION 21 - TRANSMISSION

To assemble the clutch discs start with the gear (6) on the bench. Assemble the thrust washer (11) so that the reference mark on top of the plate, made during disassembly, is facing towards the gear.

Assemble the discs (18) and the counterdiscs (17) on the gear (6). The assembled clutch disc kit must contain 6 steel discs and 6 friction discs.

Use 2 screwdrivers to position the disc kit.

Assemble the snap ring (10).

SECTION 21 - TRANSMISSION Assemble the spacer (4).

Heat the bearing (3) to 80 ÷ 100 °C (176 ÷ 212 °F). Assemble the bearing (3) with tool 380200190.

Assemble the snap ring (2).

NOTE: for clarity of the seal ring installation procedure, the following photos do not show the disc kit, gear, spacer, bearing, and snap ring installed on the input shaft.

221

222

SECTION 21 - TRANSMISSION

Insert the seal ring (1).

Assemble the 380200224 tool onto the input shaft with the chamfered end facing inwards.

Let the tool 380200224 slide on the input shaft and above the spacer. The tool will stop in the correct position to install the seal ring in the groove.

Heat the seal ring to 60 ÷ 80 °C (140 ÷ 176 °F) for 5 minutes. Assemble the seal ring on the tool 380200224.

SECTION 21 - TRANSMISSION Assemble the 380200225 tool over the 380200224 tool and slide the seal ring until it reaches the groove in the shaft. Remove the tools 380200224 and 380200225, the expander/protector and the spacer from the shaft.

223

224

SECTION 21 - TRANSMISSION

Heat the bearing (24) to 80 ÷ 100 °C (176 ÷ 212 °F). By means of tool 380200197 place the bearing (24) onto the input shaft until it makes contact with the thrust washer.

Assemble the snap ring (23).

Assemble the snap rings and place the spacer in the protection (tool 380001933).

Place tool 380001933 on the shaft. The tool will stop in the correct position to install the seal ring in the groove.

SECTION 21 - TRANSMISSION Heat the seal ring to 60 ÷ 80 °C (140 ÷ 176 °F) for 5 minutes. Assemble the seal ring on the tool 380001933.

Assemble the 380001928 tool over the 380001933 tool and slide the seal ring until it reaches the groove in the shaft. Remove the tools 380001928 and 380001933.

Assemble the end of tool 380001927 with the deep chamfer onto the shaft and over the seal ring. Use a back and forth twisting motion to allow the seal compressor to slip over the top of the seal ring and seat this latter into the groove. Be careful not to damage the seal ring. After the seal ring is seated in the groove, remove the seal compressor from the shaft.

225

226

SECTION 21 - TRANSMISSION

In order to insert the other 3 rings, repeat the operations described previously, by means of following spacer rings: 380001933 for the 2nd ring; 380001933 for the 3rd ring; 380001933 for the 4th ring.

1. Lubrication oil passage 2. Forward gear clutch passage 3. Reverse gear clutch passage 4. Forward gear engagement 5. Forward gear disc kit 6. Reverse gear disc kit 7. Reverse gear engagement 8. Input shaft Apply compressed air of approximately 6 bar (87 psi) to the forward clutch passage. Listen for the forward gear piston to move and to lock the relevant disc kit. Try to shift the forward travel gear. It must not turn on the input shaft. Try to shift the reverse travel gear. It must turn freely on the input shaft. If the clutches do not work correctly, disassemble them to find the problem.

SECTION 21 - TRANSMISSION Carry out the check procedure of the clutch disc kit play on both sides of the clutch. Position the shaft on a suitable support (S) and apply load F on the counterdisc (11) surface by means of a proper buffer (T), as shown. This operation clears any possible play.

To check the backlash, supply the piston chamber with compressed air at 6 bar (87 psi) and verify the actual stroke “X” with a dial indicator. Determine clearance “X”.

Only for 2WS input shaft The piston stroke (19) and (38) must be such to ensure a play corresponding to X = 1.60 ÷ 2.45 mm (0.06 ÷ 0.10 in) If the distance is not within specification, the clutch is probably wrongly installed. Turn the clutch shaft upside down and repeat the operation for the other clutch disc kit.

Only for 4WS input shaft The piston stroke (19) and (38) must be such to ensure a play corresponding to X = 1.60 ÷ 2.45 mm (0.06 ÷ 0.10 in) Y = 1.90 ÷ 2.75 mm (0.07 ÷ 0.11 in) If the distance is not within specification, the clutch is probably wrongly installed. Turn the clutch shaft upside down and repeat the operation for the other clutch disc kit.

227

228

SECTION 21 - TRANSMISSION

Shaft (D) Assemble the bearing (16) on shaft (D) by means of tool 380200230.

Assemble the bearing (37) on shaft (D) by means of tool 380200230.

Lubricate the shaft seat (A).

Assemble shaft (D) and shaft (A). The operation is correct only if the 2 shafts are fitted at the same time.

SECTION 21 - TRANSMISSION B SHAFT

Disassembly Unscrew and remove the screws (28) and remove the 4WD oil bulkhead (29).

229

230

SECTION 21 - TRANSMISSION

Assemble on the rear end of the shaft (C) the hub (27) and tool 380200256.

Lift the 3 shafts (B), (C) and (E) simultaneously by means of tool 380200239.

Do not remove the oil bulkhead (P) and the screw (V).

Remove the seal rings (1) and (2).

S WARNING S The seal rings can be damaged.

SECTION 21 - TRANSMISSION Remove the bearing (3) and the gear (4) by means of a puller.

Remove the bearing (3) and the gear (4).

Remove the snap ring (5).

Remove the thrust washer (6).

231

232

SECTION 21 - TRANSMISSION

Remove the pin (23).

Remove the gear (8).

Remove the roller retainer (7) and the thrust washer (13).

Remove the pin (24) and the spacer (14).

SECTION 21 - TRANSMISSION Push the thrust washer (10) slightly.

Remove the snap ring (9).

Remove the thrust washer (10) by means of 2 screwdrivers.

Remove the discs (11) and the counterdiscs (12).

233

234

SECTION 21 - TRANSMISSION

Lower the cover (16) by means of tool 380200215.

Remove the snap ring (15).

Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

Remove the cover (16) and the spring (17).

SECTION 21 - TRANSMISSION Remove the sleeve (18).

Remove the piston (19) by blowing in compressed air through the delivery hole.

Remove the seal ring (26).

235

236

SECTION 21 - TRANSMISSION

Remove the bearing (25) by means of a puller.

At each disassembly check with a gauge that the total thickness of the clutch disc kit remains within the wear limits; otherwise replace the clutch disc kit (11) with a new one. Verify that all clutch discs are free from burns, that the friction surfaces are not damaged and that the grooves of the friction surfaces are well outlined. Moreover, verify that the counterdiscs (12) are perfectly flat, without scrapes or pittings. In case any of the discs shows even just one of the above-mentioned faults, replace the clutch disc kit with a new one. If you are to use a new kit of clutch discs, let it soak into a bath of oil for at least one hour before its use. In any case, prior to assembling the clutch disc kit, lubricate the contact surfaces of the counterdiscs with oil.

SECTION 21 - TRANSMISSION

237

Check that the hole of the input shaft on the rear half box does not show damages that could cause leaks when the clutch is assembled. Check that the grooves of the input shaft are not damaged by the steel discs. 2nd gear clutch Disc number (each side)

Counterdisc number (each side)

Rated thickness of disc Disc kit nominal thickness [with 163 kg (359.34 lbs) of load]

2.0 ± 0.05 mm (0.08 ± 0.002 in) 30.50 ÷ 30.70 mm (1.20 ÷ 1.21 in)

Disc maximum wear (each side)

0.20 mm (0.008 in)

Pack maximum wear (each side)

3.2 mm (0.126 in)

Assembly Assemble the bearing (25) with tool 380200190.

Assemble the seal ring (26). In order to fit the ring (26), repeat the following operations by means of spacer ring 380200224.

238

SECTION 21 - TRANSMISSION

Assemble the seal ring (20) with the relevant inner O-ring and the snap ring (21) with the relevant inner O-ring, respectively in the outer and inner seat of the piston.

Apply a thin film of oil on the seal rings recently fitted.

Insert the piston (19) by means of tool 380001926 to protect the seal rings (21).

Assemble the sleeve (18).

SECTION 21 - TRANSMISSION Assemble the spring (17) and the cover (16).

Lower the cover (16) by means of tool 380200215.

Assemble the snap ring (15).

Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

239

240

SECTION 21 - TRANSMISSION

Assemble the disc kit.

Assemble the spacer (14) and the pin (24).

Insert the thrust washer (13) and the roller retainer (7).

Assemble the thrust washer (10) and push it to end stroke on disc kit.

SECTION 21 - TRANSMISSION Assemble the snap ring (9).

Supply compressed air at low pressure to the delivery hole to push the thrust washer (10) against the snap ring (9) and align the disc teeth.

Assemble the gear (8) by paying attention not to let it slide to stroke end.

Assemble the pin (23).

241

242

SECTION 21 - TRANSMISSION

Assemble the thrust washer (6) and the snap ring (5).

Assemble the gear (4) paying attention to direct the protruding end of the groove towards the clutch and the bearing (3). Use tool 380200203.

SECTION 21 - TRANSMISSION

1. Lubrication oil passage 2. Oil passage for 2nd gear clutch 3. 2nd gear engagement 4. 2nd gear clutch disc kit 5. Input shaft Try to turn the 2nd travel gear. It must turn on the input shaft. Apply compressed air at approximately 6 bar (87 psi) to the 2nd gear clutch passage. Listen for the 2nd gear piston to move and to lock the related clutch disc kit. Try to shift the 2nd travel gear. It must not turn on the input shaft. If the clutch does not work correctly, disassemble it to find the problem. Carry out the check procedure of the clutch disc kit backlash on both sides of the FWD-REV-clutch. Position the shaft on a suitable support and apply load F on the counterdisc (10) surface by means of a proper buffer. This operation clears any possible play.

243

244

SECTION 21 - TRANSMISSION

To check the backlash, supply the piston chamber (19) with compressed air at 6 bar (87 psi) and verify the actual stroke “X” with a dial indicator. Determine clearance “X”.

Only for 2WS input shaft The piston stroke (19) must be such to ensure a play corresponding to: X = 2.20 ÷ 3.05 mm (0.09 ÷ 0.12 in) If the distance is not within specification, the clutch is probably wrongly installed.

Insert the seal rings (1) and (2). In order to insert the seal rings, repeat the following operations by means of: - spacer 380200240 for 1st and 2nd ring; - pusher 380200242 and compressor 380200241.

Assemble the bulkhead (29) and tighten the screws (28).

SECTION 21 - TRANSMISSION C SHAFT

Disassembly Unscrew and remove the screws (V1) to detach the 4WD oil bulkhead (P1).

245

246

SECTION 21 - TRANSMISSION

Assemble on the rear end of the shaft (C) the hub (61) and tool 380200256.

Lift the 3 shafts (B), (C) and (E) simultaneously by means of tool 380200239.

Do not remove the oil bulkhead (P2) and the screw (V2).

Remove tool 380200256 and sleeve (62).

SECTION 21 - TRANSMISSION Remove the bearing (58) by means of a puller.

Remove the spacer (57).

Remove the gear (54).

Overturn the assembly. Push the thrust washer (39) downwards.

247

248

SECTION 21 - TRANSMISSION

Remove the snap ring (38).

Remove the thrust washer (39) by means of 2 screwdrivers.

Remove the disc kit (40).

Lower the cover (42) so as to allow the extraction of the snap ring (41) by means of tool 380200215.

SECTION 21 - TRANSMISSION Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

Remove the snap ring (41), the cover (42) and the spring (43).

Remove the piston (44) by blowing in compressed air through the delivery hole.

If necessary, remove the seal ring (45) with the relevant O-ring from the outer seat of piston (44).

249

250

SECTION 21 - TRANSMISSION

If necessary, remove the seal ring (53) with the relevant O-ring from the gear seat (54).

Remove the gear (37) by means of a puller.

Remove the 2 bushings (47) and (56), the 2 roller retainers (46) and (55) and the spacer (50). Verify the condition of the removed components (46), (47), (50), (55) and (56).

Remove the O-rings (48) and (52) from the bushing (50).

SECTION 21 - TRANSMISSION Verify the wear condition of the seal rings (49) and (51). If necessary, cut the seal rings (49) and (51) to remove them from bushing (50).

Remove the gear (35).

Remove the roller retainer (36).

Remove the thrust washer (31). Remove the feather (32).

251

252

SECTION 21 - TRANSMISSION

Lower the counterdisc (33) slightly to release the snap ring (34).

Remove the snap ring (34).

Remove the thrust washer (33) by means of 2 screwdrivers.

Remove the disc kit (32).

SECTION 21 - TRANSMISSION Remove the pin (22).

Lower the cover (29) by means of tool 380200215.

Remove the snap ring (30).

Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

253

254

SECTION 21 - TRANSMISSION

Remove the snap ring (30), the cover (29) and the spring (28).

Pull out the piston (26) from its seat by blowing in compressed air through the delivery hole.

Remove the bushing (27) and the piston (26).

If necessary, remove the seal ring (25) with the inner O-ring from the outside seat of the piston and the seal ring (24) with the relevant O-ring from the inner seat of the piston. To remove the rings it is necessary to cut them.

SECTION 21 - TRANSMISSION Overturn the shaft (23). Remove the seal rings (16), (17), (18) and (19) by cutting them.

Remove the bearing (1) by means of a puller.

Remove the thrust washer (2).

Remove the gear (3).

255

256

SECTION 21 - TRANSMISSION

Remove the roller retainer (7) and the thrust washer (8).

Remove the pin (21).

Remove the roller retainer (7) and the thrust washer (8). Remove the feather (22).

Slightly lower the thrust washer (5) to release the snap ring (4).

SECTION 21 - TRANSMISSION Remove the snap ring (4).

Remove the thrust washer (5) by means of 2 screwdrivers.

Remove the disc kit (6).

Lower the cover (10) by means of tool 380200215.

257

258

SECTION 21 - TRANSMISSION

Remove the snap ring (9).

Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

Remove the snap ring (9), the cover (10) and the spring (11).

Pull out the piston (13) from its seat by blowing in compressed air through the delivery hole.

SECTION 21 - TRANSMISSION Remove the bushing (12) and the piston (13).

If necessary, remove the seal ring (15) with the inner O-ring from the outside seat of the piston and the seal ring (14) with the relevant O-ring from the inner seat of the piston. To remove the rings it is necessary to cut them.

259

260

SECTION 21 - TRANSMISSION

If you are to re-use the clutch discs, observe the assembly order.

At each disassembly check with a gauge that the total thickness of the clutch discs remains in the wear limits; otherwise replace the clutch disc kit (B) with a new one. Verify that all clutch discs are free from burns, that the friction surfaces are not damaged and that the grooves of the friction surfaces are well outlined. Moreover, verify that the counterdiscs (A) are perfectly flat, without scrapes or pittings. In case any of the discs shows even just one of the above-mentioned faults, replace the clutch disc kit with a new one. If you are to use a new kit of clutch discs, let it soak into a bath of oil for at least one hour before its use. In any case, prior to assembling the clutch disc kit, lubricate the contact surfaces of the counterdiscs with oil. Check that the hole of the input shaft on the rear half box does not show damages that could cause leaks when the clutch is assembled. Check that the grooves of the input shaft are not damaged by the steel discs.

SECTION 21 - TRANSMISSION

261

1st gear clutch Disc number (each side)

Counterdisc number (each side)

Rated thickness of disc

2.20 ± 0.05 mm (0.09 ± 0.002 in)

Disc kit nominal thickness [with 163 kg (359.34 lbs) of load]

27.50 ÷ 27.70 mm (1.08 ÷ 1.09 in)

Disc maximum wear (each side)

0.15 mm (0.006 in)

Pack maximum wear (each side)

1.8 mm (0.071 in)

3rd gear clutch Disc number (each side)

Counterdisc number (each side)

Rated thickness of disc

2.00 ± 0.05 mm (0.08 ± 0.002 in)

Disc kit nominal thickness [with 163 kg (359.34 lbs) of load]

30.50 ÷ 30.70 mm (1.20 ÷ 1.21 in)

Disc maximum wear (each side)

0.20 mm (0.008 in)

Pack maximum wear (each side)

3.2 mm (0.126 in)

4th gear clutch Disc number (each side)

Counterdisc number (each side)

Rated thickness of disc

2.00 ± 0.05 mm (0.08 ± 0.002 in)

Disc kit nominal thickness [with 163 kg (359.34 lbs) of load]

15.90 ÷ 16.10 mm (0.62 ÷ 0.63 in)

Disc maximum wear (each side)

0.20 mm (0.008 in)

Pack maximum wear (each side)

1.6 mm (0.063 in)

262

SECTION 21 - TRANSMISSION

Assembly Assemble the seal ring (53) and the relevant O-ring on gear (54) by means of tool 380200248. Assemble the O-ring (52).

Adjust the seal ring (53) by means of tool 380200250.

Assemble the seal ring (45) and the relevant O-ring on piston (44).

Apply a thin film of grease on the outer edge and in the inner part of the piston (44) and fit it to the gear (54).

SECTION 21 - TRANSMISSION Insert the spring (43), the cover (42) and the snap ring (41).

Lower the cover (42) by means of tool 380200215.

Insert the snap ring (41). Make sure that the snap ring (41) is correctly fitted into its seat.

Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

263

264

SECTION 21 - TRANSMISSION

Insert the kit (40) and the thrust washer (39) into the gear (54).

Assemble the snap ring (38) making sure it is correctly seated.

Assemble the seal ring (25) with the relevant O-ring and the snap ring (24) with the relevant O-ring, respectively in the outer and inner seat of the piston (26).

Apply a thin film of oil on the seal rings recently fitted.

SECTION 21 - TRANSMISSION Insert the piston (26) by means of tool 380001926 to protect the seal rings.

Assemble the sleeve (27).

Assemble the spring (28) and the cover (29).

Lower the cover (29) by means of tool 380200215.

265

266

SECTION 21 - TRANSMISSION

Insert the snap ring (30). Make sure that the snap ring (30) is correctly fitted into its seat.

Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

Remove the 380200215 tool and fit the pin (21).

Insert the thrust washer (31) on the shaft (23). Apply a thin film of grease under the thrust washer (31) to prevent its falling when overturning the shaft.

SECTION 21 - TRANSMISSION Assemble the thrust washer (31) by inserting it on pin (22).

Assemble the feather (22) and the thrust washer (31). Apply a thin film of grease under the thrust washer (31) to prevent its falling when overturning the shaft.

Insert the disc and counterdisc kit (32) onto the main shaft (23).

Assemble the roller retainer (36) and the thrust washer (33).

267

268

SECTION 21 - TRANSMISSION

Assemble the snap ring (34).

Supply compressed air at low pressure into hole (a) to push the thrust washer (33) against the snap ring (34).

Assemble the gear (35) by paying attention not to let it slide to stroke end.

Insert the gear (37) on the shaft (23).

SECTION 21 - TRANSMISSION Insert the gear (54) on the shaft (23).

Assemble the bushing (47) and the bearing (46) with tool 380200190.

Assemble the O-rings (48) and (52) on the bushing (50).

269

270

SECTION 21 - TRANSMISSION

Assemble new seal rings (49) and (51) on bushing (50) by means of tools 380200251, 380200252 and 380200253.

Assemble the bushing (50) and the shaft (23) with tool 380200190. The reference marks must be directed upwards.

Assemble the bushing (56) and the bearing (55) with tool 380200190.

SECTION 21 - TRANSMISSION Assemble the spacer (57).

Assemble the bearing (58) with tool 380200190.

Assemble the hub (61) and tool 380200256.

Turn the shaft. Assemble the O-ring with relevant ring (14) in the outer seat of piston (13). Assemble the O-ring with relevant ring (15) in the inner seat of piston (13).

271

272

SECTION 21 - TRANSMISSION

Apply a thin film of oil on the seal rings recently fitted.

Insert the piston (13) by means of tool 380001926 to protect the seal rings.

Assemble the sleeve (12).

Assemble the spring (11) and the cover (10).

SECTION 21 - TRANSMISSION Lower the cover (10) by means of tool 380200215.

Insert the snap ring (9). Make sure that the snap ring (9) is correctly fitted into its seat.

Loosen the knobs of the threaded bars to clear the spring tension. Remove the upper part of tool 380200215.

Assemble the pin (21).

273

274

SECTION 21 - TRANSMISSION

Insert the disc kit (6) on the shaft (23).

Assemble the thrust washer (5).

Assemble the snap ring (4).

Supply compressed air at low pressure into the supply hole to push the thrust washer (5) against the snap ring (4).

SECTION 21 - TRANSMISSION Assemble the thrust washer (8) and the roller retainer (7).

Assemble the feather (22), the thrust washer (8) and the roller retainer (7).

Assemble the gear (3).

Assemble the thrust washer (2).

275

276

SECTION 21 - TRANSMISSION

Assemble the bearing (1) with tool 380200190.

Assemble the seal rings (16), (17), (18) and (19) by means of tool 380200224.

SECTION 21 - TRANSMISSION

277

1. 1st gear clutch oil passage 2. 3rd gear clutch oil passage 3. 4th gear clutch oil passage 4. 3rd gear engagement 5. 3rd gear disc kit 6. 4th gear disc kit 7. 4th gear engagement 8. 1st gear engagement 9. 1st gear disc kit 10. Main shaft 11. Lubrication oil passage Check that all gears turn freely on main shaft. Apply compressed air at approximately 6 bar (87 psi) to the 1st gear clutch passage. Listen for the 1st gear piston to move and to lock the related clutch disc kit. Try to shift the 1st travel gear. It must not turn on the main shaft. If the clutch does not work correctly, disassemble it to find the problem. Apply compressed air at approximately 6 bar (87 psi) to the 3rd gear clutch passage.

Listen for the 3rd gear piston to move and to lock the related clutch disc kit. Try to shift the 3rd travel gear. It must not turn on the main shaft. If the clutch does not work correctly, disassemble it to find the problem. Apply compressed air at approximately 6 bar (87 psi) to the 4th gear clutch passage. Listen for the 4th gear piston to move and to lock the related clutch disc kit. Try to shift the 4th travel gear. It must not turn on the main shaft.

If the clutch does not work correctly, disassemble it to find the problem.

278

SECTION 21 - TRANSMISSION

Carry out the check procedure of the clutch disc kit play. Position the shaft on a suitable support and apply load F on the surface of the clutch counterdisc by means of a proper buffer (T). This operation clears any possible play.

To check the backlash, supply the piston chamber (26) with compressed air at 6 bar (87 psi) and verify the actual stroke “X” with a dial indicator. Determine clearance “X”.

The piston stroke (26) must be such to ensure a play corresponding to: X = 0.5 ÷ 1.95 mm (0.020 ÷ 0.077 in) If the distance is not within specification, the clutch is probably wrongly installed.

The piston stroke (13) must be such to ensure a play corresponding to: X = 2.20 ÷ 3.05 mm (0.09 ÷ 0.12 in) If the distance is not within specification, the clutch is probably wrongly installed.

SECTION 21 - TRANSMISSION The piston stroke (44) must be such to ensure a play corresponding to: X = 1.725 รท 2.375 mm (0.068 รท 0.093 in) If the distance is not within specification, the clutch is probably wrongly installed.

Hook the 3 shafts (B), (C) and (E) by means of tool 380200239. Lift the shafts (B), (C) and (E) at the same time and insert the assy into the half box.

Assemble the bulkhead (P1) and tighten the screws (V1).

279

280

SECTION 21 - TRANSMISSION

E SHAFT (Only for 2WS)

* = 4WD shaft set Disassembly Unscrew and remove the screws to detach the 4WD oil bulkhead.

SECTION 21 - TRANSMISSION Assemble on the rear end of the shaft (C) the hub and tool 380200256.

Lift the 3 shafts (B), (C) and (E) simultaneously by means of tool 380200239.

Do not remove the oil bulkhead (P) and the screw (V).

Remove the seal rings (22) and (23).

281

282

SECTION 21 - TRANSMISSION

Remove the bearings (21) and (1) by means of a puller. Remove the spacer (20).

Remove the gear (18).

Remove the roller retainer (19).

Overturn the shaft. Press the belleville washers and remove the snap ring (2) by means of tool 380200258.

SECTION 21 - TRANSMISSION Remove the shims (3) and the thrust washer (4).

Remove the belleville washers (5) and the spacer (6).

Remove the snap ring (17).

Remove the thrust washer (16) and the disc and counterdisc kit (15).

283

284

SECTION 21 - TRANSMISSION

Remove the counterdisc (14).

Take out the piston (8).

Remove the inner (7) and outer O-ring (9) from the piston (8).

Remove the pins (10) and the O-rings (11).

SECTION 21 - TRANSMISSION

285

If you are to re-use the clutch discs, observe the assembly order.

At each disassembly check with a gauge that the total thickness of the clutch discs remains in the wear limits; otherwise replace the clutch disc kit (11) with a new one. Verify that all clutch discs are free from burns, that the friction surfaces are not damaged and that the grooves of the friction surfaces are well outlined. Moreover, verify that the counterdiscs (12) are perfectly flat, without scrapes or pittings. In case any of the discs shows even just one of the above-mentioned faults, replace the clutch disc kit with a new one. If you are to use a new kit of clutch discs, let it soak into a bath of oil for at least one hour before its use. In any case, prior to assembling the clutch disc kit, lubricate the contact surfaces of the counterdiscs with oil. Check that the hole of the input shaft on the rear half box does not show damages that could cause leaks when the clutch is assembled. Check that the grooves of the input shaft are not damaged by the steel discs. 4WD clutch Disc number (each side)

Counterdisc number (each side)

Rated thickness of disc

2.00 ± 0.05 mm (0.08 ± 0.002 in)

Disc kit nominal thickness [with 163 kg (359.34 lbs) of load]

33.80 ÷ 34.00 mm (1.33 ÷ 1.34 in)

Disc maximum wear (each side)

0.15 mm (0.006 in)

Pack maximum wear (each side)

2.7 mm (0.106 in)

286

SECTION 21 - TRANSMISSION

Assembly Insert the inner O-ring (7) and the outer O-ring (9) on the piston (8).

Insert the O-rings (11) on the related pins (10).

Insert the pins (10) on the piston (8).

Apply a thin film of grease on the O-rings and position the pins on piston (8) in order to match the holes of the output shaft.

SECTION 21 - TRANSMISSION Overturn the shaft (12) and insert the piston (8).

Insert the counterdisc (14) with the chamfer downwards into the shaft (12).

Assemble the disc and counterdisc kit starting with a counterdisc (A) followed by a disc (B).

Assemble the thrust washer (16) on the shaft (12).

287

288

SECTION 21 - TRANSMISSION

Assemble the snap ring (17).

Assemble the gear (18).

Assemble the roller retainer (19) and the spacer (20).

Assemble the bearing (21) with tool 380200190.

SECTION 21 - TRANSMISSION Turn the shaft (12). Make sure that the disc, counterdisc kit and the piston are correctly seated.

Pre-assemble the spacer (6), the thrust washer (4) and the snap ring (2).

With a thickness gauge determine the value of “X” between the thrust washer (4) and the snap ring (2).

To value “X” subtract the fixed measure “S1” of 1.80 mm (0.071 in) corresponding to the piston stroke. The resulting measure “S” corresponds to the height of the shim that must be inserted between the thrust washer (4) and the snap ring (2). S = X - S1 = X - 1.80 mm (0.071 in)

289

290

SECTION 21 - TRANSMISSION

Choose the shim with value “S” from the shim range available. NOTE: in any case, choose the shim ensuring a piston stroke of 1.70 ÷ 1.90 mm (0.067 ÷ 0.075 in). SHIM RANGE Shims mm (in)

0.1 (0.004)

0.3 (0.012)

0.5 (0.02)

Remove the thrust washer (4) and the snap ring (2).

Insert the belleville washers (5). Check the proper orientation of the belleville washers (5).

Assemble the thrust washer (4) and the shims (3) with size “S” previously calculated.

SECTION 21 - TRANSMISSION Press the belleville washers and fit the snap ring (2) by means of tool 380200275. The springs can cause damages to persons if the snap ring is not assembled correctly.

Assemble the bearing (1) with tool 380200203.

Assemble the seal rings (22) and (23). Use tool 380200224.

Use tool 380200223 to check piston operation and verify correct adjustment.

291

292

SECTION 21 - TRANSMISSION

In order to check the sealing of rings (7) and (9), put the piston chamber under pressure with oil at 10 bar (145 psi) and verify with a dial gauge that the actual stroke is 1.70 รท 1.90 mm (0.067 รท 0.075 in).

1. 4WD oil passage 2. 4WD gear 3. 4WD lubricant oil passage 4. Shaft 5. Belleville washers Apply compressed oil pressure of approximately 10 bar (145 psi) to the 4WD clutch passage. Listen for the piston to move and to unlock the related clutch disc kit. The belleville washers compress themselves. Try to shift the 4WD gear. It must turn freely on the 4WD shaft. If the clutches do not work correctly, disassemble them to find the problem.

SECTION 21 - TRANSMISSION Lift the 3 shafts (B), (C) and (E) at the same time and insert the assy into the half box by means of tool 380200239.

Assemble the bulkhead and tighten the screws.

293

294

SECTION 21 - TRANSMISSION

E SHAFT (Only for 2WS)

* = 4WD shaft set Disassembly Unscrew and remove the screws to detach the 4WD oil bulkhead.

SECTION 21 - TRANSMISSION Assemble on the rear end of the shaft (C) the hub and tool 380200256.

Lift the 3 shafts (B), (C) and (E) simultaneously by means of tool 380200239.

Do not remove the oil bulkhead (P) and the screw (V).

Remove the seal rings (25) and (26).

295

296

SECTION 21 - TRANSMISSION

Remove the bearings (1) and (24) by means of a puller. Remove the spacer (23).

Remove the gear (21).

Remove the roller retainer (22).

Remove the thrust washer (20).

SECTION 21 - TRANSMISSION Overturn the shaft (13). Press the belleville washers (5) and remove the snap ring (2) by means of tool 380200258.

Remove the shims (3) and the thrust washer (4).

Remove the belleville washers (5) and the spacer (6).

Overturn the shaft (13). Remove the bell housing assy from the shaft.

297

298

SECTION 21 - TRANSMISSION

Remove the O-ring (15).

Remove the snap ring (19).

Remove the thrust washer (18) and the disc and counterdisc kit (15).

Remove the 4WD disc and counterdisc kit (17).

SECTION 21 - TRANSMISSION Remove the counterdisc (16).

Take out the piston (8) by means of pins (10).

Remove the inner (7) and outer O-ring (9) from the piston (8).

Remove the pins (10) and the O-rings (11).

299

300

SECTION 21 - TRANSMISSION

If you are to re-use the clutch discs, observe the assembly order.

4WD clutch Disc number (each side)

Counterdisc number (each side)

Rated thickness of disc

2.00 ± 0.05 mm (0.08 ± 0.002 in)

Disc kit nominal thickness [with 163 kg (359.34 lbs) of load]

33.80 ÷ 34.00 mm (1.33 ÷ 1.34 in)

Disc maximum wear (each side)

0.15 mm (0.006 in)

Pack maximum wear (each side)

2.7 mm (0.106 in)

SECTION 21 - TRANSMISSION Assembly Insert the inner O-ring (7) and the outer O-ring (9) on the piston (8).

Insert the O-rings (11) on the related pins (10).

Insert the pins (10) on the clutch piston (8).

Apply a thin film of grease on the O-rings and position the pins on piston (8) in order to match the holes of the output shaft (12).

301

302

SECTION 21 - TRANSMISSION

Overturn the bell housing (12) and insert the piston (8).

Insert the brake counterdisc (16) with the chamfer downwards into the bell housing (12).

Assemble the disc and counterdisc kit (17) starting with a counterdisc (A) followed by a disc (B).

Assemble the thrust washer (18).

SECTION 21 - TRANSMISSION Assemble the snap ring (17).

Assemble the O-ring (15).

Assemble the shaft (13).

Turn the shaft (13) and the bell housing (12). Make sure that the disc and counterdisc kit and the piston are correctly seated.

303

304

SECTION 21 - TRANSMISSION

Pre-assemble the spacer (6), the thrust washer (4) and the snap ring (2).

With a thickness gauge determine the value of “X” between the thrust washer (4) and the snap ring (2).

Choose the shim with value “S” from the shim range available. NOTE: in any case, choose the shim ensuring a piston stroke of 1.70 ÷ 1.90 mm (0.067 ÷ 0.075 in). SHIM RANGE Shims mm (in)

0.1 (0.004)

0.3 (0.012)

0.5 (0.02)

SECTION 21 - TRANSMISSION Remove the thrust washer (4) and the snap ring (2).

Insert the belleville washers (5).

Check the proper orientation of the belleville washers (5).

Assemble the thrust washer (4) and the shims (3) with size “S” previously calculated.

305

306

SECTION 21 - TRANSMISSION

Press the belleville washers and fit the snap ring (2) by means of tool 380200275. The springs can cause damages to persons if the snap ring is not assembled correctly.

Assemble the bearing (1) with tool 380200203.

Assemble the thrust washer (20).

Assemble the gear (21).

SECTION 21 - TRANSMISSION Assemble the roller retainer (22) and the spacer (23).

Assemble the bearing (24) with tool 380200190.

Assemble the seal rings (25) and (26) by means of tool 380200224.

Use tool 380200223 to check piston operation and verify correct adjustment.

307

308

SECTION 21 - TRANSMISSION

In order to check the sealing of the rings, put the piston chamber under pressure with oil at 10 bar (145 psi) and verify with a dial gauge that the actual stroke is 1.70 รท 1.90 mm (0.067 รท 0.075 in).

SECTION 21 - TRANSMISSION Lift the 3 shafts (B), (C) and (E) at the same time and insert the assy into the half box by means of tool 380200239.

Assemble the bulkhead and tighten the screws.

309

310

SECTION 21 - TRANSMISSION

E SHAFT (Only 4WS)

Disassembly Unscrew and remove the screws to detach the 4WD oil bulkhead.

SECTION 21 - TRANSMISSION Lift the 3 shafts (B), (C) and (E) simultaneously by means of tool 380200239.

Do not remove the oil bulkhead (P) and the screw (V).

Remove the seal rings (24), (25) and (26).

Remove the gear (22).

311

312

SECTION 21 - TRANSMISSION

Remove the O-ring (21).

Remove the snap ring (19). Remove the bearing (19) by means of a puller.

Remove the snap ring (16). Remove the thrust washer (18) and the disc and counterdisc kit (14).

Remove the counterdisc (13).

SECTION 21 - TRANSMISSION Overturn the shaft (17). Press the belleville washers (5) and remove the snap ring (2) by means of tool 380200258.

Remove the shims (3) and the thrust washer (4).

Remove the belleville washers (5) and the spacer (6).

Remove the bell housing (12) from the shaft (17). Remove the O-ring (18).

313

314

SECTION 21 - TRANSMISSION

Take out the piston (8) by means of pins (10).

Remove the inner (7) and outer O-ring (9) from the piston (8).

Remove the pins (10) and the O-rings (11).

If you are to re-use the clutch discs, observe the assembly order.

SECTION 21 - TRANSMISSION

315

At each disassembly check with a gauge that the total thickness of the clutch discs remains in the wear limits; otherwise replace the clutch disc kit with a new one. Verify that all clutch discs (b) are free from burns, that the friction surfaces are not damaged and that the grooves of the friction surfaces are well outlined. Moreover, verify that the counterdiscs (a) are perfectly flat, without scrapes or pittings. In case any of the discs shows even just one of the above-mentioned faults, replace the clutch disc kit with a new one. If you are to use a new kit of clutch discs, let it soak into a bath of oil for at least one hour before its use. In any case, prior to assembling the clutch disc kit, lubricate the contact surfaces of the counterdiscs with oil. Check that the hole of the input shaft on the rear half box does not show damages that could cause leaks when the clutch is assembled. Check that the grooves of the input shaft are not damaged by the steel discs. 4WD clutch Disc number (each side)

Counterdisc number (each side)

Rated thickness of disc

2.00 ± 0.05 mm (0.08 ± 0.002 in)

Disc kit nominal thickness [with 163 kg (359.34 lbs) of load]

33.80 ÷ 34.00 mm (1.33 ÷ 1.34 in)

Disc maximum wear (each side)

0.15 mm (0.006 in)

Pack maximum wear (each side)

2.7 mm (0.106 in)

316

SECTION 21 - TRANSMISSION

Assembly Insert the inner O-ring (7) and the outer O-ring (9) on the piston (8).

Insert the O-rings (11) on the related pins (10).

Insert the pins (10) on the piston (8).

Apply a thin film of grease on the O-rings and position the pins on piston (8) in order to match the holes of the output shaft (12).

SECTION 21 - TRANSMISSION Overturn the bell housing (12) and insert the piston (8).

Insert the brake counterdisc (13) with the chamfer downwards into the clutch bell housing (12).

Assemble the disc and counterdisc kit (14) starting with a counterdisc (A) followed by a disc (B).

Assemble the thrust washer (15).

317

318

SECTION 21 - TRANSMISSION

Assemble the O-ring (18) on the shaft (17). Turn the shaft (17) on the bell housing (12).

Turn the shaft (13) and the bell housing (12). Make sure that the disc, counterdisc kit and the piston are correctly seated.

Pre-assemble the spacer (6), the thrust washer (4) and the snap ring (2).

With a thickness gauge determine the value of â&#x20AC;&#x153;Xâ&#x20AC;? between the thrust washer (4) and the snap ring (2).

SECTION 21 - TRANSMISSION To value “X” subtract the fixed measure “S1” of 1.80 mm (0.071 in) corresponding to the piston stroke. The resulting measure “S” corresponds to the height of the shim that must be inserted between the thrust washer (4) and the snap ring (2). S = X - S1 = X - 1.80 mm (0.071 in)

Choose the shim with value “S” from the shim range available. NOTE: in any case, choose the shim ensuring a piston stroke of 1.70 ÷ 1.90 mm (0.067 ÷ 0.075 in). SHIM RANGE Shims mm (in)

0.1 (0.004)

0.3 (0.012)

0.5 (0.02)

Remove the thrust washer (4) and the snap ring (2).

319

320

SECTION 21 - TRANSMISSION

Insert the belleville washers (5).

Check the proper orientation of the belleville washers (5).

Assemble the thrust washer (4) and the shims (3) with size â&#x20AC;&#x153;Sâ&#x20AC;? previously calculated.

Press the belleville washers and fit the snap ring (2) by means of tool 380200275. The springs can cause damages to persons if the snap ring is not assembled correctly.

SECTION 21 - TRANSMISSION Turn the shaft (17) and the bell housing (12). Assemble the bearing (19) with tool 380200229. Assemble the snap ring (20).

Assemble the O-ring (21).

Assemble the gear (22).

Assemble the bearing (24) with tool 380200220.

321

322

SECTION 21 - TRANSMISSION

Fitting diagram of bearing (23).

Assemble the seal rings (24), (25) and (26).

Use tools 380200264, 380001927 and 380001928.

Fitting diagram of tool (T) 380200264.

SECTION 21 - TRANSMISSION Use tool 380200265 to check piston operation and verify correct adjustment.

1. 4WD oil passage 2. 4WD gear 3. Bearing lubrication 4. Shaft 5. Belleville washers 6. Bearing

323

324

SECTION 21 - TRANSMISSION

Apply compressed oil pressure of approximately 10 bar (145 psi) to the 4WD clutch passage. Listen for the piston to move and to unlock the related clutch disc kit. The belleville washers compress themselves. Try to shift the 4WD gear. It must turn freely on the 4WD shaft. If the clutches do not work correctly, disassemble them to find the problem. Lift the 3 shafts (B), (C) and (E) at the same time and insert the assy into the half box by means of tool 380200239.

Assemble the bulkhead and tighten the screws.

SECTION 21 - TRANSMISSION

325

TROUBLESHOOTING FAULT The vehicle does not move.

POSSIBLE CAUSE

ACTION

Control valve supply problem.

Check and, if necessary, replace the control valves.

Damaged connections of transmission and vehicle wiring harness.

Repair and, if necessary, replace the wiring harness.

Oxidation in the contacts of the electric cables of the wiring harness.

Clean the contacts.

Interruption of the electric cable.

Replace the electric cable.

Damage to the solenoids/solenoid valves.

Replace the solenoids.

Damage to sensors.

Replace sensors.

Short circuits or bad contact.

Check and, if necessary, replace the fuses.

EGM/ECU gearshift electronic control operation fault.

Replace the electronic control of the EGM/ECU gearshift.

Incorrect oil level.

Restore the oil level.

Check for possible oil leaks.

Eliminate the leaks and restore the oil level.

Suction strainer restriction.

Clean the suction strainer.

Damaged oil pump.

Replace the oil pump.

Damaged oil pump pressure relief valve.

Replace the oil pump.

Damaged/restricted filter.

Replace the filter.

Damaged / stuck control valve.

Replace the control valve.

Damaged converter.

Replace the converter.

Oil temperature below 0 Â°C (32 Â°F).

Wait for the operating temperature to be reached (stall test).

Damaged rotary seal rings.

Replace the rotary seal rings.

Stuck shuttle lever.

Repair the shuttle lever.

Excessively worn-out clutch assembly. Repair and, if necessary, replace the clutch discs. Lack of motion transmission (broken gears, shafts, bearings, etc.).

Check, repair and, if necessary, replace.

326

SECTION 21 - TRANSMISSION

FAULT

POSSIBLE CAUSE The brake does not release.

The vehicle has a reduced power transmission.

Overheating.

Incorrect oil temperature.

Wait for the operating temperature to be reached (stall test).

Transmission oil overheating.

Restore acceptable temperature values.

Incorrect operating pressures.

Check the hydraulic circuit and replace (oil pump, filters, control valve).

Damaged converter.

Replace the converter.

Incorrect oil level.

Restore the oil level.

Worn-out clutch assembly.

Replace/repair.

4WD fails to engage.

Repair/replace the 4WD shaft assy.

Overheated solenoids/solenoid valves.

Replace.

Damaged connections of transmission and vehicle wiring harness.

Repair and, if necessary, replace the wiring harness.

Software of EGM/ECU gearshift electronic control faulty.

Replace EGM/ECU.

Damage to sensors.

Replace sensors.

Damaged cooling system.

Repair the cooling system.

Dirty heat exchanger.

Clean the heat exchanger.

Unintentionally activated parking brake.

Deactivate the parking brake.

Excessive soil deposit on axle wheel hubs.

Clean the axle wheel hubs.

SECTION 21 - TRANSMISSION

FAULT

Wheel rotation with lifted vehicle.

Noise.

Irregular coupling.

POSSIBLE CAUSE

327

ACTION

Seizure (broken gears, shafts, bearings, etc.).

Check, repair and, if necessary, replace.

Braking force external to transmission: axle operating problem.

Check and repair the axle.

Dragging of clutch discs.

Repair and, if necessary, replace the clutch discs.

Damaged converter.

Replace the converter.

Damaged oil thermostat.

Replace the oil thermostat.

Incorrect oil level.

Restore the oil level.

Worn-out oil pump.

Replace the oil pump.

Dragging of clutch discs.

Repair and, if necessary, replace the clutch discs.

Low oil temperature (high oil viscosity).

Wait for the operating temperature to be reached (stall test).

Incorrect oil gradient.

Change oil and filters.

Damaged control valve.

Replace the control valve.

Stuck shuttle lever.

Repair and, if necessary, replace the shuttle lever.

Damaged converter.

Replace the converter.

Damaged oil pump.

Replace the oil pump.

Ventilation/Cavitation.

Check the oil level. Check the oil gradient.

Seizure (broken gears, shafts, bearings, etc.).

Check, repair and, if necessary, replace.

Worn-out clutch discs.

Replace the clutch discs.

Damaged hydraulic control valve.

Replace the control valves.

Electric system fault.

Repair the electric system.

Worn-out clutch discs.

Replace the clutch discs.

Damaged converter.

Replace the converter.

Low oil temperature (high oil viscosity).

Wait for the operating temperature to be reached (stall test).

Overheating.

See â&#x20AC;&#x153;overheatingâ&#x20AC;?.

EGM/ECU gearshift electronic control operation fault.

Replace EGM/ECU.

Damaged hydraulic system.

Repair the hydraulic system.

328

SECTION 21 - TRANSMISSION

FAULT

POSSIBLE CAUSE

The gear remains engaged.

Damaged/stuck shuttle lever.

Repair and, if necessary, replace the shuttle lever.

Electric system fault.

Repair the electric system.

Damaged control valve.

Replace the control valve.

Damaged hydraulic system.

Repair the hydraulic system.

Damaged clutch assembly.

Repair and, if necessary, replace the clutch assembly.

EGM/ECU gearshift electronic control operation fault.

Replace EGM/ECU.

Damaged 4WD connection assy.

Replace the 4WD coupling assy.

Hydraulic system fault.

Repair the hydraulic system.

Damaged control valve.

Replace the control valve.

Braking sensor fault.

Check and, if necessary, replace the braking sensors.

Electric system fault.

Repair the electric system.

EGM/ECU gearshift electronic control operation fault.

Replace EGM/ECU.

Damaged clutch engagement assy.

Replace the clutch engagement assy.

Damaged hydraulic system.

Repair the hydraulic system.

Damaged control valve.

Replace the control valve.

Damaged pressure sensors.

Check and, if necessary, replace the sensors.

Electric system fault.

Repair the electric system.

EGM/ECU gearshift electronic control operation fault.

Replace EGM/ECU.

Lack of 4WD power transmission.

Gear fails to engage.

ACTION

SECTION 21 - TRANSMISSION

329

TRANSMISSION ERROR CODES CODE

DESCRIPTION

Amber Telltale LED

Red Telltale LED

4000

Power supply (pin 2), forward FWD drive (pin 3), or RVS (pin 4) drive shorted to ground.

4001

Power supply (pin 5), PWM 1 drive (pin 6), or reverse PWM2 drive (pin 7) shorted to ground.

4002

Power supply for digital outputs (pin 8) does not have power.

4004

Battery voltage (Pin 34) voltage below 10 volts for 2.5 seconds with engine speed above 900 rpm.

4005

Downshift delayed due to possible engine overspeed condition.

4006

FWD input (Pin 12) feedback circuit is reading too much current with command. (>1.1 A for 1ms).

4007

FWD input (Pin 12) current is less than 0.05 A with more than 0.1 A commanded for more than 250 ms.

4008

FWD solenoid is drawing more current than commanded.

4009

FWD solenoid is drawing less current than commanded.

4011

RVS input (pin 40) feedback circuit is reading too much current with command. (>1.1 A for 1ms).

4012

RVS input (pin 40) current is less than 0.05 A with more than 0.1 A commanded for more than 250 ms.

4013

RVS solenoid is drawing more current than commanded.

4014

RVS solenoid is drawing less current than commanded.

4016

First and third shift modulation solenoid input (pin 13) feedback circuit is reading too much current with command. (>1.1 A for 1ms).

4017

First and third shift modulation solenoid input (pin 13) current is less than 0.05 A with more than 0.1 A commanded for more than 250 ms.

4018

First and third shift modulation solenoid is drawing more current than commanded.

4019

First and third shift modulation solenoid is drawing less current than commanded.

4021

Second and fourth shift modulation solenoid input (pin 41) feedback circuit is reading too much current with command. (>1.1 A for 1ms).

330

SECTION 21 - TRANSMISSION

CODE

DESCRIPTION

Amber Telltale LED

Red Telltale LED

4022

Second and fourth shift modulation solenoid input (pin 41) current is less than 0.05 A with more than 0.1 A commanded for more than 250 ms.

4023

Second and fourth shift modulation solenoid is drawing more current than commanded.

4024

Second and fourth shift modulation solenoid is drawing less current than commanded.

4026

First / Third shift solenoid shorted to ground.

4027

Second / Fourth shift solenoid shorted to ground.

4028

Differential lock or 4 wheel drive solenoid shorted to ground.

4029

Shift lever improperly connected, no power to pin 16, pin 18, or pin 46 for more than 3 seconds.

4030

Shift lever malfunction; transmission in neutral receives forward and neutral together more than 5 seconds.

4031

Shift lever malfunction; transmission in neutral receives reverse and neutral together more than 5 seconds.

4032

Shift lever malfunction; transmission in forward receives forward and reverse together more than 5 seconds.

4033

Shift lever malfunction; transmission in reverse receives forward and reverse together more than 5.

4034

Shift lever malfunction; transmission in forward receives neutral and forward together more than 5 seconds.

4035

Shifter lever malfunction; transmission in reverse receives neutral and reverse together more than 5 seconds.

4036

During transition from second to third gear, and GearCMD_01 signal erratic or incorrect.

4037

During transition from first to second gear, and GearCMD_02 signal erratic or incorrect.

4038

During transition from third to fourth gear, and GearCMD_02 signal erratic or incorrect.

4039

Vehicle speed exceeding 12 km/hr limit in crab or circle mode. LCD display shall be 4ws symbol.

4040

Transmission Controller Driveline Configuration.

4041

Transmission output shaft frequency above 3000 Hz detected. (0.5 second debouce).

SECTION 21 - TRANSMISSION

331

CODE

DESCRIPTION

Amber Telltale LED

Red Telltale LED

4042

Temperature signal erratic or incorrect (Consecutive samples differ by more than 50Â°C).

4043

Temperature sensor input (Pin 43) is shorted to a ground.

4044

Temperature sensor input (Pin 43) is open circuited or shorted to a voltage above 5 volts.

4045

Charge pressure is not detected when engine speed is above 700 rpm for 10 seconds.

4046

Charge pressure is not detected for 0.5 seconds and vehicle speed is over 10 km/hr.

4047

Charge pressure switch is closed with no frequency input to the TRAX controller.

4100

Missing EEC1 message on CAN.

4101

Internal TRAX failure, hardware measurement, replace TRAX controller if reoccurring.

4102

Internal TRAX failure, software timing, replace TRAX controller if reoccurring.

4103

Internal TRAX failure, software not running, replace TRAX controller if reoccurring.

4105

Internal TRAX failure, redundant flash memory, replace TRAX controller if reoccurring.

4106

Internal TRAX failure, sensor supply high, replace TRAX controller if reoccurring.

4107

Internal TRAX failure, sensor supply low, replace TRAX controller if reoccurring.

4300

CANBus speed sensor message missing.

4301

CANBus speed sensor frequency input out of range.

4302

CANBus speed sensor frequency input erratic.

4303

CANBus speed sensor frequency input abnormal rate of change.

4304

CANBus speed sensor supply voltage too low.

4305

CANBus speed sensor supply voltage too high.

4306

CANBus speed sensor can not recover.

4825

Loss of TC1 message after 15 seconds.

4850

Possible detection wrong transmission type for installed software.

4995

Incorrect VCM configuration of transmission type. Electronic is transmission present.

X X X X

X X X

332

SECTION 21 - TRANSMISSION

CODE

DESCRIPTION

Amber Telltale LED

4996

Electronic transmission offline or incorrect VCM configuration of transmission type.

4997

Loss of message from TRAX controller.

4998

Generic error code for a SPN/FMI combination that is not stored in this list.

4999

Generic error code for a SPN/FMI combination that is not stored in this list.

Red Telltale LED

SECTION 21 - TRANSMISSION

333

Plugs and filters

Oil pump Lines

Control valve

Transmission box

A and D shafts

B shafts

C shafts

E shaft

Parking brake

OPERATION

TIME (minutes)

Oil filter replacement

Oil temperature sensor replacement

Revolutions sensor replacement

Converter replacement

Oil pump replacement

Replacement of lubrication and gearshift lines (each)

Control valve replacement

Control valve overhauling

Solenoid valve replacement (each)

PTO shaft replacement

Replacement of seal rings on input shaft

Half box replacement

Open, clean, close the half boxes

Replacement of shaft A / bearings

Overhauling of shaft A

150

Replacement of seal rings on shaft A

120

Replacement of shaft D / bearings

Overhauling/replacement of B shaft

150

Replacement of B shaft bearings

Overhauling/replacement of B shaft

180

Replacement of C shaft bearings

Overhauling/replacement of shaft E

100

Replacement of E shaft bearings

Replacement of seal rings on shaft E

Solenoid valve replacement

Disc kit replacement

Replacement of seal rings on piston

334

SECTION 21 - TRANSMISSION

SPECIAL TOOLS PN CNH

DESCRIPTION

USE

2WS 4WS

380002211

Handle

To be used with the various pushers and buffers

•

380200190

Buffer

Assembly / disassembly of several bearings

•

380200197

Buffer

Assembly of shaft A bearings

•

380200203

Buffer

Assembly of several bearings and of 2nd travel gear

•

380200214

Calibrator

Assembly of seal ring on PTO shaft and 4WD shaft

•

380200215

Attachment

Disassembly / assembly of clutch

•

380200218

Buffer

Assembly of oil pump seal ring

•

380200223

Check

Piston check

•

380200224

Cover and shims

Several seal ring assembly

•

380200225

Plunger

Several seal ring assembly

•

380001926

Protection

Clutch piston assembly

•

380200226

Buffer

Assembly of SAHR seal ring for parking brake

•

380200230

Buffer

Assembly of D shaft bearings

•

380200240

Cover and shims

Seal ring assembly

•

380001933

Cover and shims

Assembly of seal ring on shaft A

•

380001927

Calibrator

Assembly of seal ring on shaft A

•

380001928

Plunger

Assembly of seal ring on shaft A

•

380200241

Calibrator

Assembly of seal ring on shaft

•

380200239

Hook

Lifting of shafts B, C, E and of gear control yokes

•

380200257

Protection

Assembly of seal ring on PTO shaft

•

380200242

Plunger

Seal ring assembly

•

380200248

Protection

Assembly of seal ring on C shaft

•

380200250

Calibrator

Assembly of seal ring on C shaft

•

380200251

Cover and shims

Assembly of seal ring on C shaft

•

380200252

Plunger

Assembly of seal ring on C shaft

•

380200253

Calibrator

Assembly of seal ring on C shaft

•

380200256

Sleeve

Shaft disassembly

•

380200275

Tool

Assembly of snap ring on E shaft

•

380200258

Puller

Disassembly of snap ring on E shaft

•

380200220

Drift

Assembly of E shaft bearings

•

380200229

Drift

Assembly of E shaft bearings

•

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 25 - FRONT AXLES 2WS FRONT AXLE........................................................................................................................................... 3 TECHNICAL SPECIFICATIONS.................................................................................................................. 3 LUBRICATION AND GREASING ................................................................................................................ 4 REMOVAL FROM MACHINE ...................................................................................................................... 6 DISASSEMBLY AND ASSEMBLY............................................................................................................... 7 TROUBLESHOOTING................................................................................................................................. 7 4WD - 2WS FRONT AXLE ............................................................................................................................. 10 TECHNICAL SPECIFICATIONS................................................................................................................ 10 LUBRICATION AND GREASING .............................................................................................................. 11 REMOVAL FROM MACHINE .................................................................................................................... 13 DISASSEMBLY AND ASSEMBLY............................................................................................................. 14 TROUBLESHOOTING............................................................................................................................... 57 SPECIAL TOOLS....................................................................................................................................... 61 4WS FRONT AXLE......................................................................................................................................... 62 TECHNICAL SPECIFICATIONS................................................................................................................ 62 LUBRICATION AND GREASING .............................................................................................................. 63 REMOVAL FROM MACHINE .................................................................................................................... 65

SECTION 25 - FRONT AXLES

2WS FRONT AXLE TECHNICAL SPECIFICATIONS

Manufacturer Model

CNH Steering

SECTION 25 - FRONT AXLES

LUBRICATION AND GREASING Oil capacity Oil type

1. Level and fill plug for differential oil 2. Air breather 3. Level, fill and drain plug for reduction gear oil 4. Oil drain plug 5. Greasing points

0.2 litres (0.044 gal) Ambra TRX 80W -140 NH600 / TR

SECTION 25 - FRONT AXLES Before draining the oil from the axle body, use the breather (2) to release any possible internal pressure.

S WARNING S Risk of violent oil ejection.

To drain the oil from the central body remove the level plug (1) and the drain plug (4).

S WARNING S Risk of violent oil ejection. Drain all oil. Clean, screw in and tighten the drain plug (4). Fill through the hole of the plug (1). Check the level and, if necessary, top up. Clean, screw and tighten the plug (1). Before draining the oil from the reduction gear, rotate it so that the plug (3) is in the highest position (position A) and partially unscrew the plug to release any possible internal pressure. Turn and bring the plug to the lowest position (position B). Remove the plug and drain the oil. Now turn again and bring the hole of the plug (3) to check and oil filling position (position C). Carry out the filling. Clean, screw and tighten the plug (3).

SECTION 25 - FRONT AXLES

REMOVAL FROM MACHINE Move the machine to a level and firm ground, away from any soft ground, excavations and poorly shored cavity. Rest the loader attachment on the ground in order to unload the weight of the machine from the 2 front wheels, then lift the front part, thus ensuring the safety of the subsequent operations. Use the locking pin (if provided) to lock the loader attachment controls. Place the backhoe attachment in the road travel position. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Completely raise the stabilizers and lock them mechanically. Stop the engine and remove the starter key. Release the hydraulic pressure by operating the control levers in all directions. On hydraulically controlled machines, turn the key to ON and release the pressure by moving the hydraulic control levers in all directions. Place some wedges under the wheels so as to prevent the machine from moving. Disconnect the electric system by disconnecting the battery master switch. Fasten the front axle (3) to a lifting hoist or to a support. Now it is possible to carry out the disassembly of the 2 front tyres by loosening and removing the relevant fixing nuts (7) [tightening torque = 330 Nm (243 lbfÂˇft)]. Disconnect the hoses of the steering cylinder, paying attention to possible oil leaks, preventing spillage over the ground using a container. Remove the snap ring (6) from the machine side, and keep the shims (4). Using a soft hammer, tap the pin (5) in order to extract it from the relevant hole, on the front side of the machine. Once the pin (5) has been disassembled, it is possible to remove the front axle (3).

SECTION 25 - FRONT AXLES

DISASSEMBLY AND ASSEMBLY (See 4WD front axle)

TROUBLESHOOTING FAULT Bent axle beam body.

POSSIBLE CAUSE

ACTION

Overloaded vehicle.

Replace the axle beam body.

Damaged vehicle.

Replace the axle beam body.

Insufficient lubrication.

Replace the bearings and top up oil.

Contaminated oil.

Change the oil, fill up to right level and replace at recommended intervals.

Excessive use.

Replace the bearings.

Normal wear.

Replace the bearings.

Prolonged operation with oil at a high temperature.

Replace the gasket or seal and matching surface if damaged.

Incorrectly installed seal.

Correctly lubricate and change oil and seals at recommended intervals.

Damaged seal lip.

Replace the seal.

Contaminated oil.

Change the oil, fill up to right level and replace at recommended intervals.

Bent or broken axle beam.

Intensive use of the vehicle or overloaded vehicle.

Replace the axle beam.

Axle shaft broken on wheel side.

Loose wheel support.

Replace the axle beam and check if the wheel support is worn out or wrongly adjusted.

Bent axle beam body.

Replace the axle beam and check if the wheel support is worn out or wrongly adjusted.

Incorrect installation.

Correct the installation.

Faulty differential.

Inspect and repair the axle.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Worn out or pitted bearings.

Oil leakage form the seals.

Wheel vibration and tyre resistance.

SECTION 25 - FRONT AXLES

FAULT Difficult steering; the machine travels in a straight line while steering.

Excessive noise.

Uneven wear of tyre.

Friction noise.

POSSIBLE CAUSE

ACTION

Incorrect installation.

Correct the installation.

Faulty differential.

Replace the differential.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Faulty differential.

Replace the differential.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect wheel alignment.

Replace the parts and check that the bearings are in good conditions.

Incorrect axle part installation.

Check the installation.

Incorrect installation.

Correct the installation.

Faulty differential.

Replace the differential.

Overload.

Remove the excessive load.

Wrong weight distribution.

Distribute the weight differently.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect wheel adjustment.

Carry out the adjustment and check that the bearings are in good conditions.

Incorrect installation.

Correct the installation.

Bent or broken axle shaft.

Replace the axle beam.

Damaged or worn axle parts.

Replace the parts and check that the bearings are in good conditions.

Presence of foreign objects.

Discard.

Incorrect axle part installation.

Check the installation.

SECTION 25 - FRONT AXLES

FAULT Vibrations during travel.

Intermittent noise.

POSSIBLE CAUSE

ACTION

Incorrect installation.

Correct the installation.

Faulty differential.

Replace the differential.

Overload.

Remove the excessive load.

Wrong weight distribution.

Distribute the weight differently.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Damaged ring gear.

Replace bevel gear.

Differential box screws loose.

Tighten the screws to torque.

Incorrect installation.

Correct the installation.

Faulty differential.

Replace the differential.

Overload.

Remove the excessive load.

Wrong weight distribution.

Distribute the weight differently.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

SECTION 25 - FRONT AXLES

4WD - 2WS FRONT AXLE TECHNICAL SPECIFICATIONS

Manufacturer Model

CNH Steering

Steering angle

According to the type

Total reduction ratio

According to the type

Lubrication angle

35° maximum (front and rear) - 35° maximum (from side to side)

SECTION 25 - FRONT AXLES

LUBRICATION AND GREASING

Oil capacity Oil type

1. Level and fill plug for differential oil 2. Air breather 3. Level, fill and drain plug for reduction gear oil 4. Oil drain plug 5. Greasing points

Differential

6.5 litres (1.43 gal)

Final drive (each)

0.7 litres (0.15 gal)

Ambra TRX 80W -140 NH600 / TR

SECTION 25 - FRONT AXLES

Before draining the oil from the axle body, use the breather (2) to release any possible internal pressure.

S WARNING S Risk of violent oil ejection.

To drain the oil from the central body remove the level plug (1) and the drain plug (4).

SECTION 25 - FRONT AXLES REMOVAL FROM MACHINE Move the machine to a level and firm ground, away from any soft ground, excavations and poorly shored cavity. Rest the loader attachment on the ground in order to unload the weight of the machine from the 2 front wheels, then lift the front part, thus ensuring the safety of the subsequent operations. Use the locking pin (if provided) to lock the loader attachment controls. Place the backhoe attachment in the road travel position. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Completely raise the stabilizers and lock them mechanically. Stop the engine and remove the starter key. Release the hydraulic pressure by operating the control levers in all directions. On hydraulically controlled machines, turn the key to ON and release the pressure by moving the hydraulic control levers in all directions. Place some wedges under the wheels so as to prevent the machine from moving. Disconnect the electric system by disconnecting the battery master switch. Fasten the front axle (4) to a lifting hoist or to a support. Now it is possible to carry out the disassembly of the 2 front tyres by loosening and removing the relevant fixing nuts (5) [tightening torque = 330 Nm (243 lbf·ft)]. Disconnect the hoses of the steering cylinder, paying attention to possible oil leaks, preventing spillage over the ground using a container. Disconnect the cardan joint (1). Loosen and remove the screws (2) with the relevant washers (3) [tightening torque = 460 ÷ 540 Nm (339 ÷ 398 lbf·ft)]. Remove the front axle (4).

SECTION 25 - FRONT AXLES

DISASSEMBLY AND ASSEMBLY MOUNTING SCREW TORQUE Tie rod nut, standard Tie rod nut, HD Tie rod ball joint nut, standard

111 ÷ 137 Nm (82 ÷ 101 lbf·ft) 213 ÷ 263 Nm (157 ÷ 194 lbf·ft) 129 ÷ 160 Nm (95 ÷ 118 lbf·ft)

Ball joint nut, HD

162 ÷ 200 Nm (119 ÷ 147 lbf·ft)

Tie rod ball joint nut, standard

255 ÷ 315 Nm (188 ÷ 232 lbf·ft)

Breather Oil drain plug Lubrication fitting, king pin Planet carrier retention screw King pin screw

11 ÷ 14 Nm (8 ÷ 10 lbf·ft) 54 ÷ 66 Nm (40 ÷ 49 lbf·ft) 20 ÷ 30 Nm (15 ÷ 22 lbf·ft) 21 ÷ 26 Nm (15.5 ÷ 19 lbf·ft) 154 ÷ 188 Nm (114 ÷ 139 lbf·ft)

Differential cover screw

96 ÷ 118 Nm (71 ÷ 87 lbf·ft)

Steering cylinder screw

358 ÷ 442 Nm (264 ÷ 326 lbf·ft)

Steering stop nut

200 ÷ 244 Nm (148 ÷ 178 lbf·ft)

Shaft retaining nut

358 ÷ 442 Nm (264 ÷ 326 lbf·ft)

Ring gear support screw, standard

88 ÷ 108 Nm (65 ÷ 80 lbf·ft)

Ring gear support screw, HD

96 ÷ 118 Nm (71 ÷ 87 lbf·ft)

Gear pin screw

95 ÷ 105 Nm (70 ÷ 77 lbf·ft)

Oil drain plug

72 ÷ 88 Nm (53 ÷ 65 lbf·ft)

Bearing cup screw

96 ÷ 118 Nm (71 ÷ 87 lbf·ft)

Ring nut retainer screw

21 ÷ 26 Nm (15.5 ÷ 19 lbf·ft)

Ring gear screw

96 ÷ 118 Nm (71 ÷ 87 lbf·ft)

Pinion

1.7 ÷ 2.2 Nm (1.2 ÷ 1.6 lbf·ft)

Differential

1.5 ÷ 2.5 Nm (1.1 ÷ 1.8 lbf·ft)

Wheel bearing with seal, standard

8 ÷ 25 Nm (6 ÷ 18 lbf·ft)

Wheel bearing with seal, HD

12 ÷ 25 Nm (9 ÷ 18 lbf·ft)

Standard differential

0 ÷ 1 Nm (0 ÷ 0.7 lbf·ft)

Limited slip differential

1 ÷ 5 Nm (0.7 ÷ 4 lbf·ft)

SECTION 25 - FRONT AXLES WHEEL HUB

Disassembly Unscrew and remove the plug (1) and drain the oil.

SECTION 25 - FRONT AXLES

Loosen and remove the 2 screws (2).

Separate the planetary carrier (3) from the axle using the two slots for prying.

Remove the planetary gear carrier assy (3).

Remove the O-ring (4).

SECTION 25 - FRONT AXLES Mark the washers and grease the pins.

Remove the washers (18).

Inspect the washers (18) for dents or damage in roller contact area.

If necessary, remove the gears.

SECTION 25 - FRONT AXLES

Wipe off any contamination on the drain plug.

Loosen the caulking on the nut (5).

Unscrew the ring nut (5) by means of the tool 380000468.

Remove the ring nut (5).

SECTION 25 - FRONT AXLES Loosen and remove the screws (10).

Tighten the 2 screws (10) in the 2 threaded holes in the hub. Tighten the 2 screws evenly until the ring gear carrier (11) is free of the swivel housing.

Remove the ring gear (6).

Remove the wheel hub (13) complete with swivel housing using a puller.

SECTION 25 - FRONT AXLES

Remove the outer bearing (15).

Separate the wheel hub (13) from the swivel housing.

Remove the seal ring (17).

Remove the inner bearing (16).

SECTION 25 - FRONT AXLES Remove the snap ring (12) which fastens the ring gear (6) in the ring gear carrier (11).

Separate the ring gear carrier (11) and the ring gear (6).

If necessary, remove the bushings (14).

Remove the bearing cups (15) and (16), if necessary.

SECTION 25 - FRONT AXLES

Checks Clean all parts in cleaning solvent. Inspect the bearing cup and the rollers in the bearings for flat areas, pitting, scoring, and other damage. Also check the inner race for damage. If any of these defects are found, new bearings and new bearing cups must be installed. Inspect the pins for wear and damage. Inspect the teeth of the gears and of the ring gear for wear, pitting, scoring or other damage. Use new parts as required.

Assembly If bearing cups were removed, use an acceptable driver to press new bearing cups into the wheel hub.

The word â&#x20AC;&#x153;OUTSIDEâ&#x20AC;? on the seal ring (17) must be facing up. Use tool DMT100004 to insert the new seal ring into the wheel hub. Do not damage the seal ring.

SECTION 25 - FRONT AXLES Insert the new rollers using tool DMT100002.

Apply grease to help retain the rollers.

Make sure that all required rollers have been installed.

Install the gears (8) onto the pins, respecting the reference marks traced during disassembly.

SECTION 25 - FRONT AXLES

Remove tool DMT100002.

Check the correct assembly of all rollers.

Install the washers (18). Where possible, match the washers with the relevant pins, respecting the reference marks traced during disassembly.

Screw in and tighten the screws (9).

SECTION 25 - FRONT AXLES Press the bushings (14) into the ring gear carrier (11).

Assemble the ring gear carrier (11) and the ring gear (6).

Assemble the snap ring (12).

Assemble the cup of the inner bearing into the swivel housing. Installation will be easier if you heat the bearing slightly. Do not heat the bearing more than 149 Â°C (300 Â°F). Assemble the wheel hub (13).

SECTION 25 - FRONT AXLES

Install the outer bearing (15). Installation will be easier if you heat the bearing slightly. Do not heat the wheel bearing more than 149 °C (300 °F).

Align the holes in the ring gear carrier (11) with the holes in the swivel housing and install the ring gear carrier.

Install and tighten the screws (10) evenly to pull the hub against the swivel housing. Tighten the screws (10) to a tightening torque of 358 ÷ 442 Nm (264 ÷ 326 lbf·ft).

Tighten the ring nut (5) using tool 380000468, to a tightening torque of 358 ÷ 442 Nm (264 ÷ 326 lbf·ft).

SECTION 25 - FRONT AXLES Assemble a new O-ring (4).

Assemble the planetary carrier (3).

Screw in and tighten the 2 screws (2) to a tightening torque of 21 ÷ 26 Nm (15.5 ÷ 19 lbf·ft). Screw on the plug (1) after oil filling.

SECTION 25 - FRONT AXLES

SWIVEL HOUSING

Disassembly Unscrew and remove the tie rod nut (1).

SECTION 25 - FRONT AXLES Use a two-jaw puller to loosen the ball joint.

Remove the ball joint (2).

Loosen and remove the screws (4).

Remove the steering cylinder (3).

SECTION 25 - FRONT AXLES

Fasten the swivel housing (10) to an appropriate lifting tool. Loosen the screws (6).

Remove the screws (6) and the top king pin (7).

Repeat the same operations to remove the bottom king pin.

Remove the swivel housing (10) together with the cardan joint (14).

Remove the belleville washer (9) from the top and bottom of the axle body.

SECTION 25 - FRONT AXLES Remove the bearing (8) from the top and bottom of the axle body by means of a puller.

Remove the seal (15) by means of a puller.

Remove the bushing (16) by means of a puller.

Remove the bearing cup (8) from the king pin (7) using a hammer and a chisel.

SECTION 25 - FRONT AXLES

Assembly Install the bushing DMT100005.

(16)

means

tool

Install the seal (15) by means of tool DMT100006.

Assemble the bearing (8).

Assemble the swivel housing (10) together with the cardan joint (14).

Assemble the belleville washers (9). Fasten the swivel housing (10).

SECTION 25 - FRONT AXLES Assemble the top king pin (7). Tighten the screws (6) to a tightening torque of 154 ÷ 188 Nm (114 ÷ 139 lbf·ft).

Assemble the bottom king pin (7). Tighten the screws (6) to a tightening torque of 154 ÷ 188 Nm (114 ÷ 139 lbf·ft).

Assemble the ball joint (2) and the nut (1).

Tighten the nut (1) to 162 ÷ 200 Nm (119 ÷ 147 lbf·ft).

34 CARDAN JOINT

Disassembly Remove the 4 snap rings (3).

SECTION 25 - FRONT AXLES

SECTION 25 - FRONT AXLES Use the CAS1980 V-block to support the coupling (5). Adjust the screws in the V-block to hold the coupling level. Use a driver and press the bottom bearing cup against the V-block.

Fasten the bearing cup in a vice and drive the coupling off the bearing cup.

Use the V-block to support the coupling and press the other bearing cup against the V-block.

Remove the long axle shaft (2) from the coupling (5).

SECTION 25 - FRONT AXLES

Remove the coupling (5) from the bearing cup.

Press the bottom bearing cup out of the yoke.

Remove the yoke from the bearing cup. DO NOT hit the axle shaft in the seal area.

Press the other bearing cup out of the yoke.

SECTION 25 - FRONT AXLES Remove the cross (4).

Press the bearing cup out of the yoke.

Press the bearing cup into the yoke until the top of the bearing cup is 6 mm (0.24 in) above the top of the yoke.

Carefully install the cross (4) in the bearing cup.

SECTION 25 - FRONT AXLES

Press the other bearing cup into the yoke until the top of the bearing cup is 9 mm (0.35 in) above the top of the yoke.

Carefully remove the cross (4) from the bearing cup so that the cross is in both bearing cups.

Hold the cross and press the bearing cups into the yoke.

Press a bearing cup into the yoke so that a snap ring can be installed.

SECTION 25 - FRONT AXLES Assemble the snap ring (3).

Repeat the same operations for the other bearing cup. Use the V-block to support the coupling and press the bearing cup into the coupling evenly with the outer diameter of the coupling.

Carefully install the cross (4) into the bearing cup.

Press the other bearing cup into the coupling until the bearing cup is 6 mm (0.24 in) above the top of the yoke.

SECTION 25 - FRONT AXLES

Carefully raise the cross into the top bearing cup so that the cross is in both bearing cups.

Hold the cross and press the bearing cup into the coupling so that a snap ring can be installed.

Assemble the snap ring (3).

Repeat the same operations for the other bearing cup.

SECTION 25 - FRONT AXLES DIFFERENTIAL

Disassembly Loosen and remove the differential carrier screws (1).

SECTION 25 - FRONT AXLES

Remove the differential carrier (2) by means of a suitable lifting device.

Place the differential on an approved working area.

Prevent the pinion from turning. Measure the backlash of the ring gear. Record the reading.

Make an identification mark on the supports and ring nut on one side of the differential carrier.

SECTION 25 - FRONT AXLES Loosen and remove the screws (29) and the washers (28).

Loosen both adjusting ring nuts (15) by means of tool DMT100002.

Remove the screws (26) and the supports (27).

Remove the differential assy.

SECTION 25 - FRONT AXLES

Remove the seal (4) and the cover (3).

Loosen and remove the nut (5) of the pinion using tool 380000468 and tool 380100102.

Remove the washer (6).

Extract the pinion (13) using a press.

SECTION 25 - FRONT AXLES Remove the washers (8) and (10) and the spacer (9).

Separate the pinion (13) from the inner bearing (11).

Remove the shim (12).

Use a soft punch to remove the bearing cups only if the inspection indicates the need for new parts.

SECTION 25 - FRONT AXLES

Remove the seal (30) from the cover (3).

Remove the O-ring (4) from the cover (3).

Loosen and remove the screws (14).

Remove the ring gear (17).

SECTION 25 - FRONT AXLES Remove the gear (18).

Remove the retaining pin (19).

Remove the pin (20) and the gears (22).

SECTION 25 - FRONT AXLES

Remove the thrust washer (24) and the gear (23).

Checks Clean all parts in cleaning solvent. Inspect the bearing cups and the bearings for flat areas, pitting, scoring and other damage. Also check the inner race for damage. If any of these defects are found, new bearings and bearing cups must be installed. Inspect the teeth on the pinion and of the ring gear for pitting, scoring and broken teeth. The ring gear and pinion gear must be replaced as a set. Inspect the gears, the pins and the teeth of the pinion gears for pitting, scoring and other damage. Also inspect the thrust surfaces and the bores of each gear. Check the splines in the gears for wear. Inspect the thrust washers for pitting, scoring and other damage.

SECTION 25 - FRONT AXLES Assembly Assemble the thrust washer (24) and the gear (23).

Install the pin (20) and the gears (22).

Install the retaining pin (19).

NOTE: before assembly, grease all gear contact surfaces.

SECTION 25 - FRONT AXLES

Assemble the gear (18).

Make sure that the mounting surfaces of the ring gear (17) are clean and install the ring gear. Screw in and tighten the screws (14) to a tightening torque of 96 ÷ 118 Nm (71 ÷ 87 lbf·ft).

Assemble the bearing cup(s) into the differential carrier. Use a feeler to ensure cups are fully seated.

Install the shim (12). The chamfer of the shim must be towards the pinion.

SECTION 25 - FRONT AXLES Press the bearing (11) against the shim. Use a feeler gauge to ensure bearing is fully seated.

Lubricate the bearing (11).

Install a new spacer (9) and the washers (8) and (10).

Insert the pinion (13). Install the bearing (7).

SECTION 25 - FRONT AXLES

Assemble the washer (6).

Install a new nut (5). Use a yoke and the wrench 380000468 to tighten the nut.

The pinion and bearings will still be loose. Progressively tighten the nut until the bearings become seated. NOTE: If the nut is tightened too much (rotating torque higher than specified), the pinion must be removed and a new spacer must be installed on the pinion. Use tool 380100102 and a torque wrench to check the rotating torque of the pinion. It must be rotated while tightening the nut. Final reading to be verified after 3 complete revolutions. The rotating torque must be 1.7 ÷ 2.2 Nm (1.2 ÷ 1.6 lbf·ft). If the rotating torque is lower than specified, further tighten the nut and check the rotating torque again.

SECTION 25 - FRONT AXLES When the rotating torque is as specified, use a hammer and punch and partially drive the nut (5) into the slot in the pinion.

Assemble a new O-ring (4) on the cover (3).

Assemble a new seal (30) in the cover (3) using tool DMT100001. The seal will be approximately 1/16 from the inner face of the cover.

Lubricate the O-ring and the seal. Assemble the cover (3).

SECTION 25 - FRONT AXLES

Install the differential carrier assy and lubricate the bearings.

Assemble the supports (27) with the alignment marks. Tighten the screws (26) to 20 Nm (15 lbf·ft) to pull the supports against the differential carrier (do not overtighten). The bearings must be able to rotate.

Assemble the adjusting ring nuts (15). Tighten both adjusting ring nuts (15), making sure there is some backlash between the ring gear and the pinion.

Rotate the pinion by approx. 3 or 4 turns and ensure proper seating. Check in 3 places, approximately 120° apart. The value of the rolling torque must be 0.0009 ÷ 0.0015 Nm (0.0006 ÷ 0.0011 lbf·ft). If values vary more than 0.001 Nm (0.0007 lbf·ft), then replace bevel set. If backlash value is too large, loosen the ring nut by one slot on gear side and tighten the ring nut slot on the back face of the ring gear. If backlash value is too small, do the opposite of the above-described operations.

SECTION 25 - FRONT AXLES Make the final adjustments of the ring nuts to align locking devices and confirm the rolling torque. Apply the yellow compound on the bevel set in 3 places, 120° apart, on 3 teeth each. Rotate bevel set enough to see pattern in yellow compound. Pattern should be per chart above. Normal wear will flatten (elongate) the contact pattern. NOTE: this is a non-adjustable bevel set. If pattern is significantly different from specifications, then replace bevel set. If the original ring gear and pinion gear are being used, the backlash must be equal to the measurement made during disassembly. Tighten the screws (26) to the prescribed torque of 266 Nm (196 lbf·ft). Screw in the lock screw (29) which blocks the ring gear and tighten to a tightening torque of 162 ÷ 200 Nm (119 ÷ 147 lbf·ft).

Apply some sealant.

SECTION 25 - FRONT AXLES

Assemble the differential carrier (2).

Screw in and tighten the screws (1) to a tightening torque of 162 ÷ 200 Nm (119 ÷ 147 lbf·ft).

SECTION 25 - FRONT AXLES

TROUBLESHOOTING FAULT Ring gear tooth broken on the outer side.

Ring gear tooth side broken.

POSSIBLE CAUSE Excessive gear load compared to the one expected.

Replace bevel gear set.

Incorrect ring gear adjustment (excessive backlash).

Follow carefully the recommended operations for the adjustment of the bevel gear set backlash.

Loose pinion nut.

Tighten the pinion nut.

Load bump.

Replace bevel gear set.

Incorrect ring gear adjustment (insufficient backlash).

Follow carefully the recommended operations for the adjustment of the bevel gear set backlash.

Loose pinion nut.

Tighten the pinion nut.

Worn pinion or ring gear teeth. Insufficient lubrication. Contaminated oil. Incorrect lubrication or depleted additives.

Overheated ring gear and pinion teeth. Check if ring gear teeth are damaged.

ACTION

Replace bevel gear set. Follow carefully the recommended operations for the adjustment of the bevel gear set backlash.

Worn out pinion bearings that cause an incorrect pinion axle backlash and wrong contact between pinion and ring gear.

Use proper lubricants, fill up to the right levels and replace at recommended intervals.

Prolonged operation at high temperatures.

Replace bevel gear set.

Inappropriate lubricant.

Use proper lubricants, fill up to the right level and replace at recommended intervals.

Low oil level. Contaminated oil. Pinion teeth pitting.

Bent axle beam body.

Worn out or pitted bearings.

Excessive use.

Replace bevel gear set.

Insufficient lubrication.

Use correct lubrication, fill up to the right level and substitute at recommended intervals.

Overloaded vehicle.

Replace the axle beam body.

Damaged vehicle.

Replace the axle beam body.

Insufficient lubrication.

Replace the bearings and top up oil.

Contaminated oil.

Change the oil, fill up to right level and replace at recommended intervals.

Excessive use.

Replace the bearings.

Normal wear.

Replace the bearings.

SECTION 25 - FRONT AXLES

FAULT Oil leakage form the seals.

POSSIBLE CAUSE

ACTION

Prolonged operation with oil at a high temperature.

Replace the gasket or seal and matching surface if damaged.

Incorrectly installed seal.

Correctly lubricate and change oil and seals at recommended intervals.

Damaged seal lip.

Replace the seal.

Contaminated oil.

Change the oil, fill up to right level and replace at recommended intervals.

Use until worn.

Replace the flange.

Loose pinion nut.

Check that the pinion spline is not excessively worn out.

Pinion axle backlash.

Replace bevel gear set if required.

Fatigue failure of pinion teeth. See if the fracture line is well defined (wave lines, straight lines).

Use until worn.

Replace bevel gear set.

Pinion and ring gear teeth breakage.

Crash load of differential components.

Check and/or replace other differential components.

Worn out side gear spline. Replace all scratched washers (excessive backlash).

Excessive use.

Replace differential gear group.

Worn out or scored thrust washer surface.

Excessive use.

Use correct lubrication and fill up to right level.

Inappropriate lubricant.

Replace at intervals recommended.

Contaminated oil.

Replace all scratched washers and those with a thickness by 0.1 mm (0.004 in) lower than the new ones.

Excessive use.

Replace bearing.

Excessive pinion axial backlash.

Check pinion axial backlash.

Insufficient lubrication Contaminated oil.

Use proper lubrication, fill up to right level and replace at recommended intervals.

Excessive wear of input flange spline.

Worn out inner diameter of tapered roller bearing.

Continuous overload.

Replace the axle shaft if required.

SECTION 25 - FRONT AXLES

FAULT

POSSIBLE CAUSE

ACTION

Bent or broken axle beam.

Intensive use of the vehicle or overloaded vehicle.

Replace the axle beam.

Axle shaft broken on wheel side.

Loose wheel support.

Replace the axle beam and check if the wheel support is worn out or wrongly adjusted.

Bent axle beam body.

Replace the axle beam and check if the wheel support is worn out or wrongly adjusted.

Incorrect installation.

Correct the installation.

Faulty differential.

Inspect and repair the axle.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Faulty differential.

Replace the differential.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Faulty differential.

Replace the differential.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect wheel alignment.

Replace the parts and check that the bearings are in good conditions.

Incorrect axle part installation.

Check the installation.

Wheel vibration and tyre resistance.

Difficult steering; the machine travels in a straight line while steering.

Excessive noise.

SECTION 25 - FRONT AXLES

FAULT Uneven wear of tyre.

Friction noise.

Vibrations during travel.

Intermittent noise.

POSSIBLE CAUSE

ACTION

Incorrect installation.

Correct the installation.

Faulty differential.

Replace the differential.

Overload.

Remove the excessive load.

Wrong weight distribution.

Distribute the weight differently.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect wheel adjustment.

Carry out the adjustment and check that the bearings are in good conditions.

Incorrect installation.

Correct the installation.

Bent or broken axle shaft.

Replace the axle beam.

Damaged or worn axle parts.

Replace the parts and check that the bearings are in good conditions.

Presence of foreign objects.

Discard.

Incorrect axle part installation.

Check the installation.

Incorrect installation.

Correct the installation.

Faulty differential.

Replace the differential.

Overload.

Remove the excessive load.

Wrong weight distribution.

Distribute the weight differently.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Damaged ring gear.

Replace bevel gear.

Differential box screws loose.

Tighten the screws to torque.

Incorrect installation.

Correct the installation.

Faulty differential.

Replace the differential.

Overload.

Remove the excessive load.

Wrong weight distribution.

Distribute the weight differently.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

SECTION 25 - FRONT AXLES

SPECIAL TOOLS PN CNH

DESCRIPTION

USE

CAS-1980

V-block

Support for cardan joint disassembly

380100103

Protection

Assembly of differential carrier seal ring

DMT100001

Protection

Pinion seal ring assembly

DMT100002

Tool

Assembly of bearings

DMT100004

Buffer

Wheel hub seal ring assembly

DMT100005

Buffer

Assembly of bushing into the axle body

DMT100006

Buffer

Assembly of seal ring in axle body

DMT100007

Tool

Assembly of pinion bearing

380000468

Wrench

Pinion nut tightening

380100102

Wrench

Pinion nut tightening

SECTION 25 - FRONT AXLES

4WS FRONT AXLE TECHNICAL SPECIFICATIONS

Manufacturer

CARRARO

Model

26.32

Differential ratio

2.75

Planetary hub ratio

6.92

Total reduction ratio

19.04

Lubrication angle

35° maximum (front and rear) - 35° maximum (from side to side)

SECTION 25 - FRONT AXLES

LUBRICATION AND GREASING

Oil capacity Oil type

1. Oil level plug 2. Air breather 3. Level, fill and drain plug for reduction gear oil 4. Oil drain plug 5. Greasing points

Differential

10.5 litres (2.31 gal)

Final drive (each)

1.3 litres (0.29 gal)

Ambra TRX 80W -140 NH600 / TR

SECTION 25 - FRONT AXLES

Before draining the oil from the axle body, use the breather (2) to release any possible internal pressure.

S WARNING S Risk of violent oil ejection.

To drain the oil from the central body remove the level plug (1) and the drain plug (4).

SECTION 25 - FRONT AXLES REMOVAL FROM MACHINE Move the machine to a level and firm ground, away from any soft ground, excavations and poorly shored cavity. Rest the loader attachment on the ground in order to unload the weight of the machine from the 2 front wheels, then lift the front part, thus ensuring the safety of the subsequent operations. Use the locking pin (if provided) to lock the loader attachment controls. Place the backhoe attachment in the road travel position. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Completely raise the stabilizers and lock them mechanically. Stop the engine and remove the starter key. Release the hydraulic pressure by operating the control levers in all directions. On hydraulically controlled machines, turn the key to ON and release the pressure by moving the hydraulic control levers in all directions. Place some wedges under the wheels so as to prevent the machine from moving. Disconnect the electric system by disconnecting the battery master switch. Fasten the front axle (6) to a lifting hoist or to a support. Now it is possible to carry out the disassembly of the 2 front tyres by loosening and removing the relevant fixing nuts (7) [tightening torque = 700 Nm (516 lbfÂˇft)]. Disconnect the hoses of the steering cylinder, paying attention to possible oil leaks, preventing spillage over the ground using a container. Disconnect the cardan joint (1) by unlocking and removing the screws (2) and the bracket (3). Loosen and remove the screws (5) with the relevant washers (4). Remove the front axle (6).

66 NOTES:

SECTION 25 - FRONT AXLES

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 27 - REAR AXLE

2WS REAR AXLE (B100C - B100CTC) TECHNICAL SPECIFICATIONS

SECTION 27 - REAR AXLE

Manufacturer

CARRARO

Model

28.44

Bevel gear reduction ratio

2.75/1

Epicyclic gear ratio

6.40/1

Total reduction ratio

17.6/1

Input rotation Dry weight Differential type Pressure for differential lock Bevel gear set backlash

clockwise 420 kg (926 lb) Mechanical and driven 12 ÷ 35 bar (174 ÷ 508 psi) 0.20 ÷ 0.28 mm (0.0079 ÷ 0.0110 in)

Pinion bearing preload (1) (measured on Ø = 34.8 mm (1.37 in) without seal ring)

FP = 115 ÷ 138 N (26 ÷ 31 lbf)

Ring gear-pinion bearing total preload (1) (measured on Ø = 34.8 mm (1.37 in) without seal ring)

FT = (FP + 33) ÷ (FP + 50) N [FT = (FP + 7.4) ÷ (FP + 11.2) lbf]

Pinion bearing rolling torque (1) measured without seal ring Total pinion-ring gear bearing rolling torque (1) measured without seal ring

MP = 2.0 ÷ 2.4 Nm (1.47 ÷ 1.77 lbf·ft) MT = (MP + 0.58) ÷ (MP + 0.87) Nm [MT = (MP + 0.43) ÷ (MP + 0.64) lbf·ft]

(*) Only for new bearings

SERVICE BRAKE

Brake type

Wet disc brake

Brake operating temperature

-20 °C ÷ 150 °C (-4 ÷ 5.9 °F)

Maximum operating pressure

43 bar (624 psi)

Oil displacement for brake actuation (each side)

16 cm3 (0.98 in3)

A. New counterdisc thickness = 8.0 ± 0.05 mm (0.31 ± 0.002 in) B. New friction disc thickness = 6.73 ± 0.1 mm (0.26 ± 0.004 in) Worn disc minimum thickness = 5.8 mm (0.23 in) C. New counterdisc thickness = 5.0 ± 0.05 mm (0.20 ± 0.002 in)

SECTION 27 - REAR AXLE

LUBRICATION AND GREASING Oil capacity (differential) Oil type

1. Level and fill plug for differential oil 2. Differential oil drain plug 3. Oil breather 4. Oil drain plug 5. Brake breather

17 litres (3.74 gal) Ambra TRX 80W -140 NH600 / TR

SECTION 27 - REAR AXLE

Before draining the oil from the axle body, use the breather (3) to release any possible internal pressure.

S WARNING S Risk of violent oil ejection.

To drain the oil from the central body remove the level plug (1) and the drain plug (2).

S WARNING S Risk of violent oil ejection. Drain all oil. Clean the plug (2), screw it and tighten to the prescribed torque of 80 Nm (59 lbfÂˇft). Fill through the hole of the plug (1). Check the level and, if necessary, top up. Clean the plug (2), screw it and tighten to the prescribed torque of 80 Nm (59 lbfÂˇft).

SECTION 27 - REAR AXLE REMOVAL FROM MACHINE Move the machine to a level and firm ground, away from any soft ground, excavations and poorly shored cavity. Lower the loader attachment to the ground. Use the locking pin (if provided) to lock the loader attachment controls. Lower the backhoe attachment to the ground. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Lower the stabilizers until the rear wheels are slightly lifted from the ground (they are free from machine weight). Stop the engine and remove the starter key. Release the hydraulic pressure by operating the control levers in all directions. On hydraulically controlled machines, turn the key to ON and release the pressure by moving the hydraulic control levers in all directions. Disconnect the electric system by disconnecting the battery master switch. Fasten the rear axle to a lifting hoist or to a support. Now it is possible to carry out the disassembly of the 2 rear tyres by loosening and removing the relevant fixing nuts (9) [tightening torque = 700 Nm (516 lbf·ft)]. Disconnect the cardan joint (6) by unlocking and removing the screws (7) and the bracket (8). Unscrew and remove the screws (4) with the nuts (2) and the washers (3) and (5) [tightening torque = 610 ÷ 678 Nm (445 ÷ 500 lbf·ft)]. Remove the rear axle (1).

SECTION 27 - REAR AXLE

DISASSEMBLY AND ASSEMBLY Some of the following pictures could not exactly show your axle, but the procedure is correct. TIGHTENING TORQUES AND APPLICATION OF SEALANTS / ADHESIVES A. Loctite 510 B. Loctite 270 C. Loctite 638

SECTION 27 - REAR AXLE GREASE POINTS

SECTION 27 - REAR AXLE

FRONT FLANGE

Disassembly Remove the stop ring (1) and the front flange (2). Remove the O-ring (4) and the shim (5).

Remove the seal ring (3).

SECTION 27 - REAR AXLE Assembly Assemble the seal ring (3) into the central body with a drift 380200228 and a hammer.

Insert the shim (5) and a new O-ring (4) into the pinion shaft. Insert the front flange (2) on the shaft end. Fasten the pieces as soon as assembled by fitting the snap ring (1).

SECTION 27 - REAR AXLE

BRAKES

Disassembly Drain the oil completely from the differential.

Loosen and remove all screws (1) except for 2 as a safety measure.

SECTION 27 - REAR AXLE Connect the wheel hub (2) to a lifting device and tension the rope. Insert 2 opposed threaded rods to enable removal.

Remove the 2 last screws (1) and separate the wheel hub assy (2) from the axle body (3).

Slowly remove the wheel hub assy and the half axle (4), make sure that the braking discs (5) and the counterdiscs (6) stay on the wheel hub assy.

Place the wheel hub assy vertically and mark the counterdisc (5) assembled to the axle body side (3). Remove the discs (6), the counterdiscs (5) and the dowel pins (7).

SECTION 27 - REAR AXLE

Remove the half axle (4) from the wheel hub assy (2).

In some cases the axle shaft can be delivered already assembled in 2 parts.

Remove the screws (8) and the belleville washers (9) from the brake cylinder (10).

Check screws (8) and belleville washers (9) for damage. NOTE: if brake discs are replaced, also replace screws and springs.

SECTION 27 - REAR AXLE Remove the snap ring (11) and the self adjust kit assy (12).

Place the self adjust kit (12) on tool 380200245 and remove the snap rings (13).

Check bushing (14) for wear. Repeat the procedure for the remaining 2 self adjust kits.

Remove the brake cylinder assy (10).

SECTION 27 - REAR AXLE

Remove the brake piston (15) from the brake cylinder (10).

Remove the O-rings (16) and (17) from the brake cylinder (10).

Remove the O-ring (18) from the brake piston (15).

Remove the O-ring (19).

SECTION 27 - REAR AXLE Assembly Assemble the O-ring (19).

Assemble the O-ring (18) onto the brake piston (15).

Assemble the O-rings (16) and (17) onto the brake cylinder (10).

Lubricate the O-rings (16), (17) and (18). Assemble the brake piston (15) into the brake cylinder (10).

SECTION 27 - REAR AXLE

Lubricate the seat of the brake cylinder on the wheel hub (2) and assemble the dowel pins (7).

Assemble the brake cylinder assy (10) and remove the dowel pins (7).

Place the bushing (14) into the tool 380200245 paying attention to direct it with the chamfer edge upwards.

Assemble the snap rings (13) by turning them by 90Â° with respect to the ring mounted before.

SECTION 27 - REAR AXLE Assemble the snap rings (13) until they are seated against the calibrated disc and using a drift 380200245. Repeat the procedure for the remaining 2 self adjust kits.

Assemble the self adjust kits (12) into the brake cylinder, paying attention to direct the chamfer edge of the bushing (14) upwards.

Assemble the snap rings (11). Make sure that the teeth of the snap ring are directed towards the self adjust kit.

Snap ring (11) orientation.

SECTION 27 - REAR AXLE

Assemble the belleville washers (9) on the screws (8) paying attention to orientate them correctly.

Assemble the screws (8) and the belleville washers (9). Tighten the screws (8) to a tightening torque of 15.3 Nm (11 lbfÂˇft). Make sure that the 4 belleville washers are correctly aligned before tightening the screws.

Assemble half shaft (4) and the dowel pins (7).

Using the reference mark made during disassembly, assemble the counterdisc (5) paying attention to direct it with the mark towards the axle body (3).

SECTION 27 - REAR AXLE Assemble the first braking disc (6) and the counterdisc (5). If using new brake discs (6), they must be soaked in oil for at least 24 hours prior to installation.

Assemble the last brake disc (6) and make sure that its slots are aligned with those of the first disc.

Connect the wheel hub (2) to a lifting device and assemble it on the beam (3). Support and turn the axle beam (4), while pushing the wheel hub onto it.

Screw in screws (1) applying the prescribed sealant and tighten to tightening torque of 226 Nm (167 lbfÂˇft).

SECTION 27 - REAR AXLE

WHEEL HUB

Disassembly Remove the brake assy.

If disassembly of the planetary gear carrier for overhauling is not necessary, use a bearing puller to lift the planetary gear carrier assy.

SECTION 27 - REAR AXLE Enlarge the snap ring (2) and simultaneously extract the gear carrier (1).

If necessary, remove the snap rings (3) and by means of a puller the gears (4) with the bearings (5) from the gear carrier (1). NOTE: the bearing (5) cannot be removed from the gear (4). If one gear must be replaced, replace the whole pair.

Unscrew and remove the ring nut (6) fastening the ring gear retaining hub using tool 380200244.

Separate the wheel hub (7) from the wheel flange (8) with a puller.

SECTION 27 - REAR AXLE

Connect the wheel hub (7) to a hoisting tool to remove it. Collect the bearing (9).

Remove the bearing cup (9) from the wheel hub (7).

Remove the seal ring (10) from the wheel hub (7).

Remove the bearing cup (11) from the wheel hub (7).

SECTION 27 - REAR AXLE Remove the spacer (12) from the wheel flange (8).

To remove the bearing (11), use a disc grinder to cut the cage and to engrave the ring. Then use a chisel to cut and to remove the ring.

Assembly Assemble the bearing cup (11) onto wheel hub (7) with the buffer 380200211. Assemble the bearing cup (9) with the buffer 380002222. Assemble the seal ring (10) on the wheel hub (7) with the buffer 380200254.

Use tool 380200254 (T) for the assembly of the seal ring (10) on the wheel hub (7).

SECTION 27 - REAR AXLE

Assemble the bearing (11) onto wheel flange (8) with a pusher and a press.

Place the spacer (12) on the wheel flange (8).

Connect the wheel hub (7) to a lifting device and place it on the wheel flange (8). Clean the sealing surface of the flange. Pay attention not to damage the seal ring (10).

Assemble the bearing cup (9) with a pusher and a hammer. Assemble the ring nut (6).

SECTION 27 - REAR AXLE Screw in and tighten the ring nut (6) with tool 380200244 at tightening torque of 1000 Nm (738 lbfÂˇft).

Assemble the bearing (5) with tool 380200255 (T).

Assemble the gears (4) and the snap rings (3) on the gear carrier (1). Ensure that the chamfer of the bearings (5) is directed towards the gear carrier (1).

Connect the gear carrier (1) to a hoisting tool to remove it. Lift it and then place it on the wheel hub (7).

SECTION 27 - REAR AXLE

Orientate the gear carrier (1) so that the tooth engages into the ring nut (6).

In order to simplify the installation, align the hole on the gear carrier with the ring nut (6). NOTE: it may take several attempts to find the right combination of alignment between teeth and hole of the gear carrier and the ring nut, to get the locking tooth to engage.

Enlarge the snap ring (2) to complete the gear carrier (1) assembly.

SECTION 27 - REAR AXLE DIFFERENTIAL SUPPORT ASSY

Disassembly Drain the oil completely from the differential.

Loosen and remove the screws (1).

SECTION 27 - REAR AXLE

Separate the axle support (3) from the axle body (2) using pry bars in slots.

Connect the differential support (3) to a lifting device to remove it.

Measure the rolling torque MT0 of the bearings (pinion-ring gear system), using wrench 380200269. Note value MT0 that is necessary for assembling the bearings. NOTE: the total rolling torque must be determined without the pinion seal ring.

It is possible to measure the total starting preload FT0 of the bearings (pinion-ring gear system) using a dynamometer whose cord is wound on the end of the pinion shaft. Note value FT0 that is necessary for assembling the bearings.

SECTION 27 - REAR AXLE Unscrew and remove the screws (4) fastening the ring nuts (5) and (6).

Unscrew the ring nuts (5) and (6) using tool 380200243.

Remove the differential box (7). The bearings cups (8) and (9) have to be removed together with the differential box.

SECTION 27 - REAR AXLE

Assembly Assemble the bearing cups (8) and (9) on the differential box (7) with drift 380200218.

Assemble the differential box (7) with bearings onto the differential support (3).

Tighten both ring nuts (5) and (6) with special tool 380200243, till the backlash is eliminated and the bearings are slightly preloaded. Check that the bearings are correctly seated.

Position a magnetic-base dial gauge on the differential support, so that the feeler touches the surface of one tooth of the ring gear with a 90Â° angle.

SECTION 27 - REAR AXLE Lock the pinion and alternately move the ring gear, and note the backlash between pinion and ring gear, measured with the dial gauge. Repeat the operation on two or more points (teeth), rotating the ring gear, so that to obtain an average value. Check if the measured backlash value is within the requested range: 0.20 รท 0.28 mm (0.0079 รท 0.0110 in) Carry out the adjustment by operating on the ring nuts (5) and (6) with tool 380200243. Adjust the ring nuts (5) and (6), remembering that: - if the measured backlash is less than the prescribed tolerance range, unscrew the ring nut (6) and screw in the ring nut (5) by the same measure; - if the measured backlash is more than the prescribed tolerance range, unscrew the ring nut (5) and screw in the ring nut (6) by the same measure.

Repeat the whole sequence of the above mentioned operations until the requested conditions are reached.

SECTION 27 - REAR AXLE

Once the pinion-ring gear backlash has been adjusted, if the bearings have not been replaced, measure the total rolling torque MTm of the bearings (pinion-ring gear system) with a torque meter and the special wrench 380200269. The measured value MTm should be the same of the starting: MTm = MT0

If the bearings have been replaced, measure the total preload FTm of the bearings (pinion-ring gear system), using a dynamometer whose cord is wound on tool 380200272 inserted on the pinion splined end.

The total preload FTm is measured by tool 380200237. The measured value should be within the following range: FTm = (FPm + 11) รท (FPm + 16.7) N [FTm = (FPm + 2.47) รท (FPm + 3.75) lbf] where FPm is the actual preload measured on tool 380200237 [gauge diameter Dm = 104.4 mm (4.11 in)].

NOTE: if you do not use the prescribed tool to measure the total preload FTm, the reference diameter is the diameter of pinion shaft splined end. The measured value should be within the following range: FTm = (FPm + 33) รท (FPm + 50) N [FTm = (FPm + 7.42) รท (FPm + 11.24) lbf] where FPm is the preload of the pinion bearings.

SECTION 27 - REAR AXLE Once the pinion-ring gear backlash has been adjusted, if the bearings have been replaced, measure the total rolling torque MTm of the bearings (pinion-ring gear system) with a torque meter and the wrench 380200269.

S WARNING S All preloads must be measured without seal rings.

The total torque MTm should be within the following range: MTm = (MPm + 0.58) ÷ (MPm + 0.87) Nm [MTm = (MPm + 0.43) ÷ (MPm + 0.64) lbf·ft] where MPm is the preload of the pinion bearings.

If the measure is not within the requested range, check the assembly of each component and operate on the ring nuts (5) and (6) of the differential support: - if the total preload is less than the given range, screw on the ring nuts (5) and (6) by the same measure, keeping the pinion-ring gear backlash value unchanged; - if the total preload is less than the given range, screw on the ring nuts (5) and (6) with the same measure, keeping the pinion-ring gear backlash value unchanged. Once all the adjustment operations have been completed, lock the ring nuts (5) and (6) with the screws (4). Tighten the screws (4) to a tightening torque of 10 Nm (7.4 lbf·ft).

SECTION 27 - REAR AXLE

Before matching worked surfaces, make sure they are perfectly clean, if not, clean with proper detergents. Apply a film of sealant on the contact surface of the axle body (2) and the differential support.

Place the differential support (3) on the axle body (2).

Screw in and tighten the screws (1) to a tightening torque of 80 Nm (59 lbfÂˇft).

SECTION 27 - REAR AXLE Check of the bevel gear To test the marks of the bevel gear teeth, paint the ring gear with red lead paint. The contact mark test should always be carried out on the ring gear teeth and on both sides.

OK -> Correct contact: If the bevel gear is well adjusted, the mark on the teeth surfaces will be regular. Z -> Excessive contact on the tooth tip: approach the pinion to the ring bevel gear and then move the ring bevel gear away from the pinion in order to adjust the backlash. X -> Excessive contact at the tooth base: move the pinion away from the ring bevel gear and then approach the ring bevel gear to the pinion in order to adjust the backlash. Movements to correct: 1 -> move the pinion for type X contact adjustment; 2 -> move the pinion for type Z contact adjustment.

38 DIFFERENTIAL LOCKING ASSY

Disassembly Loosen plug (1) without removing it.

SECTION 27 - REAR AXLE

SECTION 27 - REAR AXLE Push the yoke (2) downwards using the differential support as a retainer, then remove the plug (1).

Insert the tool 380200259.

Remove the snap ring (5). Remove the tool 380200259.

Remove the bushing (6).

SECTION 27 - REAR AXLE

Remove the spring (4).

Extract the rod assy (3) from the differential support.

Remove the yoke (2), the spring (7) and the spacer (8) from the rod (3).

Remove the O-ring (9) from the plug (1). Remove the O-rings (11) and (12) from the piston (10).

SECTION 27 - REAR AXLE Assembly Assemble the O-rings (11) and (12) onto the piston (10). Assemble the O-ring (9) on the plug (1). Lubricate the O-rings.

Lubricate the rod (3). Assemble the yoke (2) on the rod (3). Assemble the spacer (8) and the spring (7). Orientate the spacer (8) with the flat towards the snap ring (13).

Assemble the rod assy (3) onto the differential support.

Assemble the spring (4).

SECTION 27 - REAR AXLE

Assemble the bushing (6), make sure to orientate it with the flat end outwards.

Insert the tool 380200259 (T1).

Assemble the snap ring (5) with tool 380200260 (T2). Remove tools 380200259 (T1) and 380200260 (T2).

Push the yoke (2) downwards using the differential support as a retainer. Screw in the plug (1) by hand.

SECTION 27 - REAR AXLE Tighten the plug (1) to the requested torque of 80 Nm (59 lbfÂ·ft).

SECTION 27 - REAR AXLE

DIFFERENTIAL

Disassembly If differential bearings must be replaced, remove the bearing cups (1) and (2). Remove the sleeve (3).

SECTION 27 - REAR AXLE Remove the snap ring (4).

Take out the cover (5) and collect the anti-rotation pin (6) and the shoulder ring (7).

Remove the gear (8).

Remove the dowels (9).

SECTION 27 - REAR AXLE

Take out the pins (10).

Unscrew and remove the screws (11) and the ring gear (12).

Slip off pin (13) until the gear is free (14). NOTE: the pin can be slipped off only in one direction.

Assemble the planetary gear (14) and the relevant shoulder ring (15).

SECTION 27 - REAR AXLE Remove the pin (13), the planetary gear (16) and the relevant shoulder ring (17).

Pull out partially the pins (18) and remove the spacer (19).

Remove the pins (18), the gears (20) and the relevant shoulder rings (21).

Remove the gear (22) and the relevant ring (23).

SECTION 27 - REAR AXLE

Remove the pins (25) locking the differential box (24).

Assembly Assemble the O-rings (26) on the pins (25).

Assemble the pins (25) into the differential box (24).

Assemble the gear (22) and the relevant ring (23).

SECTION 27 - REAR AXLE Assemble the gears (20) and the relevant shoulder rings (21). Insert pins (18) far enough to hold them. NOTE: orientate the flats on the pins facing up.

Assemble the spacer (19) and the pins (18), make sure to align the pin holes with those of the differential box (24).

Lubricate and assemble the gear (16) and the relevant shoulder ring (17). Insert pin (13). Orientate the pin (13) with the flat facing up.

Assemble the planetary gear (14) and the relevant shoulder ring (15) and insert the pin (13) and make sure to align the pin hole with that of the differential box (24).

SECTION 27 - REAR AXLE

Assemble the ring gear (12), apply some sealant and tighten the screws (11) to a tightening torque of 165 Nm (122 lbfÂˇft).

Insert the pins (10) and tighten the plugs (9) to the prescribed torque.

Assemble the gear (8).

Apply a thin film of grease on the cover (5) and assemble the ring (7).

SECTION 27 - REAR AXLE Assemble the anti-rotation pin (6) on the cover (5). Assemble the cover (5) onto the differential box.

Lock the cover (5) with the snap ring (4).

Assemble the sleeve (3) and make sure that it seats correctly. NOTE: to ease the fitting, turn the gear (22).

Assemble the bearing cups (1) and (2) with drift 380200218. Take care not to mix the bearing cups.

SECTION 27 - REAR AXLE

PINION ASSY

Disassembly Measure the starting preload FP0 of the pinion bearings using a dynamometer whose cord is wound on the end of the pinion shaft.

S WARNING S Note value FP0 that is necessary for assembling the bearings.

Measure the rolling torque MP0 of the bearings, using a torque wrench and tool 380200269.

S WARNING S Note value MP0 that is necessary for assembling the bearings.

SECTION 27 - REAR AXLE Lock the differential assy in a vice. Unscrew the ring nut (1) using special tools 380000021 and 380000020. NOTE: this operation will irretrievably damage the lock nut (1).

Remove the ring nut (1) and collect its washer (2).

Tap the shaft end with a soft hammer to remove the pinion (3). Collect the washers (4) and (5), the spacer (6) and the bearing (7).

Remove the bearing cups (7) and (8) from the differential support (9) using a buffer and a hammer.

SECTION 27 - REAR AXLE

Remove the bearing (8) from the pinion (3) by means of a puller. Collect the shim (10).

Check the conditions of all pinion parts. The ring nut (1) and the spacer (6) must be replaced during assembly.

SECTION 27 - REAR AXLE Assembly Place the differential support (9) on a workbench. Insert the bearing cups (7) and (8) with the buffers 380200200 and 380002215 and a hammer.

Insert the bearings (7) and (8) into the relevant seats. Assemble the false pinion kit 380200273 (a1) and the ring nut (1). Tighten without exceeding the ring nut, until the backlash is eliminated.

Assemble tool 380200187 (T) on the differential box seats (9).

Use a depth gauge to measure dimension â&#x20AC;&#x153;Xâ&#x20AC;? (distance between bearing axis of differential box and leaning point of pinion head or bearing base).

SECTION 27 - REAR AXLE

To adjust the bevel gear measure the distance “A” with a depth gauge. Determine the value “X” as follows: X = (A + C) - B mm (in) where “B” and “C” are known values.

In order to determine the value (S) of the shim to be placed between pinion and bearing, subtract from the measured value (X) the value (V) engraved on pinion head (V = prescribed distance). S = (X - V) mm (in)

Select the shim (10) with value (S) from the range of available shims, and fit it onto the shaft end under the pinion head. SHIM RANGE Shims 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 mm (0.098) (0.102) (0.106) (0.110) (0.114) (0.118) (0.122) (0.126) (0.130) (0.134) (in) Q.ty

Remove tool 380200187 from the seats (9) of the differential box. Disassemble the ring nut (10), the false pinion 380200202 (a1) and the bearings (7) and (8).

SECTION 27 - REAR AXLE Once you have chosen the suitable shim (10), insert it on the pinion shaft with the chamfer against the pinion head.

Insert the bearing (8) into the pinion (3) using a press and a buffer 380200204.

Insert the pinion (3) into the differential box (9). Insert the shims (4) and (5) and the spacer (6). NOTE: always use a new spacer (6).

Check the right assembly sequence.

SECTION 27 - REAR AXLE

Assemble the bearing (7) on pinion shaft, using buffer 380200204 and a hammer.

Insert the washer (2) and tighten the new ring nut (1) on the pinion shaft. Lubricate the ring nut thread (1) and the supporting face with the washer (2) with oil.

Screw in the ring nut (1) using the wrench for ring nut 380200268 and the pinion retainer 380200269.

S WARNING S The tightening torque is given by the measure of the preload on bearings (7) and (8); gradually tighten the ring nut (1). NOTE: if the tightening is excessive, the spacer (6) must be replaced and the procedure repeated. When you check the preload, strike the pinion end (3) with a soft hammer to favour the bearings (7) and (8) settlement. If the bearings have not been replaced, to measure the preload FPm of the bearings (7) and (8), use a dynamometer whose cord is wound on the end of pinion shaft (3).

S WARNING S Use this method only if the bearings are not to be replaced, otherwise go to next step. The measured value should be within the following range: FPm = FP0 รท (FP0 + 10) N [FPm = FP0 รท (FP0 + 2.25) lbf]

SECTION 27 - REAR AXLE If the bearings have not been replaced, it is possible to measure the rolling torque MPm of the bearings (7) and (8), using a torque wrench and tool 380000020. NOTE: use this method only if the bearings are not replaced.

S WARNING S All preloads must be measured without seal rings. The measured value should be the same of the starting: MPm = MP0 If the bearings (7) and (8) are new, to measure the preload FPm of the bearings, use a dynamometer whose cord is wound on tool 380200237, inserted on the end of pinion shaft.

The actual preload FPm is measured on tool 380200237 [gauge diameter Dm = 114.4 mm (4.50 in)]. The measured value should be within the following range: FPm = 38.3 รท 46 N [FPm = 8.61 รท 10.34 lbf]

S WARNING S Values for new bearings.

In case you do not use the prescribed tool to measure the preload, the reference diameter is the diameter of pinion shaft splined end. The measured value should be within the following range: FPm = 115 รท 138 N [FPm = 25.85 รท 31.02 lbf]

SECTION 27 - REAR AXLE

If the bearings are new, measure the rolling torque MPm of the pinion shaft bearings with a torque meter and the wrench 380000020.

S WARNING S All preloads must be measured without seal rings.

The measured value MPm should be within the following range: MPm = 2.0 ÷ 2.4 Nm [MPm = 1.47 ÷ 1.77 lbf·ft]

Once the prescribed preload value is achieved, caulk the ring nut (1) using a hammer and a punch.

SECTION 27 - REAR AXLE

TROUBLESHOOTING FAULT Wheel vibrations.

Tyre resistance.

Broken axle shaft.

Difficult steering; the machine travels in a straight line while steering.

No differential action; jams during steering.

POSSIBLE CAUSE

ACTION

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair the axle.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Axle beam bent.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Axle beam bent.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Axle beam bent.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Bent or broken axle shaft.

Replace the axle beam.

SECTION 27 - REAR AXLE

FAULT Excessive noise.

Excessive wear of the tyre.

Friction noise.

Vibrations during travel.

POSSIBLE CAUSE

ACTION

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect wheel alignment.

Check that the structure and the bearings are in good conditions.

Incorrect axle part installation.

Check the installation.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Differential locked.

Check the installation.

Excessive steering angle.

Reduce the steering angle.

Incorrect wheel alignment.

Check that the structure and the bearings are in good conditions.

Incorrect installation.

Correct the installation.

Bent or broken axle shaft.

Replace the axle beam.

Damaged or worn axle parts.

Replace the damaged axle parts.

Incorrect axle part installation.

Check the installation.

Incorrect adjustment of the bevel gear set.

Adjust the bevel gear set.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Bent or broken axle shaft.

Replace the axle beam.

SECTION 27 - REAR AXLE

FAULT Outer tip of ring gear tooth is broken.

POSSIBLE CAUSE Excessive gear load compared to the one expected. Gear adjustment wrong (excessive backlash). Pinion nut loose.

Inner tip of ring gear tooth is broken.

Replace bevel gear. Follow carefully recommended adjustment operations of ring gear and pinion backlash and of tooth marks detection. Replace bevel gear.

Gear adjustment wrong (insufficient backlash).

Follow carefully recommended adjustment operations of ring gear and pinion backlash and of tooth marks detection.

Insufficient lubrication.

Replace bevel gear.

Contaminated lubricant.

Replace worn out pinion bearings that cause an incorrect pinion axle backlash and wrong contact between pinion and ring gear.

Incorrect lubrication or poor additives. Worn out pinion bearings that cause an incorrect pinion axle backlash and wrong contact between pinion and ring gear. Ring gear teeth or pinion teeth overheated. Check if gear teeth have faded.

ACTION

Crash load.

Pinion nut loose. Ring gear teeth or pinion teeth damaged or scored.

Prolonged operation at high temperature. Unsuitable lubricant. Oil level low.

Use proper lubricant, fill up to right level and replace at recommended intervals. Replace bevel gear. Use proper lubricant, fill up to right level and replace at recommended intervals.

Contaminated lubricant. Drive pinion teeth pitted.

Bent axle beam body.

Extremely intense use.

Replace bevel gear.

Insufficient lubrication.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Machine overloaded.

Replace the axle beam body.

Damaged vehicle. Crash load. Bearings worn or pitted.

Insufficient lubrication.

Replace the bearings.

Contaminated lubricant.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Extremely intense use. Normal wear. Pinion nut loose.

SECTION 27 - REAR AXLE

FAULT Gaskets leak oil.

POSSIBLE CAUSE

ACTION

Prolonged operation at excessive oil temperature.

Replace the gasket and matching surface if damaged.

Oil gasket wrongly installed.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Gasket edge cut or scored. Contaminated lubricant. Excessive wear of input flange spline.

Intense use.

Replace the flange.

Pinion nut loose.

Check that the pinion spline is not excessively worn out.

Pinion axial backlash.

Replace bevel gear, if necessary. Pinion gear tooth fatigue break. Check if the fracture line is wavy or clearly delineated (stop line).

Intense use.

Break of pinion teeth and ring gear teeth.

Crash load of differential components.

Check and/or replace other differential components.

Splines of planetary gear worn (excessive backlash).

Intense use.

Replace differential gear assy.

Worn or scored surfaces of the scraper thrust washer.

Insufficient lubrication.

Continuous overload.

Replace axle beam, if necessary.

Lubrication wrong. Contaminated lubricant.

Inner diameter of pinion tapered roller bearing worn out.

Replace bevel gear.

Replace all scratched washers and those with a 0.1 mm (0.004 in) thickness lower than the new ones. Use proper lubricant, fill up to right level and replace at recommended intervals.

Intense use.

Replace bearing.

Excessive pinion end play.

Check pinion axial backlash.

Unsuitable lubrication.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Contaminated lubricant. Broken or bent axle beam.

Intense vehicle operation, overload.

Replace the axle beam.

Broken axle beam at wheel flange.

Loose wheel support.

Replace the axle beam.

Bent axle beam body.

Check bending of axle beam body. Ensure that wheel support is not worn out or wrongly adjusted.

SECTION 27 - REAR AXLE

FAULT Noise during travel.

Noise during idling.

Intermittent noise.

Constant noise.

POSSIBLE CAUSE

ACTION

Excessive backlash between ring gear and pinion.

Adjust the backlash between the ring gear and the pinion.

Pinion and ring gear worn.

Replace pinion and ring gear.

Worn-out pinion bearings

Replace pinion bearings.

Loose pinion bearings.

Adjust pinion bearings.

Excessive pinion end play.

Adjust the axial play of the pinion.

Differential bearings worn out.

Replace differential bearings.

Loose differential bearings.

Adjust the bearings.

Ring gear excessively off-set.

Replace the ring gear.

Low lubricant level.

Restore the level.

Poor or wrong lubricant grade.

Change lubricant.

Axle beam bent.

Replace the axle beam.

Noises emitted by the axle when the vehicle is moving are usually heard during idling, even though they are not too loud.

Adjust the backlash between the ring gear and the pinion or replace pinion and ring gear.

Wrong backlash between pinion and ring gear (the noise heard while decelerating disappears when speed is increased).

Adjust the play between the pinion and the ring gear.

Pinion spline or input flange worn.

Replace the pinion.

Damaged ring gear.

Replace bevel gear.

Differential box screws loose.

Tighten the screws to torque.

Ring gear teeth or pinion teeth damaged.

Replace bevel gear.

Worn bearings.

Replace the bearings.

Pinion splines worn.

Replace the pinion.

Axle beam bent.

Replace the axle beam.

SECTION 27 - REAR AXLE

FAULT Noise while bending.

POSSIBLE CAUSE

ACTION

Differential planetary gears damaged.

Replace the planetary gears.

Differential box and/or pins worn.

Replace the differential box.

Worn differential thrust washers.

Replace the thrust washers.

Worn-out axle beam splines

Replace the axle beam.

SECTION 27 - REAR AXLE

REPAIR TIMES The times are referred to average values of maintenance performed by skilled personnel in workshops equipped with all necessary fixtures for a proper execution of the required works. The repair and/or replacement times are indicated in minutes. We assume that the axle has already been removed from the machine. ASSY Connection flange

OPERATION

TIME (minutes)

Pinion sealing ring

Replacement / overhauling of wheel flange (x 1)

240

Replacement of wheel hub with ring gear (x 1)

240

Replacement of bearings and wheel hub seal ring (x 1)

210

O-ring replacement (x 1)

Gear carrier assy replacement (x 1)

Replacement of discs and counterdiscs and zero setting of self-adjust (for each side)

Overhauling / replacement of brake piston seals (x 1)

Overhauling / replacement of brake cylinder (for each side)

105

Self-adjust replacement (for each side)

Axle shaft replacement (x 1)

Differential bearing replacement

180

Bevel gear / differential replacement

150

Differential

Differential gear replacement

240

Differential locking

O-ring / piston replacement

Pinion

Pinion bearings replacement

180

Wheel hub

Brake

Differential support

SECTION 27 - REAR AXLE

SPECIAL TOOLS PN CNH

DESCRIPTION

USE

380002211

Handle

To be used with the various pushers and buffers

380000021

Wrench

Screw / unscrew the pinion ring nut

380200187

False differential box

Differential and pinion assembly

380002215

Buffer

Pinion bearing cups assembly

380000020

Wrench

Measure of pinion rolling torque

380002222

Buffer

Wheel hub seal ring and bearing assembly

380200200

Buffer

Pinion bearing cups assembly

380200202

False pinion

Differential and pinion assembly

380200204

Buffer

Assembly of pinion bearings

380200211

Buffer

Wheel hub seal ring and bearing assembly

380200218

Buffer

Assembly of bearing cups into the differential box

380200228

Drift

Pinion seal ring assembly

380200237

Tool

Measure of pinion preload

380200243

Wrench

Screw / unscrew the pinion ring nuts

380200244

Wrench

Screw / unscrew the wheel hub ring nuts

380200245

Buffer

Assembly / disassembly of self-adjust kit

380200254

Buffer

Wheel hub seal ring and bearing assembly

380200255

Buffer

Assembly of bearings into gears

380200259

Plunger

Assembly / disassembly of differential locking yoke

380200260

Guide

Assembly / disassembly of differential locking yoke

SECTION 27 - REAR AXLE

2WS REAR AXLE (B110C - B110CTC) TECHNICAL SPECIFICATIONS

SECTION 27 - REAR AXLE

Manufacturer

CARRARO

Model

28.50

Bevel gear reduction ratio

2.75/1

Epicyclic gear ratio

6.40/1

Total reduction ratio

17.6/1

Input rotation

clockwise

Dry weight

472 kg (1040 lb)

Differential type Pressure for differential lock Bevel gear set backlash

Mechanical and driven 12 ÷ 35 bar (174 ÷ 508 psi) 0.20 ÷ 0.35 mm (0.008 ÷ 0.014 in)

Pinion bearing preload (*) (measured on Ø = 39.7 mm (1.56 in) without seal ring)

FPm = 10.0 ÷ 12.0 daN (22.48 ÷ 26.98 lbf)

Ring gear-pinion bearing total preload (*) (measured on Ø = 39.7 mm (1.56 in) without seal ring)

FTm = (FPm + 2.76) ÷ (FPm + 4.16) daN [FTm = (FPm + 6.20) ÷ (FPm + 9.35) lbf]

Pinion bearing rolling torque (*) measured without seal ring Total pinion-ring gear bearing rolling torque (*) measured without seal ring

MPm = 2.0 ÷ 2.4 Nm (MPm = 1.47 ÷ 1.77 lbf·ft) MTm = (MPm + 0.55) ÷ (MPm + 0.83) Nm [MTm = (MPm + 0.40) ÷ (MPm + 0.61) lbf·ft]

(*) Only for new bearings

SERVICE BRAKE Brake type

Wet disc brake

Brake operating temperature

-20 °C ÷ 150 °C (-4 ÷ 5.9 °F)

Maximum operating pressure

55 bar (798 psi)

Oil displacement for brake actuation (each side)

16 cm3 (0.98 in3)

SECTION 27 - REAR AXLE

LUBRICATION AND GREASING Oil capacity (differential) Oil type

1. Level and fill plug for differential oil 2. Differential oil drain plug 3. Oil breather 4. Oil drain plug 5. Brake breather

15.5 litres (3.41 gal) Ambra TRX 80W -140 NH600 / TR

SECTION 27 - REAR AXLE

Before draining the oil from the axle body, use the breather (3) to release any possible internal pressure.

S WARNING S Risk of violent oil ejection.

To drain the oil from the central body remove the level plug (1) and the drain plug (2).

SECTION 27 - REAR AXLE

SECTION 27 - REAR AXLE GREASE POINTS

SECTION 27 - REAR AXLE

FRONT FLANGE

Disassembly Remove the stop ring (1) and the front flange (2). Collect shim (4) and the O-ring (3).

Take out the seal ring (5) from the central body (6).

S WARNING S The seal ring can be damaged.

SECTION 27 - REAR AXLE If necessary, remove protection (7) from the front flange (2).

Assembly On the front flange (2), assemble the protection (7) using tool 380200277.

Use tool 380200277 to assemble the protection (7) on the front flange (2).

Insert a new seal ring (5) into the central body (6) using tool 380200276.

SECTION 27 - REAR AXLE

Use tool 380200276 to fit the seal ring (5) into the central body (6).

Grease the O-ring (3). Insert the washer (4), the O-ring (3) and the front flange (2) into the pinion. Fasten the pieces as soon as assembled by fitting the snap ring (1).

SECTION 27 - REAR AXLE BRAKES

Disassembly Drain the oil completely from the differential.

Loosen and remove all screws (1) except for 2 as a safety measure.

SECTION 27 - REAR AXLE

Connect the wheel hub (2) to a lifting device and tension the rope. Insert 2 opposed threaded rods to enable removal.

Remove the 2 last screws (1) and separate the wheel hub assy (2) from the axle body (3).

Slowly remove the wheel hub assy and the half axle (4), make sure that the discs (5) and the counterdiscs (6) stay on the wheel hub assy.

Place the wheel hub assy vertically and mark the counterdisc (5) assembled to the axle body side (3). Remove the discs (6), the counterdiscs (5) and the dowel pins (7).

SECTION 27 - REAR AXLE Remove the half axle (4) from the wheel hub assy (2).

Remove the screws (8) and the belleville washers (9) from the brake cylinder (10).

Check screws (8) and belleville washers (9) for damage. NOTE: if brake discs are replaced, also replace screws and springs.

Remove the snap ring (11) and the self adjust kit assy (12).

SECTION 27 - REAR AXLE

Place the self adjust kit (12) on tool 380200245 and remove the snap rings (13).

Check bushing (14) for wear. Repeat the procedure for the remaining 2 self adjust kits.

Remove the brake cylinder assy (10).

Remove the brake piston (15) from the brake cylinder (10).

SECTION 27 - REAR AXLE Remove the O-rings (16) and (17) from the brake cylinder (10).

Remove the O-ring (18) from the brake piston (15).

Remove the O-ring (19).

SECTION 27 - REAR AXLE

Assembly Assemble the new O-ring (19).

Assemble the O-ring (18) onto the brake piston (15).

Assemble the O-rings (16) and (17) onto the brake cylinder (10).

Lubricate the O-rings (16), (17) and (18). Assemble the brake piston (15) into the brake cylinder (10).

SECTION 27 - REAR AXLE Lubricate the seat of the brake cylinder on the wheel hub (2) and assemble the dowel pins (7).

Assemble the brake cylinder assy (10) and remove the dowel pins (7).

Place the bushing (14) into the tool 380200245 paying attention to direct it with the chamfer edge upwards.

Assemble the snap rings (13) by turning them by 90Â° with respect to the ring mounted before.

SECTION 27 - REAR AXLE

Assemble the snap rings (13) until they are seated against the calibrated disc and using a drift 380200245. Repeat the procedure for the remaining 2 self adjust kits.

Assemble the self adjust kits (12) into the brake cylinder, paying attention to direct the chamfer edge of the bushing (14) upwards.

Assemble the snap rings (11). Make sure that the teeth of the snap ring are directed towards the self adjust kit.

Snap ring (11) orientation.

SECTION 27 - REAR AXLE Assemble the belleville washers (9) on the screws (8) paying attention to orientate them correctly.

Assemble half shaft (4) and the dowel pins (7).

Using the reference mark made during disassembly, assemble the counterdisc (5) paying attention to direct it with the mark towards the axle body (3).

SECTION 27 - REAR AXLE

Assemble the first braking disc (6) and the counterdisc (5). If using new brake discs (6), they must be soaked in oil for at least 24 hours prior to installation.

Assemble the last brake disc (6) and make sure that its slots are aligned with those of the first disc.

Connect the wheel hub (2) to a lifting device and assemble it on the beam (3). Support and turn the axle beam (4), while pushing the wheel hub onto it.

Screw in screws (1) applying the prescribed sealant and tighten to tightening torque of 226 Nm (167 lbfÂˇft).

SECTION 27 - REAR AXLE WHEEL HUB

Disassembly Remove the brake assy.

If disassembly of the planetary gear carrier for overhauling is not necessary, use a bearing puller to lift the planetary gear carrier assy.

SECTION 27 - REAR AXLE

Enlarge the snap ring (2) and simultaneously extract the gear carrier (1).

Unscrew and remove the ring nut (6) fastening the ring gear retaining hub using tool 380200244.

Separate the hub (7) from the wheel flange (8) with a puller.

SECTION 27 - REAR AXLE Connect the hub (7) to a hoisting tool to remove it. Collect the bearing (9).

Remove the bearing cup (9) from the wheel hub (7).

Remove the seal ring (10) from the wheel hub (7).

Remove the bearing cup (11) from the wheel hub (7).

SECTION 27 - REAR AXLE

Remove the spacer (12) from the wheel flange (8).

To remove the bearing (11), use a disc grinder to cut the cage and to engrave the ring. Then use a chisel to cut and to remove the ring.

Use tool 380200254 (T) for the assembly of the seal ring (10) on the wheel hub (7).

SECTION 27 - REAR AXLE Assemble the bearing (11) onto wheel flange (8) with a press.

Place the spacer (12) on the wheel flange (8).

Connect the wheel hub (7) to a lifting device and place it on the wheel flange (8). Clean the sealing surface of the flange. Pay attention not to damage the seal ring (10).

Assemble the bearing (9) and the ring nut (6).

SECTION 27 - REAR AXLE

Screw in and tighten the ring nut (6) with tool 380200244 at tightening torque of 1000 Nm (738 lbfÂˇft).

Assemble the bearing (5) with tool 380200255 (T).

Assemble the gears (4) and the snap rings (3) on the gear carrier (1). Ensure that the chamfer of the bearings (5) is directed towards the gear carrier (1).

Connect the gear carrier (1) to a hoisting tool to remove it. Lift it and then place it on the wheel hub (7).

SECTION 27 - REAR AXLE Orientate the gear carrier so that the tooth engages into the ring nut (6).

Enlarge the snap ring (2) to complete the gear carrier (1) assembly.

SECTION 27 - REAR AXLE

DIFFERENTIAL SUPPORT ASSY

Disassembly Drain the oil completely from the differential.

Loosen and remove the screws (1).

SECTION 27 - REAR AXLE Separate the axle support (3) from the axle body (2) using pry bars in slots.

Connect the differential support (3) to a lifting device to remove it.

SECTION 27 - REAR AXLE

Unscrew and remove the screws (4) fastening the ring nuts (5) and (6).

Unscrew the ring nuts (5) and (6) using tool 380200243.

Remove the differential box (7). The bearings cups (8) and (9) have to be removed together with the differential box.

SECTION 27 - REAR AXLE Assembly Assemble the bearing cups (8) and (9) on the differential box (7) with drift 380200218.

Assemble the differential box (7) with bearings onto the differential support (3).

Tighten both ring nuts (5) and (6) with special tool 380200243, till the backlash is eliminated and the bearings are slightly preloaded. Check that the bearings are correctly seated.

Position a magnetic-base dial gauge on the differential support, so that the feeler touches the surface of one tooth of the ring gear with a 90Â° angle.

100

SECTION 27 - REAR AXLE

Lock the pinion and alternately move the ring gear, and note the backlash between pinion and ring gear, measured with the dial gauge. Repeat the operation on two or more points (teeth), rotating the ring gear, so that to obtain an average value. Check if the measured backlash value is within the requested range: 0.20 รท 0.35 mm (0.008 รท 0.014 in) Carry out the adjustment by operating on the ring nuts (5) and (6) with tool 380200243. Adjust the ring nuts (5) and (6), remembering that: - if the measured backlash is less than the prescribed tolerance range, unscrew the ring nut (6) and screw in the ring nut (5) by the same measure; - if the measured backlash is more than the prescribed tolerance range, unscrew the ring nut (5) and screw in the ring nut (6) by the same measure.

Repeat the whole sequence of the above mentioned operations until the requested conditions are reached.

SECTION 27 - REAR AXLE Once the pinion-ring gear backlash has been adjusted, if the bearings have not been replaced, measure the total rolling torque MTm of the bearings (pinion-ring gear system) with a torque meter and the special wrench 380200269. The measured value MTm should be the same of the starting: MTm = MT0

The total preload FTm is measured by tool 380200272. The measured value should be within the following range: FTm = (FPm + 9.2) รท (FPm + 13.8) N [FTm = (FPm + 2.07) รท (FPm + 3.10) lbf] where FPm is the actual preload measured on tool 380200272 [gauge diameter Dm = 119.1 mm (4.69 in)].

Once the pinion-ring gear backlash has been adjusted, if the bearings have been replaced, measure the total rolling torque MTm of the bearings (pinion-ring gear system) with a torque meter and the wrench 380200269.

S WARNING S All preloads must be measured without seal rings.

101

102

SECTION 27 - REAR AXLE

If the measure is not within the requested range, check the assembly of each component and operate on the ring nuts (5) and (6) of the differential support: - if the total preload is less than the given range, screw on the ring nuts (5) and (6) by the same measure, keeping the pinion-ring gear backlash value unchanged; - if the total preload is less than the given range, screw on the ring nuts (5) and (6) with the same measure, keeping the pinion-ring gear backlash value unchanged. NOTE: To test the marks of the bevel gear teeth, paint the ring gear with red lead paint. The contact mark test should always be carried out on the ring gear teeth and on both sides.

SECTION 27 - REAR AXLE Once all the adjustment operations have been completed, fit the ring nuts (5) and (6) by tightening the screws (4). Tighten the screws (4) to a tightening torque of 10 Nm (7.4 lbfÂˇft).

Place the differential support (3) on the axle body (2).

Screw in and tighten the screws (1) to a tightening torque of 169 Nm (125 lbfÂˇft).

103

104 DIFFERENTIAL LOCKING ASSY

Disassembly Loosen plug (1) without removing it.

SECTION 27 - REAR AXLE

SECTION 27 - REAR AXLE Push the yoke (2) downwards using the differential support as a retainer. Remove the plug (1).

Insert the tool 380200259.

Remove the snap ring (5). Remove the tool 380200259.

Remove the bushing (6).

105

106

SECTION 27 - REAR AXLE

Remove the plug (7).

Remove the springs (4) and (8) and the spacer (9).

Extract the rod assy (3) from the differential support.

Remove the O-ring (10) from the plug (1). Remove the O-rings (12) and (13) from the piston (11).

SECTION 27 - REAR AXLE Remove the O-ring (14) from the plug (7).

Assembly Assemble the O-ring (14) on the plug (7).

Assemble the O-rings (12) and (13) onto the piston (11). Assemble the O-ring (10) on the plug (1). Lubricate the O-rings.

Assemble the rod (3) and the yoke (2) in the differential support. NOTE: orientate the rod (3) with the outer groove (A) directed towards the yoke (2).

107

108

SECTION 27 - REAR AXLE

Insert the springs (4) and (8) and the spacer (9).

Screw in and tighten the plug (1) to the prescribed torque of 80 Nm (59 lbfÂˇft).

Assemble the bushing (6).

Insert the tool 380200259 (T1).

SECTION 27 - REAR AXLE Assemble the snap ring (5) with tool 380200260 (T2). Remove tools 380200259 (T1) and 380200260 (T2).

Push the yoke (2) downwards using the differential support as a retainer. Screw in the plug (1) by hand.

Tighten the plug (1) to the prescribed torque of 30 Nm (22 lbfÂˇft).

109

110 DIFFERENTIAL

Disassembly Loosen and remove the screws (1). Remove the ring gear (2).

SECTION 27 - REAR AXLE

SECTION 27 - REAR AXLE If necessary, replace the differential bearings. Remove the bearing cups (3) and (4). Remove the sleeve (5).

Remove the snap ring (6).

Take out the cover (7) and collect the anti-rotation pin (8) and the ring (9).

Remove the gear (10).

111

112

SECTION 27 - REAR AXLE

Remove the dowels (11).

Take out the pins (12).

Slip off pin (13) until the gear is free (14).

Assemble the gear (14) and the relevant shoulder ring (15).

SECTION 27 - REAR AXLE Remove the pin (13), the gear (16) and the relevant shoulder ring (17).

Pull out partially the pins (18) and remove the spacer (19).

Remove the pins (18), the gears (20) and the relevant shoulder rings (21).

Remove the gear (22) and the relevant ring (23).

113

114

SECTION 27 - REAR AXLE

Remove the pins (25) locking the differential box (24).

Assembly Assemble the O-rings (26) on the pins (25).

Assemble the pins (25) into the differential box (24).

Assemble the gear (22) and the relevant ring (23).

SECTION 27 - REAR AXLE Assemble the gears (20) and the relevant shoulder rings (21). Insert pins (18) far enough to hold them. NOTE: orientate the flats on the pins facing up.

Assemble the spacer (19) and the pins (18), make sure to align the pin holes with those of the differential box (24).

Assemble the gear (16) and the relevant shoulder ring (17). Insert pin (13). Orientate the pin (13) with the flat facing up.

Assemble the gear (14) and the relevant shoulder ring (15) and insert the pin (13) and make sure to align the pin hole with that of the differential box (24).

115

116

SECTION 27 - REAR AXLE

Insert the pins (12). Screw in and tighten the plugs (11) to the prescribed torque of 25 Nm (18.4 lbfÂˇft).

Assemble the gear (10).

Apply a thin film of grease on the cover (7) and assemble the ring (9).

Assemble the anti-rotation pin (8) on the cover (7). Assemble the cover (7) onto the differential box.

SECTION 27 - REAR AXLE Lock the cover (7) with the snap ring (6).

Assemble the sleeve (5) and make sure that it seats correctly. NOTE: to ease the fitting, turn the gear (22).

Assemble the bearing cups (3) and (4) with drift 380200218. Take care not to mix the bearing cups.

Assemble the ring gear (2). Apply some sealant and tighten the screws (1) to the prescribed torque of 190 Nm (140 lbfÂˇft).

117

118

SECTION 27 - REAR AXLE

PINION ASSY

Disassembly Measure the starting preload FP0 of the pinion bearings using a dynamometer whose cord is wound on the end of the pinion shaft.

S WARNING S Note value FP0 that is necessary for assembling the bearings.

Measure the rolling torque MP0 of the bearings, using a torque wrench and tool 380200269.

S WARNING S Note value MP0 that is necessary for assembling the bearings.

SECTION 27 - REAR AXLE Lock the differential assy in a vice. Unscrew the ring nut (1) using special tools 380200268 and 380200269. NOTE: this operation will irretrievably damage the lock nut (1).

Remove the ring nut (1) and collect its washer (2).

Tap the shaft end with a soft hammer to remove the pinion (3). Collect the washers (4) and (5), the spacer (6) and the bearing (7).

Remove the bearing cups (7) and (8) from the differential support (9) using a buffer and a hammer.

119

120

SECTION 27 - REAR AXLE

Remove the bearing (8) from the pinion (3) by means of a puller. Collect the shim (10).

Check the conditions of all pinion parts. The ring nut (1) and the spacer (6) must be replaced during assembly.

SECTION 27 - REAR AXLE Assembly Place the differential support (9) on a workbench. Insert the bearing cups (7) and (8) with the buffer 380200274 and a hammer.

Insert the bearings (7) and (8) into the relevant seats. Assemble the false pinion kit 380200273 (a1) and the ring nut (1). Tighten without exceeding the ring nut, until the backlash is eliminated.

Assemble tool 380200187 (T) on the differential box seats (9).

Use a depth gauge to measure dimension â&#x20AC;&#x153;Xâ&#x20AC;? (distance between bearing axis of differential box and leaning point of pinion head or bearing base).

121

122

SECTION 27 - REAR AXLE

To adjust the bevel gear measure the distance “A” with a depth gauge. Determine the value “X” as follows: X = (A + C) - B mm (in) where “B” and “C” are known values.

Select the shim (10) with value (S) from the range of available shims, and fit it onto the shaft end under the pinion head. NOTE: orientate the shim (10) with chamfered end towards the pinion head (3). SHIM RANGE Shims 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 mm (0.098) (0.102) (0.106) (0.110) (0.114) (0.118) (0.122) (0.126) (0.130) (0.134) (in) Q.ty

Remove tool 380200187 from the seats (9) of the differential box. Disassemble the ring nut, the spacer, the false pinion 380200273 and the bearings (7) and (8).

SECTION 27 - REAR AXLE Once you have chosen the suitable shim (10), insert it on the pinion shaft with the chamfer against the pinion head.

Insert the bearing (8) on the pinion (3) using a press and a buffer 380200220.

Insert the pinion (3) into the differential box (9). Insert the shims (4) and (5) and the spacer (6).

Check the right assembly sequence.

123

124

SECTION 27 - REAR AXLE

Assemble bearing (7) on pinion shaft, using buffer 380200220 and a hammer.

Insert the washer (2) and tighten the new ring nut (1) on the pinion shaft. Lubricate the ring nut thread (1) and the supporting face with the washer (2) with oil.

Screw in the ring nut (1) using the wrench for ring nut 380200268 and the pinion retainer 380200269.

SECTION 27 - REAR AXLE If the bearings have not been replaced, it is possible to measure the rolling torque MPm of the bearings (7) and (8), using a torque wrench and tool 380200269. NOTE: use this method only if the bearings are not replaced.

The actual preload FPm is measured on tool 380200272 [gauge diameter Dm = 119.1 mm (4.69 in)]. The measured value should be within the following range: FPm = 33.3 รท 40 N (FPm = 7.49 รท 8.99 lbf)

S WARNING S Values for new bearings.

125

126

SECTION 27 - REAR AXLE

If the bearings are new, measure the rolling torque MPm of the pinion shaft bearings with a torque meter and the wrench 380200269.

S WARNING S All preloads must be measured without seal rings.

The measured value MPm should be within the following range: MPm = 1.6 ÷ 2.4 Nm (MPm = 1.18 ÷ 1.77 lbf·ft)

Once the prescribed preload value is achieved, caulk the ring nut (1) using a hammer and a punch.

SECTION 27 - REAR AXLE

127

TROUBLESHOOTING FAULT Wheel vibrations.

Tyre resistance.

Broken axle shaft.

Difficult steering; the machine travels in a straight line while steering.

POSSIBLE CAUSE

ACTION

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair the axle.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Axle beam bent.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Axle beam bent.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Axle beam bent.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

128

SECTION 27 - REAR AXLE

FAULT

POSSIBLE CAUSE

ACTION

No differential action; jams during steering.

Incorrect installation.

Correct the installation.

Bent or broken axle shaft.

Replace the axle beam.

Excessive noise.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect wheel alignment.

Check that the structure and the bearings are in good conditions.

Incorrect axle part installation.

Check the installation.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Differential locked.

Check the installation.

Excessive steering angle.

Reduce the steering angle.

Incorrect wheel alignment.

Check that the structure and the bearings are in good conditions.

Incorrect installation.

Correct the installation.

Bent or broken axle shaft.

Replace the axle beam.

Damaged or worn axle parts.

Replace the damaged axle parts.

Incorrect axle part installation.

Check the installation.

Incorrect adjustment of the bevel gear set.

Adjust the bevel gear set.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Bent or broken axle shaft.

Replace the axle beam.

Excessive wear of the tyre.

Friction noise.

Vibrations during travel.

SECTION 27 - REAR AXLE

FAULT Outer tip of ring gear tooth is broken.

POSSIBLE CAUSE Excessive gear load compared to the one expected. Gear adjustment wrong (excessive backlash). Pinion nut loose.

Inner tip of ring gear tooth is broken.

Replace bevel gear. Follow carefully recommended adjustment operations of ring gear and pinion backlash and of tooth marks detection. Replace bevel gear.

Gear adjustment wrong (insufficient backlash).

Follow carefully recommended adjustment operations of ring gear and pinion backlash and of tooth marks detection.

Insufficient lubrication.

Replace bevel gear.

Contaminated lubricant.

Replace worn out pinion bearings that cause an incorrect pinion axle backlash and wrong contact between pinion and ring gear.

ACTION

Crash load.

Pinion nut loose. Ring gear teeth or pinion teeth damaged or scored.

129

Prolonged operation at high temperature. Unsuitable lubricant. Oil level low.

Use proper lubricant, fill up to right level and replace at recommended intervals. Replace bevel gear. Use proper lubricant, fill up to right level and replace at recommended intervals.

Contaminated lubricant. Drive pinion teeth pitted.

Bent axle beam body.

Extremely intense use.

Replace bevel gear.

Insufficient lubrication.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Machine overloaded.

Replace the axle beam body.

Damaged vehicle. Crash load. Bearings worn or pitted.

Insufficient lubrication.

Replace the bearings.

Contaminated lubricant.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Extremely intense use. Normal wear. Pinion nut loose.

130

SECTION 27 - REAR AXLE

FAULT Gaskets leak oil.

POSSIBLE CAUSE

ACTION

Prolonged operation at excessive oil temperature.

Replace the gasket and matching surface if damaged.

Oil gasket wrongly installed.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Gasket edge cut or scored. Contaminated lubricant. Excessive wear of input flange spline.

Intense use.

Replace the flange.

Pinion nut loose.

Check that the pinion spline is not excessively worn out.

Pinion axial backlash.

Replace bevel gear, if necessary. Pinion gear tooth fatigue break. Check if the fracture line is wavy or clearly delineated (stop line).

Intense use.

Break of pinion teeth and ring gear teeth.

Crash load of differential components.

Check and/or replace other differential components.

Splines of planetary gear worn (excessive backlash).

Intense use.

Replace differential gear assy.

Worn or scored surfaces of the scraper thrust washer.

Insufficient lubrication.

Continuous overload.

Replace axle beam, if necessary.

Lubrication wrong. Contaminated lubricant.

Inner diameter of pinion tapered roller bearing worn out.

Replace bevel gear.

Replace all scratched washers and those with a 0.1 mm (0.004 in) thickness lower than the new ones. Use proper lubricant, fill up to right level and replace at recommended intervals.

Intense use.

Replace bearing.

Excessive pinion end play.

Check pinion axial backlash.

Unsuitable lubrication.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Contaminated lubricant. Broken or bent axle beam.

Intense vehicle operation, overload.

Replace the axle beam.

Broken axle beam at wheel flange.

Loose wheel support.

Replace the axle beam.

Bent axle beam body.

Check bending of axle beam body. Ensure that wheel support is not worn out or wrongly adjusted.

SECTION 27 - REAR AXLE

FAULT Noise during travel.

Noise during idling.

Intermittent noise.

Constant noise.

POSSIBLE CAUSE

131

ACTION

Excessive backlash between ring gear and pinion.

Adjust the backlash between the ring gear and the pinion.

Pinion and ring gear worn.

Replace pinion and ring gear.

Worn-out pinion bearings

Replace pinion bearings.

Loose pinion bearings.

Adjust pinion bearings.

Excessive pinion end play.

Adjust the axial play of the pinion.

Differential bearings worn out.

Replace differential bearings.

Loose differential bearings.

Adjust the bearings.

Ring gear excessively off-set.

Replace the ring gear.

Low lubricant level.

Restore the level.

Poor or wrong lubricant grade.

Change lubricant.

Axle beam bent.

Replace the axle beam.

Noises emitted by the axle when the vehicle is moving are usually heard during idling, even though they are not too loud.

Adjust the backlash between the ring gear and the pinion or replace pinion and ring gear.

Wrong backlash between pinion and ring gear (the noise heard while decelerating disappears when speed is increased).

Adjust the play between the pinion and the ring gear.

Pinion spline or input flange worn.

Replace the pinion.

Damaged ring gear.

Replace bevel gear.

Differential box screws loose.

Tighten the screws to torque.

Ring gear teeth or pinion teeth damaged.

Replace bevel gear.

Worn bearings.

Replace the bearings.

Pinion splines worn.

Replace the pinion.

Axle beam bent.

Replace the axle beam.

132

SECTION 27 - REAR AXLE

FAULT Noise while bending.

POSSIBLE CAUSE

ACTION

Differential planetary gears damaged.

Replace the planetary gears.

Differential box and/or pins worn.

Replace the differential box.

Worn differential thrust washers.

Replace the thrust washers.

Worn-out axle beam splines

Replace the axle beam.

SECTION 27 - REAR AXLE

133

REPAIR TIMES The times are referred to average values of maintenance performed by skilled personnel in workshops equipped with all necessary fixtures for a proper execution of the required works. The repair and/or replacement times are indicated in minutes. We assume that the axle has already been removed from the machine. ASSY Connection flange

OPERATION

TIME (minutes)

Pinion sealing ring

Replacement / overhauling of wheel flange (x 1)

240

Replacement of wheel hub with ring gear (x 1)

240

Replacement of bearings and wheel hub seal ring (x 1)

210

O-ring replacement (x 1)

Gear carrier assy replacement (x 1)

Replacement of discs and counterdiscs and zero setting of self-adjust (for each side)

Overhauling / replacement of brake piston seals (x 1)

Overhauling / replacement of brake cylinder (for each side)

105

Self-adjust replacement (for each side)

Axle shaft replacement (x 1)

Differential bearing replacement

180

Bevel gear / differential replacement

150

Differential

Differential gear replacement

240

Differential locking

O-ring / piston replacement

Pinion

Pinion bearings replacement

180

Wheel hub

Brake

Differential support

134

SECTION 27 - REAR AXLE

SPECIAL TOOLS PN CNH

DESCRIPTION

USE

380002211

Handle

To be used with the various pushers and buffers

380200268

Wrench

Screw / unscrew the pinion ring nut

380200187

False differential box

Differential and pinion assembly

380002222

Buffer

Wheel hub seal ring and bearing assembly

380200269

Wrench

Measure of pinion rolling torque

380200211

Buffer

Wheel hub seal ring and bearing assembly

380200218

Buffer

Assembly of bearing cups into the differential box

380200220

Buffer

Assembly of pinion bearings

380200272

Tool

Measure of pinion preload

380200273

False pinion

Differential and pinion assembly

380200274

Buffer

Assembly of bearings into the differential box

380200243

Wrench

Screw / unscrew the pinion ring nuts

380200244

Wrench

Screw / unscrew the wheel hub ring nuts

380200245

Buffer

Assembly / disassembly of self-adjust kit

380200276

Buffer

Assembly of seal ring into front flange

380200254

Buffer

Disassembly of bearings and wheel hub seal ring

380200277

Buffer

Assembly of protection onto front flange

380200255

Buffer

Assembly of bearings into gears

380200259

Plunger

Assembly / disassembly of differential locking yoke

380200260

Guide

Assembly / disassembly of differential locking yoke

SECTION 27 - REAR AXLE

4WS REAR AXLE (B115C) TECHNICAL SPECIFICATIONS

135

136

SECTION 27 - REAR AXLE

Manufacturer Model Maximum steering angle Toe-in

CARRARO 26.32M 21° 0-1 A±1

Bevel gear reduction ratio

2.750/1

Epicyclic gear ratio

6.923/1

Total reduction ratio

19.038/1

Input rotation

clockwise

Dry weight

538 kg (1186 lb)

Differential type

Limited slip or open

Bevel gear set backlash

0.15 ÷ 0.30 mm (0.006 ÷ 0.012 in)

Pinion bearing preload (*) (measured on Ø = 34.8 mm without seal ring)

FP = 92 ÷ 138 N (FP = 21 ÷ 31 lbf)

Ring gear-pinion bearing total preload (*) (measured on Ø = 34.8 mm without seal ring)

FT = (FP + 33.4) ÷ (FP + 50.2) N [FT = (FP + 7.5) ÷ (FP + 11.29) lbf]

Pinion bearing rolling torque (*) measured without seal ring Total pinion-ring gear bearing rolling torque (*) measured without seal ring (*) Only for new bearings

MP = 1.6 ÷ 2.4 Nm (MP = 1.18 ÷ 1.77 lbf·ft) MT = (MP + 0.58) ÷ (MP + 0.87) Nm [MT = (MP + 0.43) ÷ (MP + 0.64) lbf·ft]

SECTION 27 - REAR AXLE

137

SERVICE BRAKE

Brake type Brake actuation

Wet disc brake Hydraulic

Brake operating temperature

-25 °C ÷ 150 °C (-13 ÷ 5.9 °F)

Maximum operating pressure

Mineral oil

Oil displacement for brake actuation (each side)

Standard brake discs A. New counterdisc thickness = 5.0 ± 0.05 mm (0.20 ± 0.002 in) B. New friction disc thickness = 4.8 ± 0.05 mm (0.19 ± 0.002 in) Worn disc minimum thickness = 4.0 mm (0.16 in) C. New counterdisc thickness = 8.9 ÷ 9.0 mm (0.350 ÷ 0.354 in)

“Limited slip” brake discs A. New counterdisc thickness = 1.3 ± 0.03 mm (0.051 ± 0.001 in) B. New friction disc thickness = 1.6 ± 0.03 mm (0.063 ± 0.001 in) Worn disc minimum thickness = 1.4 mm (0.055 in) C. New friction disc thickness = 2.7 ± 0.05 mm (0.106 ± 0.002 in) Worn disc minimum thickness = 2.6 ± 0.05 mm (0.102 ± 0.002 in)

14 cm3 (0.85 in3)

138

SECTION 27 - REAR AXLE

LUBRICATION AND GREASING

Oil capacity Oil type

1. Level and fill plug for differential oil 2. Differential oil drain plug 3. Oil breather 4. Filler, level and drain plug for reduction gear oil 5. Greasing points

Differential

11 litres (2.42 gal)

Final drive (each)

1.3 litres (0.28 gal)

Ambra TRX 80W -140 NH600 / TR

SECTION 27 - REAR AXLE Before draining the oil from the axle body, use the breather (3) to release any possible internal pressure.

S WARNING S Risk of violent oil ejection.

To drain the oil from the central body remove the level plug (1) and the drain plug (2).

S WARNING S Risk of violent oil ejection. Drain all oil. Clean, screw and tighten the plug (2). Fill through the hole of the plug (1). Check the level and, if necessary, top up. Clean, screw and tighten the plug (1). Before draining the oil from the reduction gear, turn the gear so that the plug (4) is in the highest possible position [position A]. Partially unscrew the plug (4) to release any possible internal pressure. Turn the plug (4) and bring it to its lowest position [position B]. Remove the plug and drain the oil. Rotate again to bring the hole of the plug (4) to check and oil filling position (position C). Carry out the filling. Clean, screw in and tighten the plug (4).

139

140

SECTION 27 - REAR AXLE

REMOVAL FROM MACHINE Move the machine to a level and firm ground, away from any soft ground, excavations and poorly shored cavity. Lower the loader attachment to the ground. Use the locking pin (if provided) to lock the loader attachment controls. Lower the backhoe attachment to the ground. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Lower the stabilizers until the rear wheels are slightly lifted from the ground (they are free from machine weight). Stop the engine and remove the starter key. Release the hydraulic pressure by operating the control levers in all directions. On hydraulically controlled machines, turn the key to ON and release the pressure by moving the hydraulic control levers in all directions. Disconnect the electric system by disconnecting the battery master switch. Fasten the rear axle to a lifting hoist or to a support. Now it is possible to carry out the disassembly of the 2 rear tyres by loosening and removing the relevant fixing nuts (9) [tightening torque = 700 Nm (516 lbf·ft)]. Disconnect the cardan joint (6) by unlocking and removing the screws (7) and the bracket (8). Unscrew and remove the screws (2) with the nuts (4) and the washers (3) and (5) [tightening torque = 830 ÷ 970 Nm (612 ÷ 715 lbf·ft)]. Remove the rear axle (1).

SECTION 27 - REAR AXLE DISASSEMBLY AND ASSEMBLY Some of the following pictures could not exactly show your axle, but the procedure is correct. TIGHTENING TORQUES AND APPLICATION OF SEALANTS / ADHESIVES B. Loctite 270 C. Loctite 638

141

142

SECTION 27 - REAR AXLE

SECTION 27 - REAR AXLE GREASE POINTS Tecnolube POLYMER 400 grease grease AGIP GR MU EP2

143

144

SECTION 27 - REAR AXLE

FRONT FLANGE

Disassembly Drain oil from the central body. Remove the snap ring (1) from the pinion shaft (6) and slip off the front flange (2).

Remove the seal ring (5).

SECTION 27 - REAR AXLE Remove the O-ring (3). Collect the washer (4).

Assembly Insert the washer (4) into the pinion shaft. Assemble and lubricate the new O-ring (3).

Assemble the new seal ring (5) with tool 380200267 and a hammer.

Assemble the seal ring (5) by means of tool 380200267 (T1).

145

146 Assemble the front flange (2). Assemble the snap ring (1). Refill the central body with oil.

SECTION 27 - REAR AXLE

SECTION 27 - REAR AXLE STEERING CYLINDER

Disassembly Loosen and remove the nuts (1) and (14) and slip off the tie rods (3) and (12) from the swivel housings (2) and (13).

S WARNING S Do not damage the end of the threaded pins. If necessary, replace the nuts (1) and (14).

147

148

SECTION 27 - REAR AXLE

Remove the clamps (15) and (18). Disassemble the sensor (17), the connector bracket (16) and the 2 clamps (15) and (18).

Remove the tie rods (3) and (12) from the cylinder rods by loosening the nuts (4) and (11), then check their conditions. Remove the ball joints (5) and (9).

Loosen and remove the 2 screws (6) and the 2 screws (9). Take out the bushings (7) by means of a puller.

Remove the steering cylinder (8).

SECTION 27 - REAR AXLE Remove the snap rings (19) and (27) from the steering cylinder (8).

Push the two cylinder heads (21) and (25) inside the cylinder.

Collect the 2 snap rings (20) and (26).

Pull out the rod (23) as necessary to collect the cylinder head (25). NOTE: do not extract the piston from the cylinder (22).

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150

SECTION 27 - REAR AXLE

Push the rod (23) in the opposite direction and remove it from the cylinder (22) with the head (21). Extract the head (21) from the rod (23).

Remove and, if necessary, replace all different seal rings from the rod (23) and from the 2 cylinder heads (21) and (25).

Assembly Assemble the seal rings (24) onto the 2 heads (21) and (25).

Assemble the seal rings (24) onto rod (23).

SECTION 27 - REAR AXLE Check the proper assembly of the seal rings.

Assemble the 2 heads (21) and (25) with rod (23).

The 2 heads (21) and (25) must be positioned correctly.

Insert into the cylinder body (22) the pre-assembled group, consisting of the rod (23) and the 2 cylinder heads (21) and (25).

151

152

SECTION 27 - REAR AXLE

Push the cylinder heads (21) and (25) into the cylinder body (22).

Insert the 2 snap rings (20) and (26) into the relevant seats in the cylinder body (22).

Pull outward the rod (23) on each side pulling the cylinder heads (21) and (25) to the end of the stroke.

Assemble the 2 snap rings (19) and (27) on the heads (21) and (25).

SECTION 27 - REAR AXLE Check the correct assembly of the heads and snap rings.

Assemble the steering cylinder (8).

Cool the bushes (7) at a temperature lower than -100 °C (-148 °F) with liquid nitrogen. Assemble the bushes (7) by means of a punch and a hammer.

Screw in and tighten the screws (6) to a tightening torque of 220 Nm (162 lbf·ft). Screw in and tighten the screws (9) to a tightening torque of 660 Nm (487 lbf·ft).

153

154

SECTION 27 - REAR AXLE

Screw in the ball joints (5) and (10) to the ends of the rod to the prescribed torque of 300 Nm (221 lbfÂˇft). Screw in the nuts (4) and (11) and the tie rods (3) and (12) to the ball joints (5) and (10).

Align the swivel housing (2) with the axle. Screw the tie rod (3) so that its ball joint can be inserted into the swivel housing (2) arm. It is important to unscrew the nut (4) to carry out this operation. Repeat the mentioned operations on the other side.

Insert the ball joint of the tie rod (12) into its seat on the swivel housing (13). Screw in and tighten the nut (14) to a tightening torque of 260 Nm (192 lbfÂˇft). Repeat the mentioned operations on the other side.

Screw in the nuts (4) and (11) of the tie rods (3) and (12) only after the toe-in adjustment has been carried out.

SECTION 27 - REAR AXLE Assemble the sensor (17) and the connector bracket (16) with the clamps (15) and (18) to the steering cylinder (8).

Tighten the clamps (7) and (8) only after the toe-in adjustment has been carried out.

155

156

SECTION 27 - REAR AXLE

STEERING SENSOR ADJUSTMENT

S WARNING S The steering sensor adjustment operations can be carried out only after toe-in adjustment has been carried out. Connect, by means of the relevant connector (C), the steering sensor (17) to a control device that can detect the presence of voltage generated by the sensor. The tool is usually provided with a led that turns on only when voltage is present.

Respect the steering sensor electric specifications and the connection diagram. It is also possible to use a common tester or to connect the steering sensor to the vehicle control panel. The picture shows the connector (C) diagram.

Align the wheels to rectilinear driving direction. Move the steering sensor (17) and relative clamps to a side of the cylinder. Fix the clamps (15) and (18) so that they can slide on the cylinder surface.

SECTION 27 - REAR AXLE Slide horizontally the steering sensor till the led is on (position “A”) and measure XA dimension, between the differential support and the rear part of the sensor shown in the figure.

The red led (L) of the sensor (17) is located as illustrated.

Slide horizontally the steering sensor till the led is on (position “B”) and measure XB dimension, between the differential support and the rear part of the sensor.

Move backward the steering sensor for a distance of (XB - XA)/2 as sown in the figure [maximum tolerance ± 1.0 mm (0.04 in)].

157

158

SECTION 27 - REAR AXLE

Before tightening the hose clamps, check the right position of the steering sensor (17) in the appropriate seat fixed on the steering cylinder (the steering sensor must be oriented as shown in the figure).

Position the fastening screws (S) of the 2 hose clamps (15) and (18). Tighten the fastening screws (S) to lock the sensor (17).

SECTION 27 - REAR AXLE REDUCTION GEAR

Disassembly Unscrew the plug (1) and drain oil from the reduction gear.

Loosen and remove the 2 fixing screws (2).

159

160

SECTION 27 - REAR AXLE

Remove the gear carrier (3) from the wheel hub (10) and remove the relevant O-ring (9). Position the gear carrier (3) on a workbench and check its wear conditions.

To carry out any possible replacement of the gears (6): - loosen and remove the screw (8) of each gear (6); - remove the washer (7); - take out the gears (6) from the pins; - collect the bearings (5) and check their conditions; - collect the thrust washer (4).

Assembly Collect all reduction gear parts: the gear carrier, the thrust washers (4), the gears (6) with the relevant needle bearings (5), the washers (7) and the screws (8). With new gears (6), it is advisable to assemble new bearings (5).

Position the planetary gears carrier (3) on a workbench. Insert the needles (5) into the gears (6). Grease the needles (5). Insert the pin of the planetary gear carrier (3), the thrust washer (4) and the gears (6) with needles.

SECTION 27 - REAR AXLE Assemble the washers (7) into the pins of the planetary gear carrier (3). Screw in and tighten the screws (8) to a tightening torque of 79 Nm (58 lbf·ft).

Install the new O-ring (9) on the wheel hub (10).

Assemble the reduction gear assy on the wheel hub. Screw in and tighten the screws (2) to a tightening torque of 25 Nm (18.4 lbf·ft).

Refill the epicyclic reduction gear with oil. Screw in and tighten the plug (1) to the tightening torque of 60 Nm (44 lbf·ft).

161

162

SECTION 27 - REAR AXLE

WHEEL HUB

Disassembly Insert a lever between the swivel housing and the axle body and fit it into the double joint. With the lever push the double joint in the direction of the wheel hub to allow the snap ring removal. Do not damage the double joint.

SECTION 27 - REAR AXLE Remove the snap ring (1). Collect the washer (2) and the thrust washer (3).

Loosen and remove the screws (5).

In order to remove the ring gear carrier hub from its housing, screw two of the just removed screws (5) in the threaded extraction holes. Remove the ring gear carrier hub (7) together with the ring gear (4).

Remove the snap ring (8) and separate the ring gear carrier hub (7) from the ring gear (4). Only if necessary, remove the centering bushes (6) from the ring gear carrier by means of the tool 380200192 and a hammer.

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164

SECTION 27 - REAR AXLE

Remove the wheel hub (11) from the swivel housing (14) and collect the bearing (9).

Slide out the wheel hub (11), using levers and a hammer to facilitate the operation.

Position the wheel hub (11) on a flat surface and remove the seal ring (13). Take out the bearing cups (9) and (12) with a drift and a hammer.

Remove the bearing (12) from the swivel housing (14) by means of a puller.

SECTION 27 - REAR AXLE Unscrew and remove the screws (15) and (19) from the upper (16) and lower (18) king pins.

S DANGER S Before removing the king pins (16) and (18), secure the swivel housing (14) with a rope or a hoist or any other supporting device to guarantee operatorâ&#x20AC;&#x2122;s safety. Remove the king pins (16) and (18).

Loosen and remove the swivel housing (14).

Position the swivel housing (14) on a flat surface and take the seal ring (25) out with a puller. Rivet the swivel housing and take out the bronze bushing (24), using a buffer and a hammer.

165

166

SECTION 27 - REAR AXLE

Assembly If previously removed, assemble the steering stop screw (23), the nut (22) and the bushings (20) and (21). Do not tighten the nut (22) until the steering angle adjustment has been carried out.

Insert the bronze bushing (24) into the swivel housing (14) by means of tool 380000024 and a hammer. Assemble the new seal ring (25) into the swivel housing (14) with tool 380200266 and a hammer.

If the ball bearing (17) has been previously removed, reassemble it to the lower king pin (18) by means of tool 380200195 under a press. Grease the king pin seats (16) and (18). Position the belleville washers (27) and (28) on the king pin seats (16) and (18).

Secure the swivel housing (14) with a rope to a hoist or any other supporting device. Protect the splined end of the axle shaft by winding it with protective tape, to avoid damaging the seal ring. Assemble the swivel housing (14) to the axle and, after assembly, completely remove the protective tape.

SECTION 27 - REAR AXLE Assemble the lower (18) and the upper (16) king pins. Screw in and tighten the screws (19) and (15) to the prescribed torque of 300 Nm (221 lbf·ft). Make sure that the belleville washers stay in the correct position.

The special operation “Set Right” of the bearings does not require preload or backlash adjustment. Anyway, before assembling new components, check the indicated dimensions. A = 10.090 ÷ 10.140 mm (0.397 ÷ 0.399 in) B = 64.275 ÷ 64.325 mm (2.530 ÷ 2.532 in) C = 27.000 ÷ 27.100 mm (1.063 ÷ 1.066 in)

Insert the bearing cups (9) and (12) into the wheel hub (11) by means of the tool 380200211 and a press. Insert the new seal ring (13) into the wheel hub (11) using tool 380200210 and a hammer. Lubricate the seal ring (13).

Assemble the bearing (12) in the swivel housing (14). Assemble the wheel hub (11) on the swivel housing (14) and fit the bearing (9).

167

168

SECTION 27 - REAR AXLE

Position the ring gear hub (7) on a workbench and insert the bushings (6) at surface level with tool 380200192. At least two bushings (diametrically-opposed) should be set slightly higher than the carrier surface level to be used as dowel pins.

Preassemble the ring gear carrier hub (7) and the ring gear (4) with the snap ring (8).

Assemble the ring gear carrier hub assy on the wheel hub using the two projecting bushings as dowel pins. Screw the relevant screws in order to put in contact the assembly with the wheel hub.

Assemble all bushings (6) up to stroke end with tool 380200192 and a hammer. Screw in and tighten the screws (5) to a tightening torque of 230 Nm (170 lbfÂˇft).

SECTION 27 - REAR AXLE Insert a lever between the swivel housing (14) and the axle body and fit it into the double joint. With the lever push the double joint in the direction of the wheel hub to allow the snap ring introduction.

Insert the thrust washer (3) and the washer (2). Assemble the snap ring (1) at the end of the splined hub.

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170

SECTION 27 - REAR AXLE

BEAM ASSY

Disassembly Drain axle oil completely. Loosen and remove the two screws (13). Unscrew the nuts (11) of the oil recirculation line (12).

SECTION 27 - REAR AXLE Remove the oil recirculation line (12).

If necessary, remove the cover (1) from the double joint (2).

Remove the double joint (2).

Put alignment marks on the beam trumpets, on the brake cylinders and on the axle central body, in order to identify the coupling parts during reassembly.

171

172

SECTION 27 - REAR AXLE

Position the axle on supports suitable to hold it or secure the assemblies separately to a lifting device. Loosen and remove the screws (7).

Remove the beam (8) and the O-ring (9). If the beam is removed, the brake assy is released.

Extract the seal ring (3). If necessary, remove the bushing (4), paying attention not to damage its seat.

If necessary, remove the bushing (5) and the race (6) of the ball joint from the seats using a puller.

SECTION 27 - REAR AXLE Assembly Cool down the bushing (5) and the cup (6) to a temperature lower than -100 Â°C (-148 Â°F) with liquid nitrogen. Assemble the bushing (5) in the upper king pin seat with buffer 380200196 and a hammer. Assemble the cup (6) on the lower king pin seat with buffer 380200196 and a hammer.

Assemble the bushing (4) by means of the tool 380200227 and a hammer. Assemble a new seal ring (3) by means of tool 380002226. Lubricate the seal ring.

Orientate correctly the seal ring (3).

Assemble the new O-ring (9) on the beam (8).

173

174

SECTION 27 - REAR AXLE

Support the assemblies properly as already pointed out for disassembly phase. Assemble the beam (8) on the central axle body (10) respecting the reference marks applied during disassembly.

Screw in and tighten the screws (7) to a tightening torque of 320 Nm (236 lbfÂˇft).

Tighten the screw (7) respecting the sequence shown.

Insert the double joint (2). Be careful not to damage the seal ring.

SECTION 27 - REAR AXLE Assemble the oil recirculation line (12).

Screw in and tighten the screws (13) to a tightening torque of 23 Nm (17 lbf·ft). Tighten the nuts (11) to the tightening torque of 60 Nm (44 lbf·ft).

175

176 BRAKES

Disassembly Remove the beam and the axle shaft.

SECTION 27 - REAR AXLE

SECTION 27 - REAR AXLE Remove the brake components: the counterdiscs (11), discs (12), the brake disc carrier hub (10), the brake disc (9) and the brake counterdisc (8). NOTE: mark the position of the hub for assembly.

Remove the brake piston return kit (7) and the selfadjust kit (6).

Take out the brake piston (4) from the brake cylinder (1). If necessary, remove the plug (14) and the relevant O-ring (13).

Blow some air through the oil supply hole for the brake to eject the piston (4), using the minimum pressure required.

177

178

SECTION 27 - REAR AXLE

Remove the O-rings (2) and (3) from the piston (4).

If necessary, remove the bushings (5) of the selfadjust kit from the piston (4), using tool 380200194 and a hammer.

Assembly Collect the piston (4). Push the washers (5) into the self-adjust seats using tool 380200194 and a hammer, till they are aligned with the piston supporting inner surface.

The bushings (5) must be aligned with the inner supporting surface of the piston (4).

SECTION 27 - REAR AXLE Assemble the new O-rings (2) and (3) into the piston (4). Lubricate the O-rings.

Insert the piston (4) into the brake cylinder (1).

Place tool 380200238 onto the piston (4). Place the piston (4) with one slot aligned with the oil recirculation hole or with the brake inspection hole in the brake cylinder (1). Use a prybar to insert the piston into the brake flange with a light pressure.

Insert the big spring, the small spring and the bushing of the piston return kit (7) into the bigger hole of the piston.

179

180

SECTION 27 - REAR AXLE

Assemble the cover and the screw of the piston return kit (7).

Assemble the bushing, the washer and the screw of the self-adjust kit (6).

Screw and tighten the screws of the 2 kits.

If you are to replace the brake discs, you have to restore the initial piston position. Remove the connections, the breathers and possible plugs from the brake oil inlets.

SECTION 27 - REAR AXLE Bring the piston (4) to stroke end, using tool 380200238 and a hammer. Place the tool carefully so as not to damage the piston.

Check that the brake discs and the counterdiscs do not show any sign of burning (otherwise replace them). If new brake discs are installed, soak them into prescribed oil before assembly.

Reassemble all elements of the brake assy: the brake counterdisc (8), the brake disc (9), the brake disc carrier hub (10), the counterdiscs (11) and the discs (12).

Orientate the teeth correctly i.e. outside the brake disc carrier hub (10).

181

182

SECTION 27 - REAR AXLE

Reassemble the beam with the axle central body.

BRAKE DISC REPLACEMENT Remove the wheel hub assy from the axle.

Remove the beam.

SECTION 27 - REAR AXLE Remove the brake components: the counterdiscs (11), discs (12), the brake disc carrier hub (10), the brake disc (9) and the brake counterdisc (8).

Check that the brake discs and the counterdiscs do not show any sign of burning (otherwise replace them). If new brake discs are installed, soak them into prescribed oil before assembly.

If you are to replace the brake discs, you have to restore the initial piston position. Remove the connections, the breathers and possible plugs from the brake oil inlets.

Bring the brake piston (4) to stroke end, using tool 380200238 and a hammer. place the special tool carefully so as not to damage the piston.

183

184

SECTION 27 - REAR AXLE

Reassemble all brake elements: the brake counterdisc (8), the brake disc (9), the brake disc carrier hub (10), the counterdiscs (11) and the discs (12).

Orientate the teeth correctly i.e. outside the brake disc carrier hub (10).

Reassemble the beam with the axle central body.

SECTION 27 - REAR AXLE DIFFERENTIAL SUPPORT

Disassembly Remove the brake.

Measure the starting preload FT0 of the bearings (pinion-ring gear system) using a dynamometer whose cord is wound on the end of the pinion shaft. Note value FT0 that is necessary for assembling the bearings.

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186

SECTION 27 - REAR AXLE

Ensure the brake cylinder (6) to a lifting device using its holes. Loosen and remove the screw (7).

Remove the brake cylinder (6). This operation releases the differential assy. Disassemble the brake cylinder (6) and remove the relevant O-ring (4). Remove the O-ring (2).

Remove the differential (3) from the central body (1).

Unscrew and remove the screw (10) and the ring nut retainer (9) from the brake cylinder (6).

SECTION 27 - REAR AXLE Unscrew and remove the ring nut (8) from the brake cylinder (6) using tool 380200209.

Pull out the bearing cup (5) from the brake cylinder (6) using a buffer and a hammer.

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188

SECTION 27 - REAR AXLE

Assembly Before assembling the differential, install the pinion assy.

Lubricate and insert the new O-ring (2) on each side of the central body (1).

Place the brake cylinder (6) on a flat surface and force the bearing cup (5) using buffer 380200218.

Measure the outer diameter C of the ring gear installed on the differential. Calculate the value: R = C / 2 mm (0.079 in) NOTE: this datum is required for the backlash adjustment between pinion and ring gear.

SECTION 27 - REAR AXLE Lubricate or assemble a new O-ring (4) into the seat of the 2 brake cylinders (6).

Assemble the left brake cylinder into the central body (1). Check that the reference marks applied during disassembly between the brake cylinders and the central body coincide. Insert the differential (3) into the central body (1). The ring gear must be placed on the left side.

Assemble the right brake cylinder (6) into the central body (1). Check that the reference marks applied during disassembly between the brake cylinders and the central body coincide.

Tighten screw (7) in place (A). Tighten the screw to the prescribed torque of 80 Nm (59 lbfÂˇft). Screw in the 2 screws M16 x 130 (S) in place (B) and tighten them to the 80 Nm (59 lbfÂˇft) torque.

189

190

SECTION 27 - REAR AXLE

Tighten both ring nuts (8) with tool 380200209, till the backlash is eliminated and slightly preload the differential bearings.

Assemble the tool 380200222 on the hole of the differential box. Place a dial gauge and a feeler in contact and to 90° with respect to the surface of the tool and in correspondence of value R.

Shift manually and alternately the tool 380200222 bracket installed on the hole of the differential box. Determine and note the backlash between pinion and ring gear. Turn the ring gear 1/4 of turn, determine and note the backlash between pinion and ring gear. Repeat this operation to get several values of the backlash. Check if the average backlash is within the requested range: 0.15 ÷ 0.30 mm (0.006 ÷ 0.012 in) If the backlash is not within the requested range, carry out adjustment as follows. Adjust the ring nuts (8) with tool 380200209. Unscrew and tighten both ring nuts of about 30° each, then check the backlash.

SECTION 27 - REAR AXLE Adjust the ring nuts (8) remembering that: - if the measured backlash is higher than the prescribed tolerance range, tighten the ring nut on the opposite side of the ring gear and loosen the opposite ring nut by the same measure (A); - if the measured backlash is lower than the prescribed tolerance range, tighten the ring nut on the ring gear side and loosen the opposite ring nut by the same measure (B).

After pinion-ring gear backlash adjustment, check that there is a minimum preload on the differential box bearings. Repeat the whole sequence of the above mentioned operations until the indicated conditions are reached.

Once the pinion-ring gear backlash has been adjusted, if the bearings have not been replaced, measure the total preload FTm of the bearings (pinion-ring gear system), using a dynamometer whose cord is wound on the end of the pinion shaft. Use this method only if the bearings are already run in. The measured value FTm should be within the following range: FTm = FT0 รท (FT0 + 10) N [FTm = FT0 รท (FT0 + 2.25) lbf] If the bearings have been replaced, measure the total preload FTm of the bearings (pinion-ring gear system), using a dynamometer whose cord is wound on tool 380200237 inserted on the pinion splined end.

S WARNING S All preloads must be measured without seal ring.

191

192

SECTION 27 - REAR AXLE

The total preload FTm is measured by tool 380200237. The measured value should be within the following range: FTm = (FPm + 11.1) ÷ (FPm + 16.7) N [FTm = (FPm + 2.5) ÷ (FPm + 3.7) lbf] where FPm is the actual preload measured on tool 380200237 [gauge diameter Dm = 104.4 mm (4.11 in)].

NOTE: if you do not use the prescribed tool to measure the total preload FTm, the reference diameter is the diameter of pinion shaft splined end. The measured value should be within the following range: FTm = (FPm + 33.4) ÷ (FPm + 50.2) N [FTm = (FPm + 7.5) ÷ (FPm + 11) lbf] where FPm is the preload of the pinion bearings.

Once the pinion-ring gear backlash has been adjusted, if the bearings have been replaced, measure the total rolling torque MT of the bearings (pinion-ring gear system) with a torque meter and the wrench 380000020.

S WARNING S All preloads must be measured without seal rings.

The total torque MT should be within the following range: MTm = (MP + 0.58) ÷ (MP + 0.87) Nm [MTm = (MP + 0.43) ÷ (MP + 0.64) lbf·ft] where MP is the preload of the pinion bearings.

SECTION 27 - REAR AXLE If the measure is not within the requested range, check the assembly of each single component and operate on the ring nuts of the differential support: - if the total preload is less than the given range, screw on the adjusting ring nuts by the same measure, keeping the pinion-ring gear backlash value (A) unchanged; - if the total preload is more than the given range, unscrew the adjusting ring nuts by the same measure, keeping the pinion-ring gear backlash value (B) unchanged.

Once all adjustment operations have been performed, assemble the ring nut retainers (9), fastening them with the relevant screws (10). Tighten the screws (10) to a tightening torque of 13 Nm (9 lbfÂˇft). Turn the ring nuts (8) as little as possible to allow their assembly.

Remove the 2 additional screws M16 x 130 (S) from both sides.

193

194

SECTION 27 - REAR AXLE

NON-SELF-LOCKING DIFFERENTIAL

Disassembly Lock the differential with a clamp. Loosen the screws (1) and remove the ring gear (2). This operation releases also the two half boxes of the differential.

SECTION 27 - REAR AXLE Disassemble the 2 half boxes (4) and (12). Apply reference marks on the 2 half boxes before separating them. Disassemble all parts and check their operating status and wear condition.

Take out the bearings (3) and (13) from the half boxes (4) and (12) using a puller.

195

196

SECTION 27 - REAR AXLE

Assembly Assemble the bearings (3) and (13) on the half boxes (4) and (12), using tool 380200188 and a hammer.

Place the half boxes (4) and (12) on a workbench and carefully assemble the inner elements: the differential locking counterdiscs (5), the gear (6), the 2 pins (7), the planetary gears (8) and the thrust washers (9). Join the two half boxes (4) and (12), aligning the reference marks made during disassembly.

Before matching worked surfaces, make sure they are perfectly clean, if not, clean with proper detergents. Place the ring gear (2) on the differential box. Apply sealant on the screw thread (1). Screw in and tighten the screws (1) to a tightening torque of 155 Nm (114 lbfÂˇft).

SECTION 27 - REAR AXLE â&#x20AC;&#x153;LIMITED SLIPâ&#x20AC;? DIFFERENTIAL

Disassembly Lock the differential with a clamp. Loosen the screws (1) and remove the ring gear (2). This operation releases also the two half boxes of the differential.

Disassemble the 2 half boxes (4) and (12). Apply reference marks on the 2 half boxes before separating them. Disassemble all parts and check their operating status and wear condition.

197

198

SECTION 27 - REAR AXLE

Take out the bearings (3) and (13) from the half boxes (4) and (12) using a puller.

If necessary, take out the bushings (14) from the half boxes (4) and (12). Do not damage the bushing seats.

SECTION 27 - REAR AXLE Assembly If previously removed, insert bushings (14) into the half boxes (4) and (12) using the tool 380200205 and a hammer.

Assemble the bearings (3) and (13) on the half boxes (4) and (12), using tool 380200188 and a hammer.

Place the half boxes (4) and (12) on a workbench and carefully assemble the inner elements: differential locking counterdiscs (5), differential locking discs (6) and (7), gears (8), 2 pins (9), planetary gears (10) and thrust washers (11). The first disc (7) must be oriented with friction face towards the discs and with smooth face towards the gear (8). Join the 2 half boxes (4) and (12), aligning the reference marks made during disassembly.

199

200

SECTION 27 - REAR AXLE

PINION

Disassembly Remove the differential assy. Measure the starting preload FP0 of the pinion bearings using a dynamometer whose cord is wound on the end of the pinion shaft.

S WARNING S Note value FP0 that is necessary for assembling the bearings.

Unscrew the ring nut (10) using wrench (T1) and pinion retainer (T2) 380000020 with 3/4â&#x20AC;? standard connection.

SECTION 27 - REAR AXLE Tap the shaft end with a soft hammer to remove the pinion (1).

Once the pinion (1) has been removed, collect the washers (4), (6) and (9), the spacer (5) and the bearing (8).

Check the wear condition of the bearing cups. Take out the bearing cups (3) and (8), if necessary.

Remove the bearing (3) from the pinion (1) by means of a puller. Collect the shim (2).

201

202

SECTION 27 - REAR AXLE

Check the conditions of all parts. The ring nut (10) and the spacer (5) must be replaced during reassembly.

Assembly Position the axle central body onto a workbench. Insert the bearing cups (3) and (8) into their seats using kit 380200216.

Use the false pinion 380200202 and false differential box 380200217. Insert the bearing and the false pinion into the seats. Tighten the ring nut, until the backlash is eliminated.

Check the correct place of the differential box supports at the right and left side, using the reference marks applied on the same and on the central body. Assemble the 2 brake cylinders, fastening them with the relevant screws.

SECTION 27 - REAR AXLE Insert the false differential box 380200217 into the central axle body. Check that the false differential box is inserted in both seats of the differential supports.

To adjust the bevel gear measure the distance “A” with a depth gauge. Determine the value “X” as follows: X = (A + C) - B mm (in) where “B” and “C” are known values.

From the value “X” deduct the value “V” (stamped on the pinion head) to get the value “S”. S = X - V mm (in)

Choose the shim with value (S) from the shim range available. SHIM RANGE Shims 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 mm (0.098) (0.102) (0.106) (0.110) (0.114) (0.118) (0.122) (0.126) (0.130) (0.134) (in) Q.ty

203

204

SECTION 27 - REAR AXLE

Loosen and remove the ring nut (10). Remove the false pinion 380200202 and the bearings (3) and (8) from the central body (7). Disassemble the false differential box 380200217 from the brake cylinders and then unscrew the screws to remove the brake cylinders.

Once you have chosen the suitable shim (2), insert it on the pinion shaft with the chamfer against the pinion head.

Insert the bearing (3) on the pinion shaft (1) using a press and tool 380200190. Insert the shim (4) and a new spacer (5) and the shim (6).

Check the right assembly sequence.

SECTION 27 - REAR AXLE Insert the preassembled pinion (1) into the central body and the bearing (8) into the pinion shaft. Assemble the bearing (8) with tool 380200190 and a hammer.

Insert the ring nut retaining washer and tighten the new ring nut (10) on the pinion shaft. Tighten the ring nut (10) using wrench (T1) 380000021 and the pinion retainer (T2) 380000020 with 3/4” standard connection. The torque setting is given by the preload measurement on bearings. Tighten the ring nut (10) gradually. Excessive tightening could damage the spacer (5), that would need to be replaced and the procedure to be repeated. When you check the preload, strike the pinion ends (1) with a soft hammer to favour the seating of the bearings. If the bearings have not been replaced, to measure the preload FPm, use a dynamometer whose cord is wound on the end of the pinion shaft.

S WARNING S Use this method only if the bearings are not replaced. The measured value should be within the following range: FPm = FP0 ÷ (FP0 + 10) N [FPm = FP0 ÷ (FP0 + 2.25) lbf]

205

206

SECTION 27 - REAR AXLE

If the bearings are new, to measure the preload FPm, use a dynamometer whose cord is wound on tool 380200237, inserted on the end of pinion shaft.

The actual preload FPm is measured on tool 380200237 [gauge diameter Dm = 114.4 mm (4.50 in)]. The measured value should be within the following range: FPm = 31 รท 46 N [FPm = 6.97 รท 10.34 lbf]

It is possible to measure the rolling torque MP of the pinion shaft bearings with a torque meter and the wrench 380000020.

S WARNING S All preloads must be measured without seal rings.

SECTION 27 - REAR AXLE The measured value MP should be within this range: MP = 1.6 ÷ 2.4 Nm [MP = 1.18 ÷ 1.77 lbf·ft]

Once the prescribed preload value is achieved, caulk the ring nut (10) using a hammer and a punch.

Assemble the differential assy (3).

207

208

SECTION 27 - REAR AXLE

TOE-IN / STEERING ANGLE

Toe-in check Assemble 2 identical, 1 m long linear bars on the wheel sides and lock them with 2 nuts on the wheel hub stud screws.

S WARNING S The 2 bars should be fixed on their middle so that they are perfectly perpendicular to the supporting surface and parallel to the pinion axis; align the 2 bars.

Measure with a tape measure the distance (M) between bar ends. NOTE: keep the minimum value, swinging the measurement point.

SECTION 27 - REAR AXLE Check that the difference between the measurements at the ends of the wheel hub diameters is within the required tolerance range. The nominal toe-in (A) value is referred to the external diameter of the wheel hubs flange, therefore the measured toe-in value (M) at the bar ends must be related to the ratio between length of the bar and flange diameter: nominal toe-in = A±1 J measured toe-in = M±3

If toe-in is not correct, operate with two wrenches on the rods (1) screwing in and out the two tie rods (3) equally, till the toe-in is within the requested tolerance.

Once this adjustment has been performed, screw in the nuts (2) of the bars (1) and tighten them to a 250 Nm (184 lbf·ft) torque.

209

210

SECTION 27 - REAR AXLE

Steering angle adjustment Use the same bars assembled for toe-in adjustment and a long bar perfectly rested on the machined part of the central body (pinion side), so that, at maximum steering, the two bars form an acute angle.

In order to set the steering angle, adjust a goniometer according to the angle measure (C), calculated as follows: C = 90Â° - S Where (S) is the prescribed steering angle set. Place the goniometer on the long bar. Orientate the left wheel assy until you get the calculated angle with the 2 bars (C).

Apply the prescribed sealant on the screw thread (4). Carry out the adjustment of the mechanical lock, screwing in and out the relevant screws (4), locking them afterwards with the nuts (5). Tighten to the prescribed torque of 150 Nm (111 lbfÂˇft).

Check that the locks on the opposite sides are both in contact with the axle beam.

SECTION 27 - REAR AXLE Completely steer to the opposite side and repeat the same operations described previously.

Check that the locks on the opposite sides are both in contact with the axle beam.

211

212

SECTION 27 - REAR AXLE

SPECIAL INTERVENTIONS

Disassembly of wheel assy and double joint Drain the oil from the differential. Loosen and remove the nut (1) and disconnect the tie rod (3) from the swivel housing.

S WARNING S Do not hit the end of the threaded pin of the tie rod (3) during disassembly.

Do not unscrew the tie rod (3) and the relevant nut (4) so as not to impair the wheel toe-in.

SECTION 27 - REAR AXLE Ensure the swivel housing to a lifting device with a rope. Unscrew and remove the screws (5) and (9) from the upper (6) and lower (10) king pins.

Remove the king pins (6) and (10).

Remove the wheel hub assy.

213

214

SECTION 27 - REAR AXLE

Assembly of wheel assy and double joint Assemble the wheel hub assy.

Grease the king pin seats (6) and (10). Position the belleville washers on the king pin seats. Assemble the lower (10) and the upper (6) king pins.

Assemble the upper (6) and lower (10) and king pins by fastening the screws (9) and (5) to the prescribed torque of 300 Nm (221 lbfÂˇft).

Insert the ball joint of the tie rod (3) into its seat on the swivel housing (1) by turning the swivel housing as much as necessary. Do not unscrew the tie rod (3) and the relevant nut (4) so as not to impair the wheel toe-in.

SECTION 27 - REAR AXLE Screw in and tighten the nut (2) to a tightening torque of 260 Nm (192 lbf·ft).

Check the differential oil level from the hole of the oil inlet plug (14) and top up if necessary. Screw in and tighten the plug (14) to the tightening torque of 60 Nm (44 lbf·ft).

215

216

SECTION 27 - REAR AXLE

Replacement of the seal ring of the double joint Remove the wheel assy and the double joint. Take out the seal ring (11), paying attention not to damage its seat.

Assemble the new seal ring (11) with the buffer 380002226 and a hammer. Lubricate the seal ring.

Check the correct place of the seal ring (11) according to the axle type.

SECTION 27 - REAR AXLE Replacement of the bronze bushing of the double joint Remove the wheel assy and the double joint. Extract the seal ring (11). Remove the bronze bushing (13) with a puller, paying attention not to damage its seat.

Insert the new bronze bushing (13) with the buffer 380200227 and a hammer.

Assemble the seal ring (11).

217

218

SECTION 27 - REAR AXLE

Brake wear check Actuate the service brake with machine stopped. Unscrew the breather to release the inner pressure. Unscrew and remove the plug (1).

Check the wear condition of the brake disc friction face by trying to insert between the counterdiscs a dowel with 4.08 mm (0.16 in) of diameter. If the dowel cannot be inserted, the brake discs must be replaced because worn out. If the dowel can be inserted, the brake discs must not be replaced.

Screw in the plug (1) with a dynamometric wrench. Carry out the check of the other brake assy.

SECTION 27 - REAR AXLE

219

TROUBLESHOOTING FAULT Wheel vibrations.

Tyre resistance.

Broken axle shaft.

Difficult steering; the machine travels in a straight line while steering.

No differential action; jams during steering.

POSSIBLE CAUSE

ACTION

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair the axle.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Axle beam bent.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Axle beam bent.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Axle beam bent.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect installation.

Correct the installation.

Bent or broken axle shaft.

Replace the axle beam.

220

SECTION 27 - REAR AXLE

FAULT Excessive noise.

Excessive wear of the tyre.

Friction noise.

Vibrations during travel.

POSSIBLE CAUSE

ACTION

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Incorrect wheel alignment.

Check that the structure and the bearings are in good conditions.

Incorrect axle part installation.

Check the installation.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Overload.

Remove the excessive load.

Incorrect tyre rotation radius.

Replace the tyre or adjust pressure on both tyres.

Bent or broken axle shaft.

Replace the axle beam.

Differential locked.

Check the installation.

Excessive steering angle.

Reduce the steering angle.

Incorrect wheel alignment.

Check that the structure and the bearings are in good conditions.

Incorrect installation.

Correct the installation.

Bent or broken axle shaft.

Replace the axle beam.

Damaged or worn axle parts.

Replace the damaged axle parts.

Incorrect axle part installation.

Check the installation.

Incorrect adjustment of the bevel gear set.

Adjust the bevel gear set.

Incorrect installation.

Correct the installation.

Axle faulty.

Inspect and repair.

Wrong weight distribution.

Distribute the weight differently.

Bent or broken axle shaft.

Replace the axle beam.

SECTION 27 - REAR AXLE

FAULT Outer tip of ring gear tooth is broken.

POSSIBLE CAUSE Excessive gear load compared to the one expected. Gear adjustment wrong (excessive backlash). Pinion nut loose.

Inner tip of ring gear tooth is broken.

Replace bevel gear. Follow carefully recommended adjustment operations of ring gear and pinion backlash and of tooth marks detection. Replace bevel gear.

Gear adjustment wrong (insufficient backlash).

Follow carefully recommended adjustment operations of ring gear and pinion backlash and of tooth marks detection.

Insufficient lubrication.

Replace bevel gear.

Contaminated lubricant.

Replace worn out pinion bearings that cause an incorrect pinion axle backlash and wrong contact between pinion and ring gear.

ACTION

Crash load.

Pinion nut loose. Ring gear teeth or pinion teeth damaged or scored.

221

Prolonged operation at high temperature. Unsuitable lubricant. Oil level low.

Use proper lubricant, fill up to right level and replace at recommended intervals. Replace bevel gear. Use proper lubricant, fill up to right level and replace at recommended intervals.

Contaminated lubricant. Drive pinion teeth pitted.

Bent axle beam body.

Extremely intense use.

Replace bevel gear.

Insufficient lubrication.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Machine overloaded.

Replace the axle beam body.

Damaged vehicle. Crash load. Bearings worn or pitted.

Insufficient lubrication.

Replace the bearings.

Contaminated lubricant.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Extremely intense use. Normal wear. Pinion nut loose.

222

SECTION 27 - REAR AXLE

FAULT Gaskets leak oil.

POSSIBLE CAUSE

ACTION

Prolonged operation at excessive oil temperature.

Replace the gasket and matching surface if damaged.

Oil gasket wrongly installed.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Gasket edge cut or scored. Contaminated lubricant. Excessive wear of input flange spline.

Intense use.

Replace the flange.

Pinion nut loose.

Check that the pinion spline is not excessively worn out.

Pinion axial backlash.

Replace bevel gear, if necessary. Pinion gear tooth fatigue break. Check if the fracture line is wavy or clearly delineated (stop line).

Intense use.

Break of pinion teeth and ring gear teeth.

Crash load of differential components.

Check and/or replace other differential components.

Splines of planetary gear worn (excessive backlash).

Intense use.

Replace differential gear assy.

Worn or scored surfaces of the scraper thrust washer.

Insufficient lubrication.

Continuous overload.

Replace axle beam, if necessary.

Lubrication wrong. Contaminated lubricant.

Inner diameter of pinion tapered roller bearing worn out.

Replace all scratched washers and those with a 0.1 mm (0.004 in) thickness lower than the new ones. Use proper lubricant, fill up to right level and replace at recommended intervals.

Intense use.

Replace bearing.

Excessive pinion end play.

Check pinion axial backlash.

Unsuitable lubrication.

Use proper lubricant, fill up to right level and replace at recommended intervals.

Contaminated lubricant. Broken or bent axle beam.

Replace bevel gear.

Intense vehicle operation, overload.

Replace the axle beam.

SECTION 27 - REAR AXLE

FAULT

POSSIBLE CAUSE

223

ACTION

Broken axle beam at wheel flange.

Loose wheel support.

Replace the axle beam.

Bent axle beam body.

Check bending of axle beam body. Ensure that wheel support is not worn out or wrongly adjusted.

Noise during travel.

Excessive backlash between ring gear and pinion.

Adjust the backlash between the ring gear and the pinion.

Pinion and ring gear worn.

Replace pinion and ring gear.

Worn-out pinion bearings

Replace pinion bearings.

Loose pinion bearings.

Adjust pinion bearings.

Excessive pinion end play.

Adjust the axial play of the pinion.

Differential bearings worn out.

Replace differential bearings.

Loose differential bearings.

Adjust the bearings.

Ring gear excessively off-set.

Replace the ring gear.

Low lubricant level.

Restore the level.

Poor or wrong lubricant grade.

Change lubricant.

Axle beam bent.

Replace the axle beam.

Noises emitted by the axle when the vehicle is moving are usually heard during idling, even though they are not too loud.

Adjust the backlash between the ring gear and the pinion or replace pinion and ring gear.

Wrong backlash between pinion and ring gear (the noise heard while decelerating disappears when speed is increased).

Adjust the play between the pinion and the ring gear.

Pinion spline or input flange worn.

Replace the pinion.

Damaged ring gear.

Replace bevel gear.

Differential box screws loose.

Tighten the screws to torque.

Ring gear teeth or pinion teeth damaged.

Replace bevel gear.

Worn bearings.

Replace the bearings.

Pinion splines worn.

Replace the pinion.

Axle beam bent.

Replace the axle beam.

Noise during idling.

Intermittent noise.

Constant noise.

224

SECTION 27 - REAR AXLE

FAULT Noise while bending.

POSSIBLE CAUSE

ACTION

Differential planetary gears damaged.

Replace the planetary gears.

Differential box and/or pins worn.

Replace the differential box.

Worn differential thrust washers.

Replace the thrust washers.

Worn-out axle beam splines

Replace the axle beam.

SECTION 27 - REAR AXLE

225

REPAIR TIMES The times are referred to average values of maintenance performed by skilled personnel in workshops equipped with all necessary fixtures for a proper execution of the required works. The repair and/or replacement times are indicated in minutes. We assume that the axle has already been removed from the machine. ASSY Flange

Steering cylinder

Reduction gear assy

Wheel hub

Axle shaft

Brake

Differential support

OPERATION Replacement of pinion seal ring

TIME (minutes) 30

Rod replacement (x 1)

Ball joint replacement (x 1)

Tie rod replacement (x 1)

Ball joint boot replacement (x 1)

Tie rod boot replacement (x 1)

Sensor replacement

Steering cylinder replacement

120

Steering cylinder overhauling

240

Sensor replacement and adjustment

Gear carrier replacement

Gear carrier overhaul (3 planetary gears)

Gear carrier overhaul (4 planetary gears)

Standard wheel hub replacement

Seal ring + wheel hub bearing replacement

Stud screw replacement (x 1)

Swivel housing overhauling

Swivel housing replacement

Double joint replacement

Double joint overhauling

King pin replacement (x 1)

King pin bearing replacement (x 1)

Ring gear replacement (x 1)

Ball joint replacement (x 1)

Replacement of the seal rings of the double joint

Cardan joint bronze bushing replacement

Axle shaft replacement (x 1)

120

O-ring replacement (x 1)

Disc and counterdisc replacement (for each side)

Overhaul / replacement of piston seal rings (for each side)

Self-adjust kit replacement (for each side)

Overhaul / replacement of piston (for each side)

Overhaul / replacement of O-ring (for each side)

Replacement of differential assy

150

Differential box bearings

120

226

SECTION 27 - REAR AXLE

ASSY Differential

Pinion

OPERATION

TIME (minutes)

Differential replacement

150

Overhaul / replacement of bevel gear, planetary gears, pins

240

Overhauling / replacement of differential box bearings

120

Overhauling / replacement of pinion bearings

180

Overhaul / replacement of bevel gear, planetary gears, pins

240

SECTION 27 - REAR AXLE

227

SPECIAL TOOLS PN CNH

DESCRIPTION

USE

380002211

Handle

To be used with the various pushers and buffers

380000021

Wrench

Screw / unscrew the pinion ring nut

380200188

Buffer

Assembly of bearing cups into the differential box

380200190

Buffer

Assembly of pinion bearing cups

380000020

Wrench

Measure of pinion rolling torque

380200192

Buffer

Assembly / disassembly of bushings in the ring gear carrier hub

380200194

Buffer

Assembly / disassembly of self-adjust kit

380200195

Buffer

Ball bearing assembly of the lower king pin

380200196

Buffer

Ball bearing assembly of the upper king pin

380000024

Buffer

Bushing assembly into the swivel housing

380200202

False pinion

Differential and pinion assembly

380200205

Buffer

Assembly of bushings into the differential box

380200209

Wrench

Tighten / loosen the brake cylinder ring nut

380200210

Buffer

Wheel hub seal ring assembly

380200211

Buffer

Assembly of bearing cups into the wheel hub

380200216

Kit

Assembly of pinion bearing cups

380200217

False differential box

Differential and pinion assembly

380200218

Buffer

Assembly of bearing cup into the brake cylinder

380200222

Tool

Backlash measure between pinion and ring gear

380200227

Buffer

Assembly of bushing in the half-beam

380002226

Buffer

Assembly of seal ring in the half-beam

380200237

Tool

Preload measure

380200238

Buffer

Brake piston assembly

380200266

Buffer

Seal ring assembly into the swivel housing

380200267

Buffer

Pinion seal ring assembly

228 NOTES:

SECTION 27 - REAR AXLE

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 33 - BRAKE SYSTEM PARKING BRAKE............................................................................................................................................. 3 TECHNICAL SPECIFICATIONS.................................................................................................................. 3 OPERATION................................................................................................................................................ 3 ADJUSTMENT............................................................................................................................................. 4 DISASSEMBLY AND ASSEMBLY............................................................................................................... 6 SERVICE BRAKE ........................................................................................................................................... 15 TECHNICAL SPECIFICATIONS................................................................................................................ 15 OPERATION.............................................................................................................................................. 15 BRAKE PUMP - Remove........................................................................................................................... 16 BRAKE PUMP - Install............................................................................................................................... 18

SECTION 33 - BRAKE SYSTEM

PARKING BRAKE This device allows the immobilization of the machine each time it must be parked or stopped to carry out maintenance work.

TECHNICAL SPECIFICATIONS Type ....................................................................................................................................... manual, with lever Maximum lever pull ....................................................................................................................1650 N (371 lbf) Lever stroke ............................................................................................................................... 21 mm (0.87 in) Maximum torque - Powershuttle .............................................................................................2000 Nm (450 lbf) Maximum torque - Powershift .................................................................................................1500 Nm (337 lbf)

OPERATION The parking brake essentially consists of: - manual control lever; - transmission brake. The lever (1) is located on the right side of the cab (seat placed to loader attachment). The lever position (1) is controlled by the sensor (2), when the lever is lifted to immobilize the machine, the lamp (3) indicating the parking brake activation and placed on the side instrument panel (4), lights on. IMPORTANT: if the gear is engaged when the parking brake is activated, it will actuate the warning buzzer and the symbol â&#x20AC;&#x153;parking brake alarmâ&#x20AC;? will appear on the display. By lifting the lever (1), by means of cable (5) and of the relevant yoke (7), the brake is actuated inside transmission (6).

SECTION 33 - BRAKE SYSTEM

NEGATIVE PARKING BRAKE OPERATION Negative parking brake applied (A) When the system is not under pressure, the belleville washers (1) push on the parking brake piston (2) compressing the brake discs (3). This happens when the machine motor is stopped or because the operator has actuated the parking brake. In order to move the machine disable the parking brake.

Negative brake released (B) When the brake oil reaches the disengagement pressure, the parking brake piston (2) is pushed against the belleville washers (1) and the brake discs (3) are free. This happens under normal operating condition, when the operator disengages the parking brake.

ADJUSTMENT The parking brake can be adjusted by placing the brake pad in contact with the disc, now you have to block the brake cable. The brake cable movement (1) can be adjusted by handling on the locknut (2). Adjust the parking brake so as to brake the machine completely by lifting the brake lever up to the 4th ratchet.

SECTION 33 - BRAKE SYSTEM

MECHANICAL PARKING BRAKE ADJUSTMENT PROCEDURE Check operation of parking brake (the lever has to do 4/5 shots and the car should start moving into 3rd gear at 1700 rpm).

TBR00125

Step 10 - Bring the parking brake adjustment nut (Ref. 1) from the position 1 to position 2 (nearly 50 mm). Step 20 - Insert a 50 mm calibrated shim (Ref. 2) and set the adjustment nut at end stroke position (to reach the calibrated shim wall). Step 30 - Lock the adjustment nut in that position tightening the lock nut (Ref. 3)

SECTION 33 - BRAKE SYSTEM

DISASSEMBLY AND ASSEMBLY These procedures deal with the parking brake section and leave off the control lever and the relevant connection cable.

1. Screw

10. Piston

2. Washer

11. Snap ring

3. O-ring

12. O-ring

4. Flange

13. Stop plate

5. Screw

14. O-ring

6. Brake cover

15. Disc

7. O-ring

16. Brake discs

8. Belleville washer

17. Hub

9. O-ring

SECTION 33 - BRAKE SYSTEM DISASSEMBLY Loosen the screw (1).

Remove the screw (1) and the washer (2).

Remove the O-ring (3) and the flange (4).

Loosen the screws (5).

SECTION 33 - BRAKE SYSTEM

Remove all screws (5), the screws (A) and alternately loosen the screws (B) to release the load from the belleville washers. NOTE: the housing is under spring pressure, failure to follow the instructions will result in serious injury or damage to the equipment.

Remove the brake cover (6). Remove the O-ring (7).

Remove the brake discs (16).

Remove the hub (17).

SECTION 33 - BRAKE SYSTEM Remove the retaining plate (13).

Remove the O-rings (12) and (14) from the retaining plate.

Compress the belleville washers, to remove the snap ring (11).

Remove the piston (10) from the brake cover (6).

SECTION 33 - BRAKE SYSTEM

Remove the O-ring (9) from the piston (10).

Remove the belleville washers (8) from the brake cover (6).

INSPECTION Clean all parts in cleaning solvent. Inspect the brake discs and plates for pitting, scoring, excessive surface wear and other damage. Inspect the belleville washer for cracking and excessive surface wear at contact points. Inspect brake pistons and housing for scratches on their sliding surfaces, and contact surfaces for pitting or excessive wear. Replace the O-rings.

SECTION 33 - BRAKE SYSTEM ASSEMBLY Assemble the new O-ring (7) on the brake cover (6).

Assemble the belleville washers (8).

Assemble the new O-ring (9) on the piston (10).

Lubricate and install the piston (10) into the brake cover (6).

SECTION 33 - BRAKE SYSTEM

Compress the belleville washers, to assemble the snap ring (11).

Assemble new O-rings (12) and (14) onto the retaining plate.

Lubricate and install the retaining plate (13) into the brake cover (6).

Assemble the hub (17).

SECTION 33 - BRAKE SYSTEM Assemble the brake discs (16).

Assemble the brake cover assembly.

Screw in and tighten the screws (5) to a tightening torque of 50 Nm (37 lbfÂˇft).

Assemble the flange (4) and the new O-ring (3).

SECTION 33 - BRAKE SYSTEM

Screw in the screw (1) with the washer (2).

Tighten the screw (1) to a tightening torque of 139 Nm (102 lbfÂ·ft).

SECTION 33 - BRAKE SYSTEM

SERVICE BRAKE During operation, the brake system of the machine can stop the machine at any time.

TECHNICAL SPECIFICATIONS 2WS Type ........................................................................................................ wet multi-discs, 4 x axle (2 x half axle) Braking surface ..................................................................................................................... 1236 cm2 (191 in2) 4WS Type ........................................................................................................ wet multi-discs, 6 x axle (3 x half axle) Braking surface ..................................................................................................................... 1092 cm2 (169 in2)

OPERATION This system essentially consists of: - brake pedals (in the cab); - wet disc brakes hydraulically operated in the rear axle.

NOTE: this drawing represents the 2WS rear axle; the operation of the 4WS rear axle is the same. The two pedals (1) located in the cab underneath the steering wheel, can be matched with the locking pin (2). This enables: - the machine braking (pedals locked together); - the machine turning (by pushing just one pedal).

By pushing the pedals (1) you activate the brake pump (3) delivering hydraulic oil to the 2 brake discs (5) fitted in the rear axle (6). In this way, pressure is generated against the brake pistons (7), which, on their turn, compress the discs (9) and the counterdiscs (8), thus locking the axle and therefore the machine.

SECTION 33 - BRAKE SYSTEM

BRAKE PUMP - Remove Park the machine on a level surface. Raise the loader and lock the support strut to hold the loader. Open the engine hood and remove the DPF system from the machine following the procedure described in section 10, Engine Remove.

TBR00094

Tag and disconnect from brakes pump (1) the hydraulic hoses in (2), and (3), the hydraulic hoses brake right (4) and left (5).

3 2

4 TBR00093

SECTION 33 - BRAKE SYSTEM

From inside cab operator remove the steering wheel column cover.

TBR00095

Remove the cotter pins (1) and clevis pins (2).

TBR00096

SECTION 33 - BRAKE SYSTEM

From the engine side secure the brake pump to a lifting equipment. Loosen and remove the nuts (1) and washers (2) that fasten the brake pump (3) to the frame (4).

Remove the brake pump (3) from the frame (4).

2 3

TBR00097

SECTION 33 - BRAKE SYSTEM

BRAKE PUMP - Install Hold the brake pump (3) in alignment with the holes in the frame (4) and install the washers (2) and nuts (1) that fasten the brake pump (3) to the frame (4).

Remove the lifting equipment.

2 3

TBR00097

Connect to the brake pump (1) the hydraulic hoses (2) and (3), the hydraulic hoses brake right (4) and left (5).

3 2

4 TBR00093

SECTION 33 - BRAKE SYSTEM

Put the clevis on the brake pump in position on the brake pedal. Install the clevis pins (2) that fastens the clevis to the brake pedal. Install the cotter pins (1) in the clevis pins.

TBR00096

Using the adjustment bolts, adjust left and right pedals to the height H shown: H = 106÷108 mm (4.17÷4.25 in) for non-floormat units; H = 126÷128 mm (4.96÷5 in) for floormat units. Then tighten the adjustment bolt nuts. Dimensions apply before floormat installation. The brake valve pushrods (1) should then be rotated in order to achieve 1÷2 mm (0.039÷0.078 in) of free play measured at the pedal pad. Then tighten the nuts on each pushrod to lock the clevises. After proper adjustment, when the pedals are in their at-rest position, the clevis pins should be free.

TBR00098

SECTION 33 - BRAKE SYSTEM

From inside cab operator install the steering wheel column cover.

TBR00095

Install the DPF system on the machine by following the procedure described in section 10, Engine Install.

TBR00099

22 NOTE:

SECTION 33 - BRAKE SYSTEM

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 35 - HYDRAULIC SYSTEM HYDRAULIC DIAGRAMS ................................................................................................................................. 3 HYDRAULIC DIAGRAM - 2WS SIDESHIFT MECHANICAL MODELS POWERSHUTTLE (B100C - B100CTC) ..................................................................................................... 3 HYDRAULIC DIAGRAM - 2WS SIDESHIFT PILOT MODELS POWERSHUTTLE (B100C - B100CTC - B110C - B110CTC) .................................................................... 5 HYDRAULIC DIAGRAM - 2WS SIDESHIFT PILOT MODELS POWERSHUTTLE (B100CLR) .................. 7 HYDRAULIC DIAGRAM - 2WS SIDESHIFT MECHANICAL MODELS POWERSHUTTLE (B100CLR)..... 9 HYDRAULIC DIAGRAM - 2WS SIDESHIFT MECHANICAL MODELS POWERSHIFT (B110CTC)......... 11 HYDRAULIC DIAGRAM - 4WS SIDESHIFT MECHANICAL MODELS POWERSHIFT (B115C) ............. 13 HYDRAULIC DIAGRAM - 4WS SIDESHIFT PILOT MODELS POWERSHIFT (B115C)........................... 15 HYDRAULIC DIAGRAM - 4WS CENTER PIVOT PILOT MODELS POWERSHIFT (B115C)................... 17 HYDRAULIC PUMP........................................................................................................................................ 19 HYDRAULIC FIXED-FLOW-RATE GEAR PUMP...................................................................................... 19 HYDRAULIC VARIABLE-FLOW-RATE PISTON PUMP ........................................................................... 30 CONTROL VALVES ....................................................................................................................................... 44 LOADER CONTROL VALVE ..................................................................................................................... 53 BACKHOE ATTACHMENT CONTROL VALVE......................................................................................... 57 RELIEF VALVES ....................................................................................................................................... 69 BACKHOE ATTACHMENT CONTROL VALVE PILOT SOLENOID VALVE .................................................. 78 ACCUMULATOR “AUTO GLIDE RIDE” PARKER.......................................................................................... 81 TECHNICAL SPECIFICATIONS................................................................................................................ 81 MAINTENANCE......................................................................................................................................... 81 SAFETY ..................................................................................................................................................... 81 CHECKING AND ADJUSTING THE PRECHARGE PRESSURE ............................................................. 82 HYDRAULIC SWING SYSTEM ...................................................................................................................... 84 OPERATION.............................................................................................................................................. 84 HYDRAULIC CYLINDERS.............................................................................................................................. 87 LOADER ATTACHMENT BOOM CYLINDER ........................................................................................... 88 LOADER BUCKET CYLINDER ................................................................................................................. 95

SECTION 35 - HYDRAULIC SYSTEM 4X1 LOADER BUCKET CYLINDER ........................................................................................................ 101 BACKHOE BOOM CYLINDER ................................................................................................................ 104 BACKHOE ATTACHMENT DIPPER CYLINDER .................................................................................... 108 BACKHOE BUCKET CYLINDER............................................................................................................. 112 TELESCOPIC CYLINDER ....................................................................................................................... 116 STABILIZER CYLINDER - CENTER PIVOT............................................................................................ 120 STABILIZER CYLINDER - SIDESHIFT ................................................................................................... 124 SWING CYLINDER.................................................................................................................................. 128 BACKHOE ATTACHMENT LOCK CYLINDER - SIDESHIFT .................................................................. 132 SPECIAL TOOLS..................................................................................................................................... 133

HYDRAULIC CONTROL LEVERS................................................................................................................ 134 TECHNICAL SPECIFICATIONS.............................................................................................................. 134 CONTROLS AND OPERATION .............................................................................................................. 135 COMPONENTS ....................................................................................................................................... 136 DISASSEMBLY AND ASSEMBLY........................................................................................................... 138 CONTROL LEVER VALVE ...................................................................................................................... 141 TROUBLESHOOTING .................................................................................................................................. 143 PRELIMINARY CHECKS......................................................................................................................... 143 TROUBLESHOOTING (WITH “REXROTH” CONTROL VALVES).......................................................... 144 SWING ..................................................................................................................................................... 146 HYDRAULIC PUMP ................................................................................................................................. 147

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC DIAGRAMS HYDRAULIC DIAGRAM - 2WS SIDESHIFT MECHANICAL MODELS POWERSHUTTLE (B100C - B100CTC)

* Alternative diagram for non-reactive steering

SECTION 35 - HYDRAULIC SYSTEM

Front axle steering cylinder

Power steering

4x1 bucket cylinders

3A. 4x1 bucket control valve 4.

Loader bucket cylinders

4A. Lock valve 4B. Lock valve 5.

Boom cylinders

5A. Lock valve 5B. Lock valve 6.

Ride control valve (optional)

Ride control accumulator (optional)

Loader attachment control valve

Backhoe hammer control valve (optional)

SECTION 35 - HYDRAULIC SYSTEM HYDRAULIC DIAGRAM - 2WS SIDESHIFT PILOT MODELS POWERSHUTTLE (B100C - B100CTC - B110C - B110CTC)

* Alternative diagram for non-reactive steering

SECTION 35 - HYDRAULIC SYSTEM

Front axle steering cylinder

Power steering

4x1 bucket cylinders

3A. 4x1 bucket control valve 4.

Loader bucket cylinders

4A. Lock valve 4B. Lock valve 5.

Boom cylinders

5A. Lock valve 5B. Lock valve 6.

Ride control valve (optional)

Ride control accumulator (optional)

Loader attachment control valve

Backhoe hammer control valve (optional)

10. Backhoe hammer (optional) 11. Hand hammer control valve (optional) 12. Hand hammer (optional) 13. Hydraulic pump 14. Priority valve 15. Oil cooler 16. Hydraulic tank 17. Air filter 18. Filter manifold 19. Return manifold 20. Backpressure valve 21. Backhoe attachment travel lock cylinders 22. Auxiliary bidirectional (optional) 23. Stabilizer right cylinder 23A. Lock valve 24. Stabilizer left cylinder 24A. Lock valve 25. Dipper cylinder 25A. Lock valve 26. Bucket cylinder 27. Swing cylinders 28. Boom cylinder 28A. Lock valve 29. Telescopic dipper cylinder (optional) 30. Backhoe attachment control valve 31. Pilot control manifold 32. Left-hand hydraulic control lever 32A. Boom or dipper left hydraulic control lever 32B. Hydraulic control lever left-swing 33. Right-hand hydraulic control lever 33A. Boom or dipper right hydraulic control lever 33B. Hydraulic control lever right-bucket

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC DIAGRAM - 2WS SIDESHIFT PILOT MODELS POWERSHUTTLE (B100CLR) 31

9 5

3 4

7 5B

31A

31B

32A

32B

12 28

27A

27 26

25 24A 24

30 14

23A

17 22A

1 13

18 16 15

* Alternative diagram for non-reactive steering

21 19

2 *

29 1

TBR00092

SECTION 35 - HYDRAULIC SYSTEM

Front axle steering cylinder

Power steering

4x1 bucket cylinders

3A. 4x1 bucket control valve 4.

Loader bucket cylinders

4A. Lock valve 4B. Lock valve 5.

Boom cylinders

5A. Lock valve 5B. Lock valve 6.

Ride control valve (optional)

Ride control accumulator (optional)

Loader attachment control valve

Backhoe hammer control valve (optional)

10. Backhoe hammer (optional) 11. Hand hammer control valve (optional) 12. Hand hammer (optional) 13. Tandem gear pump 14. Priority valve 15. Oil cooler 16. Hydraulic tank 17. Air filter 18. Filter manifold 19. Return manifold 20. Common return manifold 21. Backhoe attachment travel lock cylinders 22. Stabilizer right cylinder 22A. Lock valve 23. Stabilizer left cylinder 23A. Lock valve 24. Dipper cylinder 24A. Lock valve 25. Bucket cylinder 26. Swing cylinders 27. Boom cylinder 27A. Lock valve 28. Telescopic dipper cylinder (optional) 29. Backhoe attachment control valve 30. Backhoe attachment control valve solenoid valve 31. Left-hand hydraulic control lever 31A. Boom or dipper left hydraulic control lever 31B. Hydraulic control lever left-swing 32. Right-hand hydraulic control lever 32A. Boom or dipper right hydraulic control lever 32B. Hydraulic control lever right-bucket

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC DIAGRAM - 2WS SIDESHIFT MECHANICAL MODELS POWERSHUTTLE (B100CLR)

* 2

7 1

27A 27 8 26 9 25 24A

11 23A

19 14

22 22A 21

13 29 16 15

TBR00091

* Alternative diagram for non-reactive steering

SECTION 35 - HYDRAULIC SYSTEM

Power steering

4x1 bucket cylinders

3A. 4x1 bucket control valve 4.

Loader bucket cylinders

4A. Lock valve 4B. Lock valve 5.

Boom cylinders

5A. Lock valve 5B. Lock valve 6.

Ride control valve (optional)

Ride control accumulator (optional)

Loader attachment control valve

Backhoe hammer control valve (optional)

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC DIAGRAM - 2WS SIDESHIFT MECHANICAL MODELS POWERSHIFT (B110CTC)

3 4

1 5B

29 2

28A 28

9 11

25A

25 19 24 24A

14 17

23 23A 22 18

13 15

21 20

30 TBR00100

SECTION 35 - HYDRAULIC SYSTEM

Front axle steering cylinder

Power steering

4x1 bucket cylinders

Loader bucket cylinders

4A. Lock valve 4B. Lock valve 5.

Boom cylinders

5A. Lock valve 5B. Lock valve 6.

Ride control valve (optional)

Ride control accumulator (optional)

Loader attachment control valve

Backhoe hammer control valve (optional)

SECTION 35 - HYDRAULIC SYSTEM HYDRAULIC DIAGRAM - 4WS SIDESHIFT MECHANICAL MODELS POWERSHIFT (B115C)

SECTION 35 - HYDRAULIC SYSTEM

Front axle steering cylinder

Rear axle steering cylinder

4WS steering control valve

Power steering

4x1 bucket cylinders

5A. 4x1 bucket control valve 6.

Loader bucket cylinders

6A. Lock valve 6B. Lock valve 7.

Boom cylinders

7A. Lock valve 7B. Lock valve 8.

Ride control valve (optional)

Ride control accumulator (optional)

10. Loader attachment control valve 11. Hand hammer (optional) 12. Hand hammer control valve (optional) 13. Backhoe hammer (optional) 14. Backhoe hammer control valve (optional) 15. Hydraulic pump 16. Priority valve 17. Oil cooler 18. Hydraulic tank 19. Air filter 20. Filter manifold 21. Return manifold 22. Backpressure valve 23. Backhoe attachment control valve 24. Backhoe attachment travel lock cylinders 25. Auxiliary bidirectional (optional) 26. Stabilizer right cylinder 26A. Lock valve 27. Stabilizer left cylinder 27A. Lock valve 28. Dipper cylinder 28A. Lock valve 29. Bucket cylinder 30. Swing cylinders 31. Boom cylinder 31A. Lock valve 32. Telescopic dipper cylinder (optional)

SECTION 35 - HYDRAULIC SYSTEM HYDRAULIC DIAGRAM - 4WS SIDESHIFT PILOT MODELS POWERSHIFT (B115C)

SECTION 35 - HYDRAULIC SYSTEM

1. Front axle steering cylinder 2. Rear axle steering cylinder 3. 4WS steering control valve 4. Power steering 5. 4x1 bucket cylinders 5A. 4x1 bucket control valve 6. Loader bucket cylinders 6A. Lock valve 6B. Lock valve 7. Boom cylinders 7A. Lock valve 7B. Lock valve 8. Ride control valve (optional) 9. Ride control accumulator (optional) 10. Loader attachment control valve 11. Hand hammer (optional) 12. Hand hammer control valve (optional) 13. Backhoe hammer (optional) 14. Backhoe hammer control valve (optional) 15. Hydraulic pump 16. Priority valve 17. Oil cooler 18. Hydraulic tank 19. Air filter 20. Filter manifold 21. Return manifold 22. Backpressure valve 23. Backhoe attachment control valve 25. Auxiliary bidirectional (optional) 26. Stabilizer right cylinder 26A. Lock valve 27. Stabilizer left cylinder 27A. Lock valve 28. Dipper cylinder 28A. Lock valve 29. Bucket cylinder 30. Swing cylinders 31. Boom cylinder 31A. Lock valve 32. Telescopic dipper cylinder (optional) 33. Pilot control manifold 34. Left-hand hydraulic control lever 34A. Boom or dipper left hydraulic control lever 34B. Hydraulic control lever left-swing 35. Right-hand hydraulic control lever 35A. Boom or dipper right hydraulic control lever 35B. Hydraulic control lever right-bucket

SECTION 35 - HYDRAULIC SYSTEM HYDRAULIC DIAGRAM - 4WS CENTER PIVOT PILOT MODELS POWERSHIFT (B115C)

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC PUMP The machine can be provided with 2 types of hydraulic pump: - fixed-flow-rate gear pump; - variable-flow-rate piston pump. Further to the type, pumps differentiate according to the motor: - 97 HP (72 kW) motor - 110 HP (82 kW) motor

HYDRAULIC FIXED-FLOW-RATE GEAR PUMP The hydraulic pump is mounted on the rear part of the transmission and is driven by a shaft directly connected to the engine splined to the torque converter. The pump consists of two pumping elements, the front pump (1) and the rear pump (2), and a loadsensing flow divider valve (3) for the steering system. Oil is drawn through the common inlet port into both pumping elements. The front pump flow is directed to the loader and backhoe attachment control valve and also to the sideshift carriage lock cylinders. The rear pump flow passes through the flow divider valve, which maintains priority oil flow to the steering system, with the remaining flow used for the loader and backhoe control valves.

TECHNICAL SPECIFICATIONS 72 kW - 97 HP Pump (B100C - B100CTC) Model .......................................................................................................... CASAPPA KP 30.34 - 05 S6 - LMF Type ...................................................................................................................................... double gear pump Displacement ............................................................................. 35.427 + 35.427 cm3/rev (2.16 + 2.16 in3/rev) 82 kW - 110 HP Pump (B110C - B110CTC - B115C) Model .......................................................................................................... CASAPPA KP 30.38 - 05 S6 - LMF Type ...................................................................................................................................... double gear pump Displacement ............................................................................. 40.258 + 35.427 cm3/rev (2.45 + 2.16 in3/rev)

SECTION 35 - HYDRAULIC SYSTEM

PUMP (97 HP ENGINE)

1st PUMP

Direction of rotation (looking on drive shaft)

2nd PUMP

Clockwise (D) 35.427 cm3/rev (2.16 in3/rev)

Displacement Inlet pressure range for pump

35.427 cm3/rev (2.16 in3/rev)

0.7 - 3 bar (10 - 43 psi)

Maximum continuous pressure

260 bar (3771 psi)

Maximum intermittent pressure

280 bar (4061 psi)

Maximum peak pressure

300 bar (4351 psi)

Operating temperature

-25 to +80 °C (-13 to +176 °F) min P1

Speed

350 rpm

max P1

Viscosity range

Contamination class

3000 rpm 2

recommended

12 to 100 mm /s (0.47 to 3.93 in/s²) (cSt)

permitted

max 750 mm2/s (29.53 in/s²) (cSt)

Dp > 200 bar (2900 psi) bx = 75 - 10 mm (3.0 - 0.39 in)

8 - Nas 1638

Dp < 200 bar (2900 psi) bx = 75 - 25 mm (3.0 - 0.98 in)

Relief valve

19 / 17 /14 - ISO 4406 10 - Nas 1638 21 / 19 /16 - ISO 4406 177 ± 3 bar (2567 - 43 psi)

Stand by pressure load sensing valve

7 bar (102 psi)

Weight

30 kg (66 lb)

PUMP (110 HP ENGINE)

1st PUMP

Direction of rotation (looking on drive shaft)

2nd PUMP

Clockwise (D) 40.258 cm3/rev (2.45 in3/rev)

Displacement Inlet pressure range for pump

35.427 cm3/rev (2.16 in3/rev)

0.7 - 3 bar (10 - 43 psi)

Maximum continuous pressure

260 bar (3771 psi)

Maximum intermittent pressure

280 bar (4061 psi)

Maximum peak pressure

300 bar (4351 psi)

Operating temperature Speed Viscosity range

Contamination class

Relief valve Stand by pressure load sensing valve Weight

-25 to +80 °C (-13 to +176 °F) min P1

350 rpm

max P1

3000 rpm

recommended

12 to 100 mm2/s (0.47 to 3.93 in/s²) (cSt)

permitted

max 750 mm2/s (29.53 in/s²) (cSt)

Dp > 200 bar (2900 psi) bx = 75 - 10 mm (3.0 - 0.39 in)

8 - Nas 1638 19 / 17 /14 - ISO 4406

Dp < 200 bar (2900 psi) bx = 75 - 25 mm (3.0 - 0.98 in)

21 / 19 /16 - ISO 4406

10 - Nas 1638 177 ± 3 bar (2567 - 43 psi) 7 bar (102 psi) 30 kg (66 lb)

SECTION 35 - HYDRAULIC SYSTEM

Tightening torques

TBR00109

Hydraulic diagram

SECTION 35 - HYDRAULIC SYSTEM

LOAD-SENSING VALVE

1. Orifice

8. Steering relief valve

2. Rear systems (EF)

9. Relief valve adjuster

3. Filter

10. Poppet

4. Spool

11. Return to inlet pump port

5. To steering priority flow (CF)

12. Lock plug

6. Orifice

13. Load sensing signal (LS)

7. Inlet port from rear pump (IN)

14. Orifice

When the steering is in neutral the load sensing port is connected to the unload (through the steering) and the steering inlet port (CF) is open.

SECTION 35 - HYDRAULIC SYSTEM

Load sensing valve with pump running - Steering in neutral

1. 2. 3. 4.

Return to oil tank Trapped oil Pressure oil Orifice Rear systems (EF) Filter Spool

5. To steering priority flow (CF) 6. Orifice 7. Inlet port (from rear port)

The pressure on (CF) increases until the pressure value (stand-by pressure) is sufficient to move the spool valve in a way to divert the flow toward (EF).

Load sensing valve with pump running - Steering working

1. 2. 3. 4.

Trapped oil Return to oil tank Orifice Rear systems (EF) Filter Spool

During steering two actions are performed: 1. The fluid moves to the steering through (CF). 2. The (LS) signal is in communication to the steering.

5. To steering priority flow (CF) 6. Orifice 7. Inlet port (from rear port)

SECTION 35 - HYDRAULIC SYSTEM

COMPONENTS

1. Screw

19. Bushing

2. Steering control valve

20. Gasket

3. Spool

21. Bushing

4. O-ring

22. Elastic retainer

5. Plug

23. Bearing

6. Valve

24. Gear

7. Filter

25. Gear

8. Fitting

26. Front pump body

9. Spring seat

27. Gasket

10. Spring

28. Gear

11. O-ring

29. Flange

12. Cover

30. Seal ring

13. Relief valve

31. Seal ring

14. O-ring

32. Snap ring

15. Poppet

33. Pressure seal

16. Spring

34. Gear

17. Seat

35. O-ring

18. Rear pump body

36. Screw

SECTION 35 - HYDRAULIC SYSTEM DISASSEMBLY AND ASSEMBLY Disassembly of the steering control valve To aid reassembly draw an alignment line along the total length of the pump assembly. Remove the screws (1).

Remove the load-sensing steering control valve (2). Check and replace the O-rings (35), if necessary.

Disassembly of the steering control valve Do not disassemble the steering system relief valve (A) if the valve’s pressure is to specification when pressure-testing the pump prior to overhaul. NOTE: if the steering system pressure relief valve is disassembled, the valve must be reset as described in Chapter “Troubleshooting, pressure and flow testing”. Wash all components in an approved degreasant and check the following: - the valve bore must be free from scoring or damage to metering edges; - the spool (3) should slide freely in the bore and must be free from scoring or damage; - ensure all orifices are clean; - the valve seat must not show cavities or damage (a small chamfer at the entrance of the bore is allowed); - examine the filter (7) mounted inside the outlet and relief valves and replace the filter if dirty. Pressure and flow test the pump.

SECTION 35 - HYDRAULIC SYSTEM

Rear pump disassembly Remove the screws (36).

Remove the rear pump assembly (18).

IMPORTANT: prior to disassembly and to ensure correct reassembly identify the position of each bearing block in the pump body as described below. Write an identifying letter “A” and “B”, “C” and “D” on the pump housing and in the channel of each bearing block. NOTE: orientation of bearing block seals relative to oil port. If scribe is not available take care to keep bearing blocks in pairs. Disassemble the gears (24), the seals (33), the elastic retainers (22) and the bearings (23). Wash all components in approved degreasant.

SECTION 35 - HYDRAULIC SYSTEM Inspect the wear track cut by the gears in pump body. The body can be reused if the track is bright and polished and does not exceed 0.08 รท 0.076 mm (0.0031 รท 0.0029 in) in depth. Examine bearing block faces for scoring and flatness, paying particular attention to the face which abuts the gears. Examine bearing block bushes for scoring. Examine pump gears for scored or worn side faces, journals and damaged teeth. If pump block, gears or bearing blocks are worn and require replacement the pump assembly must be replaced. Re-assemble using the disassembly procedure in reverse order and observe the following warnings: - ensure that all parts are perfectly clean and lubricate bushes and gears with clean hydraulic fluid; - replace all seals and O-rings; - install the bearing blocks into the same positions from which they were removed, using the identification letters written during disassembly; - ensure plastic back-up seals are correctly positioned in the rubber seal.

SECTION 35 - HYDRAULIC SYSTEM

Front pump disassembly To remove the pump assy (26) from the flange (29) it is necessary to remove the snap ring (33). Remove and replace the seal rings (30) and (31).

Identify and note the position of each bearing block to ensure correct reassembly. Disassemble the gears (28) and (34), the seals (33), the elastic retainers and the bearings (23). Wash all components in approved degreasant.

Inspect the wear track cut by the gears in the inlet side of the pump body. The body can be reused if the track is bright and polished and does not exceed 0.15 mm (0.006 in) in depth. Examine bearing block faces for scoring. Inspect teflon coated bearings in body or flange for wear. If bearings are worn the bronze backing will be revealed. Examine pump gears for scored or worn side faces, journals and damaged teeth. Examine flange seal contact area on driveshaft. If pump block, gears, bearing blocks or drive shaft are worn the pump assembly must be replaced.

SECTION 35 - HYDRAULIC SYSTEM Re-assemble using the disassembly procedure in reverse order and observe the following warnings: - ensure that all parts are perfectly clean and lubricate bushes and gears with clean hydraulic oil; - replace all seals and O-rings; - install bearing blocks into the same positions from which they were removed; - make sure the safety retainers are correctly positioned in the rubber seal rings.

Assemble the inner seal, (30), with the spring and the lip facing the pump. Install the outer seal ring (31), with the spring and the lip facing outwards and refit the snap ring (32). Coat the rings with high melting point grease. NOTE: ensure seal rings are fitted back to back. NOTE: if the seal ring recess has been scored during seal removal, coat the outside diameter of the seal ring with flexible gasket sealant to prevent leakage.

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC VARIABLE-FLOW-RATE PISTON PUMP As an alternative to the fixed-flow-rate gear pump, the machine can be provided with a variable-flowrate pump. TECHNICAL SPECIFICATIONS 72 kW - 97 HP Pump (B100C - B100CTC) Model ....................................................................................................................... DANFOSS J71C Series 45 Type ......................................................................................................................................... with axial pistons Displacement .............................................................................................................. 71 cm3/rev (4.33 in3/rev) 82 kW - 110 HP Pump (B110C - B110CTC - B115C) Model ....................................................................................................................... DANFOSS J75C Series 45 Type ......................................................................................................................................... with axial pistons Displacement ............................................................................................................... 75 cm3/rev (4.57 in3/rev)

SECTION 35 - HYDRAULIC SYSTEM

COMPONENTS

62 48 47

61 60

6 7 46 45

57 56 55

15 25 20

28 27

19 21

TBR00110

SECTION 35 - HYDRAULIC SYSTEM

1. Snap ring

28. O-ring

2. Seal ring

29. Load-sensing control valve

3. Pump body

30. Screw

4. O-ring

31. Piston

5. Plug

32. Piston disc

6. Plug

33. Articulation

7. O-ring

34. Pin

8. Bearing

35. Cylinder

9. Shaft

36. Washer

10. Cradle bearing

37. Spring

11. Pin

38. Washer

12. Snap ring

39. Ring

13. Pin

43. Plug

14. Swash plate

44. O-ring

15. Spring

45. Spool

16. Piston

46. Valve body

17. Cylinder assy

47. O-ring

18. O-ring

48. Plug

19. Bearing

54. Plug

20. Pin

55. O-ring

21. Valve plate

56. Spring guide

22. Check valve

57. Spring

23. Spring

58. Spring

24. O-ring

59. Back-up ring

25. Plug

60. O-ring

26. Cover

61. Adjusting screw

27. Screw

62. Screw

SECTION 35 - HYDRAULIC SYSTEM DISASSEMBLY AND ASSEMBLY Disassembly Remove the load-sensing control valve (29) by removing the 4 screws (30). Remove and discard the 4 O-rings (28).

Loosen and remove the 4 screws (27). Carefully remove the end cap (26). Prevent the valve plate (21) from falling off. Place the end cap and valve plate in a clean area, protecting them from contamination. Remove the bearing (19) and the O-ring (18).

Tilt the pump body to allow oil to drain. Remove the cylinder assy (17). Set the cylinder assy on a clean and dry surface.

SECTION 35 - HYDRAULIC SYSTEM

Rotate the pump body (3) to a position so that the shaft is pointing down. Pull the shaft (9) out of the pump body (3). Compress the spring (15) and rotate the piston (16) towards the swash plate (14). Lift the swashplate/piston assy until it is tilted and remove it from the pump body (3). Remove the piston (16) and the spring (15) from the swashplate (17) by removing the pin (13) and the snap ring (12).

Remove the bearing (8). Examine the cradle bearings (10) to determine if they need replacement. Removing the pins (11) will likely damage the cradle bearings, so make sure you have replacement bearings before you remove them. If cradle bearings (10) need replacing, remove the 2 pins (11). Note the location and orientation of the bearings for re-installation.

SECTION 35 - HYDRAULIC SYSTEM

Orientate the pump body (3) with the flange facing up.

Remove the snap ring (1). Carefully pry out the seal ring (2).

In case it is not possible to extract the seal ring (2), try to push the seal out by going through the inside of the pump body (3).

TBR00111

Disassembly of the load-sensing control valve (29) Remove the three plugs (43), (48), (46) and their Orings (44), (47).

Remove the screws (62).

Remove the spool (45). Note which bore each spool came out of. Also note the orientation of each spool for reinsertion. There may be differences in reinserting into the same bore. Remove the adjusting screw (61), the O-ring (60) and the back-up ring (59). Remove the springs (57), (58) and the spring guide (56). NOTE: the disassembly will require resetting after the pump is reinstalled on the machine.

45 47 48 62

46 56

57 58 59 60 61

TBR00112

SECTION 35 - HYDRAULIC SYSTEM

Disassembly of cylinder assy (17) Pull to extract the piston disc (32) with the pistons (31) from the cylinder (35). Number the pistons and bores for reassembly if they are to be reused. Remove the articulation (33). Remove the 3 pins (34). NOTE: perform this procedure only if you suspect problems with the spring. Turn the cylinder (35) over. Using a press, apply pressure on the washer (38) to compress the spring (37). Compress the spring enough to safely remove the ring (39). Carefully release the pressure and remove the washer (38), the spring (37) and the washer (36) from the cylinder (35).

SECTION 35 - HYDRAULIC SYSTEM Inspection After disassembly, wash all parts (including the end cap and the pump body) thoroughly with clean solvent and allow to air dry. Clean the oil ducts in the pump body and the end cover with compressed air. Conduct inspection in a clean area and keep all parts free from contamination. Inspect the pistons (31) for damage and discoloration. Discoloured pistons may indicate excessive heat; do not reuse. Inspect the running surface of the pistons (A). Replace all pistons with scored or excessively rounded edges. Measure the piston foot thickness (B). Replace all excessively worn pistons. Check the axial end-play (C). Replace all pistons with excessive end-play. Foot thickness (B)

3.23 mm (0.13 in)

Piston axial end-play (C)

0.05 mm (0.002 in)

The articulation (33) should be free of nicks and scratches, and should not be excessively scored. Examine for discoloration that may indicate excessive heat or lack of lubrication. The piston disc (32) must be flat. The pistons must insert with a minimum side play. Place the pins (34) on a flat surface and roll them to make sure they are straight. Discard and replace any damaged parts.

If the cylinder assy was fully dissembled, visual inspection of the cylinder block, spring (37) and washers (36), (38) should indicate minimal wear. Replace if cracks or other damage is present.

SECTION 35 - HYDRAULIC SYSTEM

Examine the running face of the cylinder (35). The surface should be smooth and free of nicks and burrs. Ensure that no scratches or grooves exist; these may drastically reduce output flow. Minimum height (D)

62.25 mm (2.45 in)

Maximum bore diameter (E)

19.8 mm (0.78 in)

Inspection of the load-sensing control valve (29). Carefully examine the plugs (43), (48), (46) for signs of wear.

Inspect all springs to make sure they are intact.

Check the inside and outside surfaces of the springs for wear.

Check the spool (45) outside diameter for scratches and/or burrs. Clean and coat all spools, bores and seals with a light coating of oil.

47 48 62

46 56

57 58 59 60 61

TBR00112

Make sure that the shaft (9) and its splines are straight and free of damage or heavy wear. Inspect the shaft surface where it meets the seal ring. Replace the shaft if a groove exists at the sealing land surface that may let dirt into or hydraulic oil out of the unit. Clean the sealing area with non-abrasive material. Lubricate the shaft with a light coat of oil.

SECTION 35 - HYDRAULIC SYSTEM Carefully inspect each surface of the swashplate (14) for wear. All swashplate surfaces should be smooth. Inspect the swashplateâ&#x20AC;&#x2122;s running surface for damage and brass transfer. Excessive transfer may indicate that the pistons should be replaced. Finally, check the swashplate pin for scratches.

Inspect the cradle bearings (10) for damage or excessive wear. The polymer wear layer must be smooth and intact. Replace if scratched or excessively worn. Inspect the valve plate (21) for scratches or grooves. Check the plate for evidence of any cavitation along the running face. If pitting from cavitation exists, replace the valve plate. Check for excess wear on the running face. If any discoloration or burn marks are observed, replace. Run a fingernail or a pencil tip across the diameter of the sealing land surface. No deep or outstanding grooves should be felt, as these may decrease pump flow. Lap or replace if grooves or nicks are present. Inspect the mating surfaces of the end cap and valve plate for any possible contamination. Measure the thickness of the valve plate (21). Ensure that valve plate parallelism is equal to or less than 0.025 mm (0.0010 in). Appearance should be flat and smooth on both the running face and the bottom surface. The valve plate should be flat to 0.005 mm (0.0002 in) convex. Carry out a magnetic particle inspection to detect possible cracks. The plate (21) must be replaced in case of cracks.

SECTION 35 - HYDRAULIC SYSTEM

Check the cover (26). Remove the check valve (22) to expose the spring (23). Check and record orientation of the pin (20). The split in the pin should be facing into or out of the slot in the valve plate. Inspect the check valve (22) for wear on its sealing face. Make sure the spring (23) is undamaged. Replace any components if excess wear is present.

Check that the piston assy (16) for any obvious wear or damage. Check the corresponding end cap bore for galling or excessive wear.

Inspect the pump body (3) to ensure that it is clean and free of foreign material. Inspect the surfaces of the cradle bearings and the mating surfaces of the end cover.

The bearings (8) consist of a race (B) and a cone (A). Make sure the cup (B) and cone (A) are free of excessive wear or contamination. Rotate the bearing to check for smoothness. If a contaminated bearing is suspected, clean with solvent and lubricate with hydraulic oil. Inspect for uneven wear.

SECTION 35 - HYDRAULIC SYSTEM Assembly Coat the cradle bearings (10) with oil and install them into the pump body (3). Insert the pins (11) a minimum of 0.5 mm (0.02 in) below the bearing surface. If the bearings (10) are reused, reinstall them in their original position. Install the bearing (8). Before replacing the spring (15), coat the contact surface of the swashplate (14) with oil. Assemble the swashplate (14), and the piston (16) and the spring (15) into the pump body (3). Rotate the piston (16) perpendicularly to the swashplate (14) and, at the same time, compress the spring (15) to fit it into the pump body (3). Liberally lubricate all sides of the piston (16) and its relevant bore and also the flat face of the swashplate to prevent premature wear during start-up. Insert the shaft (9) through the bearing in the body. Push on the piston to rotate the swashplate in order to put the shaft in properly. Lubricate components before assembly. Install the inner washer (36), the spring (37) and the outer washer (38) into the cylinder (35). Compress the spring enough to insert the ring (39).

S WARNING S Compressing the spring (37) requires about 350 รท 400 N (79 รท 90 lbf). Use a press sufficient to maintain this force. Ensure that the spring is secure before attempting to assemble the ring (39). Release the pressure slowly after the ring (39) has been installed. Turn the cylinder over and assemble the pins (34) and the ball guide (33) into the cylinder (35). Assemble the pistons (31) on the piston disc (32). Install the piston/disc assy into the cylinder (35). Ensure the concave surface of the disc seats correctly in the ball guide. If reusing the pistons, install them to the original cylinder bores. Lubricate the pistons (31), the piston disc (32) and the ball guide (33) before assembly. IMPORTANT: make sure to install the piston disc (32) so that it mates correctly with the articulation (33), the concave side of the disc against the convex side of the ball guide.

SECTION 35 - HYDRAULIC SYSTEM

Secure the end of the shaft with one hand and keep it horizontal. Insert the cylinder assy (17) onto the shaft (9). While holding the shaft still, slightly rotate the cylinder assy (17) to help position the shaft splines over the ball guide and align them with the cylinder splines. When the cylinder slides completely over the shaft splines, reposition the body with the flange facing downward.

Clean the valve plate (21) and the end cap. Assemble the pin (20) in the end cap (26) and verify that it is properly oriented with the split facing into or out of the slot in the valve plate (21). The pin should be installed to 3.61 ± 0.25 mm (0.1421 ± 0.0098 in) above the valve plate (21) surface. Apply a liberal amount of grease to the backside of the valve plate (21) surface to hold it in position. Assemble the valve plate (21) over the pin (20). Assemble the spring (23) and the check valve (22). To ensure proper pump operation, it is extremely important to guarantee that there is no contamination between the end cap (26) and the valve plate (21). Assemble the bearing cup (19). Assemble the bearing race (19) onto the shaft (9). Apply some grease to keep the O-ring (18) in place. Assemble the cover (26) to the body (3). Screw in and tighten the screws (27) to a tightening torque of 127 ÷ 155 Nm (94 ÷ 114 lbf·ft).

SECTION 35 - HYDRAULIC SYSTEM

Lubricate the seal ring (2) with oil. Place a protective sleeve over the shaft end (9) to prevent damage to the seal ring during installation.

Holding the seal ring (2) perpendicular to the shaft (9), press it into the body just far enough to clear the ring groove.

Assemble with the concave side towards the shaft bearing.

Assemble the snap ring (1).

TBR00113

SECTION 35 - HYDRAULIC SYSTEM

CONTROL VALVES The hydraulic circuit is a load-sensing flow sharing system working together with a hydraulic pump. This system has the advantage that at any time the distribution of flow to the services being operated is in proportion to the openings of the control valve spools. The flow distribution to the backhoe and loader control valves is independent of the load and it is therefore possible to operate two or more spools at the same time. Important components of the system are the pressure compensator valves in each control valve section, together with the load-sensing line which connects all spools of the loader and backhoe attachment control valves. With the fixed-flow-rate hydraulic pump, the loadsensing line only connects the loader and backhoe attachment control valves and does not have any connection to the hydraulic pump. The hydraulic pump draws oil from the tank and flow from the front pump is directed to the centre galleries of the loader and backhoe control valves assemblies. The flow coming from the rear section of the pump passes through the flow divider valve and sends the priority flow to the steering system, while the remaining flow adds to the flow from the front pump, directed to the loader and backhoe attachment systems. The centre gallery of both the loader and backhoe control valves are blocked by the end plate. Pressure in the supply system is controlled by the pump flow balancer valve in accordance with the pressure in the load-sensing line. Consequently, the higher the load sensing pressure is, the less flow is returned to the tank, with a corresponding increase in flow/pressure to the hydraulic systems. Maximum system pressure is limited by the load sense pressure relief valve which relieves pressure in the load sense line when it reaches 210 bar (304 psi). Since the flow balancer valve is influenced by the load-sensing pressure, the valve diverts a sufficient quantity of oil to the tank to maintain the maximum system pressure of 210 bar (304 psi).

LOADER CONTROL VALVE The loader control valve is mounted on the right side of the machine adjacent to the pump. The control valve assembly consists of a maximum of three sections and provides oil to the loader attachment, to the bucket and to the 4x1 bucket, if installed. BACKHOE ATTACHMENT CONTROL VALVE The backhoe attachment control valve is located in the rear part of the machine. The control valve consists of a maximum of 7 or 8 sections and provides the oil flow for operating the lifting, the digging, the bucket, the stabilizers, the swing, the (optional) telescopic arm and the auxiliary services, if installed.

SECTION 35 - HYDRAULIC SYSTEM

SYSTEM DIAGRAM (BACKHOE ATTACHMENT MECHANICAL CONTROLS)

12 13

1 3 4 5

2 11

8 9

TBR00114

Hydraulic system oil

Suction oil

Steering system oil

Return to oil tank

Load-sensing line oil 1. Hydraulic tank

8. Backhoe hammer control valve

2. Hydraulic pump

9. Backhoe hammer

3. Power steering

10. Oil cooler

4. Hand hammer control valve

11. Return line manifold

5. Hand hammer

12. Filter

6. Backhoe attachment control valve

13. Oil cooler by-pass valve

7. Loader attachment control valve

SECTION 35 - HYDRAULIC SYSTEM

SYSTEM DIAGRAM (BACKHOE ATTACHMENT PILOT CONTROLS)

12 13

8 9

16 TBR00115

Hydraulic system oil

Suction oil

Steering system oil

Return to oil tank

Load-sensing line oil

Control circuit oil

1. Hydraulic tank

9. Backhoe hammer

2. Pump

10. Oil cooler

3. Power steering

11. Return line manifold

4. Hand hammer control valve

12. Filter

5. Hand hammer

13. Oil cooler by-pass valve

6. Backhoe attachment control valve 7. Loader attachment control valve

14. Solenoid valve for piloting backhoe control valve

8. Backhoe hammer control valve

15. Hydraulic control lever 16. Accumulator

SECTION 35 - HYDRAULIC SYSTEM OIL FLOW OPERATION All loader/backhoe attachment systems are in neutral position Each control valve section within the backhoe or loader control valve assemblies contains a spool, two check valves and a load-sensing pressure compensator. A load-sensing gallery connects the compensators in each control valve section. When all control valves are in neutral position, the spools stop the oil flow in each system and the pressure of the load-sensing line can bleed to the tank through the relevant return-to-tank port. Because there is no load sense pressure being applied to the rear face of the flow balancer valve, the valve will move against the spring and off its seat when pump pressure reaches 15 bar (217 psi). The pump flow is now diverted back to the tank and the balancer valve maintains a stand-by pressure of 15 bar (217 psi) while the systems are in neutral position.

Flow balancer valve operation - All spools in neutral Pump stand-by pressure 15 bar (217 psi)

Return to oil tank

1. Load sense bleed orifice 1 l/min (0.22 gal/min)

4. Load sense line

2. Load-sensing limiter (system pressure relief valve)

5. Pump flow balancer (unload) valve

3. Return to oil tank

7. To backhoe control valves

6. Pump flow IN

SECTION 35 - HYDRAULIC SYSTEM

Load sensing flow sharing - All spools in neutral Pump pressure

Return to oil tank

Trapped oil 1. Load non-return check valve

3. Pressure compensator

2. Load sense line

4. Spool

SECTION 35 - HYDRAULIC SYSTEM

One hydraulic circuit operating When a single hydraulic circuit is operated the spool in the control valve section is moved allowing oil to flow past the lands of the spool and apply pressure to the metering element of the pressure compensating valve. The metering element moves upwards to allow oil to flow to the load check valve and at the same time uncovers the drilling in the spool portion of the pressure compensator valve enabling operating pressure to be sensed in the load sense gallery. As pressure increases to open the check valve, the load-sensing pressure is applied to the spring side of the flow balancer valve.

When pump pressure overcomes the pressure behind the load check valve, the valve opens allowing oil to flow into the cylinder port. Exhaust oil from the cylinder returns to tank through the other port in the control valve section. If pressure in a load-sensing system reaches 195 bar (2828 psi), the relief valve is activated. Pump pressure is now limited to 210 bar (304 psi). This is the pressure required to overcome the pressure of the flow balancing valve spring [15 bar (217 psi)] plus the load sensing pressure controlled at 195 bar (2828 psi).

A higher pressure is now required to operate the flow balancer valve and pump pressure increase accordingly.

Flow balancer valve operation - Hydraulic systems operating Pump pressure Load-sensing pressure Return to oil tank 1. Load sense bleed orifice 1 l/min (0.22 gal/min)

4. Load sense line

2. Load-sensing limiter (system pressure relief valve)

5. Pump flow balancer (unload) valve

3. Return to oil tank

7. To backhoe control valves

6. Pump flow IN

SECTION 35 - HYDRAULIC SYSTEM

TBR00116

Load sensing flow sharing - One spool operating Pump pressure Trapped oil Return to oil tank 1. Load non-return check valve

3. Pressure compensator

2. Load sense line

4. Spool

SECTION 35 - HYDRAULIC SYSTEM

Two or more hydraulic systems operating When two or more hydraulic systems operate, each system operates at a different pressure. If pump flow to a specific system is not controlled, the system requiring a lower operating pressure will work faster than the system requiring a higher pressure, because the flow will have to overcome less resistance. To prevent this situation, the pressure compensating valve regulates the oil flow directed to the system operating at a lower load. When two spools are operated simultaneously pump pressure is applied to the metering element of the pressure compensating valve in both valve sections. Both metering elements therefore move upwards allowing oil to flow to the load check valves. At the same time, the port in the spool section of the pressure compensating valve is uncovered to allow operating pressure to be sensed in the load-sensing gallery.

Pump pressure will rise until it exceeds the pressure of the check valve of the system operating at the heaviest load and the pressure in the load sensing line has a value similar to that of the high pressure. The pressure required to operate the system with a lower load is now too high and, if not limited, it will result in this system operating instead of and faster than the system with a higher load. To compensate for this condition, the load sensing pressure moves the metering element of the pressure compensating valve in the system with a lower load downwards and restricts the flow to the system. This balancing of flow and pressure according to the load ensures that both systems operate simultaneously and at a balanced flow rate.

Load sense relief valve operating Pump pressure at 210 bar (304 psi)

Return to oil tank

Load sense pressure at 195 bar (2828 psi) 1. Load sense bleed orifice 1 l/min (0.22 gal/min)

4. Load sense line

2. Load sense limiter (system relief valve)

5. Pump flow balancer (unload) valve

3. Return to oil tank

6. Pump flow IN 7. To backhoe control valves

SECTION 35 - HYDRAULIC SYSTEM

TBR00117

Load sensing flow sharing - Two spools operating 1st spool operating pressure (higher)

Trapped oil

2nd spool operating pressure (lower)

Return to oil tank

1. Load non-return check valve

3. Pressure compensator

2. Load sense line

4. Spool

SECTION 35 - HYDRAULIC SYSTEM

LOADER CONTROL VALVE The loader control valve is mounted on the right side of the machine adjacent to the pump. This control valve may be of 2 types, similar to each other, according to the hydraulic pump assembled to the machine: - gear pump (with fixed flow rate); - piston pump (with variable flow rate). The control valve consists of 2 or 3 sections, an end cover and an inlet section. The 3 control valve sections are: - loader attachment lifting; - loader bucket; - 4x1 loader bucket. The loader attachment control valve has three sections when the 4x1 bucket is installed on the machine. LOADER ATTACHMENT CONTROL VALVE WITH GEAR PUMP (WITH FIXED FLOW RATE)

TBROO118

A. 4x1 loader bucket section B. Bucket section C. Loader attachment lifting section 1. End cover 2. Bucket relief valve (rod side) - 240 bar (3481 psi) 3. Bucket relief valve (piston side) - 165 bar (2393 psi) 4. Hydraulic unloader relief valve - 165 bar (2393 psi) 5. 4x1 bucket relief valve - 240 bar (3481 psi) 6. Hydraulic unloader solenoid 7. Inlet section

SECTION 35 - HYDRAULIC SYSTEM

LOADER ATTACHMENT CONTROL VALVE WITH PISTON PUMP (WITH VARIABLE FLOW RATE)

A. 4x1 loader bucket section B. Bucket section C. Loader attachment lifting section 1. End cover 2. Bucket relief valve (rod side) - 240 bar (3481 psi) 3. Bucket relief valve (piston side) - 165 bar (2393 psi) 4. 4x1 bucket relief valve - 240 bar (3481 psi) 5. Inlet section

SECTION 35 - HYDRAULIC SYSTEM CONTROL VALVE REMOVAL FROM MACHINE Move the machine to a level and firm ground, away from any soft ground, excavations and poorly shored cavity. Lower the loader attachment to the ground. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Lower the stabilizers to the ground. Stop the engine and remove the starter key. Release the hydraulic pressure by operating the control levers in all directions. On hydraulically controlled machines, turn the key to ON and release the pressure by moving the hydraulic control levers in all directions. Place some wedges under the wheels so as to prevent the machine from moving. Disconnect the electric system by disconnecting the battery master switch. Drain oil from the hydraulic system. Disconnect the battery. Clean the area around the control valve. Identify and disconnect the articulations, cables and hoses and plug the hose ends. A drip tray will be required to catch oil draining from inside the hoses. Loosen and remove the fastening screws. Remove the control valve assembly from the machine. For installation, follow the removal procedure in reverse order.

SECTION 35 - HYDRAULIC SYSTEM

DISASSEMBLY Loosen and remove the 3 nuts (1). [Tightening torque = 27 ± 2 Nm (19.91 ± 1.47 lbf·ft)] Extract the 3 tie rods (2).

Remove the end cover (7). Disassemble the sections of the control valve (4), (5) and (6) and the inlet section (3). Check and, if necessary, replace the O-rings (8) located between the different sections of the control valve.

SECTION 35 - HYDRAULIC SYSTEM BACKHOE ATTACHMENT CONTROL VALVE The backhoe attachment control valve is located in the rear part of the machine. The backhoe attachment control valve may be of 2 types, similar to each other, according to the hydraulic pump installed on the machine: - gear pump (with fixed flow rate); - piston pump (with variable flow rate); Furthermore, the backhoe attachment control valves are divided into: - control valves for backhoe attachment mechanical controls; - control valves for backhoe attachment pilot controls. The backhoe attachment control valve may consist of 6 or 7 or 8 sections, an end cover and an inlet section. The possible 8 sections are: - right-hand stabilizer; - left-hand stabilizer; - boom; - digging; - swing; - bucket; - telescopic dipper (optional); - auxiliary attachment (only optional on control valves for backhoe attachment pilot controls).

SECTION 35 - HYDRAULIC SYSTEM

BACKHOE ATTACHMENT CONTROL VALVE - BACKHOE ATTACHMENT MECHANICAL CONTROLS The backhoe attachment control valves for machines with backhoe attachment mechanical controls may have 6 or 7 sections (and not 8 sections). With gear pump

A. Right stabilizer section

1. End cover

B. Left stabilizer section

2. Inlet section

C. Dipper section

3. Dipper relief valve - 240 bar (3481 psi)

D. Bucket section

4. Bucket relief valve - 220 bar (3191 psi)

E. Swing section

5. Swing relief valve - 205 bar (2973 psi)

F. Boom section

6. Boom relief valve (rod side) - 240 bar (3481 psi)

G. Telescopic dipper section

7. Boom relief valve (piston side) - 310 bar (4496 psi) 8. Telescopic dipper relief valve - 124 bar (1798 psi) 9. Pump flow rate balancer valve - 10 bar (145 psi) 10. Load-sensing relief valve - 205 bar (2973 psi)

SECTION 35 - HYDRAULIC SYSTEM

With piston pump

A. Right stabilizer section

1. End cover

B. Left stabilizer section

2. Inlet section

C. Dipper section

3. Dipper relief valve - 240 bar (3481 psi)

D. Bucket section

4. Bucket relief valve - 220 bar (3191 psi)

E. Swing section

5. Swing relief valve - 205 bar (2973 psi)

F. Boom section

6. Boom relief valve (rod side) - 240 bar (3481 psi)

G. Telescopic dipper section

7. Boom relief valve (piston side) - 310 bar (4496 psi) 8. Telescopic dipper relief valve - 124 bar (1798 psi) 9. Pump flow rate balancer valve - 10 bar (145 psi)

SECTION 35 - HYDRAULIC SYSTEM

CONTROL VALVE REMOVAL FROM MACHINE Move the machine to a level and firm ground, away from any soft ground, excavations and poorly shored cavity. Lower the loader attachment and the backhoe attachment to the ground. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Lower the stabilizers to the ground. Stop the engine and remove the starter key. Release the hydraulic pressure by operating the control levers in all directions. On hydraulically controlled machines, turn the key to ON and release the pressure by moving the hydraulic control levers in all directions. Place some wedges under the wheels so as to prevent the machine from moving. Disconnect the electric system by disconnecting the battery master switch. Drain oil from the hydraulic system. Disconnect the battery. Clean the area around the control valve. Identify the position of all hoses to be disconnected and tag them. Disconnect the hoses and plug their ends. Disconnect the manual control levers. Loosen and remove the fastening screws. Remove the control valve assembly from the machine. For installation, follow the removal procedure in reverse order.

SECTION 35 - HYDRAULIC SYSTEM DISASSEMBLY AND ASSEMBLY Loosen and remove the 3 nuts (1). [Tightening torque = 27.2 Nm (20.06 lbf路ft)] Extract the 3 tie rods (2).

Remove the end cover (3). Disassemble the sections of the control valve (4), (5), (6), (7), (8), (9) and (10) and the inlet section (11). Check and, if necessary, replace the O-rings (12) located between the different sections of the control valve.

Inlet section disassembly Remove the flow balancer valve (13). [Tightening torque = 100 Nm (73.76 lbf路ft)] Remove the load-sensing relief valve (14). [Tightening torque = 45 Nm (33.19 lbf路ft)] Remove the load sensing bleed valve (15). Unscrew and remove the plugs (16) and (17). Unscrew and remove the plug (18). [Tightening torque = 20 Nm (15 lbf路ft)]

SECTION 35 - HYDRAULIC SYSTEM

Disassembly of the end cover Remove the check valve (19). Remove the valve (20).

Disassemble the control valve sections

NOTE: The figure shows the stabilizer section, the valves may be different in the other sections.

- extract the spring (27) with the relevant spring guides (26);

Remove the check valves (21). [Tightening torque = 30 Nm (22 lbf·ft)]

- keep the seal (29).

Remove the flow balancer valve (22). [Tightening torque = 60 Nm (44 lbf·ft)] Remove the spool: - loosen and remove the screws (23); [Tightening torque = 10 Nm (7.4 lbf·ft)] - remove the cover (24) and the seal (28); - loosen and remove the pin (25); [Tightening torque = 10 Nm (7.4 lbf·ft)]

- loosen and remove the yoke (30) with the protection (31); [Tightening torque = 10 Nm (7.4 lbf·ft)] - loosen and remove the screws (32); [Tightening torque = 10 Nm (7.4 lbf·ft)] - remove the flange (33) with the relevant seal (34); - keep the seal (35); - extract the spool (36).

SECTION 35 - HYDRAULIC SYSTEM Assembly of spool seals Position the metal part of the seal (29) on the outside of the spool (36). The seal must be fitted on the end of the spool so that its grooves (S) are not damaged and its tightness is not jeopardized. Let the seal slide perpendicularly onto the spool.

SECTION 35 - HYDRAULIC SYSTEM

BACKHOE ATTACHMENT CONTROL VALVE - BACKHOE ATTACHMENT PILOT CONTROLS The backhoe attachment control valves for machines with backhoe attachment pilot controls may have 6 or 7 or 8 sections. With gear pump

A. Right stabilizer section

3. Dipper relief valve - 220 bar (3191 psi)

B. Left stabilizer section

4. Backhoe bucket relief valve - 240 bar (3481 psi)

C. Dipper section

5. Swing relief valve - 205 bar (2973 psi)

D. Bucket section

6. Boom relief valve (rod side) - 124 bar (1798 psi)

E. Swing section F. Boom section

7. Boom relief valve (piston side) - 310 bar (4496 psi)

G. Telescopic dipper section

8. Telescopic dipper relief valve - 124 bar (1798 psi)

H. Auxiliary section

9. Auxiliary section relief valves - 220 bar (3191 psi)

1. End cover

10. Pump flow rate balancer valve - 10 bar (145 psi)

2. Inlet section

11. Load-sensing relief valve - 205 bar (2973 psi)

SECTION 35 - HYDRAULIC SYSTEM

With piston pump

A. Right stabilizer section

1. End cover

B. Left stabilizer section

2. Inlet section

C. Dipper section

3. Dipper relief valve - 220 bar (3191 psi)

D. Bucket section

4. Backhoe bucket relief valve - 240 bar (3481 psi)

E. Swing section

5. Swing relief valve - 205 bar (2973 psi)

F. Boom section

6. Boom relief valve (rod side) - 124 bar (1798 psi)

G. Telescopic dipper section

7. Boom relief valve (piston side) - 310 bar (4496 psi)

H. Auxiliary section

8. Telescopic dipper relief valve - 124 bar (1798 psi) 9. Auxiliary section relief valves - 220 bar (3191 psi) 10. Pump flow rate balancer valve - 10 bar (145 psi)

SECTION 35 - HYDRAULIC SYSTEM

CONTROL VALVE REMOVAL FROM MACHINE Move the machine to a level and firm ground, away from any soft ground, excavations and poorly shored cavity. Lower the loader attachment and the backhoe attachment to the ground. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Lower the stabilizers to the ground. Stop the engine and remove the starter key. Release the hydraulic pressure by operating the control levers in all directions. On hydraulically controlled machines, turn the key to ON and release the pressure by moving the hydraulic control levers in all directions. Place some wedges under the wheels so as to prevent the machine from moving. Disconnect the electric system by disconnecting the battery master switch. Drain oil from the hydraulic system. Disconnect the battery. Clean the area around the control valve. Identify the position of all hoses to be disconnected and tag them. Disconnect the hoses and plug their ends. Disconnect the manual control levers. Loosen and remove the fastening screws. Remove the valve assembly from the machine. For installation, follow the removal procedure in reverse order.

SECTION 35 - HYDRAULIC SYSTEM DISASSEMBLY AND ASSEMBLY Loosen and remove the 3 nuts (1). [Tightening torque = 27.2 Nm (20.06 lbf路ft)] Extract the 3 tie rods (2).

Remove the end cover (3). Disassemble the sections of the control valve (4), (5), (6), (7), (8), (9), (10) and (11) and the inlet section (12). Check and, if necessary, replace the O-rings (13) located between the different sections of the control valve.

Inlet section disassembly Remove the flow balancer valve (19). [Tightening torque = 100 Nm (73.76 lbf路ft)] Remove the load-sensing relief valve (14). [Tightening torque = 45 Nm (33.19 lbf路ft)] Remove the load sensing bleed valve (15). Unscrew and remove the plugs (16) and (17). Unscrew and remove the plug (18). [Tightening torque = 20 Nm (15 lbf路ft)]

SECTION 35 - HYDRAULIC SYSTEM

Disassembly of the cover Remove the check valve (21). Remove the valve (20).

Disassemble the control valve sections

NOTE: the figure shows the swing section, the valves may be different in the other sections. Remove the check valves (22). [Tightening torque = 30 Nm (22 lbf·ft)] Remove the flow balancer valve (24). [Tightening torque = 60 Nm (44 lbf·ft)] Remove the pressure relief valve (23). [Tightening torque = 70 Nm (52 lbf·ft)] Remove the spool: - loosen and remove the screws (26); [Tightening torque = 10 Nm (7.4 lbf·ft)] - remove the cover (27);

- if necessary, replace the O-ring (28); - remove the spring (29) and the relevant spring guide (30); - loosen and remove the screws (31); [Tightening torque = 10 Nm (7.4 lbf·ft)] - remove the cover (32); - if necessary, replace the O-ring (33); - remove the spring (34) and the relevant spring guide (35); - extract the spool (25).

SECTION 35 - HYDRAULIC SYSTEM RELIEF VALVES There are different relief valves installed on the loader and backhoe attachment control valves. The relief valves may be operated with anti-cavitation feature (1) or direct acting (2) and protect the single systems from excessive pressure.

OPERATION Relief valve inoperative When the system is not subject to overload conditions pressure in the system is insufficient to overcome pilot valve spring pressure and move the valve of its seat. System pressure sensed on the larger rear face of the poppet valve maintains the poppet and sleeve firmly on their seats. 1. Sleeve 2. Poppet valve 3. Pilot valve 4. Pilot valve body 5. Piston 6. Control valve (cylinder) exhaust gallery 7. Cylinder supply gallery

Exhaust oil High pressure oil

SECTION 35 - HYDRAULIC SYSTEM

Pilot valve operation When the cylinder is subjected to shock forces, the pressure increase in the cylinder supply gallery exceeds the pilot valve spring pressure: this valve lifts off its seat. System pressure on the rear face of the poppet valve escapes to tank between the sleeve poppet and valve body causing a pressure differential between the front and rear face of the poppet valve. The higher pressure in the cylinder supply gallery unseats the poppet valve and moves the piston to seat against the pilot valve. 1. Sleeve 2. Poppet valve 3. Pilot valve

Exhaust oil High pressure oil Reduced pressure oil

4. Pilot valve body 5. Piston 6. Control valve (cylinder) exhaust gallery 7. Cylinder supply gallery Pilot and poppet valve operation The excessive system pressure in the cylinder supply gallery now flows past the poppet valve to the cylinder exhaust gallery and back to tank. NOTE: during this operation the sleeve poppet is held in the fully seated position by pressure oil. 1. Sleeve 2. Poppet valve 3. Pilot valve 4. Pilot valve body 5. Piston 6. Control valve (cylinder) exhaust gallery 7. Cylinder supply gallery

High pressure oil Exhaust oil Reduced pressure oil

SECTION 35 - HYDRAULIC SYSTEM Anti-cavitation operation Relief valves with an anti-cavitation feature are fitted in systems where a rapid extension of the cylinder could create a void condition and permit the transfer of oil from the high pressure side of a cylinder to the low pressure (void) side. When for example the boom is rapidly lowered and the cylinder rod end circuit relief valve operates, oil has been removed from the rod end of the cylinder and a void created in the piston end. This oil is automatically replenished by the anti-cavitation device in the opposite circuit relief valve as follows: The void creates a pressure lower in the cylinder supply gallery and back pressure in the control valve exhaust gallery acts on the outer face of the sleeve poppet moving it to the right. Exhaust oil is then directed into the cylinder supply gallery to stop cavitation.

High pressure oil

Relief valve exhaust oil

Anti-cavitation oil supply to cylinder 1. Anti-cavitation system pressure relief valve

4. Control valve exhaust gallery

2. Cylinder rod

5. Spool

3. System pressure relief valve

SECTION 35 - HYDRAULIC SYSTEM

Pilot-operated pressure relief valve with anti-cavitation feature subjected to overload and fully relieving high-pressure oil 1. Sleeve 2. Poppet valve 3. Pilot valve 4. Pilot valve body 5. Piston 6. Control valve (cylinder) exhaust gallery 7. Cylinder supply gallery Anti-cavitation cylinder resupply oil Exhaust oil Direct-acting pressure relief valve operation High-pressure oil in the system is sensed in the cylinder supply gallery and acts on the surface of the pressure relief valve poppet. When pressure in the system exceeds the pressure relief valve setting, the oil pressure lifts the poppet, allowing excess pressure in the overloaded cylinder to escape to the drain gallery.

A. Direct acting circuit relief valve Valve not subjected to overload conditions B. Direct acting circuit relief valve Valve subjected to overload conditions 1. Relief valve seat 2. Relief valve poppet 3. Valve pressure adjusting screw 4. Spring 5. Control valve exhaust gallery 6. Cylinder supply oil Exhaust oil High-pressure system oil

SECTION 35 - HYDRAULIC SYSTEM OVERHAUL Before removing the relief valves from the machine, lower the loader and backhoe attachment to the ground, stop the engine and relieve pressure in all systems by moving the backhoe attachment, loader attachment and telescopic dipper controls through all operating positions. If the pressure relief valves are suspected of contamination, they may be disassembled and inspected for wear. During assembly, restore the correct pressure. During disassembly examine the poppet and seat in the plunger assembly for a complete seating surface. Pilot operated relief valve

1. Body

9. O-ring

2. Shutter

10. Nut

3. Spring

11. O-ring

4. Spring

12. Adjusting screw

5. O-ring

13. Spring

6. O-ring

14. Pilot valve

7. Valve

15. Poppet

8. Cover

16. Piston

SECTION 35 - HYDRAULIC SYSTEM

Direct acting circuit relief valve

1. Body

6. Cover

2. Poppet

7. O-ring

3. Spring

8. Nut

4. Spring

9. O-ring

5. Shim

10. Adjusting screw

Loader bucket relief valve

1. Relief valve assembly 2. Spring

7. Piston

3. Nut

8. Poppet

4. Body

9. Valve

5. Adjusting screw

10. Inner body

6. Spring

11. Spring seat

SECTION 35 - HYDRAULIC SYSTEM ADJUSTMENTS System pressure relief valve adjustment After overhaul, the pressure relief valves of the system must be tested and adjusted using a suitable hand pump (1), a 275 bar (3988 psi) pressure gauge and a V. L. Churchill test kit (2).

The hand pump must be attached to inlet port Î&#x2122; and the drain hose to the outlet port T of test block using suitable 1/2â&#x20AC;? BSP (British Standard Pipe) adaptors. The pressure gauge may be connected to either the hand pump or to the 3/8 UNF threaded port G in the test block. Remove the plug and insert the valve to be tested into the appropriate port in the test block: A. Stabilizer and backhoe relief valves B. Loader bucket relief valves C. Unload valve NOTE: a special removable insert, which is part of the test block, is installed in the bottom part of the port used for testing the loader attachment valve. If difficulty is experienced in screwing the loader valve into the test block, check that the insert is fully seated and correctly installed. When correctly installed the O-ring (3) on the face of the insert should be visible.

SECTION 35 - HYDRAULIC SYSTEM

Operate hand pump and record maximum pressure reading on gauge. Compare pressure values with previous specifications. IMPORTANT: before removing the valve from the test block, release the pressure in the system using the vent valve on the hand pump.

To adjust all relief valves with the exception of the loader bucket relief valve remove the valve cap, loosen locknut and turn adjuster to obtain correct pressure. IMPORTANT: relief valves must not be set outside off the specified range.

Loader bucket relief valve adjustment If the loader bucket circuit relief valve requires adjustment, use the special adjusting tool supplied with the test kit. Hold relief valve in vice and using wrench supplied with tool, unscrew the internal valve assembly from the valve body. Screw the internal valve assembly (2) into the body of the adjusting tool (1).

Install valve into test block and operate hand pump until valve is pressurized to 170 bar (2466 psi). Using the special wrench supplied, loosen the locknut on the end of the valve and adjust pressure setting. Operate hand pump and recheck pressure. When pressure setting is correct tighten locknut and release pressure in circuit using the vent valve on the hand pump. Remove the valve and, using a 3/8â&#x20AC;? 16 UNC screw, remove the insert.

SECTION 35 - HYDRAULIC SYSTEM Reassemble the valve and install it on the test block. Operate hand pump and recheck pressure. If pressure is now lower than that recorded with the insert installed it is an indication that the anti-cavitation feature of the valve is leaking and the valve requires overhaul or replacement. The insert isolates the anti-cavitation feature of the valve. When reassembling the insert into the test block ensure it is installed correctly. When correctly installed the O-ring (3) on the face of the insert should be visible.

SECTION 35 - HYDRAULIC SYSTEM

BACKHOE ATTACHMENT CONTROL VALVE PILOT SOLENOID VALVE

Solenoid valve is located under the cab floor and is installed directly in the lower part of the chassis that supports the operating levers. The solenoid valve is installed on loader backhoes with backhoe attachment pilot controls and has the task to transform the electric controls, received from the control levers, into hydraulic controls, and to send them to the backhoe attachment control valve. The module (A) is installed only on the machines versions with telescopic dipper. If the machine is not equipped with telescopic dipper, the solenoid valve installed is of type (B); while if the telescopic dipper is installed the solenoid valve can be of type (A) + (B).

SECTION 35 - HYDRAULIC SYSTEM If the loader backhoe is equipped with a telescopic dipper and if the rear control valve contains an auxiliary section, the solenoid valve consists of valve (B) and module (C).

DISASSEMBLY Unscrew and remove the accumulator (1) from the solenoid valve assy (2).

Loosen and remove the three screws (3) and disassemble valve (4). Check and replace the O-rings (5), if necessary.

SECTION 35 - HYDRAULIC SYSTEM

If necessary, it is possible to disassemble the various solenoid valves: - disassemble the solenoid valves (7) by loosening the screws (6); - loosen and remove the valve (8); - loosen and remove the solenoid valves (9) and (10); - check and replace the O-rings, if necessary.

SECTION 35 - HYDRAULIC SYSTEM

ACCUMULATOR “AUTO GLIDE RIDE” PARKER TECHNICAL SPECIFICATIONS Capacity (gas)...........................................................................................................................2 litres (0.44 gal) Capacity (oil) ........................................................................................................................1.84 litres (0.40 gal) Precharge .................................................................................................................... 30 ± 1 bar (435 ± 14 psi)

MAINTENANCE

SAFETY

Regularly check the gas pre-charge pressure during the first few weeks of operation.

Charging must be carried out by qualified personnel.

Then check at suitable intervals based on this initial experience.

Before taking any readings or pressurizing with nitrogen, the accumulator must be isolated from the hydraulic system and the fluid side discharged in order to depressurize it.

Carry out a visual examination of the accumulator periodically in order to detect any early signs of deterioration such as corrosion, deformation etc. Comply with the regulatory provisions concerning the monitoring of operational equipment. Before removal, make sure that there is no residual pressure in the accumulator. Before carrying out any maintenance operation, discharge the gas of the accumulator using a Parker UCA charging and measuring device.

Use only nitrogen (N2) to pressurize the accumulator. Danger of Explosion - Never Charge with Oxygen The types of nitrogen permitted are: - type S (99.8% pure); - type R (99.99% pure); - type U (99.993% pure). If the pressure of the gas contained in the nitrogen bottle is greater than the maximum permissible operating pressure of the accumulator, a pressure regulator must be fitted to the nitrogen bottle. The precharge should be checked during the first week following commissioning of the system. Thereafter, it should be checked every three months, or at intervals determined by the Manufacturer. Effect of temperature on precharge pressure In order to compensate for the difference in pressure at ambient and operating temperature, the precharge pressure po should be adjusted according to the operating temperature of the system. Stabilization The process of charging or discharging an accumulator with nitrogen causes a temperature change which is transmitted to the surrounding air as the temperature of the accumulator stabilizes. To allow for the effects of temperature transfer, the accumulator should be allowed to stand for a minimum of 15 minutes before a final reading of the precharge pressure is taken.

SECTION 35 - HYDRAULIC SYSTEM

CHECKING AND ADJUSTING THE PRECHARGE PRESSURE To check the precharge pressure of the accumulator, it is necessary to have the universal charging and measuring kit UCA 380002714. The kit must be screwed onto the accumulator’s gas valve, allowing the precharge pressure to be checked and reduced. If the precharge pressure is to be increased, the UCA can be connected to the nitrogen source with the hose supplied. The kit includes two pressure gauges for readings of 0 ÷ 25 bar (0 ÷ 363 psi) and 0 ÷ 250 bar (0 ÷ 3626 psi). If a different pressure interval becomes necessary, use a pressure gauge available in commerce. Kit UCA 380002714 A. Inflation valve B. Bleed valve 1. UCA 2. Adapter (long) 3. Adapter (short) 4. Adapter (insert) 5. Pressure gauge 6. Protective cap - gauge port 7. Collar - gas port 8. Protective cap - filling port 9. Hose (1/4) with O-ring 10. Valve Remove the protective cover and cap (11) from the accumulator, to gain access to the gas valve (12). Select the appropriate pressure gauge (5) for the pressure to be checked, remove the protective cap (6) and connect the port to the UCA (1). Make sure that the bleed valve (B) is fully closed and that the inflation valve (A) is fully raised by turning the handwheel in a counterclockwise direction. Assemble the short adapter and adapter insert (3) and (4), screw onto the gas valve (12) and hand tighten. Screw the UCA onto the adapter. Position the assembly to permit easy reading of the gauge, then hand tighten the collar (7). Open the inflation valve (A) by screwing the handwheel clockwise until the inflation pressure registers on the gauge.

SECTION 35 - HYDRAULIC SYSTEM

READINGS AND RESULTS 3 conditions may become true. Nitrogen po pressure is correct

Screw the handwheel (A) counterclockwise to close the accumulator gas valve.

Slacken the bleed valve (B) to release pressure in the UCA.

Remove the hose carefully, to release internal pressure.

Unscrew the UCA from the adapter.

Refit the cap (8) on the valve (10).

Unscrew the adapters from the accumulator gas valve.

Unscrew the UCA from the adapter(s).

Nitrogen po pressure is too high Slacken the bleed valve (B) to vent nitrogen from the accumulator until, after stabilization, the desired pressure po is registered. Nitrogen vents into the air. Tighten the bleed valve (B) once the desired filling pressure is reached. Screw the handwheel (A) counterclockwise to close the accumulator gas valve. Slacken the bleed valve (B) to release pressure in the UCA. Unscrew the UCA from the adapter. Unscrew the adapters from the accumulator gas valve. Nitrogen po pressure is too low Close the inflation valve (A) by screwing the handwheel counterclockwise. Remove the cap (8). Connect the end of the hose (9) to the valve (10). Connect the other end of the hose to the nitrogen source. Progressively open the valve on the nitrogen source. Turn the handwheel (A) clockwise to let pressurized gas in. Use special care if the accumulator has small capacity. When pressure po is reached, close the valve on the nitrogen source. To allow for the effects of temperature transfer, the accumulator should be allowed to stand for a minimum of 15 minutes to allow the temperature to stabilize before a final reading of the precharge pressure is taken.

Unscrew the adapters from the accumulator gas valve. After removing the UCA and adapter(s), make sure that the accumulator gas valve (12) is sealing effectively. Refit the gas valve dust cover (12) and replace the protective cover (11).

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC SWING SYSTEM OPERATION The hydraulic swing system has two versions: - Sideshift: it can shift laterally with the backhoe attachment because it is installed directly on the sideshift carriage performing the shifting; - Center pivot: it is fixed because it is installed directly on the chassis. The backhoe attachment may slew by 180Â° around the main frame. This movement is obtained by means of two hydraulic cylinders (1) installed between the main chassis and the backhoe attachment support. The cylinders act directly on the backhoe attachment support, with no need for connections or bell cranks. Each cylinder is free to rotate, around two pivots (3), while the stem comes out or retracts inside of the cylinder body (2). As each cylinder extends or retracts, the swing post and the cylinders turn, pivoting on the headstocks within the carriage. Each cylinder is double-acting and, as hydraulic oil is fed to a cylinder to turn the post, one cylinder pushes and the other cylinder pulls.

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC OIL FLOW Hydraulic feed to the swing cylinders is controlled by the swing section of the backhoe attachment control valve, which contains pilot-operated pressure relief valves with anti-cavitation feature to protect the system and the cylinders, should an overload condition occur. The diagram illustrates the operation of the swing circuit when retracting the right-hand cylinder (4) and extending the left-hand cylinder (5) in order to swing the backhoe attachment to the right. When swinging the backhoe to the left the oil flows are reversed and exactly the same principle of operation applies. The various operating stages for right swing are described below as an example. When the swing control is operated the control valve directs oil flow to the rod end of the right hand cylinder. The flow of oil at pump pressure lifts the one way restrictor (2) of its seat allowing the flow to continue unrestricted to the inlet port of the piston end of the left hand cylinder. System pressure increases causing the right hand cylinder to retract and the left hand cylinder to extend. As the cylinders move, displaced oil on the piston side of the left hand cylinder flows towards the one way restrictor (7) in the inlet port on the rod end of the right hand cylinder. The oil flow moves the restrictor to the restrict position which limits the flow of oil and creates a back pressure (1st stage restricted return oil) in the right hand cylinder. The restricted flow of oil passes through restrictor (7) into the rod end of the left hand cylinder before returning to the control valve and back to tank. The spool in the swing control valve (1) is designed so that, during operation, oil can flow freely through the port directing oil flow to the swing cylinders, but is restricted when going back to the tank. This restriction is achieved using metering lands machined into the lands of the spool and creates a secondary back pressure (2nd stage restricted return oil) in the rod end of the cylinder.

By allowing oil to flow unrestricted to the power side of the cylinder and be restricted on the exhaust side a smooth controlled swing of the backhoe at optimum speed is achieved. When the swing system reaches the last 20 - 25Â° of travel the sliding restrictor in the end of the piston rod touches the outlet port in the cylinder barrel. This further restricts the flow of oil drained from the cylinder. As the piston moves towards the end of its stroke, the sliding restrictor is gently pushed down towards the centre of the cylinder rod, allowing a progressive and controlled stop of the swing cycle. If the swing control valve is suddenly returned to neutral mid-way through a full power swing the supply and exhaust ports in the main control valve are totally blocked. The momentum of the swinging backhoe assembly if not controlled will make the machine extremely unstable. To prevent this from occurring, the system pressure relief valves operate and drain the oil until an excess pressure is detected. When the relief valve operates the cylinder rod will move and a void will be created in the low pressure side of the cylinder. The anti-cavitation feature in the relief valves prevents the void from creating by transferring the drain oil from the side of the system where an excess pressure occurred to the low pressure side.

SECTION 35 - HYDRAULIC SYSTEM

Pump pressure oil 1st stage restricted return oil 2nd stage restricted return oil Return to oil tank 1. Control valve swing section

5. Left hand cylinder

2. Limiter

6. Compressor rod

3. Cushioning rod

7. Limiter

4. Right hand cylinder

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC CYLINDERS

5 7 4

10 11

1 2

3 TBR00129

1. Loader attachment boom cylinder

7. Telescopic cylinder

2. Loader bucket cylinder

8. Swing backhoe cylinder

3. 4x1 loader bucket cylinder

9. Stabilizer cylinder (center pivot models)

4. Backhoe boom cylinder

10. Stabilizer cylinder (sideshift models)

5. Backhoe dipper cylinder

11. Backhoe sideshift locking cylinder (sideshift models)

6. Backhoe bucket cylinder

SECTION 35 - HYDRAULIC SYSTEM

LOADER ATTACHMENT BOOM CYLINDER 2WS

1. Stroke 2. Completely retracted

2WS-TC

1. Stroke 2. Completely retracted

SECTION 35 - HYDRAULIC SYSTEM 4WS

1. Stroke 2. Completely retracted

LOADER ATTACHMENT BOOM CYLINDER REMOVAL (B100C-B100CLR-B110C) Move the machine to a level and firm ground. Sufficiently raise the loader attachment to allow the boom cylinder pivot pin to be removed and securely support the front and rear part of the bucket with stands to prevent the loader attachment arms from lowering when the cylinder is disconnected.

If the bucket cannot be safety supported it must be removed and the loader arms supported using a suitable stand or hoist.

S WARNING S Always ensure that the loader is fully supported. Do not work under or near an unsupported loader attachment, to prevent the danger of personal injury. Relieve the residual pressure in the system by moving the loader control lever through all operating positions.

SECTION 35 - HYDRAULIC SYSTEM

Support the cylinder using sling and suitable hoist. Disconnect the hoses. Cap or plug all exposed openings.

Remove the stop ring (1) and the shim (2).

Remove the ring (3) and the pin (4). Use a hammer to extract the rod pin (5).

Remove the loader attachment boom cylinder.

SECTION 35 - HYDRAULIC SYSTEM LOADER ATTACHMENT BOOM CYLINDER REMOVAL (B100CTC - B110CTC - B115C) Move the machine to a level and firm ground. Sufficiently raise the loader attachment to allow the boom cylinder pivot pin to be removed and securely support the front and rear part of the bucket with stands to prevent the loader attachment arms from lowering when the cylinder is disconnected. If the bucket cannot be safely supported, remove it and support the loader attachment arms using a suitable stand or hoist.

Remove the stop ring (1) and the shim (2).

SECTION 35 - HYDRAULIC SYSTEM

Remove the ring (3) and the pin (4). Use a hammer to extract the rod pin (5).

Remove the loader attachment boom cylinder.

SECTION 35 - HYDRAULIC SYSTEM LOADER ATTACHMENT BOOM CYLINDER DISASSEMBLY

1. Cylinder rod

9. Back-up ring

2. Bushing

10. O-ring

3. Wiper ring

11. Piston

4. Seal ring

12. Piston gasket

5. Seal ring

13. Piston guide rings

6. Guide bush

14. Screw

7. Cylinder gland

15. Cylinder tube

8. Safety screw

16. Bushing

The disassembly procedure described below may start on the premise that the hydraulic lines have already been disconnected.

S WARNING S Cylinder weight: 36 kg (79.36 lb). Lift and securely place the cylinder on a workbench. Be sure that the cylinder is placed horizontally. Drain hydraulic oil from the cylinder.

SECTION 35 - HYDRAULIC SYSTEM

Support the cylinder rod (1). Unscrew and remove the safety screw (8). Use the wrench 380000725 to loose the cylinder gland (7). If necessary gently heat the gland carrier to soften the thread sealant applied during manufacture.

Remove the cylinder gland (7) from the cylinder barrel (15) using a plastic hammer. Remove the cylinder rod (1) and the cylinder gland (7). IMPORTANT: be sure to pull the cylinder rod (1) straight so as not to damage the sliding surfaces.

Loosen and remove the screw (14). Extract the piston (11) and the cylinder gland (7) from the cylinder rod (1).

Only if necessary: - remove the wiper ring (3), the seal ring (4), the ring (5), the guide bush (6) and the back-up ring (9) with the O-ring (10) from the cylinder gland (7); - remove the piston seal (12) and the piston guide rings (13) from the piston (11).

SECTION 35 - HYDRAULIC SYSTEM LOADER BUCKET CYLINDER 2WS

1. Stroke 2. Completely retracted

2WS-TC

1. Stroke 2. Completely retracted

SECTION 35 - HYDRAULIC SYSTEM

4WS

1. Stroke 2. Completely retracted

LOADER BUCKET CYLINDER REMOVAL (B100C-B100CLR-B110C) Move the machine to a level and firm ground. Place the bucket firmly on the ground. Relieve the residual pressure in the system by moving the loader control lever through all operating positions. Position a suitable support below the bucket cylinder tie rod (1). Support the cylinder using a sling or a suitable hoist.

Disconnect the hoses. Cap or plug all exposed openings.

SECTION 35 - HYDRAULIC SYSTEM Remove the ring (2) and the pin (3). Using a hammer, extract the rod pin (4) and release the rod (5).

Remove the stop ring (7) and the shim (8). Remove the snap ring (9) and the spacer (10). Remove the lever (6), the rod (5) and extract the cylinder rod (1).

Remove the ring (11) and the pin (12). Hammer to slide out the pin (13).

Remove the loader bucket cylinder.

SECTION 35 - HYDRAULIC SYSTEM

LOADER BUCKET CYLINDER REMOVAL (B100CTC - B110CTC - B115C) Move the machine to a level and firm ground. Place the bucket firmly on the ground. Relieve the residual pressure in the system by moving the loader control lever through all operating positions. Support the cylinder using a sling and a suitable support. Disconnect the hoses. Cap or plug all exposed openings.

Support the bucket linkage and rods. Remove the snap ring (1) and the spacer (2). Hammer to slide out the pin (3).

Remove the stop ring (4) and the shim (5). Hammer to slide out the pin (6).

Remove the loader bucket cylinder.

SECTION 35 - HYDRAULIC SYSTEM LOADER BUCKET CYLINDER DISASSEMBLY

1. Bushing

9. O-ring

2. Cylinder rod

10. Piston

3. Wiper ring

11. Piston gasket

4. Seal ring

12. Piston guide rings

5. Seal ring

13. Screw

6. Cylinder gland

14. Cylinder tube

7. Snap ring

15. Bushing

8. Back-up ring The disassembly procedure described below is based on the premise that the hydraulic hoses have already been disconnected.

S WARNING S Cylinder weight (2WS): 24.6 kg (54.23 lb) Cylinder weight (2WS-TC and 4WS): 32.5 kg (71.65 lb) Lift and securely place the cylinder on a workbench. Be sure that the cylinder is placed horizontally. Drain hydraulic oil from the cylinder.

100

SECTION 35 - HYDRAULIC SYSTEM

Support the cylinder rod (2) and use the wrench 380000722 to loosen the cylinder gland (6). If necessary gently heat the gland carrier to soften the thread sealant applied during manufacture.

Remove the stop ring (7) Extract the cylinder gland (6) from the cylinder barrel (14) by tapping it with a plastic hammer. Remove the cylinder rod (2) and the cylinder gland (6). IMPORTANT: be sure to pull the cylinder rod (2) straight so as not to damage the sliding surfaces.

Loosen and remove the screw (13). Extract the piston (10) and the cylinder gland (6) from the cylinder rod (2).

Only if necessary: - remove the wiper ring (3), the seal rings (4), the rings (5), the back-up ring (8) with the O-ring (9) from the cylinder gland (6); - remove the piston seal (11) and the piston guide rings (12) from the piston (10).

SECTION 35 - HYDRAULIC SYSTEM 4X1 LOADER BUCKET CYLINDER

1. Cylinder rod pin 2. Dowel 3. Bucket 4. Cylinder 5. Dowel 6. Nut 7. Cylinder bottom pin

LOADER 4x1 BUCKET CYLINDER REMOVAL Move the machine to a level and firm ground. Place the bucket firmly on the ground. Relieve the residual pressure in the system by moving the loader control lever through all operating positions.

101

102

SECTION 35 - HYDRAULIC SYSTEM

Disconnect the hoses. Cap or plug all exposed openings.

Unscrew and remove the clamping screws of the cover (C). Remove the cover (C).

Remove the pin (2). Slide out the rod pin (1) with an hammer.

Unscrew and remove the nut (6) and the dowel (5). Slide out the lower pin (7) with an hammer.

Remove the 4x1 bucket cylinder.

SECTION 35 - HYDRAULIC SYSTEM LOADER 4x1 BUCKET CYLINDER DISASSEMBLY

1. Cylinder tube

7. Cylinder gland

2. Piston

8. Gasket

3. Pin

9. Wiper ring

4. O-ring

10. Cylinder rod

5. Piston guide

11. Bushing

6. O-ring

103

104

SECTION 35 - HYDRAULIC SYSTEM

BACKHOE BOOM CYLINDER

1. Stroke 2. Completely retracted

) with long dipper (B100CLR - B110C - B110CTC - B115C) 2 with short dipper (B100C - B100CTC)

BACKHOE ATTACHMENT BOOM CYLINDER REMOVAL Move the machine to a level and firm ground. Place the bucket firmly on the ground. Support the backhoe attachment elements for cylinder removal using a suitable support.

SECTION 35 - HYDRAULIC SYSTEM Loosen and remove the screw (1) and the nut (2). Slide out the rod pin (3) with an hammer. NOTE: the tube end of the dig cylinder and the rod end of the boom cylinder use a common pin (3). If the boom cylinder has to be disassembled, slide out the pin (3) only partially, then remove the cylinder rod and finally reinsert the pin. If necessary, use hydraulic power to very slowly retract the cylinder. In this way, the rod moves away from the attaching point. Disconnect the hoses. Cap or plug all exposed openings. Remove the stop ring (4) and extract the pin (5). NOTE: accurate positioning of the cylinder prior to hose disconnection will aid pin removal.

Remove the backhoe attachment boom cylinder.

105

106

SECTION 35 - HYDRAULIC SYSTEM

BACKHOE ATTACHMENT BOOM CYLINDER DISASSEMBLY

14 15 16 12

2 17

8 9 17

10 7

TBR00119

2. Bushing

10. Back-up ring

3. Cylinder rod

11. O-ring

4. Wiper ring

12. Piston gasket

5. Seal ring

13. Piston guide

6. Ring

14. Piston

7. Guide bush

15. Screw

8. Screw

16. Cylinder tube

9. Cylinder gland

17. Bushing

The disassembly procedure described below is based on the premise that the hydraulic hoses have already been disconnected.

S WARNING S Cylinder weight (with short dipper): 80.5 kg (177.47 lb). Cylinder weight (with long dipper): 93.1 kg (205.25 lb). Lift and securely place the cylinder on a workbench. Be sure that the cylinder is placed horizontally. Drain hydraulic oil from the cylinder.

SECTION 35 - HYDRAULIC SYSTEM Support the cylinder rod (3). Unscrew and remove the safety screw (8). Use the wrench 380000724 to loose the cylinder gland (9). If necessary gently heat the gland carrier to soften the thread sealant applied during manufacture.

Extract the cylinder gland (9) from the cylinder barrel (16) by tapping it with a plastic hammer. Remove the cylinder rod (3) and the cylinder gland (9). IMPORTANT: be sure to pull the cylinder rod (3) straight so as not to damage the sliding surfaces.

Loosen and remove the screw (15). Extract the piston (14) and the cylinder gland (9) from the cylinder rod (3).

Only if necessary: - remove the wiper ring (4), the seal ring (5), the ring (6), the guide bush (7) and the back-up ring (10) with the O-ring (11) from the cylinder gland (9); - remove the piston guide ring (13) and the piston seal (12) from the piston (14).

107

108

SECTION 35 - HYDRAULIC SYSTEM

BACKHOE ATTACHMENT DIPPER CYLINDER

1. Stroke 2. Completely retracted

) with long dipper (B100CLR - B110C - B110CTC - B115C) 2 with short dipper (B100C - B100CTC)

BACKHOE ATTACHMENT DIPPER CYLINDER REMOVAL Move the machine to a level and firm ground. Place the bucket firmly on the ground. Support the backhoe attachment elements for cylinder removal using a suitable support.

SECTION 35 - HYDRAULIC SYSTEM Loosen and remove the nut (1) and the screw (2). Slide out the rod pin (3) with an hammer. If necessary, use hydraulic power to very slowly retract the cylinder. In this way, the rod moves away from the attaching point.

Disconnect the hoses. Cap or plug all exposed openings. Loosen and remove the screw (4) and the nut (5). Slide out the rod pin (6) with an hammer. The tube end of the dipper cylinder and rod end of the boom cylinder use a common attaching pin (6). Therefore before shifting the dig cylinder, support the boom cylinder with a rope or an hoist.

Remove the backhoe dipper cylinder.

109

110

SECTION 35 - HYDRAULIC SYSTEM

BACKHOE ATTACHMENT DIPPER CYLINDER DISASSEMBLY

2 2 8 17

TBR00120

2. Bushing

10. Back-up ring

3. Cylinder rod

11. O-ring

4. Wiper ring

12. Piston gasket

5. Seal ring

13. Piston guide

6. Ring

14. Piston

7. Guide bush

15. Screw

8. Safety screw

16. Cylinder tube

9. Cylinder gland

17. Bushing

The disassembly procedure described below is based on the premise that the hydraulic hoses have already been disconnected.

S WARNING S Short dipper cylinder weight: 71.8 kg (158.29 lb). Long dipper cylinder weight: 72.2 kg (159.17 lb). Lift and securely place the cylinder on a workbench. Be sure that the cylinder is placed horizontally. Drain hydraulic oil from the cylinder.

Loosen and remove the screw (15). Extract the piston (14) and the cylinder gland (9) from the cylinder rod (3).

111

112

SECTION 35 - HYDRAULIC SYSTEM

BACKHOE BUCKET CYLINDER

1. Stroke 2. Completely retracted

BACKHOE BUCKET CYLINDER REMOVAL Move the machine to a level and firm ground. Place the bucket firmly on the ground.

S WARNING S Always support the structural members so that they will be stable and safe to work around. Stop the engine and move the backhoe attachment control levers through all operating positions to relieve any residual pressures in the system. Position a sling or other suitable lifting equipment around the cylinder. Remove the stop ring (1) and the shim (2). Slide out the pin (3) with an hammer and pay attention to levers. If necessary use hydraulic power to very slowly retract the cylinder.

SECTION 35 - HYDRAULIC SYSTEM Disconnect the hoses. Cap or plug all exposed openings. Unscrew and remove the nut (4). Hammer to slide out the pin (6). Extract the screw (5).

Remove the backhoe bucket cylinder.

113

114

SECTION 35 - HYDRAULIC SYSTEM

BACKHOE BUCKET CYLINDER DISASSEMBLY

14 13

2 2 8 17

17 7

TBR00122

2. Bushing

10. Back-up ring

3. Cylinder rod

11. O-ring

4. Wiper ring

12. Piston gasket

5. Seal ring

13. Piston guide

6. Ring

14. Piston

7. Guide bush

15. Screw

8. Safety screw

16. Cylinder tube

9. Cylinder gland

17. Bushing

The disassembly procedure described below is based on the premise that the hydraulic hoses have already been disconnected.

S WARNING S Cylinder weight: 50.1 kg (110.45 lb). Lift and securely place the cylinder on a workbench. Be sure that the cylinder is placed horizontally. Drain hydraulic oil from the cylinder.

SECTION 35 - HYDRAULIC SYSTEM Support the cylinder rod (3). Unscrew and remove the safety screw (8). Use the wrench 380000725 to loose the cylinder gland (9). If necessary gently heat the gland carrier to soften the thread sealant applied during manufacture.

Loosen and remove the screw (15). Extract the piston (14) and the cylinder gland (9) from the cylinder rod (3).

Only if necessary: - remove the wiper ring (4), the seal ring (5), the ring (6), the guide bush (7) and the back-up ring (10) with the O-ring from the cylinder gland (9); - remove the piston guide ring (13) and the piston seal (12) from the piston (14).

115

116

SECTION 35 - HYDRAULIC SYSTEM

TELESCOPIC CYLINDER

Stroke

2. Completely retracted

) with short telescopic (B100C - B100CTC) 2 with long telescopic (B100CLR - B110C - B110CTC - B115C)

TELESCOPIC CYLINDER REMOVAL Move the machine to a level and firm ground. Place the bucket firmly on the ground. Support the backhoe attachment elements for cylinder removal using a suitable support.

SECTION 35 - HYDRAULIC SYSTEM Disconnect the hydraulic hoses (3) of the cylinder and support the cylinder using a suitable support. Remove the snap ring (5). Hammer to slide out the pin (4) from the other side.

Remove the telescopic cylinder.

117

118

SECTION 35 - HYDRAULIC SYSTEM

TELESCOPIC CYLINDER DISASSEMBLY

1. Cylinder rod

8. Back-up ring

2. Wiper ring

9. O-ring

3. Seal ring

10. Piston gasket

4. Ring

11. Piston guide

5. Guide bush

12. Piston

6. Safety screw

13. Screw

7. Cylinder gland

14. Cylinder tube

The disassembly procedure described below is based on the premise that the hydraulic hoses have already been disconnected.

S WARNING S Cylinder weight (with short telescopic): 41.4 kg (91.27 lb). Cylinder weight (with long telescopic): 45.2 kg (99.65 lb). Lift and securely place the cylinder on a workbench. Be sure that the cylinder is placed horizontally. Drain hydraulic oil from the cylinder.

SECTION 35 - HYDRAULIC SYSTEM Support the cylinder rod (1). Unscrew and remove the safety screw (6). Use the wrench 380000721 to loose the cylinder gland (7). If necessary gently heat the gland carrier to soften the thread sealant applied during manufacture.

Extract the cylinder gland (7) from the cylinder barrel (14) by tapping it with a plastic hammer. Remove the cylinder rod (1) and the cylinder gland (7). IMPORTANT: be sure to pull the cylinder rod (1) straight so as not to damage the sliding surfaces.

Loosen and remove the screw (13). Extract the piston (12) and the cylinder gland (7) from the cylinder rod (1).

Only if necessary: - remove the wiper ring (2), the seal ring (3), the ring (4), the guide bush (5) and the O-ring (9) with the back-up ring (8) from the cylinder gland (7); - remove the piston guide ring (11) and the piston seal (10) from the piston (12).

119

120

SECTION 35 - HYDRAULIC SYSTEM

STABILIZER CYLINDER - CENTER PIVOT

(1) Stroke (2) Completely retracted

STABILIZER CYLINDER REMOVAL - CENTER PIVOT Make sure that the backhoe loader is locked in the transfer position or parked in a safety work position. Lower the stabilizers to the ground.

Support the cylinder safely with suitable belt and hoist. Remove the snap ring (1) and the shim (2). Extract the pin (3) with a hammer. Using the hydraulic power, retract the cylinder very slowly.

SECTION 35 - HYDRAULIC SYSTEM Stop the engine. Release possible residual pressure by moving the control levers of the stabilizers. Disconnect all hoses. Cap or plug all exposed openings. Remove the snap ring (4) and the shim (5). Hammer to slide out the pin (6).

Remove the stabilizer cylinder.

121

122

SECTION 35 - HYDRAULIC SYSTEM

STABILIZER CYLINDER DISASSEMBLY - CENTER PIVOT

1. Cylinder rod

8. Back-up ring

2. Wiper ring

9. O-ring

3. Ring

10. Piston gasket

4. Seal ring

11. Piston guide

5. Guide bush

12. Piston

6. Safety screw

13. Screw

7. Cylinder gland

14. Cylinder tube

The disassembly procedure described below is based on the premise that the hydraulic hoses have already been disconnected.

S WARNING S Cylinder weight: 43 kg (94.80 lb). Lift and securely place the cylinder on a workbench. Be sure that the cylinder is placed horizontally. Drain hydraulic oil from the cylinder.

SECTION 35 - HYDRAULIC SYSTEM Replace the cylinder rod (1). Unscrew and remove the safety screw (6). Use the wrench 380000726 to loose the cylinder gland (7). If necessary gently heat the gland carrier to soften the thread sealant applied during manufacture.

Loosen and remove the screw (13). Extract the piston (12) and the cylinder gland (7) from the cylinder rod (1).

123

124

SECTION 35 - HYDRAULIC SYSTEM

STABILIZER CYLINDER - SIDESHIFT

1. Stroke 2. Completely retracted STABILIZER CYLINDER REMOVAL - SIDESHIFT Move the machine to a level and firm ground. Place the bucket firmly on the ground.

Lower the stabilizers to the ground. Relieve possible residual pressures in the system by moving the loader attachment control lever through all operating positions. Loosen and remove the screw (1) and the nut (2). Extract the pin (3) to release the cylinder rod.

SECTION 35 - HYDRAULIC SYSTEM Disconnect the hydraulic tubes at the top of the stabilizer leg. Remove the snap ring (4) and extract the pin (5). Screw in an eye screw (6) on the cylinder and connect a rope or a chain.

Lift and remove the stabilizer cylinder.

125

126

SECTION 35 - HYDRAULIC SYSTEM

STABILIZER CYLINDER DISASSEMBLY - SIDESHIFT

1. Cylinder rod

8. Back-up ring

2. Wiper ring

9. O-ring

3. Seal ring

10. Piston

4. Ring

11. Piston guide

5. Guide bush

12. Piston gasket

6. Cylinder gland

13. Screw

7. Safety screw

14. Cylinder tube

The disassembly procedure described below is based on the premise that the hydraulic hoses have already been disconnected.

S WARNING S Cylinder weight: 34.6 kg (76.28 lb). Lift and place the cylinder on a workbench and secure it to a vice. Be sure that the cylinder is placed horizontally. Drain hydraulic oil from the cylinder.

Loosen and remove the screw (13). Extract the piston (12) and the cylinder gland (7) from the cylinder rod (1).

Only if necessary: - remove the wiper ring (2), the seal rings (3), the ring (4), the guide bush (5) and the O-ring (9) with the back-up ring (8) from the cylinder gland (7); - remove the piston guide ring (11) and the piston seal (10) from the piston (12).

127

128

SECTION 35 - HYDRAULIC SYSTEM

SWING CYLINDER

1. Stroke 2. Completely retracted SWING CYLINDER REMOVAL Move the machine to a level and firm ground. Place the bucket firmly on the ground. Support the backhoe attachment elements for cylinder removal using a suitable stand and a hoist.

S WARNING S Always support the structural members so that they will be stable and safe to work around. Stop the engine and move the backhoe attachment control levers through all operating positions to relieve any residual pressures in the system. Loosen and remove the nut (1). Slide out the screw (2) from the opposite side. Now the pin (3) can come out and release the rod cylinder. If necessary hammer to help the pin (3) to come out.

SECTION 35 - HYDRAULIC SYSTEM Disconnect the feed and return hose to the cylinders and cap all exposed openings. Loosen and remove the nuts (4) and the screws (5) (from both sides). Now it is possible to remove the support (6).

Carefully lift and remove the swing cylinder.

129

130

SECTION 35 - HYDRAULIC SYSTEM

SWING CYLINDER DISASSEMBLY

1. Bushing

10. Trunnion

2. Wiper ring

11. O-ring

3. Cylinder rod

12. Back-up ring

4. Wiper ring

13. Piston gasket

5. Seal ring

14. Piston guide

6. Ring

15. Piston

7. Guide bush

16. Lock retaining piston

8. Bushing

17. Cylinder tube

9. Seal ring The disassembly procedure described below is based on the premise that the hydraulic hoses have already been disconnected.

S WARNING S Cylinder weight: 31 kg (68.34 lb). Lift and place the cylinder on a workbench and secure it to a vice. Be sure that the cylinder is placed horizontally. Drain hydraulic oil from the cylinder.

SECTION 35 - HYDRAULIC SYSTEM Use the wrench 380000725 to loose the trunnion (10). If necessary gently heat the gland carrier to soften the thread sealant applied during manufacture. Remove the rod assy with the trunnion and the piston assy.

Unscrew and remove the piston lock (16). Disassembly the cylinder rod (3) and piston assy (15) and the trunnion (10) complete with gaskets. Check the bushings (8) status.

Only if necessary: - remove the wiper ring (4), the seal ring (5), the ring (6), the guide bush (7) and the back-up ring (12) with the O-ring (11) from the king pin (10). - remove the piston seal (13) and the piston guide ring (14) from the piston (15).

131

132

SECTION 35 - HYDRAULIC SYSTEM

BACKHOE ATTACHMENT LOCK CYLINDER - SIDESHIFT They are installed on the loader backhoe n. 4 sideshift locking cylinders. Their function is to lock the carriage once the backhoe attachment is ready in the digging position. The cylinder consists of: 1. Body 2. Cylinder 3. Gasket

BACKHOE ATTACHMENT LOCK CYLINDER REMOVAL Park machine on a flat surface and position the bucket on the ground. Position the backhoe support in the centre of the machine and lower the backhoe on the ground. Lower the stabilizers to the ground. Relieve the residual pressure in the system by moving the control levers through all operating positions.

Disconnect the line (1). Loosen and remove the two screws (2). Now it is possible to remove the whole cylinder (3).

SECTION 35 - HYDRAULIC SYSTEM SPECIAL TOOLS PN CNH

DESCRIPTION

380000721

Wrench

380000722

Wrench

380000724

Wrench

APPLICATION Telescopic dipper cylinder head Stabilizer cylinder head (sideshift) Loader bucket cylinder head Backhoe boom cylinder head Backhoe dipper cylinder head Backhoe bucket cylinder head

380000725

Wrench

Swing cylinder head Loader cylinder head

380000726

Wrench

Stabilizer cylinder head (center pivot)

133

134

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC CONTROL LEVERS TECHNICAL SPECIFICATIONS Weight

5.1 ÷ 5.3 kg (11.24 ÷ 11.68 lb)

Spool stroke

7.55 mm (0.29 in) SPECIAL TORQUE SETTINGS

Maximum permissible on the hydraulic control lever

80 Nm (59 lbf·ft)

Control block retaining screw

30 Nm (22 lbf·ft)

Control block cardan joint

50 Nm (37 lbf·ft)

Control block nut

40 Nm (30 lbf·ft)

Lower body screw

50 Nm (37 lbf·ft)

SECTION 35 - HYDRAULIC SYSTEM

135

CONTROLS AND OPERATION

1. CONTROL ENABLE SWITCH: when set to ON (control lamp on), this switch allows enabling all hydraulic controls of the backhoe attachment. 2. LEFT-HAND HYDRAULIC CONTROL LEVER: the left-hand hydraulic control lever controls attachment swing and the boom or the dipper (depending on the control pattern adopted).

6. TELESCOPIC DIPPER CONTROLS: (proportional controls): press the right-hand button to extend the telescopic dipper. Press the left-hand button to retract the telescopic dipper. 7. WRIST RESTS: the wrist rests may be adjusted to the required height.

3. RIGHT-HAND HYDRAULIC CONTROL LEVER: the right-hand hydraulic control lever controls the bucket and the boom or the dipper (depending on the control pattern adopted).

8. HYDRAULIC CONTROL LEVER SUPPORT ANGLE ADJUSTMENT: these controls are used for the fore/aft and left/right adjustment of the arm.

NOTE: the operating speed depends on the angle of movement of the control levers. In intermediate position, two movements may be obtained simultaneously.

9. HORN BUTTON: (momentary action control).

4. STABILIZER CONTROLS: the right-hand control is for the right-hand stabilizer and the lefthand control is for the left-hand stabilizer.

11. DECELERATOR BUTTON: by pressing this button, the engine rpm sets to low idle. During this phase, the accelerator knob and pedal are disabled. By pressing the button again, the engine rpm is restored and the accelerator knob and pedal are functional again.

5. CONTROL PATTERN CHANGE SWITCH: this switch is used for changing the standard control pattern to the ISO pattern.

10. CONTROLS OF AUXILIARY BIDIRECTIONAL ATTACHMENT (If fitted): proportional buttons for the activation of the additional attachment.

136

SECTION 35 - HYDRAULIC SYSTEM

COMPONENTS RIGHT HAND HYDRAULIC CONTROL LEVER

1. Valve

10. Half handle

2. Plate

11. Cover

3. Screw

12. Switches

4. Nut

13. Washer

5. Boot

14. Spacer

6. Connector

15. Clip

7. Wedge

16. Clip

8. Half handle

17. Plugs [if the switches (12) are not fitted]

9. Screw

SECTION 35 - HYDRAULIC SYSTEM LEFT HAND CONTROL LEVER

1. Valve

11. Cover

2. Plate

12. Switch push button (horn)

3. Screw

13. Washer

4. Nut

14. Spacer

5. Boot

15. Clip

6. Connector

16. Clip

7. Wedge

17. Plugs [if the switches (18) are not fitted]

8. Half handle

18. Push-buttons (auxiliary bidirectional)

9. Screw

19. Connector

10. Half handle

20. Wedge

137

138

SECTION 35 - HYDRAULIC SYSTEM

DISASSEMBLY AND ASSEMBLY Disassembly Release the pressure from the hydraulic systems by carrying out the operations described below. Turn the starter switch key to ON but do not start the engine. Turn pilot control enable switch to the ON position. Move the hydraulic control levers through all positions. Turn the starter switch key to OFF. Disconnect the negative battery cables. Mark the position of the lever parts (see the exploded view on previous pages). Remove the knob (P) and the support (S). Remove the bracket (O) with the relevant screws (with left hydraulic control lever).

Remove the decal (D), the mounting plate (D1) and the detach the connectors (Q) (with left hydraulic control lever).

Pull out both switches (I) and the detach relevant connectors (Q1) (with right control lever).

SECTION 35 - HYDRAULIC SYSTEM Remove the knob (P1) in the rear section of control lever.

Remove the screws (V) and the plate (N).

Lift the rubber boot (RL) for left control lever and the rubber boot (RR) for right control lever.

Tag all hydraulic hoses before disconnecting them. Disconnect all hoses (H). Disconnect all connectors (Q2).

139

140

SECTION 35 - HYDRAULIC SYSTEM

- Remove the screws (V1) and take out control lever from the column.

Remove the screws (9). Remove the half handles (8) and (10). Remove the cap (11). Remove the wedge (7) from the connector (6). Remove the wedge (20) from the connector (19). Remove the discs (6) and (19). Remove the grommet (13), the clips (15) and the tie hose (16). Extract the switches (12) and (18). Remove the spacers (14). Remove the boots (5). Loosen the nut (4) and remove the screw (3). Remove the plate (2).

Assembly Proceed in reverse order. Follow the marks made during disassembly and tighten the nut (4) to a torque of 36 ÷ 44 Nm (26 ÷ 32 lbf·ft).

SECTION 35 - HYDRAULIC SYSTEM CONTROL LEVER VALVE P. Supply T. Return to tank Right valve (dipper/bucket) 1. Retracting the dipper 2. Opening the backhoe bucket 3. Extending the dipper 4. Closing the backhoe bucket Left valve (backhoe attachment/swing) 1. Boom 2. Right swinging 3. Lowering 4. Left swinging

1. cardan joint cam 2. Plate 3. Shim 4. Upper body 5. Rod guide 6. Seal ring 7. Seal ring 8. Rod 9. Spring guide 10. Spring 11. Shim 12. Cover 13. Safety ring 14. Spring 15. Spool 16. Shims 17. Valve 18. O-ring 19. Lower body 20. O-ring 21. O-ring

141

142

SECTION 35 - HYDRAULIC SYSTEM

HYDRAULIC CONTROL LEVER VALVE OVERHAUL Disassembly Mark the direction of installation of all disassembled parts. Remove the U/J cam (1) using a key. Remove the plate (2). Remove the shim (3) from the upper body (4). Extract the rod guide (5) and replace the seal rings (6) and (7). Drift the rod (8) out. Remove the spring guide (9), the spring (10) and the shims (11). Extract the spool assembly. Hold the cover (12) and remove the safety ring (13). Remove the spring (14) and the spool (15). Remove and note the thickness of the shims (16). Proceed in the same manner for the other rods. Secure the upper body (4) in a vice. Loosen and remove the screw (17) using a key and replace the O-ring (18). Separate the upper (4) and lower (19) bodies and replace the seal rings (20) and (21). Assembly To reassemble, proceed in the reverse order to that of removal. In the case of reassembly without changing the U/J cam (1), put the same value of shims (3) as those in place. After changing the U/J cam (1) adjust the pressure of the cam on the rods. Install a 2 mm (0.079 in) shim (3), check that the recessing of the push-rods is less than 0.2 mm (0.009 in), modify the shimming to more or less if required. Assemble the new seal rings (6), (7) and O-rings (18), (20) and (21). Lubricate the moving parts. Apply brake thread fluid on the threads of the U/J cam (1) and the screw (17). Tighten the cam (1) to 50 Nm (37 lbfÂˇft) and the screw (17) to 50 Nm (37 lbfÂˇft).

SECTION 35 - HYDRAULIC SYSTEM

143

TROUBLESHOOTING PRELIMINARY CHECKS When troubleshooting, the pressure and flow rate test must be carried out in a systematic manner and the results analyzed.

The above-described preliminary checks assume that the failure is not linked to the engine performance.

In this way, the trouble may be identified immediately and accurately.

Having performed these checks and failed to locate the cause of the malfunction, the following procedures should be adopted:

If short-cuts, assumptions and guesses are made, unnecessary component disassembly or replacement could result. Follow the step-by-step procedures outlined below. As a first step in the fault finding procedure, several preliminary checks should be made. These checks are important because, once they have been performed, they need no longer be considered as a possible cause of the immediate or reported malfunction. Check that the hydraulic oil is at the correct level and of the correct specification. Check the loader, backhoe or any additional accessory such as hydraulic bucket, hammers etc., for correct assembly or installation and additionally for signs of external damage that might cause gross misalignment of structural members. Check in more detail for other mechanical damage such as kinked, twisted, worn or decayed hoses, damaged cylinders and bent elements. Do not forget to check underneath the unit for damaged steel tubes, particularly if the unit has been known to have operated in arduous conditions, been grounded, or bogged down. Ensure optimum operating temperature of the hydraulic oil is achieved. Perform the system pressure and rear pump relief valve pressure tests.

- if possible, operate the backhoe attachment and make notes of its operating characteristics. Move each cylinder control lever so that the cylinders move from the fully extended to the fully retracted position; - compare the operating characteristics in the preceding stage with the malfunctions listed hereunder.

144

SECTION 35 - HYDRAULIC SYSTEM

TROUBLESHOOTING (WITH â&#x20AC;&#x153;REXROTHâ&#x20AC;? CONTROL VALVES) GENERAL TROUBLE All systems fail to operate.

Slow operation or loss of power in all systems.

CAUSE

ACTION

Pump drive inoperative.

Check and repair as necessary.

Low oil level.

Check and top up.

Restricted pump suction line.

Inspect the suction line and the tank and repair as necessary.

Worn pump.

Perform pump performance test and replace/reseal as necessary.

Restricted pump suction line.

Inspect the suction line and the tank and repair as necessary.

Load sensing pressure relief valve incorrectly adjusted.

Make a system pressure test.

Hydraulic speed solenoid valve inoperative.

Make a system pressure test.

CAUSE Valve spool leaking.

ACTION Examine lift section of loader control valve assembly for wear or scoring. Examine/reseal piston and gland.

LOADER ATTACHMENT TROUBLE The lifting system fails to operate, is slow or loses power. Bucket fails to operate, is slow or has loss of power.

Cylinder leak (spools in neutral).

Hesitation in the raising movement of the loader attachment or of the bucket cylinders when the control is initially actuated.

Piston seals leaking or cylinder barrel damaged. The relief valves are stuck open, set to a too low value or there is a leak in the seat. Valve spool leaking.

Piston seals leaking or cylinder barrel damage. Damaged piston barrel. Internal valve leak.

Load check valve between control valve sections damaged.

Check the bucket system relief valve.

Examine bucket section of loader control valve assembly for wear or scoring. Examine/reseal piston and gland. Examine/reseal piston and gland. Examine appropriate valve section of loader control valve assembly for wear or scoring. Disassemble and inspect.

SECTION 35 - HYDRAULIC SYSTEM

145

BACKHOE Refer to the following backhoe fault finding chart after first considering the preceding charts. This chart should only be referred to if the supply system is operating normally, thereby confirming that the hydraulic supply systems and the pump are correctly operating. See also â&#x20AC;&#x153;Fault finding hydraulic pumpâ&#x20AC;?. TROUBLE The lifting system is inoperative, is too slow, loses power or does not hold.

The digging control fails to operate, is slow or loses power.

The telescopic dipper fails to operate, is slow or loses power.

Stabilizer pads leaking.

CAUSE

ACTION

Lifting system relief valve stuck open, set too low or seat leaking.

Test the pressure of the lifting system relief valve.

Valve spool leaking.

Examine lift section of backhoe control valve assembly for wear and scoring.

Piston seals leaking or cylinder barrel damaged.

Examine/reseal piston and gland.

Digging system relief valve (piston end) stuck open, set too low or seat leaking.

Test the pressure of the digging system relief valve.

Valve spool leaking.

Examine digging section of backhoe control valve assembly for wear and scoring.

Piston seals leaking or cylinder barrel damaged.

Examine/reseal piston and gland.

The bucket relief valve (rod end) is stuck open, set to a too low value or there is a leak in the seat.

Test the pressure of the bucket relief valve.

Valve spool leaking.

Examine bucket section of backhoe control valve assembly for wear and scoring.

Piston seals leaking or cylinder barrel damaged.

Examine/reseal piston and gland.

The telescopic dipper system relief valve (piston end) is stuck open, set to a too low value or there is a leak in the seat.

Test the pressure of the telescopic dipper relief valve.

Valve spool leaking.

Examine telescopic dipper section of backhoe control valve assembly for wear and scoring.

Piston seals leaking or cylinder barrel damaged.

Examine/reseal piston and gland.

Stabilizer relief valve leaking.

Inspect and overhaul the stabilizer relief valve.

Piston seals leaking or cylinder barrel damaged.

Examine/reseal piston and gland.

146

SECTION 35 - HYDRAULIC SYSTEM

SWING TROUBLE Right or left swing is inoperative, is too slow or loses power.

CAUSE

ACTION

Swing system relief valves not seating, set too low or seat leaking.

Test the swing system relief valve.

Valve spool leaking.

Examine swing section of backhoe control valve assembly for wear or scoring.

Piston seals leaking or cylinder barrel damaged.

Examine/reseal piston and gland.

The swing fails to slow down (bearing stop) at stroke end.

Built-in sliding limiter damaged.

Disassemble and inspect.

Piston seals leaking or cylinder barrel damage.

Examine/reseal piston and gland.

The swing does not stop when the control lever returns to neutral (one direction only).

The system relief valve (return side) is stuck open, set to a too low value or there is a leak in the seat.

Test the swing system relief valve.

Valve spool leaking.

Examine swing section of backhoe control valve assembly for wear or scoring.

Cylinder leak (spools in neutral).

Internal valve leak.

Examine appropriate valve section of backhoe control valve assembly for wear or scoring.

Piston seals leaking or cylinder barrel damaged.

Examine/reseal piston and gland.

Load check valve between control valve sections damaged.

Disassemble and inspect.

A system temporarily lowers when given the control to lift.

SECTION 35 - HYDRAULIC SYSTEM

147

HYDRAULIC PUMP TROUBLE System noisy.

Hydraulic oil drain through tank breather.

Oil heating.

CAUSE

ACTION

Worn or damaged pump gears or pressure plates.

Make a hydraulic pump performance test.

Aeration: air entering the systems at: suction tube, pump shaft, fittings or cylinder ring nuts.

Make a hydraulic pump performance test.

Cavitation: system restrictions in the suction line or in the tank filter.

Make a visual check and/or a hydraulic pump performance test.

Water in the system.

Visual check.

The system relief valve vibrates.

Check system relief valve, adjust/ overhaul as necessary.

Vibrations in the lines.

Visual check.

Cold hydraulic oil.

Check the hydraulic oil operating temperature.

Wrong oil type.

Investigate/drain and top up.

Tank overfilled.

Check hydraulic oil level.

Aeration: air entering the system at: suction tube, pump shaft, fittings or cylinder ring nuts.

Make a hydraulic pump performance test.

Cavitation: Restriction of the suction filter in the tank.

Make a visual check and/or a hydraulic pump performance test.

Low oil quantity.

Fill the tank.

Contaminated oil.

Drain the tank and refill with clean oil.

Too high/low setting of the relief valve. Drain the tank and refill with clean oil. Test relief valves. Oil in system too light.

Drain the tank and refill with oil with the correct viscosity.

Oil cooler fins obstructed.

Clean the oil cooler.

Oil leaks through the shaft seal.

Worn shaft seal.

Replace shaft seal and inspect pump.

Foamy oil.

Low oil level.

Fill the tank.

Air in the suction system.

Check/tighten suction line.

Wrong oil type.

Drain and refill with correct oil.

148 NOTES:

SECTION 35 - HYDRAULIC SYSTEM

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 39 - CHASSIS

DESCRIPTION The chassis of the Backhoe Loader is manufactured as a one-piece unit, on which the main assemblies are attached, or which supports the main assemblies. TYPES Some kinds of chassis are available, which differ from each other according to some main characteristics of the Backhoe Loader. Loader attachment: - “straight” loader arm (2WS); - “bent” loader arm (2WS-TC and 4WS). Backhoe attachment: - Center pivot: the backhoe attachment is directly connected to the chassis and cannot shift laterally; - Sideshift: the backhoe attachment is installed on a sideshift support and can shift laterally on the chassis guides. Steering: - 2 wheel steering (2WS); - 4 wheel steering (4WS).

4 2WS CENTER PIVOT CHASSIS

4WS CENTER PIVOT CHASSIS

2WS SIDESHIFT CHASSIS

SECTION 39 - CHASSIS

SECTION 39 - CHASSIS 2WS-TC SIDESHIFT CHASSIS

4WS SIDESHIFT CHASSIS

SECTION 39 - CHASSIS

REMOVAL AND INSTALLATION OF COMPONENTS COMPONENTS WITHIN THE CHASSIS

ENGINE Supported by 2 rubber silent blocks and held in position by 2 support brackets.

Remove:

The brackets are welded to the frame on either side of the engine.

- the engine guard;

S WARNING S Since they are fastened to each other, the engine and the transmission operate as a one-piece unit. If separated in the machine they are not self supporting and will collapse causing injury or damage to the machine. TRANSMISSION Attached to the rear side of the engine and supported by means of brackets provided with rubber silent blocks. To make repairs that require disassembly of the transmission or engine it will be necessary to remove the engine/transmission as a complete unit from the chassis. To remove the engine/transmission from the machine, it will be necessary to carry out some operations.

- the air filter; - the radiator and the relevant hoses (or pivot it forwards if possible); - the front support grid (if necessary). Disconnect: - the cable for supply pump throttle and electric shut-off; - the engine wiring harness; - the fuel tank connection and the recovery/return hoses; - the relevant hoses (plug all ports as required) of the hydraulic pump; - the transmission lever; - the transmission wiring harness connectors.

SECTION 39 - CHASSIS COMPONENTS OF THE LOWER PART OF THE CHASSIS

FRONT AXLE The front axle is attached to the underside of the chassis by 6 through screws (2WS) or 4 through screws (4WS). To remove front axle from the machine see “REMOVAL FROM MACHINE” in SECTION 25 FRONT AXLES.

REAR AXLE The rear axle is attached to the frame at the rear of the machine by 4 through screws. To remove rear axle from the machine see “REMOVAL FROM MACHINE” in SECTION 27 REAR AXLE.

SECTION 39 - CHASSIS

CARDAN SHAFTS 2WS

1. Front axle 2. Front cardan shaft 3. Screw [tightening torque 33 ÷ 39 Nm (24 ÷ 29 lbf·ft)] 4. Bracket 5. Bracket 6. Screw [tightening torque 35 ÷ 41 Nm (26 ÷ 30 lbf·ft)] 7. Rear cardan shaft 8. Rear axle

SECTION 39 - CHASSIS 4WS

1. Front axle 2. Bracket 3. Screw [tightening torque 35 ÷ 41 Nm (26 ÷ 30 lbf·ft)] 4. Front cardan shaft 5. Bracket 6. Screw [tightening torque 35 ÷ 41 Nm (26 ÷ 30 lbf·ft)] 7. Rear cardan shaft 8. Rear axle

SECTION 39 - CHASSIS

COUNTERWEIGHT

It is installed under the chassis in the front section of the machine with two screws. There are different types of counterweights: 2WS (A): 1. Standard counterweight ......... 127.3 kg (281 lb) 2. Medium counterweight .............. 370 kg (816 lb) 3. Big counterweight ................ 483.7 kg (1066 lb) 4WS (B): 4. Standard counterweight ......... 125.5 kg (276 lb) 5. Medium counterweight .............. 333 kg (733 lb)

SECTION 39 - CHASSIS COMPONENTS ATTACHED OUTSIDE THE CHASSIS

TANKS The hydraulic oil tank (1) and the fuel tank (2) are attached to the chassis under the cab, respectively to the right-hand and left-hand side of the machine. When drained of their contents, both tanks can be removed from the machine, disconnecting the relevant hoses and removing the fastening screws [tightening torque of 85 Nm (63 lbfÂˇft)]. IMPORTANT: make sure that all inlets and pipes are plugged or blanked off to prevent the dirt from entering them.

SECTION 39 - CHASSIS

COMPONENTS OF THE UPPER PART CAB

A. Front coupler

6. Nut

B. Rear coupler

7. Retaining screw

C. Cab skirts

8. Washer

1. Main frame

9. Cab floor

2. Anti-vibration

10. Cab support (rear)

3. Dampener

11. Support

4. Washer

12. Bushing

5. Washer

13. Cab support (front)

SECTION 39 - CHASSIS The cab frame is a one-piece unit, mounted on top of the chassis. To remove the cab it is necessary to carry out different operations, listed below. Remove the cab skirts (S) all around the cab. Disconnect the two electric connectors from the main harness and engine harness. Remove the two front fixing screws (7) between the cab floor and the cab support (13) (detail A). Remove the two rear fixing screws (7) between the cab floor and the rear supports (10) on the main frame (1) (detail B). Disconnect the two steering cylinder hoses (left side). Disconnect the pump - power steering valve hose. Disconnect the power steering valve - oil tank hose. Disconnect the load sensing valve hose. Disconnect the stabilizers cables (mechanical version). Disconnect the parking brake cable. Disconnect the water - heater hoses (after water discharge). Disconnect the air conditioning hoses (after coolant drain). Disconnect the transport lock cable (mechanical version). Disconnect the telescopic dipper control pedal (mechanical version). Turn the knobs and the boots of the various levers (front and rear) Lift the cab with the crane after its anchorage to lifting hook. IMPORTANT: when lifting the cab ensure the hydraulic brake tanks are not caught and damaged on the loader support frame.

14 NOTES:

SECTION 39 - CHASSIS

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 41 - STEERING SYSTEM

DESCRIPTION The steering system has the following features: - double-acting steering cylinder; - oil tank in common with the main hydraulic system; - a hydraulic pump located on the rear part of the transmission; - steering (or power steering) control valve located on the steering wheelâ&#x20AC;&#x2122;s column. The oil is taken from the tank and reaches the pump. The front pump flow is directed to the loader and backhoe attachment control valves. Thanks to the presence of a flow divider, the rear pump delivery guarantees priority oil delivery to the steering system. The flow divider includes a load-sensing valve and a steering system pressure relief valve. According to the machine model, the steering system can be of 2 types: - 2WS steering system; - 4WS steering system.

SECTION 41 - STEERING SYSTEM

2WS STEERING SYSTEM

1. Flow divider

5. Oil filter

2. Power steering

6. By-pass valve

3. Hydraulic tank

7. Radiator

4. Return manifold

8. Front axle

SECTION 41 - STEERING SYSTEM OPERATION Power steering - Neutral position

Pump pressure

Trapped oil

Stand-by pressure

Return to oil tank

When the steering wheel is held still, the leaf springs return and hold the power steering spool in neutral position. This ensures that no more oil is supplied to the steering cylinder. The spool also traps the oil in the steering cylinder and allows the oil in the sensing lines to return to the tank, thus allowing the priority flow divider to move to the left.

SECTION 41 - STEERING SYSTEM

Power steering - Turning right

Pump pressure

Trapped oil

Metered pressure

Return to oil tank

When the steering wheel is turned, the movement of the power steering spool forms a series of passages. During right turn, oil flows through the spool along a groove and into a passage in the housing which leads to the metering unit. A gallery is also lined up to allow pressure oil to flow down the sensing line to the priority flow divider.

As the metering unit is turned by the drive shaft, it directs a measured quantity of oil along another set of passages in the spool then from these to the steering cylinder. Return oil from the other side of the cylinder is directed through the spool to a return passage in the housing.

SECTION 41 - STEERING SYSTEM

4WS STEERING SYSTEM

1. Flow divider

6. By-pass valve

2. Power steering

7. Radiator

3. Hydraulic tank

8. Front axle

4. Return manifold

9. 4WS steering control valve

5. Oil filter

10. Rear axle

SECTION 41 - STEERING SYSTEM

4WS STEERING CONTROL VALVE The valve is located on the rear axle. Remove the four hoses and the two fastening screws. Remove the valve. Draw a diagonal line across the complete valve block this will assist in the correct reassembly later. The valve consists of a central manifold block which all input and output pipes are attached to. On each side of this block is a solenoid valve. The solenoid valves have two positions: both of these positions are working positions and there is no neutral point. Each spool is detented and therefore the solenoids are only energized momentarily to move the spool. On the end of each solenoid is an emergency hand operating pin which moves the control spool without energizing the solenoid. The switching of the steering valve is normally controlled by a microprocessor located underneath the right hand side console. Components 1. Solenoid knob 2. Solenoid 3. Control spool 4. Block 5. Central block 6. Fixing screws 7. Piston 8. O-ring 9. O-ring

SECTION 41 - STEERING SYSTEM OPERATION

In the position shown both spools have been moved by solenoids (2b) and (3b). The detents on the (a) side of the solenoid hold the spool in this position until another solenoid is pulsed.

SECTION 41 - STEERING SYSTEM

The spool in valve (3) was last moved by solenoid (3b): oil flowing in from P3 flows through the internal galleries of the spool and exits at port A3. From here, oil enters valve (2), whose spool was last moved by solenoid (2b). Oil flows through port P2 and exits through port T2, cutting off flow to the rear steering cylinder. Now the oil returns in valve (3), entering through port B3 and flowing out through port T3. From here, oil enters the front steering cylinder.

The three modes of steering are as follows: Front wheel only steering

Front and rear wheel steer

Front and rear wheel crab The solenoids energized are shown in the table below. These are also the pins which need to be pressed when changing steering mode manually in an emergency. X = Energized O = Not Energized 3a

2WS

4WS

CRAB

SECTION 41 - STEERING SYSTEM

POWER STEERING The power steering consists of a metering and emergency pump that includes: - a gearwheel with fixed stator with inner teeth and a rotor with outer teeth; - a 4-way rotary control valve consisting of an outer sleeve and an inner selection rotor; - a rotor connected to the steering wheel by means of the steering column, which can be of two types, fixed or adjustable; - a cardan shaft which is mechanically tied to the gearwheel and to the outer sleeve, and allows the transmissionâ&#x20AC;&#x2122;s movement; - a set of centering springs between the outer sleeve and the inner rotor.

TECHNICAL SPECIFICATIONS L. Left control port (steering cylinder) R. Right control port (steering cylinder) P. Inlet to steering pump T. Outlet to oil tank LS. Outlet to steering pump

SECTION 41 - STEERING SYSTEM

2WS (with variable-flow-rate pump) Model ........................................................................................................................ EATON P/N 403 -8754-04 Displacement ............................................................................................................. 160 cm3/rev (9.76 in3/rev) Shock valve adjustment ......................................................................................................... 235 bar (3408 psi) Load-sensing pressure relief valve adjustment...................................................................... 175 bar (2538 psi) 2WS (with gear pump) Model ........................................................................................................................ EATON P/N 403 -8754-08 Displacement ............................................................................................................. 160 cm3/rev (9.76 in3/rev) Shock valve adjustment ......................................................................................................... 235 bar (3408 psi) Load-sensing pressure relief valve adjustment...............................................................................................No 4WS Model ........................................................................................................................ EATON P/N 403 -7754-04 Displacement ............................................................................................................. 160 cm3/rev (9.76 in3/rev) Shock valve adjustment ......................................................................................................... 235 bar (3408 psi) Load-sensing pressure relief valve adjustment...................................................................... 175 bar (2538 psi)

SECTION 41 - STEERING SYSTEM COMPONENTS

SECTION 41 - STEERING SYSTEM

A. Anticavitation valve

19. Seal ring

B. Manual check valve

20. Gasket

C. Inlet check valve

21. O-ring

D. Cylinder relief valve

22. Seal

E. Load-sensing relief valve

23. Bearing cup

F. Inlet relief valve

24. Bearing

1. Screw

25. Bearing cup

2. Cover

26. Spring

3. O-ring

27. Spacer

4. Spring

28. Sleeve

5. Plug

29. Plug

6. Ball

30. O-ring

7. Rotor/stator gear

31. Spring

8. Plate

32. Poppet

9. Shaft

33. O-ring

10. Power steering unit

34. O-ring

11. Valve seat

35. Ball

12. Ball

36. Pin

13. Ball holder

37. Spacer

14. O-ring

38. Valve seat

15. Spring

39. Poppet

16. Plug

40. Spring

17. Cross pin

41. O-ring

18. Spool

42. Plug

SECTION 41 - STEERING SYSTEM DISASSEMBLY Cleanliness is extremely important when repairing the power steering. Work in a clean area. Before disconnecting the lines, thoroughly clean the area. Use a wire brush to remove foreign material and debris. Use protective material on vice jaws. Power steering unit distortion can result if jaws are over-tightened. M = mark

Loosen and remove the screws (1). Remove the cap (2). Remove the O-ring (3).

Remove the rotor / stator gear (7). Remove the O-ring (34). Remove the spacer (37).

SECTION 41 - STEERING SYSTEM

Remove the shaft (9). Remove the plate (8). Remove the O-ring (33) from the power steering unit (10).

Carefully remove the anti-cavitation valve (A) and the manual check valve (B) from the holes of the screws by tipping.

Carefully remove the spool-sleeve (18) assembly from the power steering unit (10), keeping it vertical. Extract the pin (17) from the spool (18) and sleeve (28) assembly.

S CAUTION S Do not lift the spool-sleeve assembly inside the power steering unit (10). Slowly rotate the spool-sleeve assembly to remove it from the power steering unit.

Remove the bearing race (25), the bearing (24) and the bearing race (23) from the power steering unit (10). Remove the seal ring (19).

SECTION 41 - STEERING SYSTEM Partially push the spool (18) on the end of the sleeve, then carefully remove the centering springs (26) from the spool (18). The power steering with low input torque uses four centering springs (26) and two spacers (27). The standard input torque power steering uses six centering springs. M = mark S1 = low torque springs S2 = standard springs NOTE: do not remove any valves other than the manual check valve and the anti-cavitation valves. All other valves are factory preset and are non-serviceable.

SECTION 41 - STEERING SYSTEM

ASSEMBLY Check all mating surfaces. If any parts have scratches or burrs, the power steering must be replaced. The use of parts with scratches or burrs can cause leakage and is therefore not recommended. Clean all metal parts in clean solvent. Blow dry with air. Do not wipe dry with cloth or paper towel because lint or other matter can get into the hydraulic system and cause damage. Do not use grit paper or file or grind these parts. Lubricate all seals, replace all old seals with new seals and do not use an excessive quantity of lubricant on the seals of the rotor / stator gear. Carefully assemble the spool (18) and the sleeve (28) so that spring slots line up correctly. Rotate spool while sliding parts together. M = marks Test for free rotation. The spool should rotate smoothly in the sleeve with finger tip force applied to its end. Align the spool and the sleeve making reference to the relevant marks (M).

The centering springs (26) for power steering with low input torque (S1) have four arched springs with two flat spacers (27) in the center. The centering springs (26) for power steering with standard input torque (S2) have six arched springs. Position centering springs so that the notches line up, and arched center sections are nested together. Next, with spring notches facing sleeve, insert one end of entire spring set into spring installation tool.

SECTION 41 - STEERING SYSTEM Compress the extended end of the spring set and push it into the spool (18) - sleeve (28) assembly. Keep pressure on spring ends while withdrawing installation tool and pushing forward on springs at same time. Central springs set in spring slots. Seat springs down evenly and flush with upper surface of spool (28) and sleeve (18).

Insert the pin (17) through the spool (18) - sleeve (28) assembly until the pin is within the outside diameter of the sleeve.

Lubricate the seal ring (19). Install the bearing races (23), (25) and the bearing (24).

SECTION 41 - STEERING SYSTEM

Position the spool (18) - sleeve (28) assembly so that the splined end of the spool enters the power steering body first.

S CAUTION S While inserting the spool-sleeve assembly, make sure that the parts do not tilt out of position. Gently push the assembly into place with a slight rotation, holding the pin so that it does not come out and gets stuck in the internal groove. Completely insert the spool-sleeve assembly into the body. With aligned spool-sleeve assembly, check for free rotation by turning the assembly with fingertip force applied to the end. Position the power steering unit (10) in a vice. Lightly clamp on the edges of the mounting area; do not over-tighten the jaws. NOTE: make sure that the spool and the sleeve are flush or slightly below the unitâ&#x20AC;&#x2122;s surface. Clean the upper surface of the unit.

Install the O-ring (33). Install the anti-cavitation valves (A) and the manual check valve (B). Install the plate (8). Align the holes in the plate (8) with the threaded holes in the unit (10).

SECTION 41 - STEERING SYSTEM Rotate the spool and sleeve assembly until the pin is parallel with the port’s face. Install the shaft (9), making sure it is engaged with pin (17). To guarantee proper alignment, mark the shaft (see reference L2). When marking the shaft, note the relationship between slotted end and splined end. Lubricate and install the O-ring (34). The lubrication will hold the seal in place. Note the parallel relationship of reference lines L1, L2, L3 and L4. Lubricate and install the O-ring (3). Remove the cap (2).

Screw in the 7 screws (1). Pretighten the screws to a tightening torque of 17 Nm (12 lbf·ft). Then tighten the screws to a tightening torque of 35 ÷ 45 Nm (26 ÷ 33 lbf·ft) in the sequence shown in the figure.

Check for proper timing by turning the spool clockwise and feeling pressure in the “R” port.

22 NOTES:

SECTION 41 - STEERING SYSTEM

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 50 - CAB HEATING AND AIR CONDITIONING TECHNICAL SPECIFICATIONS....................................................................................................................... 3 GENERAL.................................................................................................................................................... 3 CAB HEATING.................................................................................................................................................. 5 CONTROLS ................................................................................................................................................. 5 OPERATION................................................................................................................................................ 6 OVERHAUL ................................................................................................................................................. 9 TROUBLESHOOTING............................................................................................................................... 11 AIR CONDITIONING ...................................................................................................................................... 12 PRINCIPLES OF AIR CONDITIONING ..................................................................................................... 12 CONTROLS ............................................................................................................................................... 17 OPERATION.............................................................................................................................................. 18 FAULT FINDING AND TESTING............................................................................................................... 25 FLUSHING THE SYSTEM......................................................................................................................... 43 DRAINING THE SYSTEM ......................................................................................................................... 45 CHARGING THE SYSTEM........................................................................................................................ 46 OVERHAUL ............................................................................................................................................... 47 COMPRESSOR .............................................................................................................................................. 52 TECHNICAL SPECIFICATIONS................................................................................................................ 52 REMOVAL AND INSTALLATION .............................................................................................................. 53 DISASSEMBLY AND ASSEMBLY............................................................................................................. 56 TROUBLESHOOTING............................................................................................................................... 65

SECTION 50 - CAB HEATING AND AIR CONDITIONING

TECHNICAL SPECIFICATIONS GENERAL ENGINE RADIATOR COOLANT Antifreeze - Ambra Agriflu.......................................................................................................12 litres (2.64 gal) Water ......................................................................................................................................12 litres (2.64 gal) System type ........................................................... Pressurized FULL FLOW by-pass with expansion chamber FAN BELT DEFLECTION Natural suction ........................................................................................................ 13 ÷ 19 mm (0.51 ÷ 0.75 in) Turbocharged.......................................................................................................... 10 ÷ 16 mm (0.39 ÷ 0.63 in) THERMOSTAT Opening starts at.......................................................................................................................... 82 °C (179 °F) Fully open at ................................................................................................................................ 95 °C (203 °F) Radiator cap.............................................................................................................................. 0.90 bar (13 psi) MOUNTING SCREW TORQUE Coolant/hot water hose connections...........................................................................................5 Nm (3.7 lbf·ft) Air hose connections...................................................................................................................5 Nm (3.7 lbf·ft) Heater housing to floor fastening screws.................................................................................6.2 Nm (4.6 lbf·ft) REFRIGERANT Type .................................................................................................................................................... HFC 134a Refrigerant quantity....................................................................................................................... 1.2 kg (2.6 lb) COMPRESSOR OIL Type .........................................................................................................SP15 (PAG type, viscosity index 100) Oil change amount................................................................................................................. 135 cm3 (8.24 in3) CHECK CONDITIONS Air inlet temperature.................................................................................................................. 37.8 °C (100 °F) Rated air inlet humidity ................................................................................................................................ 40% Evaporation temperature ................................................................................................................. 0 °C (32 °F) Overheating ..................................................................................................................................... 5 °C (41 °F) Inlet air speed ...............................................................................................1.0 - 2.0 - 3.0 m/s (3.3-6.6-9.9 ft/s) Condensation temperature .............................................................................. 58 °C (136 °F) (16 absolute bar) Undercooling.................................................................................................................................... 2 °C (35 °F)

SECTION 50 - CAB HEATING AND AIR CONDITIONING

PERFORMANCE Performance calculated at 1 m/s (3.28 ft) [191.72 m3/h (6769.31 ft3)] Exchanged heat ................................................................................................. 5.48 kW

4718.28 kcal/h

Air outlet temperature......................................................................... 5.64 °C (42.15 °F) Air side load loss ............................................................................................. 2.97 daPa

0.30 mmH20

(0.00431 psi)

(0.012 inH20)

Coolant side load loss ....................................................................................... 13.1 kPa

0.13 bar (1.9 psi)

Performance calculated at 2.0 m/s (6.56 ft) [383.4 m3/h (13537.22 ft3)] Exchanged heat ................................................................................................. 9.29 kW

7998.69 kcal/h

Air outlet temperature....................................................................... 10.30 °C (50.54 °F) Air side load loss ............................................................................................. 9.34 daPa

0.95 mmH20

(0.0135 psi)

(0.037 inH20)

Coolant side load loss ....................................................................................... 32.7 kPa

0.33 bar (4.8 psi)

Performance calculated at 3.0 m/s (9.84 ft) [575.1 m3/h (20305.83 ft3)] Exchanged heat ............................................................................................... 12.00 kW

10332.00 kcal/h

Air outlet temperature....................................................................... 13.70 °C (56.66 °F) Air side load loss ........................................................................................... 18.30 daPa

1.87 mmH20

(0.0265psi)

(0.074 inH20)

Coolant side load loss ..................................................................................... 51.20 kPa

0.51 bar (7.4 psi)

SECTION 50 - CAB HEATING AND AIR CONDITIONING

CAB HEATING The cab is heated by a radiator mounted below the cab seat, which is supplied hot water from the engine coolant system. A blower motor mounted behind the cab radiator is used to transfer the heat into the cab.

CONTROLS Heater blower control The three-speed blower is controlled by means of a knob (1) on the instrument console, to the right of the operatorâ&#x20AC;&#x2122;s seat. Turn clockwise to the first position for slow speed. A further clockwise rotation selects medium and fast speeds. The blower draws outside air from beneath the cab floor and blows it into the cab through a filter. Temperature control The temperature of the air coming from the radiator is adjusted by rotating the control knob (2), which opens or closes the radiator valve, thus increasing or decreasing the water flow as required. Turn clockwise to increase the temperature of the air coming from the heater. By rotating counterclockwise, the temperature is decreased.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

OPERATION CAB AIR FILTER Before servicing the air filter situated under the operatorâ&#x20AC;&#x2122;s seat, switch off the blower and close all windows and one door. Forcibly close the other door. The resulting back pressure will dislodge loose dirt from the underside of the filters. To remove the filter (1), release the retaining straps (2) and remove the filter element. Ensure the element, and sealing faces are not damaged on removal. IMPORTANT: in humid conditions, such as occur on most early mornings, do not switch on the blower prior to servicing the filters. Damp particles drawn into the filter may solidify and prove difficult to remove without washing. The filter element is made of specially treated paper with a sealing strip bonded to the outer face. Clean this element by blowing with compressed air from the clean side through to the dirty side. The compressed air should not exceed 2 bar (29 psi) and the air line nozzle should be at least 300 mm (11.8 in) from the element. HEATER RADIATOR The heater radiator (1) is fitted in a housing under the cab seat to guarantee a uniform distribution of warm or cold air flow. IMPORTANT: to ensure a good flow of air through the heater radiator the filter should be cleaned more frequently when operating in extremely dusty conditions.

SECTION 50 - CAB HEATING AND AIR CONDITIONING AIR FLOW DIFFUSERS Air flow diffusers are connected to the heater container and receive air from the blower motor, to direct warm or cold air onto the windscreen and side windows or to the cab interior as required. Each diffuser may be swivelled and adjusted to control the flow of air. To open a diffuser, press one side of the disc and turn it, as required, to direct the air flow. The diffusers are located as follows: - two on the top of the main dashboard (A); - two on the front edge of the front instrument panel (E); - two to the rear of the operator seat (C); - two under the seat, one in front, the other on the rear (D); - two on the cab posts, right and left (B); - two on the ceiling, in front and back of operatorâ&#x20AC;&#x2122;s head (F). NOTE: the diffusers (B) and (F) are mounted only when air conditioning (optional) is fitted.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

ELECTRIC HEATER VALVE The electric valve is equipped with a software that, each time the supply of the cock is delayed (therefore also at backhoe loader start), carries out the momentary positioning of the cock to â&#x20AC;&#x153;completely closedâ&#x20AC;? and returns to the position set by the temperature regulation handle located on the control dashboard. This enables the software to carry out a self-control on the cock drive so as to always obtain an optimal regulation of the ball for the water flow. This is part of the cock normal operation and is not to be considered as a fault. Valve release IMPORTANT: the release of the valve has to be performed if this valve remains idle for long periods. Carry out this operation observing the following procedure: - disconnect the electric connectors (1); - loosen the screws (2) and extract the electric valve (3) from the evaporator; - loosen and remove the screws (4);

- separate the driving unit (5) from the cock (6); - by means of a wrench, turn the pin (A) of the cock to unlock it.

S WARNING S Once this operation is complete, reset pin (A) in the correct start position.

Reinstall the heater valve, repeating the previously carried out operations in reverse order.

SECTION 50 - CAB HEATING AND AIR CONDITIONING OVERHAUL IMPORTANT: when overhauling the heating system remember that, with the engine running or shortly after it is turned off, the system will be at engine temperature and therefore the water will be hot and under pressure. To carry out the different checks and operations, it is necessary to drain the system. To drain the cooling system, disconnect either hose at the union tee (1) found behind the engine oil filter, mounted to the left-hand side of the engine.

RADIATOR CHECK With the system drained, remove the heater radiator hose connections, the attaching screws and remove the radiator from the vehicle. Inspect the radiator (2). Check that the water flows freely through the heater line (otherwise, clear any obstruction). Fins must be free from debris and not damaged: clean and/or repair. Clean the heater radiator using compressed air not exceeding 7 bar (102 psi) taking care not to damage the radiator fins. Make sure that the radiator is not leaking under pressure. Clean the chamber with a damp, cloth and reassemble the housing filter element with the seal facing the inside of the cover.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

BLOWER MOTOR CHECKS The blower motor (3) can be removed by removing the attaching screws and disconnecting the electric connector. Check that the fan operates correctly. Otherwise, check the fuse and the continuity of the fan motor. If defective, replace the blower unit as an assembly.

HEATING VALVE To service the control valve (4), disconnect the hoses and the control tie rod and remove it. Check its operation and replace it, if worn.

CONTROL PANEL Check for the correct operation of the control knobs (5) and (6).

SECTION 50 - CAB HEATING AND AIR CONDITIONING

TROUBLESHOOTING Items that may cause trouble are listed in the table below. Anyway, as a general rule, we recommend carrying out some preliminary checks. Ensure water flow to the heater radiator is steady and all air has been removed from the system. Hoses are unrestricted and not leaking. Check the electric connections are good and the blower motor is operational. The operating cable to the heater valve and valve is operational. FAULT Dust enters the cab.

CAUSE

ACTION

Improper seal around filter element.

Check the seal condition.

Blocked filter.

Clean or replace the filter.

Defective filter.

Replace the filter.

Excessive air leak(s) around doors and windows.

Repair and Seal air leak(s).

Blocked filter or recirculation filter.

Clean or replace the filter(s).

Heater radiator core blocked.

Clean radiator core thoroughly.

Blower motor not working.

Fuse blown.

Replace fuse.

Cab does not heat up.

Engine not reaching operating Replace the temperature switch. temperature. Thermostat stuck open.

Blower motor air flow low.

Cab does not cool.

Temperature not stable.

Heater hose from engine to cab radiator, kinked or blocked.

Ensure water flow to heater radiator is adequate and not restricted.

Heater control turned on.

Turn the temperature control knob fully counterclockwise for maximum cooling.

Heater control valve stuck in open position.

Free up valve or change as required.

Low engine coolant.

Top up coolant recovery tank.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

AIR CONDITIONING PRINCIPLES OF AIR CONDITIONING The function of the air conditioning system is to improve the operatorâ&#x20AC;&#x2122;s comfort by cooling down the air temperature inside the cab and reducing the humidity level. In order to achieve this heat transfer the following principals of heat generation and transfer are applied within the air conditioning system. When two bodies with a different temperature come together, heat is transferred from one to the other. On air conditioning systems, an evaporator is used to maintain the low temperature of the coolant, which absorbs the heat from the air within the cab.

When a gas is pressurized the temperature of the gas will rise. In air conditioning systems the increase in pressure is achieved using a compressor.

When a gas is cooled it will condense into a liquid. In the air conditioning system a condenser is used to cool the gas and the resulting liquid is stored in a receiver dryer.

SECTION 50 - CAB HEATING AND AIR CONDITIONING When a liquid is atomized through an orifice, the temperature of the resultant vapour will lower. The low temperature of the atomized liquid will then absorb heat from its surrounding. On air conditioning systems, coolant is atomized using an expansion valve.

C Ë&#x161;

SECTION 50 - CAB HEATING AND AIR CONDITIONING

OPERATING DIAGRAM

1. Expansion valve-atomizes liquid coolant before passing to evaporator

3. Compressor-compresses and raises temperature of coolant gas

2. Evaporator-absorbs heat from air in cab

4. Condenser and receiver dryer-converts coolant from gas to a liquid

SECTION 50 - CAB HEATING AND AIR CONDITIONING

LOW PRESSURE SIDE

HIGH PRESSURE SIDE

EXPANSION VALVE LOW TEMPERATURE HIGH PRESSURE LIQUID FILTERED AND MOISTURE REMOVED

LIQUID ATOMIZED AT A LOWER TEMPERATURE

RECEIVER DRYER

LOWER TEMPERATURE HIGH PRESSURE LIQUID

EVAPORATOR

CONDENSER

WARM LOW PRESSURE VAPOUR

HIGH TEMPERATURE HIGH PRESSURE VAPOUR

COMPRESSOR HEAT FROM INSIDE CAB MOVES TO REFRIGERANT

HEAT MOVES TO OUTSIDE AIR FROM REFRIGERANT

Air conditioning flow diagram It can now be seen that the principal components of an air conditioning system are: - Refrigerant - Compressor - Condenser - Receiver dryer - Expansion valve - Evaporator

Refrigerant is drawn into the compressor as a cool, low pressure vapour which is compressed and then pumped out as a hot, high pressure vapour to the condenser. As the hot, high pressure vapour passes through the condenser core it gives off heat to the cooler outside air, being drawn past the fins by the engine cooling fan.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

By giving off heat to the outside air, the vapour is condensed to a liquid which moves under high pressure to the receiver dryer where it is stored until released to the evaporator by the temperature sensing expansion valve. As liquid coolant passes through the metered orifice in the expansion valve the coolant changes from a high pressure liquid to a low pressure atomized liquid with a lower temperature. This low pressure, low temperature, atomized liquid enters the evaporator coils and absorbs heat from the cab warm air blown across the coils and fins by the cab blower motor. The coolant now changes from a cold low pressure atomized liquid to a warm low pressure vapour and leaves the evaporator outlet, moving to the suction (low pressure) side of the compressor to repeat the cycle. As this heat loss is taking place, moisture (humidity) in the cab air will condense on the outside of the evaporator and drain off as water through the drain hoses attached to the evaporator drain pan, thereby reducing the humidity level of the cab.

SECTION 50 - CAB HEATING AND AIR CONDITIONING CONTROLS CONTROLS (B100C - B100CTC - B110C - B110CTC - B115C) The air conditioning control can be adjusted to obtain the desired temperature in the cab. To activate air conditioning, turn the selector (2). Upon activation, the lamp (4) on the side instrument cluster turns on. The selector (1) allows choosing the ideal temperature according to your requirements. Positioning selector (1) to “0” and turning selector (2) you will obtain more or less cold according to the selector (2) position. By positioning selector (1) to any other position different from “0”, you will obtain instead a mixture of warm and cold air and the desired climate inside the cab. NOTE: the air conditioning can be operated only if the ventilation selector (3) is not set to the stop position. Turn the selector (3) for air capacity according to your requirements.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

OPERATION COOLANT To achieve the absorption and the release of heat which is, in essence, the function of an air conditioning system, requires the use of a suitable “coolant” a liquid that has a relatively low temperature boiling point, plus certain desirable safety and stability features. The coolant used in the air conditioning system is coolant HFC 134a. NOTE: to help protect the environment legislation has been introduced in most territories banning the release into the atmosphere of refrigerants, including HFC 134a. All service procedures contained in this manual can be carried out without the need to release coolant into the atmosphere. In order to prevent the incorrect type of coolant being charged to the system the service valves fitted to the Backhoe Loader and necessary to connect up coolant recovery, evacuation and recycling/ re-charging equipment will be of two different sizes as recognized and specified by the air conditioning industry.

S WARNING S Coolant HFC 134a is not compatible with coolant R12. Do not try to replace coolant HFC 134a with coolant R-12 or to test the system using instruments or tools previously used with R12, as the system could get damaged. HFC 134a coolant is stable at all operating temperatures and able to absorb great quantities of heat. The boiling point of HFC 134a is -22 °C (-7.6 °F) at atmospheric pressure. If the pressure is increased, HFC 134a will readily vaporize to absorb heat at temperatures between -11.7 °C (10.94 °F) at 1.9 bar (28 psi) and 0 °C (32 °F) at 2.9 bar (42 psi) in the evaporator. At higher pressures, HFC 134a will condense and give off heat at temperatures between 48 °C (118.4 °F) at 12.4 bar (180 psi) and 58 °C (136.4 °F) at 15.85 bar (230 psi) in the condenser.

S WARNING S HFC 134a can be dangerous if improperly handled. Therefore it is important the following warning and directions are adhered to. Never expose any part of the air-conditioner system to flame or excessive heat because of risk of fire or explosion, and the production of phosgene gas. Never disconnect or disassemble any part of the airconditioning system as escaping coolant can cause frostbite.

S WARNING S If coolant should contact the skin use the same treatment as for frostbite. Warm the area with your hand or lukewarm water 32 °C (89.6 °F), cover the area loosely with a bandage to protect affected area against infection and consult a doctor immediately. If coolant should contact the eyes wash immediately in cold clean water for at least 5 minutes and consult a doctor immediately.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

COMPRESSOR The compressor is mounted on the left-hand side of the engine and is belt driven by the crankshaft pulley. The compressor separates the low and high pressure sides of the system and has two functions: - raising the coolant temperature by compressing to a higher degree of temperature than the ambient (outside air) temperature; - circulating the required volume of coolant through the system. The compressor is a 7-cylinder wobble plate unit, housed in a die-cast aluminium housing. The drive to the wobble plate comes from the pulley, through the clutch to the main driveshaft. Attached to the driveshaft, there is a cam rotor which oscillates the wobble plate. The wobble plate is prevented from rotating by a static gear engaging with teeth formed in the face of the plate. The seven pistons are connected to the wobble plate by rods located in ball sockets. Refrigerant is drawn in on the downward stroke of a piston through the reed valves located either end of the cylinder assembly. Refrigerant enters the cylinder assembly through a gallery in the outer circumference of the cylinder assembly. During the upward stroke, the piston compresses the coolant and expels it through another reed valve into an inner gallery in the cylinder and, from here, out into the coolant system. The compressor is lubricated with a Polyalklene Glycol (PAG) oil Type SP15. This oil can be mixed with coolant and is carried around in the coolant system itself. During the operation of the air conditioning system, the compressor is activated by a clutch which engages or disengages it as required.

TBR00090

SECTION 50 - CAB HEATING AND AIR CONDITIONING

TEMPERATURE SENSOR The air conditioner temperature adjusting sensor is mounted on the blower motor. It is a device which turns the compressor clutch on and off to maintain a constant average evaporator temperature and senses the evaporator temperature using a thermistor (1). The sensor compares the voltage of the thermistor, which depends on the temperature of the evaporator, with the voltage across the potentiometer of the “in-cab” temperature control switch. The switch upon comparing the two voltages determines whether the compressor clutch should be switched “on” or “off” in order to maintain the desired in cab temperature control. LOW-PRESSURE CUT-OUT SENSOR The low-pressure (1) sensor is on the upper part of the filter, situated in front of the radiator. The purpose of the sensor is to shut off the compressor in case of low pressure in the cooling system.

Low coolant pressure may occur due to a faulty expansion valve, icing up of the expansion valve orifice or coolant loss. Low coolant pressure may result in damage to the compressor pump. The low-pressure sensor is set by the Manufacturer. TBR00081

SECTION 50 - CAB HEATING AND AIR CONDITIONING

CONDENSER The condenser (1), located at the front of the machine in front of the engine radiator consists of a number of turns of continuous coil mounted in a series of thin cooling fins to provide a maximum of heat transfer in a minimum amount of space. The condenser receives the hot, high pressure coolant vapour from the compressor. The hot vapour passes through the condenser coils and outside air is drawn through the condenser by the engine cooling fan. Heat moves from the hot coolant vapour into the cooler outside air flowing across the condenser coils and fins. When the coolant vapour reaches the pressure and temperature that will induce a change of state, a large quantity of heat is transferred to the outside air and the coolant changes to a high pressure warm liquid.

The warm liquid coolant continues onto the receiver/drier where it is filtered and desiccated, to remove any moisture, before passing through an outlet line to the thermostatic expansion valve.

TBR00082

RECEIVER DRYER The receiver/dryer (1) stores the liquid coolant to make sure that a steady flow to the expansion valve is maintained also under extremely different operating conditions. The drier contains a desiccant (molecular sieve) which absorbs any moisture within the system, and a filter which prevents the entry of foreign particles. NOTE: any moisture in the air conditioning system is extremely harmful. Moisture not absorbed by the dehydrator will circulate with the coolant and droplets may collect and freeze in the thermostatic expansion valve orifice. This action will block the coolant flow and stop the cooling action. Moisture will also react with coolant HFC 134a and the lubricant to form a corrosive acid. The desiccant can only absorb a limited amount of moisture before reaching saturation point. Because of this, after any system component replacement or repairs requiring entry into the system, the receiver/ dryer should be replaced.

TBR00083

SECTION 50 - CAB HEATING AND AIR CONDITIONING

EXPANSION VALVE The expansion valve (1) is located underneath the evaporator in the pressure line coming from the receiver/dryer and performs the following functions: - metering action (a metering orifice changes the liquid coolant from a high-pressure low-temperature liquid to a lowpressure, lower-temperature atomized liquid); - modulating action (a thermostatically controlled valve within the expansion valve body controls the volume of liquid coolant passing through the orifice and makes sure that the coolant is fully vaporized within the evaporator; the liquid coolant could damage the compressor reed valves or freeze the pistons); - control action (the valve responds to changes in the cooling requirements; when an increased cooling is required, the valve opens to increase the coolant flow, and when less cooling is required, the valve closes and decreases the coolant flow).

Operation All of the needed temperature sensing and pressure sensing functions are consolidated into this basic unit and no external tubes are required for these purposes. The coolant from the condenser and receiver dryer enters the thermostatic expansion valve as a high pressure warm liquid. Upon passing through the ball and spring controlled metering orifice, the pressure and temperature of the coolant is reduced and the coolant leaves the thermostatic expansion valve as a low pressure, lower temperature atomized liquid. The atomized liquid now passes through the evaporator where it absorbs heat before returning via the expansion valve to the compressor as a warm low pressure vapour. There are two coolant passages in the valve. One passage is in the coolant line from the condenser to the evaporator and contains the ball and spring type orifice valve.

SECTION 50 - CAB HEATING AND AIR CONDITIONING The other passage is in the coolant line from the evaporator to the compressor and contains the valveâ&#x20AC;&#x2122;s temperature sensing element. Liquid coolant flow from the condenser and receiver dryer is controlled by a push-rod forcing the orifice valve ball off its seat and the spring exerting pressure on the ball to keep it on its seat. During stabilized (vehicle shutdown) conditions, the pressure on the bottom of the expansion valve diaphragm rises above the pressure on the top of the diaphragm allowing the valve spring to close the orifice. When the system is started, the pressure on the bottom of the diaphragm lowers rapidly, allowing the orifice to open and metre atomized liquid coolant to the evaporator where it begins to vaporize. Suction from the compressor draws the vaporized coolant out of the evaporator and back through a gallery in the top of the valve which asses the temperature sensor. The temperature sensor reacts to variations in coolant gas pressure returning from the evaporator. When heat from the passenger compartment is absorbed by the coolant the pressure of the gas increases causing a differential pressure above and below the temperature sensor diaphragm. The diaphragm reacts to this pressure differential and a push rod forces the ball in the expansion valve orifice further off its seat. This reaction allows an increase in the atomized coolant to flow through the valve, to the evaporator, so that more heat can be absorbed by the air conditioning system. Similarly when the temperature of the gas returning from the evaporator decreases the pressure of the gas decreases. This causes the diaphragm to react accordingly and allow the ball in the orifice to move closer towards its seat thus reducing the flow of coolant through the valve to the evaporator.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

EVAPORATOR The evaporator is located beneath the cab seat and consists of a number of turns of continuous coils mounted in a series of thin cooling fins to provide a maximum of heat transfer in a minimum amount of space. Low temperature coolant in the evaporator absorbs heat from the hotter air in the operatorâ&#x20AC;&#x2122;s compartment, thereby cooling the air.

An intake grille is located on the left side of the seat base. A portion of the air flow will recirculate through the evaporator.

AIR FILTER The blower fan draws warm air from outside the cab through the intake filter (2) below the cab floor and a ready cooled dehumidified air through the recirculation grille (1). The air passes over the evaporator then into the cab through the six louvered diffusers. Two diffusers are located on the front instrument panel to direct air onto the windshield. Two are located at the base of the rear posts to direct air onto the rear window. Two additional vents are located at the front and rear of the seat base to direct air at the operatorâ&#x20AC;&#x2122;s feet.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

TROUBLESHOOTING AND TESTING Overhaul of the air conditioning system should only be undertaken by a certified specialist refrigeration engineer using a comprehensive air conditioning test kit, including a gas leak detector, suitable for HFC 134a coolant gas.

S WARNING S Before dismantling an air conditioning system for repair the gas within the system must be discharged and recovered using a certified recovery unit designed for the type of coolant gas used in the system. NEVER release coolant gas into the atmosphere. ALWAYS wear safety goggles and gloves when servicing any part of the air conditioning system. To prevent the entry of any foreign material, it is necessary to observe some precautions. Ensure all tools, gauges, hoses and replacement parts are kept clean and dry and are suitable for the type of coolant gas used in the system.

PRELIMINARY CHECKS Always conduct the preliminary fault finding checks before performance testing the system. Run the engine at 1000-1200 rpm for 10 minutes with the air conditioner set to maximum cooling and the blower at high speed. Check that the heater temperature control is switched OFF. Check that the blower fan is operating at all speeds. Check that the compressor clutch engages when the temperature control switch is turned from OFF to ON position. A clicking sound indicates the clutch is engaging. If the clutch fails to operate it may indicate an electric problem in the high low pressure cut out switches or malfunction of the electric drive clutch on the compressor. Check the engine cooling fan is drawing cool air through the condenser.

Clean all hoses and fittings before disconnecting.

Check the compressor drive belt tension.

Cap or plug all openings when disconnected.

Check the condenser core and grid is clean and free of obstruction.

When adding lubricating oil to the system always uncap and re-cap the oil container immediately before and after use. Always ensure the oil remains free of moisture.

Check the cab air filter is clean and free of obstruction. Check the evaporator fins are not plugged or excessively dirty.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

1. Low side gauge

6. Test hose to low side service connector

2. High side gauge

7. Shut-off valve

3. Shut-off valve

8. Low pressure (suction) side service valve

4. Test hose to high side service connector

9. High pressure (discharge) side service valve

5. Centre hose (not used) Performance testing the air conditioning system The manifold gauge set is the most important tool used in testing and servicing the air conditioning system. NOTE: for Dealers who posses the latest design level of coolant recovery, recycling and recharging station, these gauges are an integral part of the machine. The following instructions for performance testing the air conditioning system is based on the use of the gauge set shown. The principal of operation is however similar when testing the system using a recovery and recharging station with integral gauges. When using this type of equipment always consult the manufacturers operating instructions.

Operating precautions IMPORTANT: always ensure the shut-off valves are closed (turn clockwise until seated) during all test operations. In the closed position, coolant circulates around the valve stems to the gauges. Therefore, when the manifold gauge set is connected into a system, pressure is registered on both gauges. - NEVER open the HIGH SIDE shut off valve when the system is operating. - ALWAYS open the LOW SIDE shut off valve when adding coolant.

SECTION 50 - CAB HEATING AND AIR CONDITIONING Attaching the gauge set to the loader backhoe

S WARNING S To avoid personal injury, stop the loader backhoe engine during connection of the manifold gauge set. Check that the gauge set shut off valves are closed (turned fully clockwise). Connect the high side gauge hose (normally red) to the high pressure (discharge) side service valve and the low side gauge hose (normally blue) to the low pressure (suction) side service valve on the loader backhoe. Ensure the hose connections are fully tightened. IMPORTANT: prior to connection of the manifold gauge set, identify the suction (low pressure) and discharge (high pressure) service gauge ports. The high pressure service valve is always in the line from the compressor to the condenser. The high and low pressure service valves on the loader backhoe are spring loaded valve and will be automatically opened when the test hose is connected. NOTE: the test hose must incorporate a valve depressor to actuate this type of valve. The service valves have a protective cap. This cap must be removed for test gauge connections and replaced when service operations are completed. Test procedure After the manifold gauge set has been connected and before pressure tests can be made, the system must be stabilized as follows: Apply the parking brake, check the gearshift levers are in neutral and close the cab windows and doors.

Re-check that both the high and low side shut off valves on the manifold gauge set are fully closed. Run the engine at 1000 ÷ 1200 rpm. Turn the heater temperature control OFF. Operate the system at maximum cooling, with the blower fan at high speed for 10 minutes to stabilize all components. Check the manifold low pressure gauge reading is within the specified range of approximately 0.28 ÷ 2.48 bar (4.06 ÷ 35.97 psi). Check the manifold high pressure gauge reading and compare the reading to the pressure indicated on the pressure temperature chart below. Measure and compare the temperature of conditioned air entering the cab through the louvered air diffusers with the ambient air at the air intake filters on the outside of the cab. If the system is operating correctly the conditioned air entering the cab should be 6 - 9 °C (42.8 - 48.2 °F) cooler than the ambient temperature of the outside air. If it is confirmed that the system is not operating correctly refer to the fault diagnostic charts and performance test gauge reading examples on the following pages for possible corrective action.

S WARNING S A significant amount of coolant vapour may have condensed to a liquid at the service fitting at the high side of the compressor. Use a cloth or other protective material when disconnecting the manifold hose from this fitting to prevent personal injury to hands and face.

APPROXIMATE HIGH PRESSURE GAUGE READINGS Ambient air temperature

High pressure gauge reading

°C (°F)

bar (psi)

27 (80.6)

10.0 / 11.6 (145 / 168)

29 (84.2)

11.2 / 12.7 (162 / 184)

32 (89.6)

12.3 / 13.8 (178 / 200)

35 (95)

13.3 / 15.2 (193 / 220)

38 (100.4)

14.5 / 16.7 (210 / 242)

41 (105.8)

16.0 / 18.3 (232 / 265)

43 (109.4)

17.3 / 20.0 (251 / 290)

SECTION 50 - CAB HEATING AND AIR CONDITIONING

PERFORMANCE TEST DIAGNOSIS Pressure gauge values:

Low pressure - Low High pressure - Low

FAULT Evaporator air not cold.

CAUSE Low coolant charge.

ACTION Perform leak tests and repair. Drain the system. Charge system, re-test system.

Evaporator air warm.

Very low coolant charge.

Perform leak tests and repair. Drain the system. Charge system, re-test system.

Evaporator air cool but not sufficiently cold.

Expansion valve not permitting sufficient flow.

Check expansion valve as follows:

Low pressure switch cutting out.

Stuck valve.

Low pressure gauge should lower slowly.

Set for maximum cooling.

Expansion valve to evaporator tube shows considerable condensation or frost.

If expansion valve is defective:

Too cold to touch.

Drain the system.

Discharge the system. Replace the expansion valve. Charge the system. Re-test.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

PERFORMANCE TEST DIAGNOSIS CHART Pressure gauge values:

FAULT Evaporator air warm.

Low pressure - High High pressure - High CAUSE Improper operation of condenser.

Liquid line hot (condenser outlet to expansion valve tube). High pressure switch cutting out.

ACTION Inspect for dirty condenser restricting air flow and cooling. Check operation of condenser cooling fans. Repair or replace as needed.

Overcharged with coolant.

Check for overcharge as follows:

Air in the system.

Stop the engine. Recover and recycle the charge using correct recovery equipment. Recharge the system with the correct quantity of coolant, replacing any lost lubricant. Recheck performance of air conditioning system.

Evaporator air not cold.

Expansion valve allowing too much Check expansion valve as follows: coolant to flow through the evaporator. Set for maximum cooling. Low pressure gauge should lower slowly. If expansion valve is defective: Discharge the system. Replace the expansion valve. Drain the system. Charge the system. Re-test.

PERFORMANCE TEST DIAGNOSIS CHART Pressure gauge values:

FAULT Insufficient cooling.

Low pressure - Low High pressure - High CAUSE Restriction in liquid line.

ACTION Discharge the system. Replace receiver/drier. Inspect all lines and tubing from compressor outlet to expansion valve. Replace if needed. Drain the system. Charge the system. Re-test.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

PERFORMANCE TEST DIAGNOSIS CHART Pressure gauge values:

Low pressure - High High pressure - Low

FAULT

CAUSE

Evaporator air not cold.

Internal leak in compressor (reed valves, gasket, worn or scored piston rings or cylinder).

ACTION Discharge the system. Replace the compressor. Drain the system. Charge the system. Re-test.

PERFORMANCE TEST DIAGNOSIS CHART Pressure gauge values:

Low pressure - Normal High pressure - Normal

FAULT

CAUSE

Insufficient cooling. Low pressure reading does not fluctuate with changes in temperature control switch (pressure should lower until compressor cycles).

System low on charge. Air or moisture present in system.

ACTION Perform leak test. Discharge the system. Repair leaks. Replace receiver/drier. Check oil level. Drain the system.

Evaporator air not cold.

Charge the system. Re-test. PERFORMANCE TEST DIAGNOSIS CHART Pressure gauge values:

FAULT Compressor cycles ON and OFF too frequently.

Low pressure - High High pressure - Normal CAUSE Defective temperature control (thermostatic) switch.

ACTION Stop engine and shut off air conditioning. Replace temperature control switch. Re-test system and check compressor cycling.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

EXAMPLES OF MANIFOLD GAUGE READINGS AND INTERPRETATIONS The following examples show typical low and high pressure gauge readings obtained when performance testing the air conditioning system with an ambient temperature of 35 °C (95 °F). The recommended corrective action is based on a similar fault as identified in the performance test diagnosis charts. Performance test example 1

1. High side low 2. High side hand valve closed 3. High side hose connected to high side service connector

5. Low side hose connected to low side service connector 6. Low side hand valve closed 7. Low-pressure side low

4. Not used Problem

Leak test the system.

Little or no cooling.

Repair leaks. (Discharge and recover the coolant from the system; replace lines or components).

Cause Coolant slightly low. Conditions* Too low pressure on low-pressure side. The gauge should read 1 ÷ 2 bar (14.5 ÷ 29 psi).

Check compressor oil to ensure no loss. Drain the system. Charge the system. Performance test the system. Diagnostic

Too low pressure on high-pressure side. The gauge should read 13.3 ÷ 14.8 bar ((193 ÷ 215 psi)). Evaporator air not cold. Corrective procedures Performance test example 2

System coolant is low. May be caused by a small leak. NOTE: * test procedure based upon ambient temperature of 35 °C (95 °F). For proper high side gauge reading for other ambient temperatures, refer to the pressure temperature chart.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

1. High side low 2. High side hand valve closed 3. High side hose connected to high side service connector

5. Low side hose connected to low side service connector 6. Low side hand valve closed 7. Low-pressure side normal

4. Not used Problem

Corrective procedures

Insufficient cooling.

Leak test the system.

Cause

Discharge and recover the coolant from the system.

Refrigerant excessively low. Conditions* Low side pressure very low. The gauge should read 1 ÷ 2 bar (14.5 ÷ 29 psi). Too low pressure on high-pressure side. The gauge should read 13.3 ÷ 14.8 bar ((193 ÷ 215 psi)). Evaporator air warm. Low pressure switch cutting out.

Repair leaks. Check compressor oil to ensure no loss. Drain the system. Charge the system. Performance test the system. Diagnostic System coolant is extremely low. A serious leak is indicated. NOTE: * test procedure based upon ambient temperature of 35 °C (95 °F). For proper high side gauge reading for other ambient temperatures, refer to the pressure temperature chart.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Performance test example 3

1. High side normal 2. High side hand valve closed 3. High side hose connected to high side service connector

5. Low side hose connected to low side service connector 6. Low side hand valve closed 7. Low-pressure side low

4. Not used Problem

Corrective procedures

Insufficient cooling.

Leak test the system. Give special attention to the compressor seal area.

Cause Air in the system. Conditions* Low side pressure reading does not change when compressor cycles ON and OFF. High side pressure slightly high or slightly low. The gauge should read 13.3 ÷ 14.8 bar ((193 ÷ 215 psi)). Evaporator air not cold.

Discharge and recover the coolant from the system. Repair leaks. Replace receiver/drier. Check compressor oil to ensure no loss. Drain the system. Charge the system. Performance test the system. Diagnostic Air or moisture in system. System not fully charged. NOTE: * test procedure based upon ambient temperature of 35 °C (95 °F). For proper high side gauge reading for other ambient temperatures, refer to the pressure temperature chart.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Performance test example 4

1. High side low 2. High side hand valve closed 3. High side hose connected to high side service connector

5. Low side hose connected to low side service connector 6. Low side hand valve closed 7. Low side high

4. Not used Problem

Corrective procedures

Insufficient cooling.

Replace the compressor.

Cause

Diagnostic

Compressor malfunction.

Internal leak in compressor caused by worn or scored pistons, rings, or cylinders.

Conditions* Low side pressure too high. The gauge should read 1 ÷ 2 bar (14.5 ÷ 29 psi). Too low pressure on high-pressure side. The gauge should read 13.3 ÷ 14.8 bar ((193 ÷ 215 psi)). Evaporator air not cold.

NOTE: * test procedure based upon ambient temperature of 35 °C (95 °F). For proper high side gauge reading for other ambient temperatures, refer to the pressure temperature chart.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Performance test example 5

1. High side high 2. High side hand valve closed 3. High side hose connected to high side service connector

5. Low side hose connected to low side service connector 6. Low side hand valve closed 7. Low side high

4. Not used Problem Little or no cooling. Engine overheats in some cases. Cause Condenser not functioning properly. Conditions* Low side pressure too high. The gauge should read 1 ÷ 2 bar (14.5 ÷ 29 psi). High side pressure too high. The gauge should read 13.3 ÷ 14.8 bar ((193 ÷ 215 psi)). Liquid line hot. Evaporator air warm. High pressure switch cutting out. Corrective procedures Check belt. Loose or worn drive belts could cause excessive pressures in the compressor head. Look for clogged passages between the condenser fins and coil, or other obstructions that could reduce condenser airflow. If engine is overheating replace engine thermostat and radiator pressure cap.

At this point, operate the system and check its performance. If still unsatisfactory, proceed as follows: - discharge and recover the coolant from the system; - remove the condenser, clean and flush it to ensure a free flow of coolant. Otherwise, if the condenser appears to be particularly dirty or obstructed, replace it; - replace the receiver/drier; - drain the system and recharge it with the correct quantity of coolant; - carry out the performance test of the system. Diagnostic Lack of cooling caused by pressure that is too high on the high side, resulting from improper operation of condenser. (Coolant charge may be normal or excessive). NOTE: * test procedure based upon ambient temperature of 35 °C (95 °F). For proper high side gauge reading for other ambient temperatures, refer to the pressure temperature chart.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Performance test example 6

1. High side normal 2. High side hand valve closed 3. High side hose connected to high side service connector

5. Low side hose connected to low side service connector 6. Low side hand valve closed 7. Low-pressure side normal

4. Not used Problem

Corrective procedures

Little or no cooling.

Discharge and recover the coolant from the system.

Cause Large amount of air in system. Conditions* Low side pressure too high. The gauge should read 1 ÷ 2 bar (14.5 ÷ 29 psi). Too low pressure on high-pressure side. The gauge should read 13.3 ÷ 14.8 bar ((193 ÷ 215 psi)). Evaporator air not cold.

Replace receiver/drier. Drain the system. Charge the system. Performance test the system. Diagnostic Air in the system. Air and humidity contained in it contaminate the system: therefore, it will operate incorrectly. NOTE: * test procedure based upon ambient temperature of 35 °C (95 °F). For proper high side gauge reading for other ambient temperatures, refer to the pressure temperature chart.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Performance test example 7

1. High side high 2. High side hand valve closed 3. High side hose connected to high side service connector

5. Low side hose connected to low side service connector 6. Low side hand valve closed 7. Low side hide

4. Not used Problem Little or no cooling. Cause Improper operation of thermostatic expansion valve (stuck open). Conditions* Low side pressure too high. The gauge should read 1 ÷ 2 bar (14.5 ÷ 29 psi). High side pressure too high. The gauge should read 13.3 ÷ 14.8 bar ((193 ÷ 215 psi)). Evaporator air warm. Evaporator and suction hose (to compressor) surfaces show considerable moisture. Corrective procedures Check for sticking expansion valve as follows: - operate the system at maximum cooling; - check the low-pressure side gauge. The pressure should lower slowly.

If the test indicates that the expansion valve is defective, proceed as follows: - discharge and recover the coolant from the system; - replace the expansion valve; - drain the system; - charge the system; - carry out the performance test of the system. Diagnostic Thermostatic expansion valve is allowing too much coolant to flow through the evaporator coils. Valve may be stuck open. NOTE: * test procedure based upon ambient temperature of 35 °C (95 °F). For proper high side gauge reading for other ambient temperatures, refer to the pressure temperature chart.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Performance test example 8

1. High side low 2. High side hand valve closed 3. High side hose connected to high side service connector

5. Low side hose connected to low side service connector 6. Low side hand valve closed 7. Low-pressure side low

4. Not used Problem

- operate the system at maximum cooling;

Insufficient cooling.

- check the low-pressure side gauge. The pressure should lower slowly.

Cause Improper operation of thermostatic expansion valve (stuck open). Conditions* Low side pressure too low (zero or vacuum). The gauge should read 1 ÷ 2 bar (14.5 ÷ 29 psi). High side pressure low. The gauge should read 13.3 ÷ 14.8 bar ((193 ÷ 215 psi)). Evaporator air cool, but not sufficiently cold. Evaporator inlet pipe surface shows considerable moisture or frost. Low pressure switch cutting out. Corrective procedures Place finger on expansion valve to evaporator tube. If too cold to touch, proceed as follows:

If the previous procedure indicates that the expansion valve is defective, proceed as follows: - discharge the system; - replace the expansion valve; - drain the system; - charge the system; - carry out the performance test of the system. Diagnostic Expansion valve is not permitting a sufficient flow of coolant. May be caused by valve stuck in restricted or closed position. NOTE: * test procedure based upon ambient temperature of 35 °C (95 °F). For proper high side gauge reading for other ambient temperatures, refer to the pressure temperature chart.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Performance test example 9

1. High side low 2. High side hand valve closed 3. High side hose connected to high side service connector

5. Low side hose connected to low side service connector 6. Low side hand valve closed 7. Low-pressure side low

4. Not used Problem Little or no cooling. Cause Restriction in high side of system. Conditions*

If the test indicates that the expansion valve is defective, proceed as follows: - discharge and recover the coolant from the system; - replace the expansion valve;

Too low pressure on low-pressure side. The gauge should read 1 ÷ 2 bar (14.5 ÷ 29 psi).

- drain the system;

Too low pressure on high-pressure side. The gauge should read 13.3 ÷ 14.8 bar ((193 ÷ 215 psi)).

- carry out the performance test of the system.

NOTE: a normal or high reading of the high side pressure gauge under these conditions indicates the system is overcharged or the condenser or receiver/dryer is too small. Evaporator only slightly cool. Liquid line and receiver/dryer are cool to touch and show frost or considerable moisture. Corrective procedures Check for sticking expansion valve as follows: - operate the system at maximum cooling; - check the low-pressure side gauge. The pressure should lower slowly.

- charge the system; Diagnostic Thermostatic expansion valve is allowing too much coolant to flow through the evaporator coils. Valve may be stuck open. NOTE: * test procedure based upon ambient temperature of 35 °C (95 °F). For proper high side gauge reading for other ambient temperatures, refer to the pressure temperature chart.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Performance test example 10

1. High side normal 2. High side hand valve closed 3. High side hose connected to high side service connector

5. Low side hose connected to low side service connector 6. Low side hand valve closed

4. Not used

7. Low side gauge Compressor cycles on at 2.3 bar (33.36 psi) Compressor cycles off at 1.9 bar (27.56 psi)

Problem

Corrective procedures

Compressor cycles (cuts in and out) too rapidly.

Stop engine and shut off air conditioning.

Cause

Replace thermostatic switch with switch of same type.

Thermostatic switch defective. Conditions* Low-pressure side readings are too high during both ON and OFF compressor cycles and between cycles. Readings should be: 0.8 ÷ 1.0 bar (11.60 ÷ 14.50 psi) - OFF cycle 2.5 ÷ 2.7 bar (36.26 ÷ 39.16 psi) - ON cycle 1.7 ÷ 1.9 bar (24.65 ÷ 27.56 psi) - between cycles The pressure on the high-pressure side is normal. The gauge should read 13.3 ÷ 14.8 bar (193 ÷ 215 psi).

Make sure the switch’s temperature sensor is installed in the same position and depth (in evaporator core) as previous. Performance test the system. Diagnostic Defective thermostatic switch. NOTE: * test procedure based upon ambient temperature of 35 °C (95 °F). For proper high side gauge reading for other ambient temperatures, refer to the pressure temperature chart.

SECTION 50 - CAB HEATING AND AIR CONDITIONING LEAK TESTING, DISCHARGING AND CHARGING THE AIR CONDITIONING SYSTEM Leak testing To perform a leak test if coolant leakage is suspected, use a leak detector following the manufacturer’s instructions. Leak detectors use light or sound dependent upon the type used to alert the operator of a leak. If the leak detector’s sensitivity is adjustable, be sure you calibrate the detector according to the manufacturer’s instructions before use. When using a leak detector, keep in mind that a very slight amount of leakage in the compressor pulley area is normal and does not necessarily indicate a repair is required. When a leak is located, follow these steps. - Discharge the system using a certified coolant recovery system. - Repair the leak. - Drain the system. - Partially charge the system with 400 g (0.88 lb) of coolant. - Check system for leaks. - Fully charge the system. Always check the system for leaks as a final test after evacuating and before recharging. Refer to “Evacuating the system”. Discharging the system Legislation has been introduced banning the release of coolant into the atmosphere. Whenever overhauling the air conditioning system or performing other tasks which require the air conditioning system to be dismantled it is necessary to discharge the coolant gas before commencing repair. Before you can dismantle an air conditioning system for repairs, you must discharge and recover the coolant using a certified recovery unit in accordance with the manufacturer’s instructions. Shown is a combined coolant recovery, evacuation and recycling/charging station. This equipment removes HFC 134a coolant from the air conditioning system, recycles and recharges all in one hook up. The unit is designed to be used with the manifold gauge set built into the control panel.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

1. Built in manifold gauge set

3. Low side (suction) service valve (blue hose)

2. Recovery/recharging unit

4. High side (discharge) service valve (red hose)

Other recovery systems are available where the manifold gauges are not an integral part of the machine. When this type of equipment is used a separate manifold gauge set must be used.

ting and the blue (low side) hose to the low side (suction) fitting.

The following is a summary of the steps for discharging the system using a recovery/recycling unit.

S WARNING S Never discharge coolant gas into the atmosphere. Always wear safety goggles and gloves when working with coolant. Only use authorized coolant tanks. IMPORTANT: always follow the manufactures instructions when operating recovery equipment. Run the vehicle’s air conditioning system for a few minutes. Set up the recovery unit following manufacturer’s instructions. Ensure that the units red (high side) hose is connected to the high side (discharge) fit-

NOTE: if a unit requiring the manifold gauge set is being used, the low and high sides of the manifold set are connected to the low and high sides of the loader backhoe air conditioning system. The hose from the recovery unit is then connected to the manifold centre port. To recover coolant, open both high and low side valves on the control panel or the valves on the manifold gauge set if being used. Open the valves labelled “gas” and “liquid” on the recovery unit coolant tank. Plug in the unit’s power cord. Operate the recovery system in accordance with the manufacturers instructions. The compressor will shut off automatically when the recovery is complete.

SECTION 50 - CAB HEATING AND AIR CONDITIONING FLUSHING THE SYSTEM

1. High side gauge

5. Low side hose

2. High side shut-off valve

6. Low side shut-off valve

3. High side hose

7. Low side gauge

4. Centre service hose Air conditioning systems may occasionally become contaminated with solid particles. This contamination may be the result of allowing dirt to enter the system while it was open, from aluminium corrosion or sludge, or from disintegrated compressor reed plates. Contamination of this nature can result in plugged evaporators, condensers and expansion valves. Flush system with dry nitrogen. Each individual component must be flushed after disconnecting every hose fitting. The compressor and expansion valve can not be flushed, therefore, the compressor should be disassembled and cleaned or replaced and the expansion valve should be replaced. When flushing the system always replace the receiver/drier.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

NOTE: for flushing the air conditioning system, never use any solvent other than the special flushing solvent specifically produced for air conditioning systems. Always follow the manufacturer’s recommendations and directions for using the flushing equipment and solvent. Re-assemble and evacuate the system to remove air and moisture as described in “Evacuating the System”.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

DRAINING THE SYSTEM IMPORTANT: a system in which coolant has been recovered to facilitate repairs must be drained before new coolant is filled in. Air and moisture are removed by evacuating the system using a vacuum pump.

If a combined recovery/evacuation unit is to be used attach the unit to the air conditioning system in accordance with the manufacturers instructions. Be sure to read all installation and operating instructions carefully before starting the unit.

The automatic recycling, recharge and evacuation stations or evacuating and charging stations available throughout the air conditioning industry incorporate a vacuum pump within the assembly. If this type of equipment is not available a separate vacuum pump and manifold gauge set must be used.

After starting the evacuation cycle, note the low side gauge to be sure the system pulls down into a vacuum.

As the system is evacuated the boiling point of any moisture within the system is similarly lowered. As the vacuum increases the boiling reduces to below that of the ambient temperate and the moisture is subsequently boiled away. The relationship of system vacuum to the boiling temperature at which the water vapour is removed from the system is as follows: System vacuum

System vacuum

Temperature

In mercury

Cm (in) of mercury

Â°C (Â°F)

28.0

71.0 (28.9)

38 (100.4)

28.9

73.4 (29.0)

27 (80.6)

29.4

74.6 (29.4)

16 (60.8)

29.7

75.4 (29.7)

5 (41)

29.8

75.7 (29.8)

-7 (19.4)

29.9

75.9 (29.9)

-18 (-0.4)

NOTE: for every 305 m (1000 ft) above sea level, the vacuum gauge reading must be corrected by adding 2.54 cm (1 in) of mercury to compensate for the change in atmospheric pressure. IMPORTANT: be sure the system is completely discharged as coolant will damage the vacuum pump. If the manifold gauge set is being used connect the low and high sides of the manifold to the low and high sides of the vehicle air conditioning system as described for discharging the system. Connect the manifold centre hose to the vacuum pump suction port as per the manufacturers instructions. Fully open both the low and high side gauge shut off valves.

Time the evacuation for a minimum of 30 minutes from the point when lowest vacuum is attained. Thirty minutes later when the low side gauge attains the lowest steady vacuum, stop the evacuation process. NOTE: the vacuum pump achieves ultimate vacuum with the vented exhaust valve closed. Do not evacuate too quickly as oil may be drawn from the system. Check the system by closing the gauge shut-off valves, turning the vacuum pump off and noting the low side gauge reading. A loss of more than 5 cm (1.97 in) of vacuum in 5 minutes indicates either a leak or moisture in the system. If the gauge needle remains stationary and the vacuum is maintained for 3-5 minutes, close both the high and low side manifold hand valves, turn off and disconnect the centre hose from the pump. The system is now ready for charging. If a leak is detected, charge the system with approximately 400 g (0.88 lb) of coolant, see charging the system and locate the leak using a leak detector. Once the leak is located discharge and recover the coolant in the system, repair the leak, then repeat the evacuation procedure.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

CHARGING THE SYSTEM IMPORTANT: make sure that there are no leaks in the system and that the system has been fully drained. Observe all safety recommendations when handling coolant HFC 134a, see â&#x20AC;&#x153;Precautions when Handling coolant HFC 134aâ&#x20AC;? in this Section. Ensure the charging unit is correctly connected to the loader backhoe air conditioning system in accordance with the manufacturers instructions. If a charging unit, in conjunction with the manifold gauge set is used, open the high and low side hand valves on the manifold. Charge the system with 1.35 kg (2.97 lb) of coolant as per the manufacturers instructions. If the charging rate becomes very slow close the high side valve carefully, start the loader backhoe and set engine speed to idle. Turn ON the air conditioning so that the compressor can pull the remainder of the coolant into the system.

If the coolant charge will not completely transfer to the air conditioning system, recover and recharge the system. Close the high and low side valves on the unit control panel, or on the gauge assy if being used, and test the air conditioning as described in the paragraph relevant to the performance test of the air conditioning system. NOTE: after charging a system use the following start up procedure to ensure the lubricating oil is properly dispersed around the system. - Ensure air conditioning is switched OFF. - Start the engine and bring speed down to idle. - Turn the air conditioning ON and allow system to operate for at least one minute before increasing engine speed.

1. Built in manifold gauge set

3. Low side (suction) service valve (blue hose)

2. Recovery/recharging unit

4. High side (discharge) service valve (red hose)

SECTION 50 - CAB HEATING AND AIR CONDITIONING OVERHAUL

S WARNING S Before disconnecting components in the air conditioning system the coolant gas must be discharged and recovered using a certified recovery system. Refer to Discharging the system. Do Not discharge the gas into the atmosphere. If an air conditioning component is to be replaced during a system overhaul it is necessary to drain any coolant oil that has collected in the component being replaced into a clean calibrated container. A volume of clean coolant oil equivalent to that removed from the replaced component must then be added to the new item before being installed onto the loader backhoe. Upon completion of the repair evacuate, recharge, leak test and performance test the system to ensure correct operation.

EXPANSION VALVE The expansion valve is not a serviceable item and must be replaced if defective. Fully discharge the air conditioning system. Remove the seat to gain access to the valve. To gain access to the expansion valve partially lift the evaporator core from its position in the cab floor. Remove the screw securing the inlet and outlet connections to the valve and pull valve from tubing. Replace the O-ring seals and lubricate with coolant oil prior to installing the valve using disassembly procedure in reverse. Evacuate, leak test and recharge the system.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

EVAPORATOR Discharge and recover coolant gas using certified recovery systems. Remove the seat and cover plate to reveal evaporator assembly (1). Remove temperature cycling control thermocouple. Disconnect tubing to expansion valve. Remove evaporator. Check the evaporator assembly fins for damage. Straighten fins if necessary. Clean the evaporator core of all foreign material to be sure it is free of obstructions. Check the evaporator assembly for indications of coolant leakage. If damage or leaks are evident, replace the evaporator core. If a new evaporator is to be installed drain the coolant oil in the evaporator into a clean calibrated container. Measure the quantity of oil obtained and add the same quantity of new coolant oil directly into the replacement evaporator core. Install evaporator using disassembly procedure in reverse. Evacuate, leak test and recharge the system. ADJUSTING SENSOR OF AIR CONDITIONER TEMPERATURE Remove the seat mounting plate. The temperature adjusting sensor (2) is mounted to the side of the blower motor assembly. Carefully pull and disconnect the switch wiring at the connector. Remove temperature control switch and replace as required.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

LOW-PRESSURE CUT-OUT SENSOR With the engine OFF check continuity across the switch contacts. If the sensor (1) indicates an open circuit, replace it as described below.

IMPORTANT: the sensor cannot be replaced without discharging the system. Remove the sensor by unscrewing it from the valve. Replace with new switch and connect to harness.

TBR00081

BLOWER MOTOR ASSEMBLY The blower motor (2) can if required be removed without discharging the system as follows: Remove the cab seat mounting plate. NOTE: take care not to damage hoses during this operation. If the cab heater hoses restrict movement of the housing drain the heater assembly and disconnect the hoses. Disconnect the motor wiring connector block. Remove the remaining motor securing screws and withdraw motor. Re-assembly follows the disassembly procedure in reverse. RECEIVER DRYER The receiver/dryer (1) cannot be overhauled and must be replaced as an assembly. The receiver/ dryer assembly should be replaced if it is suspected that moisture is in the system. The receiver dryer must also be replaced if the system has been discharged and the air conditioning joints disconnected. Discharge and reclaim coolant gas using certified recovery systems. Disconnect the hoses and switch and remove the dryer from the loader backhoe. Drain the coolant oil from the receiver dryer into a clean calibrated container. Measure the quantity of oil obtained and add the same quantity of new coolant oil directly into the new item. Cap and plug all fittings to prevent any dirt entering the system. Install a new receiver dryer.

TBR00083

SECTION 50 - CAB HEATING AND AIR CONDITIONING

CONDENSER

Loosen and remove the fixing screws (2). Remove the front grill (1).

TBR00123

Unscrew and remove the nut (3). Remove the horn (4). Unscrew and remove the nut (5). Remove the fuel cooler (6).

Unscrew and remove the fixing upper nut (7) and loosen the fixing lower nut. Move the dryer filter (8) to the right side.

Unscrew and remove the nuts (9).

SECTION 50 - CAB HEATING AND AIR CONDITIONING Move the condenser (10) forward. Clean the condenser (10) by compressor air.

AIR FILTER Before servicing the filter (1), switch off the blower and close all windows and one door. Slam the final door closed and the resulting back pressure will dislodge most of the loose dirt from the underside of the filter. Remove the filter (1) and clean it by blowing with compressed air not exceeding 2 bar (29 psi). IMPORTANT: make sure you protect your face before using compressed air. Blow the dust from the upper surface through the element to the lower surface. Hold the nozzle at least 300 mm (11.8 in) from the element to prevent damage to the paper pleats. Clean both filter chambers with a damp, lint free cloth. Replace the filter element with the rubber seal uppermost and re-install the covers.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

COMPRESSOR TECHNICAL SPECIFICATIONS Basic compressor specifications Displacement ......................................................................................................................... 155 cm3 (9.46 in3) Weight ............................................................................................................................................ 9.9 kg (22 lb) Oil type ....................................................................................................................................................... SP15 Rotation.............................................................................................................................. CW (Clockwise only) Compressor clutch and pulley air gap............................................................... 0.9 ÷ 0.8 mm (0.035 ÷ 0.031 in) Belt tension Measure at the widest gap ...... 10 mm (0.40 in) deflection with 1 kg (2.2 lb) force applied midway between the pulleys Speed rating Constant............................................................................................................................................... 6000 rpm Downshift ............................................................................................................................................. 8000 rpm Tightening torque M8 armature retaining nut .....................................................................................17.7 ± 2.9 Nm (13 ± 2.1 lbf·ft) M6 cylinder head screws.......................................................................................13.7 ± 2.9 Nm (10 ± 2.1 lbf·ft) M8 cylinder head screws....................................................................................34.3 ± 4.9 Nm (25.3 ± 3.6 lbf·ft) Clutch dust cover screw ...............................................................................................9 ± 2 Nm (6.6 ± 1.5 lbf·ft) Oil filler plug .......................................................................................................19.6 ± 4.9 Nm (14.5 ± 3.6 lbf·ft)

SECTION 50 - CAB HEATING AND AIR CONDITIONING

REMOVAL AND INSTALLATION

7 11 4 2

TBR00124

2. Stud dowel ring

9. M8x35 hex screw [tightening torque 26÷31 Nm (19÷23 lbf·ft)]

3. Compressor air conditioning

10. M10x70 hex screw

4. Bracket idler support

11. Nut

5. Pulley idler

12. M8x50 hex screw [tightening torque 37÷43 Nm (27÷38 lbf·ft)]

1. Bracket air conditioning mounting

6. Belt 7. Washer 8. M8x100 hex screw [tightening torque 37÷41 Nm (27÷30 lbf·ft)]

13. Stud dowel ring 14. Bracket air conditioning brace 15. M10x25 hex screw

SECTION 50 - CAB HEATING AND AIR CONDITIONING

REMOVAL Discharge the air conditioning system. Disconnect the wiring harness of the compressor (3) from the wiring harness of the engine. Disconnect tubing to compressor. Remove the nut (11) and screw (10). Remove the screws (9) of the support bracket (4) belt tensioner (5). Remove the belt (6). Remove the screws (12), washers (7) and stud (2). Remove the support (1) complete with compressor (3). Disassembly the compressor (3) from support (1) removing the screws (8) and stud (13).

INSTALLATION To install, follow the removal procedure in reverse order. Torque the fastening screws to 37 ÷ 43 Nm (27 ÷ 31.7 lbf·ft). NOTE: it is recommended that a new receiver/drier assembly is installed after any system component replacement or any repair that requires entry into the system. Drain the oil from the new compressor to be fitted into a clean container, or if the old compressor is to be refitted, obtain a new can of coolant oil. Calculate the amount of oil to be installed and refill the compressor. Reconnect the hoses to the compressor and tighten all screws and hoses.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

BELT ADJUSTMENT The compressor drive belt (1) can be tensioned by rotating the bracket idler support (2). Slacken the bracket idler support screw and adjust the arm to a belt deflection of 16 mm (0.63 in). Once adjusted re-torque the bracket idler support screws to 37 ÷ 41 Nm (27 ÷ 30 lbf·ft).

1 2 TBR00089

OVERHAUL Before any internal repair is done, drain the oil from the compressor: Remove the oil plug and drain as much oil as possible into a suitable container. Remove the caps (if present) from suction and discharge ports. Drain oil from the section and discharge ports into suitable container while turning the shaft clockwise only with a socket wrench on the armature retaining nut.

Measure and record the amount of oil discharged. Inspect the oil for signs of contamination such as discoloration of foreign material.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

DISASSEMBLY AND ASSEMBLY CLUTCH

1. Screw

6. Cover

2. Dust cover

7. Snap ring

3. Nut

8. Rotor

4. Plate

9. Snap ring

5. Shims

10. Coil

Disassembly All clutch servicing should be done with the compressor removed from the vehicle. Support the compressor. If using a vice, do not hold on to the housing. If a dust cover (2) is present, remove the 3 or 6 screws (1) holding it in place and remove the cover. If auxiliary sheet metal pulley is present, remove the screws holding it in place. Then remove pulley. Attach the tool to the cover in front of the clutch disc and remove the nut (3) using a wrench.

SECTION 50 - CAB HEATING AND AIR CONDITIONING Using the front plate tool and a prybar, hold the clutch plate stationary. Place the screw into the tool and by tightening the screw onto the end of the shaft the front plate will be extracted from the shaft. If shims (5) are above shaft key, remove them now. If shims (5) are below shaft key, the key and bearing dust cover (if present) must be removed before shims can be removed. Remove dust cover (6) (if present). Use caution to prevent distorting cover when removing it. Remove shaft key by tapping loose with a flat blade screwdriver and hammer. Remove shims (5). Use a pointed tool and a small screwdriver to prevent the shims from binding on the shaft. Remove the snap ring (7), remove the shaft key and lift the pulley assembly from the compressor.

Check the rotor assembly (8) for wear and replace the assembly as necessary.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Remove the field coil wire retaining clip.

Remove the snap ring (9) of the coil.

Lift the coil (10) from the housing and replace as required.

SECTION 50 - CAB HEATING AND AIR CONDITIONING Assembly Install the coil (10), making sure that the wire is located behind the clip on the outside of the body and that the snap ring (9) is located in the groove.

Position the rotor (8) on the housing hub and carefully slide the rotor (8) down the shaft.

Install the snap ring (7).

Reposition the plate (4) and the retaining nut (3). Tighten the nut to the prescribed torque of 18 Nm (13 lbfÂˇft).

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Check the clearance between the plate (4) and the rotor (8). This should be consistent around the circumference and be between 0.4 รท 0.8 mm (0.015 รท 0.031 in). NOTE: if the air gap is not consistent, lightly pry up on the counter weighted front plate at the low spots or lightly tap down at the high spots.

If the clearance is not within specification, the shims (5) under the front plate should be added or removed, until the correct clearance is obtained. NOTE: new shims are available in the following sizes: 1.00, 0.50 and 0.13 mm (0.04, 0.02 and 0.005 in).

Reposition the dust cover (2), if present, and torque the 3 or 6 screws (1).

SECTION 50 - CAB HEATING AND AIR CONDITIONING COMPRESSOR

1. Shaft key

6. Gasket

2. Ring

7. Plate

3. Snap ring

8. Head gasket

4. Gasket

9. Cylinder head

5. Plug

10. Screw

Disassembly Remove the armature plate, as detailed in the steps of clutch disassembly. Remove the shaft key (1) and the ring (2) to expose the snap ring (3). Remove the snap ring (3).

Insert the seal (A) remover/installer tool. Turn the tool to engage the slots in the seal. Pull up to remove and discard the seal (4).

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Assembly Thoroughly clean the seal cavity in the hub. Use â&#x20AC;&#x153;lint freeâ&#x20AC;? cloth only. Ensure the new shaft seal O-ring is installed onto the seal assembly. Dip the new seal assembly in clean coolant oil and attach to the seal remover/installer tool.

Completely insert the new seal (4). NOTE: if remover/installer tool (A) is not available, position the seal squarely in the hub and tap gently until fully seated.

Install the snap ring (3). If the snap ring has a bevelled edge, this should face outwards.

Install the new ring (2) and push into position.

SECTION 50 - CAB HEATING AND AIR CONDITIONING Position the shims over the shaft and refit the shaft key. Reinstall the plate as described in clutch reassembly.

CYLINDER HEAD Disassembly Drain the coolant oil from the compressor into a clean graduated container. Measure and record the quantity of oil obtained. This information is required during installation of the new or overhauled unit. Remove the six cylinder head screws (10) and using a hide mallet, gently tap the cylinder head (9) free. The use of a gasket scraper may also be required to free the cylinder head from the compressor body.

If the plate (7) and/or cylinder head are to be reused, carefully remove the gasket (8) using a suitable scraper.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

Gently pry the plate (7) free from the cylinder block and remove the gasket (6). Inspect the plate (7) for damage.

Assembly Coat the top of the valve plate with clean coolant oil and reassemble the cylinder head following the removal procedure in reverse order. When installing the gaskets and valve plate ensure they are correctly positioned over the locating pins in the cylinder block. Install the cylinder head screws and tighten using the sequence shown. Torque initially to 20 Nm (15 lbfÂˇft). When the overhaul is complete add to the compressor a volume of oil equivalent to that drained prior to disassembly, or as the reclaim measured fill.

SECTION 50 - CAB HEATING AND AIR CONDITIONING

TROUBLESHOOTING FAULT Unusually high suction pressure with unusually low discharge pressure.

CAUSE Valve plate test.

ACTION Replace or repair: Broken head or block gasket. Broken or deformed reed valve. Foreign substance under reed valve or gasket.

Unusually low suction and discharge pressure.

Check for low coolant charge.

Replace or repair: Shaft seal leak.

Compressor leak check.

Cylinder head leak. Gasket leak.

Leak check and diagnostic system.

Oil filler plug leak. Cracked cylinder block. Front housing O-ring leak.

Intermittent or inoperative.

Check belt tension.

Replace.

Check clutch air gap.

Adjust air gap.

Check clutch volts, amps, coil lead wire.

Replace or repair: Broken lead wire. Internal clutch coil defect. System ground (see system manual).

Difficult start.

Shaft turning smoothness test.

Internal compressor failure.

Clutch engaged.

Check compressor mounting components.

Replace or repair.

Check engine components.

Replace or repair.

Check for intermittent or slipping clutch.

Adjust air gap - defective coil.

Check for proper coolant charge.

Recharge and recheck.

Check clutch bearing.

Replace rotor / armature assembly.

Oil level procedure.

Fill to proper level.

Shaft turning smoothness test.

Internal compressor failure.

Remove valve plate and inspect.

Replace or repair: Broken discharge valve reed or retainer. Broken suction valve reed. Broken gasket.

â&#x20AC;&#x153;Chatteringâ&#x20AC;? disengaged clutch.

Check air gap.

Replace or repair: Adjust air gap. Defective clutch pulley or front plate.

66 NOTES:

SECTION 50 - CAB HEATING AND AIR CONDITIONING

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 55 - ELECTRIC SYSTEM ELECTRIC DIAGRAMS .................................................................................................................................... 3 ELECTRIC DIAGRAMS - POWERSHUTTLE CAB (B100C - B100CTC - B110C - B110CTC)................... 3 ELECTRIC DIAGRAMS - POWERSHIFT CAB (B110C - B110CTC) ........................................................ 21 ELECTRIC DIAGRAMS - 4WS POWERSHIFT CAB (B115C) .................................................................. 40 CONTROLS AND INSTRUMENTS ................................................................................................................ 59 FRONT INSTRUMENT PANEL ................................................................................................................. 59 SIDE INSTRUMENT CLUSTER PANEL (B100C - B100CTC - B110C - B110CTC - B115C)................... 62 SIDE INSTRUMENT CLUSTER (B100C - B100CTC - B110C - B110CTC - B115C) ............................... 64 ANTI-START SYSTEM .............................................................................................................................. 66 DIAGNOSTIC DISPLAY (B100C - B100CTC - B110C - B110CTC - B115C)................................................. 67 SYMBOLS.................................................................................................................................................. 69 SETUP MENU ........................................................................................................................................... 70 PROCEDURE ABOUT SELF TEST .......................................................................................................... 71 ON BOARD ERROR CODE RETRIEVAL ................................................................................................. 72 BACKLIGHTING AND DIMMING............................................................................................................... 73 WORK HOURS.......................................................................................................................................... 74 OPERATION.............................................................................................................................................. 75 WARNING SYSTEM.................................................................................................................................. 79 MAINTENANCE......................................................................................................................................... 80 WARNING MESSAGES ............................................................................................................................ 82 STARTING SYSTEM ...................................................................................................................................... 88 OPERATION.............................................................................................................................................. 88 STARTER MOTOR.................................................................................................................................... 91 TROUBLESHOOTING............................................................................................................................... 98 ALTERNATOR.............................................................................................................................................. 100 TECHNICAL SPECIFICATIONS.............................................................................................................. 100 OPERATION............................................................................................................................................ 100 COMPONENTS ....................................................................................................................................... 102 REMOVAL ............................................................................................................................................... 103

SECTION 55 - ELECTRIC SYSTEM PRELIMINARY CHECKS AND TESTS.................................................................................................... 104 TROUBLESHOOTING ............................................................................................................................. 113

BATTERY...................................................................................................................................................... 114 TECHNICAL SPECIFICATIONS.............................................................................................................. 114 OPERATION ............................................................................................................................................ 114 REPLACEMENT ...................................................................................................................................... 115 CHARGE AND ELECTROLYTE LEVEL CHECK .................................................................................... 116 CONNECTING A BOOSTER BATTERY ................................................................................................. 117 BATTERY MASTER SWITCH ................................................................................................................. 117 TROUBLESHOOTING .................................................................................................................................. 118

SECTION 55 - ELECTRIC SYSTEM

ELECTRIC DIAGRAMS ELECTRIC DIAGRAMS - POWERSHUTTLE CAB (B100C - B100CTC - B110C - B110CTC) FUSES AND RELAYS K5

Low and main beam relay

Inner front work light relay

Rear windshield wiper and washer

Inner rear work light relay

7.5 A

Engine stop, (+15) anti-theft device, parking brake, (+15) ECU power supply

Outer front work light relay

Outer rear work light relay

10 A

Stop light switch

K10

Reverse travel relay

F2A

15 A

Side instrument power supply, switch control lamps

K11

Forward travel relay

F2B

15 A

Air conditioning

K12

Direction indicator flashing

F2C

15 A

Pilot control

F3A

Rear right/front left side light, instrument backlighting

F3B

Rear left/front right side lights, number plate light

F3C

10 A

Front work light, ride control, 4x1 bucket, quick coupler switch

F4A

Forward travel, reverse travel, reverse travel alarm, gearshift control

F4B

10 A

Rear hammer button, sensor + bucket level solenoid valve, clutch disconnecting buttons and differential lock

F4C

10 A

Backhoe attachment lock, backhoe attachment travel lock, rear work light switch

F5A

15 A

Inner front work lights

F5B

10 A

Low beams

F5C

15 A

Main beams

F6A

7.5 A

Rotating beacon

F6B

7.5 A

(+15) hazard warning light power supply

F6C

7.5 A

Hand hammer, 4WD

F7A

10 A

(+30) power supply for hazard warning lights, horn

F7B

10 A

Electric socket, radio, cab lighting

F7C

Front windshield wiper

F8A

15 A

Outer rear work lights

F8B

15 A

Outer front work lights

F8C

15 A

Inner rear work lights

Forward-reverse travel control relay

Starting relay

Bucket level solenoid valve relay

Fuse No.

Rating

Function

F1A

15 A

F1B F1C

SECTION 55 - ELECTRIC SYSTEM

COMPONENTS NAME

DESCRIPTION

NAME

DESCRIPTION

E45

Front right work light (optional)

E46

Rear left work light (optional)

E47

Rear left work light

E50

Front left work light (optional)

E51

Front left work light

E121

Front left light

E133

Front right light

E144

Lock indicator lamp (optional)

Fuel level sensor

Main fuse

B24

Accelerator knob

F1E

Main fuse engine control unit

B25

Foot accelerator

F2E

Main fuse engine control unit

B26

Bucket sensor

F3E

Lambda + engine fuse

B30

Parking brake switch

F31

Diagnostic fuse

B33

Speed sensor

F112

Air conditioning fuse

B34

Port left microswitch

F402

Engine control unit fuse

B35

Port right microswitch

F403

+30 Electric fan fuse

B66

Transmission oil temperature sensor

F466

Glow control unit fuse

B69

Air conditioning pressure switch

Battery

B134

Stop light sensor

G67

Alternator

B159

Stop light sensor

Reverse travel alarm

B463

Water in fuel sensor

H26

Lock indicator lamp

B468

Lambda sensor

H32

Alarm (optional)

B474

Air temperature sensor

H121

Horn

B475

Diff. pressure sensor

K103

Starting

B476

Gas temperature sensor 1

K104

Engine start relay

B477

Gas temperature sensor 2

K105

Air conditioning relay

B805

Ride control pressure switch

K224

Differential lock relay

E15

Rotating beacon

K225

Parking brake relay

E16

Rotating beacon

K226

4WD relay

E17

Current intake

K227

Additional relay

E18

Cab lighting

K230

Hand hammer relay

E27

Number plate light

K231

Relay reset parking brake

E28

Rear left light

K232

Ride control relay

E29

Rear right light

K464

Main relay

E38

Rear right work light

Starter motor

E40

Rear right work light (optional)

M39

Rear windshield wiper-washer pump motor

E44

Front right work light

M41

Blower motor (optional)

Right speaker (optional)

Left speaker (optional)

A14

Antitheft unit

A53

Radio (optional)

A131

Flasher control unit

A461

Engine control unit

A469

Glow control unit

Air filter pressure switch

SECTION 55 - ELECTRIC SYSTEM

NAME

DESCRIPTION

NAME

DESCRIPTION

M49

Front windshield wiper-washer motor

Y202

Backhoe attachment travel solenoid valve

M56

Front windshield wiper-washer pump

Y203

M57

Rear windshield wiper-washer pump

Backhoe attachment travel lock solenoid valve

Y206

Bucket level solenoid valve

Y207

Delivery doubling solenoid valve

Y261

Hand hammer solenoid valve

M473 A/C clutch P1

Side instrument cluster panel

P125

Front instrument panel

S15

Start switch

S36

Rear hammer button (optional)

S120

Warning switch

S122

4WD switch

S123

CONNECTORS NAME

DESCRIPTION

General line - engine line interface connector

Hand hammer switch

Fuel level sensor connector

S126

Lights switch

Forward travel solenoid valve connector

S127

Rotating beacon switch

Reverse travel alarm connector

S130

Light-windshield wiper control lever

4WD solenoid valve connector

S132

Gearshift lever

General line - front line interface connector

S135

Rear travel lock switch (optional)

X10

S136

Menu scroll switch

General line - solenoid valve line interface connector

S137

Rear work light switch

X12

General line - cab interface connector

S138

Rear pump switch

X14

Antitheft connector

S139

Display enter switch

S140

Backhoe attachment travel lock switch (optional)

S141

X15.1 Start switch connector X15.2 Start switch connector X17

Seat connector (optional)

Front work light switch

X18

Cabin light connector

S142

Ride control switch (optional)

X21

Diagnostic connector

S204

Rear horn button

X24

Accelerator knob connector

S205

Clutch disconnect button

X25

Foot accelerator connector

S222

Differential lock switch

X26

Loader attachment sensor connector

S260

Clutch disconnect button

X27

Number plate light connector

SB1

Battery master switch

X28

Rear left light connector

ST3

4x1 bucket control lever

X29

Rear right light connector

X55

12 V socket

X31

Diagnostic fuse connector

Forward travel solenoid valve

X32

Optional buzzer connector

4WD solenoid

X33

Speedometer sensor connector

Y12

Proportional solenoid valves

X34

Ride control connector

Y34

Ride control solenoid valve

X35

Hand hammer solenoid valve connector

Y35

Hand hammer solenoid valve

X36

Y74

Differential lock solenoid valve

Backhoe attachment hammer button connector

Y200

Reverse travel solenoid valve

X37

Right rear light connector

X38

Work light connector

NAME

SECTION 55 - ELECTRIC SYSTEM

DESCRIPTION

NAME

DESCRIPTION

X39

Rear windshield wiper motor connector

X133

Right light connector

X40

Work light connector

X140

Diode bridge connector

X41

Blower motor connector

X144

Lock control lamp connector

X42

Front right direction indicator connector

X200

Reverse travel solenoid valve connector

X43

Rotating beacon connector

X201

Accelerator knob connector

X44

Work light connector

X202

Backhoe attachment travel connector

X45

Work light connector

X203

X46

Work light connector

Bucket transport lock solenoid valve connector

X47

Work light connector

X204

Horn switch connector

X48

Rear left light connector

X205

Clutch disengage button connector

X49

Front windshield wiper connector

X206

Bucket levelling connector

X50

Work light connector

X207

Delivery doubling solenoid valve connector

X51

Work light connector

X208

Bucket rapid attack connector

X52

Front left direction indicator connector

X211

Parking brake pressure switch connector

X53

Radio connector

X212

Parking brake solenoid valve connector

X54

Radio connector

X220

Air conditioning connector

X56

Windshield wiper motor connector

X222

Differential lock button connector

X57

Windshield wiper motor connector

X260

Declutch connector

X67

Alternator connector

X261

Backhoe attachment hammer solenoid valve connector

X69

Air conditioning pressure switch connector

X403

Blower fuse connector

X72

Pilot control connectors

X448

Minifuse connector

X74

Differential lock connector

X461

Engine control unit connector

X80

Rotating beacon connector

X462

Engine control unit connector

X81

Rotating beacon connector

X463

WIF connector

X87

General line - left side instrument cluster line interface connector

X466

Glow control unit fuse connector

X88

General line - right side instrument cluster line interface connector

X468

Lambda sensor connector

X469

Glow control unit

X110

Air conditioning connector

X470

Connect to engine harness

X111

Air conditioning connector

X471

Electric valve connector

X112

Air conditioning fuse connector

X473

A/C clutch connector

X121

Left light/horn connector

X474

Air temperature sensor connector

X124

Quick coupler connector

X475

Diff. pressure sensor connector

X125

Front instrument connector

X476

Gas temperature sensor 1 connector

X128

Optional connector

X477

Gas temperature sensor 2 connector

X130

Light / windshield wiper control lever connector

X496

Front harness - engine harness interface connector

X131

Flasher control unit connector

X800

X132

Gearshift lever connector

Front harness - engine harness interface connector

SECTION 55 - ELECTRIC SYSTEM

NAME

DESCRIPTION

X801

Front harness - general harness interface connector

X805

Ride control pressure switch connector

X810

Telematies connector

XST1 Side instrument connector XST2 Side instrument connector XC1

Fuse and relay control unit interface connector

XC2

Fuse and relay control unit interface connector

XC3

Fuse and relay control unit interface connector

XC4

Fuse and relay control unit interface connector

XC5

Fuse and relay control unit interface connector

XC6

Fuse and relay control unit interface connector

Diode connector

SECTION 55 - ELECTRIC SYSTEM

ENGINE LINE DIAGRAM (table 1)

TBR00143

SECTION 55 - ELECTRIC SYSTEM

ENGINE LINE DIAGRAM (table 2)

TBR00144

SECTION 55 - ELECTRIC SYSTEM

SOLENOID VALVE LINE DIAGRAM (table 1)

TBR00145

SECTION 55 - ELECTRIC SYSTEM

SOLENOID VALVE LINE DIAGRAM (table 2)

TBR00205

SECTION 55 - ELECTRIC SYSTEM

LIGHT LINE DIAGRAM

TBR00206

SECTION 55 - ELECTRIC SYSTEM

REAR WORK LIGHT LINE DIAGRAM

TBR00207

SECTION 55 - ELECTRIC SYSTEM

WORK LIGHT LINE DIAGRAM

TBR00149

SECTION 55 - ELECTRIC SYSTEM

WINDSHIELD WIPER AND WASHER LINE DIAGRAM

TBR00208

SECTION 55 - ELECTRIC SYSTEM

HEATER AND RADIO LINE DIAGRAM

TBR00153

SECTION 55 - ELECTRIC SYSTEM

AIR CONDITIONING LINE DIAGRAM

1 3 11

4 2 A

5 B

X110

X111 9 8 7 6 5 4 1 2 3

X111

+15

S45

2 1

5 6 7 8 9 4 3 2 1 10 11

X110

S45

X1 pos 11

+15

+30

TBR00154

Evaporator box

S45

11-way connector

3rd speed relay

Potentiometer

Fuse 25 A

Speed switch

Blower motor

Temperature switch

1 and 2 speed resistor

2-way waterproof connection

Electric cock

5-way waterproof connection

X111

9-way connector

X110

2-way power connector

SECTION 55 - ELECTRIC SYSTEM

FRONT INSTRUMENT

J11

J12

+12

J1 L1

S1 L2

J2 GND

+ILL

J10

TBR00141

REF.

FUNCTION

SIGNAL

+12

Positive (+12 V)

GND

Ground - Negative

Speedometer

Sensor

Main beam lamp (blue)

Positive

Side light lamp (green)

Positive

+ILL

Backlighting (+)

+ Light

Not used

J10

Not used

J11

Direction lamp (green)

J12

Not used

Positive

SECTION 55 - ELECTRIC SYSTEM

SIDE INSTRUMENT CLUSTER

TBR00142

INSTRUMENT Level fuel

Low fuel level (lamp) Speedometer Coolant temperature

Battery charge

Transmission temperature

INPUT

READING

TOLERANCE

320 Ohm

Empty - minimum reading

+0 / -2°

185 Ohm

Right - edge of red band

± 3° (Ref)

6.5 Ohm

Full - maximum reading

+4 / -0°

193 Ohm

± 5 Ohm

185 Ohm

OFF

± 5 Ohm

Can message

0-3000 RPM

± 50 RPM

Can message

Minimum reading 65 °C (149 °F)

± 3 °C (± 37.4 °F)

Can message

Left edge of red band 106 °C (223 °F)

± 2 °C (± 35.6 °F)

Can message

Maximum reading 112 °C (234 °F)

± 3 °C (± 37.4 °F)

11 V

Right edge of lower red band

± 3 °C (± 37.4 °F)

16 V

Edge of upper red band

± 3 °C (± 37.4 °F)

385 Ohm

Minimum reading 75 °C (167 °F)

± 3 °C (± 37.4 °F)

149 Ohm

Left edge of red band 105 °C (221 °F)

± 2 °C (± 35.6 °F)

112 Ohm

Maximum reading 115 °C (239 °F)

± 3 °C (± 37.4 °F)

SECTION 55 - ELECTRIC SYSTEM

CN1 PIN

FUNCTION

CN2 NOTE

Not used

Key on power

Wake up

In gear input

Digital input

Driving lights

Digital input

Front work lights

Digital input

Rear work lights

Digital input

Not used

Air conditioning pressure

Digital input

Display switch input

Digital input

Menu confirmation switch input

Digital input

UP switch input

FUNCTION

NOTE

Keep alive power

Not used

Can Bus line input

Not used

Buzzer

Starter motor lock

Not used

Digital input

Not used

DOWN switch input

Digital input

Fuel level gauge

Resistance

Cranking

Digital input

Thermistor

Clogged air filter

Digital input

Transmission temperature

Not used

Parking brake

Foot accelerator

0.5 รท 4.5 V

Not used

Accelerator knob

0.5 รท 4.5 V

Minimum confirmation switch

Digital input

Foot accelerator

Output monitored for diagnostics

Decelerator button

Digital input

Accelerator knob

Output monitored for diagnostics

Not used

Foot accelerator

Not used

Accelerator knob

Not used

Transmission oil pressure

Not used

Alternator excitation

Not used

Ground

Digital input

Need to fuse at 1 ampere without disconnect

40 Ohm relay = 300 mA

Digital input

SECTION 55 - ELECTRIC SYSTEM ELECTRIC DIAGRAMS - POWERSHIFT CAB (B110C - B110CTC) FUSES AND RELAYS Fuse No.

Rating

Circuit

K1A

Flasher

F1A

15 A

Rear windshield wiper and washer

Starting relay

F1B

7.5 A

(+15) anti-theft device

Bucket level solenoid valve relay

F1C

10 A

4WD, transmission disconnection and differential lock

Low and main beam relay

Inner front work light relay

F2A

15 A

Instrument power supply, switch lamps, pneumo-electric seat

Inner rear work light relay

Outer front work light relay

F2B

15 A

Air conditioning

Outer rear work light relay

F2C

15 A

Pilot control

K10

Optional relay

F3A

Rear right/front left side light, instrument backlighting

F3B

Rear left/front right side lights, number plate light

F3C

10 A

Front work light switch, ride control, 4x1 bucket

F4A

7.5 A

Stop light switch

F4B

10 A

Rear hammer button, bucket level solenoid valve + sensor

F4C

10 A

Backhoe attachment lock, backhoe attachment travel lock, backhoe attachment travel lock switch

F5A

15 A

Inner front work lights

F5B

10 A

Low beams

F5C

15 A

Main beams

F6A

15 A

Rotating beacon

F6B

7.5 A

(+15) hazard warning light power supply

F6C

7.5 A

Quick coupler

F7A

10 A

(+30) power supply for hazard warning lights, horn

F7B

10 A

Electric socket, radio, cab lighting

F7C

Front windshield wiper

F8A

15 A

Outer rear work lights

F8B

15 A

Outer front work lights

F8C

15 A

Inner rear work lights

SECTION 55 - ELECTRIC SYSTEM

COMPONENTS NAME

DESCRIPTION

NAME

DESCRIPTION

Right speaker (optional)

E44

Front right work light

Left speaker (optional)

E45

Front right work light (optional)

A14

Antithief unit

E46

Rear left work light (optional)

A53

Radio (optional)

E47

Rear left work light

A131

Flasher control unit

E50

Front left work light (optional)

A401

Transmission control unit

E51

Front left work light

A461

Engine control unit

E121

Front left light

A469

Glow control unit

E133

Front right light

Air filter pressure switch

E144

Lock indicator lamp

Fuel level sensor

General fuse

B24

Accelerator knob

F1E

ECU control unit fuse

B25

Foot accelerator

F2E

ECU control unit fuse

B30

Parking brake switch

F3E

Lambda + engine fuse

B26

Bucket sensor

F603

Blower fuse

B66

Transmission oil temperature switch

F31

Diagnostic socket fuse

B69

Air conditioning pressure switch

F112

Air conditioning fuse

B108

Transmission temperature sensor

F466

Glow control unit fuse

B109

Pressure switch

Battery

B112

Speed sensor

G67

Alternator

B463

Water in fuel sensor

Reverse travel alarm

B468

Lambda sensor

H26

Lock indicator lamp

B474

Air temperature sensor

H32

Buzzer (optional)

B475

Diff. pressure sensor

HA2

Horn

B476

Gas temperature sensor 1

K14

Transmission disconnect relay

B477

Gas temperature sensor 2

K103

Starting relay

B805

Ride control pressure switch

K104

Engine start relay

E15

Rotating beacon

K105

Air conditioning relay

E16

Rotating beacon

K225

Parking brake relay

E18

Cab lighting

K227

4WD switch control lamp relay

E27

Number plate light

K228

Additional relay

E28

Rear left light

K231

Reset parking brake relay

E29

Rear right light

K232

Ride control relay

E38

Rear left work light

K464

Main relay

E40

Rear left light (optional)

K230

Hand hammer relay

SECTION 55 - ELECTRIC SYSTEM

NAME

DESCRIPTION

NAME

DESCRIPTION

Starter motor

S301 Differential lock switch

M39

Rear windshield wiper motor

S400 Gearshift lever

M41

Blower motor (optional)

S205A Front horn button

M49

Front motor

S205B Clutch disconnect button

M56

Front windshield wiper motor

M57

Rear windshield wiper motor

X14

Antitheft unit

X15.2 Starter switch connector

M473 A/C clutch

X17

Seat microswitch (optional)

Side panel

X34

KM sensor connector

Front panel

X55

12 V socket

4x1 bucket control lever

X80

Beacon lamp connector

Battery master switch

X81

Beacon lamp connector

S15

Starting panel

X100 “Carraro” harness solenoid valve connector

S34

Left door switch

X111 “Carraro” harness RPM sender connector

S35

Right door switch

X112 A/C fuse connector

S36

Hand hammer button (optional)

X128 Optional

S120

Warning switch

X131 Flasher unit connector

S122

4WD switch

X142 Guide ride control lamp connector

S123

Hand hammer switch (optional)

X144 Switch block light connector

S124

Transmission automatic - manual operating switch

X222 Differential block light connector

S126 Lights switch S127 Rotating beacon switch S130 Light-windshield wiper control lever S134 Stop light switch

X448 Minifuse connector X462 Engine control unit connector X463 WIF connector X466 Glow control unit fuse connector X468 Lambda sensor connector

S135 Backhoe attachment travel lock switch (optional)

X469 Glow control unit connector

S136 Menu scroll switch

X470 Connect to engine harness

S137 Rear work light switch

X471 Electric valves connector

S138 Motor - rear windshield washer switch

X473 A/C clutch connector

S139 Display enter switch

X474 Air temperature sensor connector

S140 Backhoe attachment travel lock switch (optional)

X475 Diff. pressure sensor connector

S141 Front work light switch

X477 Gas tmperature sensor 2 connector

S142 Ride control switch (optional)

X496 Front harness - engine harness interface connector

S159 Stop light switch S204 Rear horn button

X476 Gas tmperature sensor 1 connector

X800 Front harness - engine harness interface connector

SECTION 55 - ELECTRIC SYSTEM

NAME

DESCRIPTION

NAME

DESCRIPTION

X23

General line - front instrument panel line interface connector

X24

Hand hammer connector

X25

Foot accelerator connector

X26

Bucket sensor connector

X27

Number plate light connector

X28

Rear left light connector

X29

Rear right light connector

X31

Flasher control unit connector

X32

Alarm connector (optional)

X35

Hand hammer connector

X36

Backhoe attachment hammer button connector

Y114 Differential lock solenoid valve

X37

Right rear light connector

Y202 Backhoe attachment travel solenoid valve

X38

Work light connector

Y203 Backhoe attachment lock solenoid valve

X39

Rear windshield wiper motor connector

Y206 Bucket level solenoid valve

X40

Work light connector

Y207 Delivery doubling solenoid valve

X41

Blower motor connector

Y209 Backhoe attachment hand hammer solenoid valve

X42

Front right direction indicator connector

X43

Rotating beacon connector

X44

Work light connector

X45

Work light connector

X46

Work light connector

X47

Work light connector

X805 Ride control pressure switch connector X810 Telematies connector Y12

4X1 bucket proportional solenoid valves

Y34

Ride control solenoid valve

Y35

Hand hammer solenoid valve

Y100 Forward travel solenoid valve Y101 Reverse travel solenoid valve Y102 PWM 1/3 solenoid valve Y103 PWM 2/4 solenoid valve Y104 Solenoid valve S13 Y105 Solenoid valve S24 Y113 4WD solenoid

CONNECTORS NAME X1

DESCRIPTION General line - engine line interface connector

Fuel level sensor connector

X48

Rear left light connector

Reverse travel alarm connector

X49

Front windshield wiper connector

General line - front instrument panel line interface connector

X50

Work light connector

X51

Work light connector

X10

General line - solenoid valve line interface connector

X52

Front left direction indicator connector

X12

General line - cab line interface connector

X53

Radio connector

X14

Antitheft connector

X54

Radio connector

X15.1 Starting key switch connector

X56

Front windshield wiper motor connector

X17

Seat connector (optional)

X57

Rear windshield wiper motor connector

X21

Diagnostic connector

X67

Alternator connector

X69

Air conditioning pressure switch connector

X72

Pilot control interface connectors

SECTION 55 - ELECTRIC SYSTEM

NAME

DESCRIPTION

NAME

DESCRIPTION

X87

General line - left side instrument cluster line interface connector

X402

Transmission solenoid valve line transmission line interface connector

X88

General line - left side instrument cluster line interface connector

X403

Transmission solenoid valve line transmission line interface connector

X101

“Carraro” line solenoid valve connector

X404

X102

“Carraro” line solenoid valve connector

Front instrument panel line - transmission line interface connector

X103

“Carraro” line solenoid valve connector

X405

Front instrument panel line - transmission line interface connector

X104

“Carraro” line solenoid valve connector

X406

Diode interface connector

X105

“Carraro” line solenoid valve connector

X407

Quick coupler connector

X108

“Carraro” line transmission temperature sensor connector

X408

Front instrument panel line - general line interface connector

X109

“Carraro” line pressure switch connector

X409

X110

Air conditioning connector

Front instrument panel line - transmission line interface connector

X113

“Carraro” line solenoid valve connector

X461

Engine control unit connector

X114

“Carraro” line solenoid valve connector

X603

Blower fuse connector

X121

Front instrument panel line / left light line / horn interface connector

XC1

Fuse and relay control unit interface connector

X125

Front instrument connector

XC2

X130

Light / windshield wiper control lever connector

Fuse and relay control unit interface connector

XC3

Fuse and relay control unit connector

X133

Front instrument panel line - right light line interface connector

XC4

Fuse and relay control unit interface connector

X201

Manual accelerator knob connector

XC5

Fuse and relay control unit connector

X202

Backhoe attachment travel connector

XC6

X203

Backhoe attachment lock connector

Fuse and relay control unit interface connector

X204

Horn button connector

X205

Transmission disconnect connector and horn button

X206

Bucket levelling connector

X207

Delivery doubling connector

X208

Quick coupler connector

X211

Parking brake pressure switch connector

X212

Parking brake solenoid valve connector

X220

Air conditioning connector

X301

Differential lock button connector

X400

Gearshift lever connector

X401

Transmission control unit connector

XST1 Side instrument connector XST2 Side instrument connector XX

Diode interface connector

SECTION 55 - ELECTRIC SYSTEM

ENGINE LINE DIAGRAM (table 1)

TBR00155

SECTION 55 - ELECTRIC SYSTEM

ENGINE LINE DIAGRAM (table 2)

TBR00156

SECTION 55 - ELECTRIC SYSTEM

SOLENOID VALVE LINE DIAGRAM (table 1)

TBR00209

SECTION 55 - ELECTRIC SYSTEM

SOLENOID VALVE LINE DIAGRAM (table 2)

TBR00210

SECTION 55 - ELECTRIC SYSTEM

LIGHT LINE DIAGRAM

TBR00211

SECTION 55 - ELECTRIC SYSTEM

REAR WORK LIGHT LINE DIAGRAM

TBR00212

SECTION 55 - ELECTRIC SYSTEM

WORK LIGHT LINE DIAGRAM

TBR00161

SECTION 55 - ELECTRIC SYSTEM

TRANSMISSION CONTROL UNIT LINE DIAGRAM

TBR00163

SECTION 55 - ELECTRIC SYSTEM

WINDSHIELD WIPER AND WASHER LINE DIAGRAM

TBR00213

SECTION 55 - ELECTRIC SYSTEM

HEATER AND RADIO LINE DIAGRAM

TBR00214

SECTION 55 - ELECTRIC SYSTEM

AIR CONDITIONING LINE DIAGRAM

1 3

2 A

5 B

X110

X111 9 8 7 6 5 4 1 2 3

X111

+15

S45

2 1

5 6 7 8 9 4 3 2 1 10 11

X110

+30

S45

X1 pos 11

+15

TBR00154

Evaporator box

S45

11-way connector

3rd speed relay

Potentiometer

Fuse 25 A

Speed switch

Blower motor

Temperature switch

1 and 2 speed resistor

2-way waterproof connection

Electric cock

5-way waterproof connection

X111

9-way connector

X110

2-way power connector

SECTION 55 - ELECTRIC SYSTEM

FRONT INSTRUMENT

J11

J12

+12

J1 L1

S1 L2

J2 GND

+ILL

J10

TBR00141

REF.

FUNCTION

SIGNAL

+12

Positive (+12 V)

GND

Ground - Negative

Speedometer

Sensor

Main beam lamp (blue)

Positive

Side light lamp (green)

Positive

+ILL

Backlighting (+)

+ Light

Not used

J10

Not used

J11

Direction lamp (green)

J12

Not used

Positive

SECTION 55 - ELECTRIC SYSTEM

SIDE INSTRUMENT CLUSTER

TBR00142

INSTRUMENT Level fuel

Low fuel level (lamp) Speedometer Coolant temperature

Battery charge

Transmission temperature

INPUT

READING

TOLERANCE

320 Ohm

Empty - minimum reading

+0 / -2°

185 Ohm

Right - edge of red band

± 3° (Ref)

6.5 Ohm

Full - maximum reading

+4 / -0°

193 Ohm

± 5 Ohm

185 Ohm

OFF

± 5 Ohm

Can message

0-3000 RPM

± 50 RPM

Can message

Minimum reading 65 °C (149 °F)

± 3 °C (± 37.4 °F)

Can message

Left edge of red band 106 °C (223 °F)

± 2 °C (± 35.6 °F)

Can message

Maximum reading 112 °C (234 °F)

± 3 °C (± 37.4 °F)

11 V

Right edge of lower red band

± 3 °C (± 37.4 °F)

16 V

Edge of upper red band

± 3 °C (± 37.4 °F)

385 Ohm

Minimum reading 75 °C (167 °F)

± 3 °C (± 37.4 °F)

149 Ohm

Left edge of red band 105 °C (221 °F)

± 2 °C (± 35.6 °F)

112 Ohm

Maximum reading 115 °C (239 °F)

± 3 °C (± 37.4 °F)

SECTION 55 - ELECTRIC SYSTEM

CN1 PIN

FUNCTION

CN2 NOTE

Not used

Key on power

Wake up

In gear input

Digital input

Driving lights

Digital input

Front work lights

Digital input

Rear work lights

Digital input

Not used

Air conditioning pressure

Digital input

Display switch input

Digital input

Menu confirmation switch input

Digital input

UP switch input

FUNCTION

NOTE

Keep alive power

Not used

Can Bus line input

Not used

Buzzer

Starter motor lock

Not used

Digital input

Not used

DOWN switch input

Digital input

Fuel level gauge

Resistance

Cranking

Digital input

Thermistor

Clogged air filter

Digital input

Transmission temperature

Not used

Parking brake

Foot accelerator

0.5 รท 4.5 V

Not used

Accelerator knob

0.5 รท 4.5 V

Minimum confirmation switch

Digital input

Foot accelerator

Output monitored for diagnostics

Decelerator button

Digital input

Accelerator knob

Output monitored for diagnostics

Not used

Foot accelerator

Not used

Accelerator knob

Not used

Transmission oil pressure

Not used

Alternator excitation

Not used

Ground

Digital input

Need to fuse at 1 ampere without disconnect

40 Ohm relay = 300 mA

Digital input

SECTION 55 - ELECTRIC SYSTEM

ELECTRIC DIAGRAMS - 4WS POWERSHIFT CAB (B115C) RELAY FUSES Fuse No.

Rating

Function

F1A

15 A

Rear windshield wiper and washer

F1B

7.5 A

(+15) anti-theft device

F1C

10 A

4WD, transmission disconnection and differential lock

F2A

15 A

Instrument power supply, switch lamps, pneumo-electric seat

F2B

15 A

Air conditioning

F2C

15 A

Pilot control

F3A

Rear right/front left side light, instrument backlighting

F3B

Rear left/front right side lights, number plate light

F3C

10 A

Front work light switch, ride control, 4x1 bucket, hydraulic speed control

F4A

7.5 A

Stop light switch

F4B

10 A

Rear hammer button, bucket level solenoid valve + sensor

F4C

10 A

Backhoe attachment lock, backhoe attachment travel lock, backhoe attachment travel lock switch

F5A

15 A

Inner front work lights

F5B

10 A

Low beams

F5C

15 A

Main beams

F6A

15 A

Rotating beacon

F6B

7.5 A

(+15) hazard warning light power supply

F6C

7.5 A

Quick coupler

F7A

10 A

(+30) power supply for hazard warning lights, horn

F7B

10 A

Electric socket, radio, cab lighting

F7C

Front windshield wiper

F8A

15 A

Outer rear work lights

F8B

15 A

Outer front work lights

F8C

15 A

Inner rear work lights

K1A

Flasher

Starting relay

Bucket level solenoid valve relay

Low and main beam relay

Inner front work light relay

Inner rear work light relay

Outer front work light relay

Outer rear work light relay

K10

Optional relay

SECTION 55 - ELECTRIC SYSTEM

COMPONENTS NAME

DESCRIPTION

NAME

DESCRIPTION

Right speaker (optional)

E29

Rear right light

Left speaker (optional)

E38

Rear left work light

A14

Antithief unit

E40

Rear left light (optional)

A53

Radio (optional)

E44

Front right work light

A95

Steering control unit

E45

Front right work light (optional)

A131

Flasher control unit

E46

Rear left work light (optional)

A401

Transmission control unit

E47

Rear left work light

A461

Engine control unit

E50

Front left work light (optional)

A469

Glow control unit

E51

Front left work light

Air filter pressure switch

E121

Front left light

Fuel level sensor

E133

Front right light

B24

Accelerator knob

E144

Lock indicator lamp

B25

Foot accelerator

General fuse

B26

Bucket sensor

F1E

ECU control unit fuse

B30

Parking brake

F2E

ECU control unit fuse

B66

Transmission oil temperature switch

F3E

Lambda + engine fuse

B69

Air conditioning pressure switch

F603

+ 30 electric fan fuse

B97

Front axle sensor

F31

Diagnostic socket fuse

B98

Rear axle sensor

F112

Air conditioning fuse

B108

Transmission temperature sensor

F466

Glow control unit fuse

B109

Pressure switch

Battery

B112

Speed sensor

G67

Alternator

B463

Water in fuel sensor

Reverse travel alarm

B468

Lambda sensor

H26

Lock indicator lamp

B474

Air temperature sensor

H32

Buzzer (optional)

B475

Diff. pressure sensor

HA2

Horn

B476

Gas temperature sensor 1

K14

Transmission disconnect relay

B477

Gas temperature sensor 2

K103

Starting relay

B805

Ride control pressure switch

K104

Engine start relay

E15

Rotating beacon

K105

Air conditioning relay

E16

Rotating beacon

K227

4WD switch control lamp relay

E18

Cab lighting

K230

Hand hammer relay

E27

Number plate light

K232

Ride control relay

E28

Rear left light

K464

Main relay

SECTION 55 - ELECTRIC SYSTEM

NAME

DESCRIPTION

NAME

DESCRIPTION

Starter motor

S204

Rear horn button

M39

Rear windshield wiper motor

S400

Gearshift lever

M41

Blower motor (optional)

S205A Front horn button

M49

Front motor

S205B Clutch disconnect button

M56

Front windshield wiper motor

X55

12 V socket

M57

Rear windshield wiper motor

Y12

4X1 bucket proportional solenoid valves

M473 A/C clutch

Y34

Ride control solenoid valve

Side panel

Y35

Hand hammer solenoid valve

Front panel

Y91

Steering solenoid valve

4x1 bucket control lever

Y92

4WS steering solenoid valve

Battery master switch

Y93

4WS crab steering solenoid valve

S15

Starting panel

Y94

2WS steering solenoid valve

S34

Left door switch

Y100

Forward travel solenoid valve

S35

Right door switch

Y101

Reverse speed solenoid valve

S36

Hand hammer button (optional)

Y102

PWM 1/3 solenoid valve

S120

Warning switch

Y103

PWM 2/4 solenoid valve

S122

4WD switch

Y104

Solenoid valve S13

S123

Hand hammer switch (optional)

Y105

Solenoid valve S24

S124

Transmission automatic - manual operating switch

Y113

4WD solenoid

Y114

Differential lock solenoid valve

S126

Lights switch

Y202

Backhoe attachment travel solenoid valve

S127

Rotating beacon switch

Y203

Backhoe attachment lock solenoid valve

S130

Light-windshield wiper control lever

Y206

Bucket level solenoid valve

S132

Steering selector switch

Y207

Delivery doubling solenoid valve

S134

Stop light switch

Y209

S135

Backhoe attachment travel lock switch (optional)

Backhoe attachment hand hammer solenoid valve

S136

Menu scroll switch

S137

Rear work light switch

S138

Motor - rear windshield washer switch

NAME

S139

Display enter switch

S140

Backhoe attachment travel lock switch (optional)

General line - engine line interface connector

Resistor connector

S141

Front work light switch

Air filter pressure switch connector

S142

Ride control switch (optional)

Fuel level sensor connector

S159

Stop light switch

Reverse travel alarm connector

CONNECTORS DESCRIPTION

SECTION 55 - ELECTRIC SYSTEM

NAME

DESCRIPTION

General line - front instrument panel line interface connector

X10

General line - solenoid valve line interface connector

X12 X14

NAME

DESCRIPTION

X49

Front windshield wiper connector

X50

Work light connector

X51

Work light connector

General line - cab line interface connector

X52

Front left direction indicator connector

Antitheft connector

X53

Radio connector

X15.1 Starting key switch connector

X54

Radio connector

X15.2 Starting key switch connector

X55

Current intake

X17

Seat connector (optional)

X56

Front windshield wiper motor connector

X21

Diagnostic connector

X57

Rear windshield wiper motor connector

X23

General line - front instrument panel line interface connector

X67

Alternator connector

X69

Air conditioning pressure switch connector

X24

Hand hammer connector

X72

Pilot control interface connectors

X25

Foot accelerator connector

X80

Beacon lamp connector

X26

Bucket sensor connector

X81

Beacon lamp connector

X27

Number plate light connector

X87

X28

Rear left light connector

General line - left side instrument cluster line interface connector

X29

Rear right light connector

X88

General line - left side instrument cluster line interface connector

X31

Flasher control unit connector

X91

Steering solenoid valve connector

X32

Alarm connector (optional)

X92

4WS steering solenoid valve connector

X34

Ride control connector

X93

4WS crab steering solenoid valve connector

X35

Hand hammer connector

X94

2WS steering solenoid valve connector

X36

Backhoe attachment hammer button connector

X95

Steering control unit connector

X37

Right rear light connector

X96

Steering control unit connector

X38

Work light connector

X97

Front axle sensor connector

X39

Rear windshield wiper motor connector

X98

Rear axle sensor connector

X40

Work light connector

X100

“Carraro” harness solenoid valve connector

X41

Blower motor connector

X101

“Carraro” line solenoid valve connector

X42

Front right direction indicator connector

X102

“Carraro” line solenoid valve connector

X43

Rotating beacon connector

X103

“Carraro” line solenoid valve connector

X44

Work light connector

X104

“Carraro” line solenoid valve connector

X45

Work light connector

X105

“Carraro” line solenoid valve connector

X46

Work light connector

X108

“Carraro” line transmission temperature sensor connector

X47

Work light connector

X109

“Carraro” line pressure switch connector

X48

Rear left light connector

X110

Air conditioning connector

NAME

SECTION 55 - ELECTRIC SYSTEM

DESCRIPTION

NAME

X111

“Carraro” harness RPM sender connector

X406

Diode interface connector

X112

A/C fuse connector

X408

X113

“Carraro” line solenoid valve connector

Front instrument panel line - general line interface connector

X114

“Carraro” line solenoid valve connector

X409

Front instrument panel line - transmission line interface connector

X121

Front instrument panel line / left light line / horn interface connector

X448

Minifuse connector

X125

Front instrument connector

X461

Engine control unit connector

X130

Light / windshield wiper control lever connector

X462

Engine control unit connector

X131

Flasher unit connector

X463

WIF connector

X133

Front instrument panel line - right light line interface connector

X466

Glow control unit fuse connector

X468

Lambda sensor connector

DESCRIPTION

X142

Guide ride control lamp connector

X469

Glow control unit connector

X144

Switch block light connector

X470

Connect to engine harness

X201

Manual accelerator knob connector

X471

Electric valves connector

X202

Backhoe attachment travel connector

X473

A/C clutch connector

X203

Backhoe attachment lock connector

X474

Air temperature sensor connector

X204

Horn button connector

X475

Diff. pressure sensor connector

X205

Transmission disconnect connector and horn button

X476

Gas temperature sensor 1 connector

X477

Gas temperature sensor 2 connector

X206

Bucket levelling connector

X496

X207

Delivery doubling connector

Front harness - engine harness interface connector

X208

Quick coupler connector

X603

Blower fuse connector

X209

Backhoe attachment hammer connector

X800

X212

Perking brake solenoid valve connector

Front harness - engine harness interface connector

X220

Air conditioning connector

X805

Ride control pressure switch connector

X222

Differential block button connector

X810

Telematies connector

X262

Diode bridge connector

XC1

Fuse and relay control unit interface connector

X301

Differential block button connector

XC2

Fuse and relay control unit interface connector

X400

Gearshift lever connector

XC3

Fuse and relay control unit connector

X401

Transmission control unit connector

XC4

X402

Transmission solenoid valve line transmission line interface connector

Fuse and relay control unit interface connector

XC5

Fuse and relay control unit connector

X403

Transmission solenoid valve line transmission line interface connector

XC6

Fuse and relay control unit connector

X404

Front instrument panel line - transmission line interface connector

X405

Front instrument panel line - transmission line interface connector

XST1 Side instrument connector XST2 Side instrument connector XX

Diode interface connector

SECTION 55 - ELECTRIC SYSTEM

ENGINE LINE DIAGRAM (table 1)

TBR00215

SECTION 55 - ELECTRIC SYSTEM

ENGINE LINE DIAGRAM (table 2)

TBR00216

SECTION 55 - ELECTRIC SYSTEM

SOLENOID VALVE LINE DIAGRAM (table 1)

TBR00217

SECTION 55 - ELECTRIC SYSTEM

SOLENOID VALVE LINE DIAGRAM (table 2)

TBR00218

SECTION 55 - ELECTRIC SYSTEM

LIGHT LINE DIAGRAM

TBR00219

SECTION 55 - ELECTRIC SYSTEM

REAR WORK LIGHT LINE DIAGRAM

TBR00220

SECTION 55 - ELECTRIC SYSTEM

WORK LIGHT LINE DIAGRAM

TBR00221

SECTION 55 - ELECTRIC SYSTEM

TRANSMISSION CONTROL UNIT LINE DIAGRAM

TBR00222

SECTION 55 - ELECTRIC SYSTEM

WINDSHIELD WIPER AND WASHER LINE DIAGRAM

TBR00223

SECTION 55 - ELECTRIC SYSTEM

HEATER AND RADIO LINE DIAGRAM

TBR00224

SECTION 55 - ELECTRIC SYSTEM

AIR CONDITIONING LINE DIAGRAM

1 3

2 A

5 B

X110

X111 9 8 7 6 5 4 1 2 3

X111

+15

S45

2 1

5 6 7 8 9 4 3 2 1 10 11

X110

+30

S45

X1 pos 11

+15

TBR00154

Evaporator box

S45

11-way connector

3rd speed relay

Potentiometer

Fuse 25 A

Speed switch

Blower motor

Temperature switch

1 and 2 speed resistor

2-way waterproof connection

Electric cock

5-way waterproof connection

X111

9-way connector

X110

2-way power connector

SECTION 55 - ELECTRIC SYSTEM

FRONT INSTRUMENT

TBR00225

REF.

FUNCTION

SIGNAL

+12

Positive (+12 V)

GND

Ground - Negative

Speedometer

Sensor

Main beam lamp (blue)

Positive

Side light lamp (green)

Positive

+ILL

Backlighting (+)

+ Light

Not used

Crab steering control lamp (green)

Negative

Front steering control lamp (green)

Negative

J10

4WS steering control lamp (green)

Negative

J11

Direction indicator lamp (green)

Positive

J12

Not used

SECTION 55 - ELECTRIC SYSTEM

SIDE INSTRUMENT CLUSTER

TBR00142

INSTRUMENT Level fuel

Low fuel level (lamp) Speedometer Coolant temperature

Battery charge

Transmission temperature

INPUT

READING

TOLERANCE

320 Ohm

Empty - minimum reading

+0 / -2°

185 Ohm

Right - edge of red band

± 3° (Ref)

6.5 Ohm

Full - maximum reading

+4 / -0°

193 Ohm

± 5 Ohm

185 Ohm

OFF

± 5 Ohm

Can message

0-3000 RPM

± 50 RPM

Can message

Minimum reading 65 °C (149 °F)

± 3 °C (± 37.4 °F)

Can message

Left edge of red band 106 °C (223 °F)

± 2 °C (± 35.6 °F)

Can message

Maximum reading 112 °C (234 °F)

± 3 °C (± 37.4 °F)

11 V

Right edge of lower red band

± 3 °C (± 37.4 °F)

16 V

Edge of upper red band

± 3 °C (± 37.4 °F)

385 Ohm

Minimum reading 75 °C (167 °F)

± 3 °C (± 37.4 °F)

149 Ohm

Left edge of red band 105 °C (221 °F)

± 2 °C (± 35.6 °F)

112 Ohm

Maximum reading 115 °C (239 °F)

± 3 °C (± 37.4 °F)

SECTION 55 - ELECTRIC SYSTEM

CN1 PIN

FUNCTION

CN2 NOTE

Not used

Key on power

Wake up

In gear input

Digital input

Driving lights

Digital input

Front work lights

Digital input

Rear work lights

Digital input

Not used

Air conditioning pressure

Digital input

Display switch input

Digital input

Menu confirmation switch input

Digital input

UP switch input

FUNCTION

NOTE

Keep alive power

Not used

Can Bus line input

Not used

Buzzer

Starter motor lock

Not used

Digital input

Not used

DOWN switch input

Digital input

Fuel level gauge

Resistance

Cranking

Digital input

Thermistor

Clogged air filter

Digital input

Transmission temperature

Not used

Parking brake

Foot accelerator

0.5 รท 4.5 V

Not used

Accelerator knob

0.5 รท 4.5 V

Minimum confirmation switch

Digital input

Foot accelerator

Output monitored for diagnostics

Decelerator button

Digital input

Accelerator knob

Output monitored for diagnostics

Not used

Foot accelerator

Not used

Accelerator knob

Not used

Transmission oil pressure

Not used

Alternator excitation

Not used

Ground

Digital input

Need to fuse at 1 ampere without disconnect

40 Ohm relay = 300 mA

Digital input

SECTION 55 - ELECTRIC SYSTEM

CONTROLS AND INSTRUMENTS FRONT INSTRUMENT PANEL

1. DIRECTION INDICATOR LAMP This lamp turns on when the direction indicators are working. 2. SIDE LIGHT AND LOW BEAM INDICATOR LAMP This indicator lamp turns on when the side lights or the low beams are on. 3. MAIN BEAM INDICATOR LAMP This indicator lamp turns on when the main beams are on.

4. “FOUR WHEEL STEER” (4WS) STEER INDICATOR LAMP This lamp turns on when 4 wheel steer mode is selected and phased. 5. “ROAD” (4WS) STEER INDICATOR LAMP This lamp turns on when 2 wheel steer mode is selected and phased.

SECTION 55 - ELECTRIC SYSTEM

6. â&#x20AC;&#x153;CRABâ&#x20AC;? (4WS) STEER INDICATOR LAMP This lamp turns on when crab steer mode is selected and phased. NOTE: if the three lamps turn on at once, this means there is a problem with the electric circuit. Consult your Dealer. 7. TACHOMETER The tachometer shows travel speed in kilometres per hour (km/h) and miles per hour (mph). 8. ROTATING BEACON SWITCH This switch is used to turn the rotating beacon on or off. 9. LIGHT SWITCH This switch has three positions: - The first position is OFF (control lamp off). - Second position, by pressing the symbol side (first click) the instrument cluster panel is powered, the side lights and the low beam indicator lamp are turned on (control lamp on). - Third position, by pressing the symbol side again (second click), the high beams are enabled and the low beams and the low beam indicator lamp are turned on (control lamp on). 10. HAZARD LIGHT SWITCH Press the control down to locked position. The direction indicators and the control will flash simultaneously. Press the control down again to turn off the direction indicators and the indicator lamp. 11. HAND-HELD AUXILIARY HYDRAULIC ATTACHMENT SWITCH (Optional) This switch has two positions: - The first position is OFF (control lamp on). - The second position is ON and enables the auxiliary hydraulic attachments (control lamp off).

12. SWITCH This switch is used to engage or disengage the 4WD function. This switch has two positions: - First position (powershuttle) (by pushing button on the right ): rear wheel drive and braking on rear wheels for all gears (lamp off). - First position (powershift) (by pushing button on the right ): rear wheel drive with braking only on rear wheels (only in first and second gear) (lamp off); four wheel drive and braking (in third and fourth gear) (lamp on). - Second position (by pushing button on the left ): 4 wheel drive and braking on 4 wheels (lamp on). 13. MANUAL MODE SELECTION SWITCH (Powershift transmission) In situations where manual gearshifting (up or downshift) is required, the automatic gearshift of the powershift transmission can be overridden by means of this switch. NOTE: changing gears up or down must always be done using the powershift transmission lever. When the manual mode is no longer required, place the switch back to the OFF position to return to automatic gearshifting.

SECTION 55 - ELECTRIC SYSTEM

CALIBRATION OF SPEEDOMETER According to the model and tires fitted, it may be necessary to calibrate the front instrument. This calibration is required when fitting a new instrument or if a change of tires takes place, and can be performed by adjusting the settings of the switch block, mounted behind the console.

Each switch numbered from 1 to 8 mounted in the block should be turned ON = or OFF . Switch positions: 1 = ON 0 = OFF

8 7 6 5 4 3 2 1 F28666

TIRE - ROLLING CIRCUMFERENCE

FREQUENCY AT 50 km/h

SWITCH POSITIONS 1-2-3-4-5-6-7-8

4065 - 4335

2055

1-1-1-1-0-1-0-0

3810 - 3911

2245

1-1-1-0-1-0-1-0

4065 - 4335

2310

1-1-1-0-1-1-1-0

3810 - 3911

2522

1-1-0-0-0-0-0-1

SECTION 55 - ELECTRIC SYSTEM

SIDE INSTRUMENT CLUSTER PANEL (B100C - B100CTC - B110C - B110CTC - B115C)

10 11 12

TBR00101

1. FRONT WORK LIGHT SWITCH This switch has three positions: - The first position is OFF (control lamp off). - Second position, by pressing the symbol side (first click), the outer front work lights are turned on (control lamp on). - Third position, by pressing the symbol side again (second click), the inner front work lights are turned on too (control lamp on). 2. BACKHOE ATTACHMENT SWITCH (Available) 2. BACKHOE ATTACHMENT SIDESHIFT CARRIAGE LOCKING SWITCH (Sideshift version) It allows locking (control lamp on) or unlocking (control lamp off) the sliding carriage the backhoe attachment is mounted on. NOTE: the switch is located in this position only if the machine is equipped with the “Hydraulic handling of the backhoe sideshift carriage”.

3. ROLL-OVER PROTECTION SWITCH (Optional) This switch is used to engage or disengage the roll-over protection device. When the operator is about to start working with the backhoe attachment in conditions which could cause the machine to roll over, he/she must activate the roll-over protection device by pressing the switch (ON position and lamp turned on). In this condition, the audible alarm will sound by means of the buzzer when the pressure switch, installed on the backhoe attachment boom cylinder, detects a pressure exceeding the following values: 2WS = 116 bar (17 psi) 4WS = 126.5 bar (18 psi)

SECTION 55 - ELECTRIC SYSTEM 4. “AUTO GLIDE RIDE” SWITCH (Optional) The “glide ride” system control improves the machine comfort during travel, regardless of the type of terrain and with the loader bucket full or empty. It reduces forward and rearward pitching when moving rearwards or forwards and when carrying loads, at the same time increasing productivity and operator comfort. It also reduces impact forces to the machine during operation. Do not use this system while operating the loader attachment.

S WARNING S Never operate the “Auto glide ride” system control when the loader arm and loader bucket are maintaining the front of the machine raised off the ground. The machine could fall and cause serious or fatal injury. 5. ATTACHMENT RELIEF VALVE LOCKING SWITCH (Optional) When operated, this switch prevents any movement of the attachments during travel. 6. SIDE INSTRUMENT CLUSTER 7. UP/DOWN SWITCH By means of this control, it is possible to scroll through the menu or data options shown on the diagnostic display. 8. MENU ENTER SWITCH By means of this control it is possible to display and confirm the menu options shown on the display. 9. REAR WINDSHIELD WIPER AND WASHER SWITCH When this switch is pressed, the windshield wiper is activated and will continue operating until the switch is returned to the OFF position. The windshield washer is operated by further pressing and holding the switch. When the switch is released, the washer stops and the wiper starts operating again. 10. BACKHOE ATTACHMENT LOCKING SWITCH (Optional) The switch is used to lock (control lamp on) or unlock (control lamp off) the backhoe attachment safety hook in preparation for road travel.

11. BACKHOE ATTACHMENT SIDESHIFT CARRIAGE LOCKING SWITCH (Sideshift version) It allows locking (control lamp on) or unlocking (control lamp off) the sliding carriage the backhoe attachment is mounted on. NOTE: the switch is located in this position only if the machine is without the “Hydraulic handling of the backhoe sideshift carriage”. 11. BACKHOE ATTACHMENT SIDESHIFT CARRIAGE MOVING SWITCH (Sideshift version) (Optional) This button allows hydraulically moving the backhoe attachment towards the track sides. Press the button side with the symbol to move the backhoe attachment to the left side of the track. Press the button side without symbol to move the backhoe attachment to the right side of the track (track sides are referred to the travel direction of the machine). The button has a control lamp which turns on when the backhoe attachment sideshift carriage locking switch (2) is disconnected. 12. REAR WORK LIGHT SWITCH This switch has three positions: - The first position is OFF (control lamp off). - Second position, by pressing the symbol side (first click), the outer rear work lights are turned on (control lamp on). 13. Third position, by pressing the symbol side again (second click), the inner rear work lights are turned on too (control lamp on).

SECTION 55 - ELECTRIC SYSTEM

SIDE INSTRUMENT CLUSTER (B100C - B100CTC - B110C - B110CTC - B115C)

1. CAUTION MASTER LAMP This lamp signals a not critical caution. When this caution is active, it is necessary to change the operating mode, plan a down time to carry out maintenance or, if the fault continues, consult your dealer. This lamp turns on at the same time of lamps (2), (4), (6) and (8). 2. ENGINE OIL PRESSURE WARNING LAMP This warning lamp turns on and the audible warning device sounds when the engine oil pressure is too low. 3. STOP MASTER LAMP The stop master lamp signals a critical caution. When this lamp turns on, stop the machine immediately and shut off the engine. If this is not the case, the machine can get damaged or accidents may occur. 4. BATTERY CHARGE WARNING LAMP This warning lamp turns on when the alternator/ fan belt is broken or when the alternator is not charging the battery.

5. PARKING BRAKE INDICATOR LAMP This indicator lamp turns on when the parking brake lever is in the raised position (wheels braked). 6. AIR FILTER RESTRICTION LAMP This warning lamp turns on when the air filter element needs to be cleaned or replaced. 7. AIR CONDITIONER INDICATOR LAMP (Optional) This lamp turns on when the air conditioner is working. 8. “GRID HEATER” LAMP (Optional) If the machine is equipped with a “grid heater”, wait for the indicator lamp to turn off before starting the engine.

SECTION 55 - ELECTRIC SYSTEM 9. LOW FUEL LEVEL WARNING LAMP This warning lamp turns on when the fuel level is low. You have approximately an hour to fill the fuel tank. NOTE: when the starter switch key is in the ON position, all lamps turn on and the instrument buzzer sounds for 5 seconds. Afterwards, the lamps turn off and only lamp (2) remains on. The gauges (10) and (11) set to position. 10. FUEL LEVEL GAUGE This gauge shows the quantity of fuel in the fuel tank. 11. BATTERY CHARGE INDICATOR This indicator shows the state of charge of the battery. At normal charge the needle should be in the grey area. If the needle is in the left red area, this shows that the battery charge is insufficient or that the alternator is not charging the battery. If the needle is in the right red area, this indicates excessive battery charge which may cause damage to the battery. 12. DIAGNOSTIC DISPLAY By means of this display it is possible to visualize the various data of diagnostics. The service hours are also indicated. 13. TACHOMETER The tachometer shows the engine speed in revolutions per minute. The figures indicated must be multiplied by 100. Each intermediate mark shows a value of 100 rpm. We recommend not to reach the red line. 14. TRANSMISSION OIL TEMPERATURE GAUGE This gauge shows the transmission oil temperature. When the temperature is normal, the needle is in the grey area. If the needle is in the red area, change down to a lower gear. If the needle still remains in the red area, stop machine travel, place the gearshift lever and the direction-of-travel control lever in neutral position and let the engine run at 1000 rpm. If this operation does not enable the oil temperature to be reduced, check the gearbox oil level and make sure that the radiator and oil cooler are perfectly clean. 15. ENGINE COOLANT TEMPERATURE GAUGE This gauge shows the temperature of the engine coolant solution. When the temperature is normal, the needle is in the grey area. If the needle is in the red area, the audible warning sounds.

SECTION 55 - ELECTRIC SYSTEM

ANTI-START SYSTEM

F28667

A. B. C. D.

M38 Immobiliser Electronic key socket with LED 2 piece electronic key + 50 to ignition

WIRE No.

FUNCTION

E. Starter motor F. + 15 key positive G. Electronic key

CONNECTION

(+15) Key positive

Connected to the +12 V full ignition supply

(+30) Permanent + 12 V power supply

Connected to the wire from the battery positive

(-31) Negative power supply

Connected to the vehicle negative at two independent points

5-6

Immobilization relay No. 2

Connected in line with the wire controlling the starter motor relay/solenoid - Minimum 500 mA maximum 10 A capacity

7-8-9

Immobilization relay No. 1

Connected in line with the cable controlling the ignition or the fuel system - minimum capacity 500 mA, maximum capacity 10 A

SECTION 55 - ELECTRIC SYSTEM

DIAGNOSTIC DISPLAY (B100C - B100CTC - B110C - B110CTC - B115C) The diagnostic display (1) is located in the middle of the side instrument cluster (4). The diagnostic switches are the following:

- MENU SCROLL SWITCH (2) Use this UP/DOWN switch to scroll through the menus. NOTE: push the arrow at start up to display engine rpm on the display.

- DISPLAY ENTER SWITCH (3) Use this switch to select and confirm a service menu. The Diamond icon, or top portion of the switch, is used to select displays. The 90Â° arrow icon or bottom portion of the switch, is used to enter selected choices.

SECTION 55 - ELECTRIC SYSTEM

Using the display switches, you will be able to scroll through the following: - battery voltage; - backhoe loader hours; - setup. Features adjustable during setup: - backlighting dimming and contrast control, - maintenance/service interval customization; - storage of error codes; - “grid heater” presence: it is possible to select or deselect the “grid heater” option; - low temperature idle speed setting: when the engine coolant temperature is below 10 °C (50 °F), the unit will change from a normal low idle to a low temperature idle which can be adjusted between 975 and 1500 rpm. The default setting is 1000 rpm; - high idle speed setting (2500 rpm maximum).

SECTION 55 - ELECTRIC SYSTEM SYMBOLS Work hours

Maintenance

Maintenance heavy (hours)

Hydraulic oil filter blocked

Transmission oil pressure too high

Battery charging failure

HEAVY 1000

Maintenance light (hours)

Contaminated fuel

LIGHT 500

Stored error code

Grid heater

Engine speed

Malfunction

Back-light dimming

Battery voltage too high

n/min

Engine area of fault

Engine intake air filter blocked

Charge air temperature too high

Engine coolant level too low

Engine coolant temperature too high

Engine oil pressure too low

Brake fluid level too low

Parking brake engaged

Put the shuttle lever into neutral position

Battery voltage too low

SECTION 55 - ELECTRIC SYSTEM

SETUP MENU

Dimmer Increase O Decrease P

Increase Decrease Service interval Increase Decrease Stored error code

3-second scroll unless the switch is pressed “Grid heater” presence

Select / Deselect

Low and high idle speed

Increase O Decrease P

Hardware code

HARDWARE P/N ID VER

Software code

SOFTWARE P/N ID VER

Increase O Decrease P

O Press Enter to make the value flash and then set up P Press Enter to make the value stop flashing

SECTION 55 - ELECTRIC SYSTEM

PROCEDURE ABOUT SELF TEST Z

Any of the above at with ignition low

Power up LCD and show work hours for 10 seconds

Maximum foot accelerator: X.X. Minimum foot accelerator: X.X.

Go to menu Normal â&#x20AC;&#x153;Key ONâ&#x20AC;?

Step 2: Lamps switch off after 2 seconds.

Maximum accelerator knob: X.X. Minimum accelerator knob: X.X.

Check: 100 mA < Current draw < 1amp

10 mA < Current draw < 1 mA

Requested engine rpm: XXX

Check: 100 mA < Current draw < 1 A

Step 7: Sweep all 5 gauges to maximum angle. Makes sure that needles can move freely and have proper position

Makes sure that needles are properly calibrated to applique

Step 10: Park all gauges and start LCD test.

117/120 field

Voltage: XX.X Transmission oil temperature: XX

Step 6: Wait 2 seconds.

116/124 field

Brakes: XXX Engine rpm: XXXX

102/92 field

Radiator water temperature XXX Air temperature XXX

98/88 field

Fuel level: XX.X Fuel tank: XX

10 mA < Current draw < 100 mA

Step 9: 2 seconds after red-green border is reached move to second red border for voltage.

Accelerator pedal %: 113/122 XXX field Accelerator knob %: XXX

Step 5: Lamps switch off after 2 seconds.

Step 8: 2 seconds after maximum angle sweep to red border.

125/120 field

Initiate Self test

Step 3: Wait 2 seconds.

Step 4: Instrument backlighting turns on at full intensity.

Any of the keys above and with â&#x20AC;&#x153;Key ONâ&#x20AC;?

Step 1: Lamps switch on at full intensity.

113/111 field

107/123 field

Step 11: When LCD test is complete sound alarm for 2 seconds. Engine oil temperature: XXX Fuel temperature: XXX Step 12: The following is shown on the LCD display until the key is turned to OFF or the cycle ends. All gauges and lamps should work as normal and engine will be able to be started.

122/126 field

SECTION 55 - ELECTRIC SYSTEM

ON BOARD ERROR CODE RETRIEVAL

↵ Z

Stored error code

Page 1/6 CODE

↵

3059

OCCURRENCE 3 TIME

1004.5

Page 2/6 CODE

3009

OCCURRENCE 2 TIME

1010.6

Page 3/6 CODE Occurrence counter will be incremented on transition from inactive to active status. Status has to be stored in EEPROM and checked at key on. Only the hour count of the last occurrence will be stored per SAE convention.

1018

OCCURRENCE 1 TIME

1024.5

Page 4/6 CODE

3022

OCCURRENCE 1 HOUR 969

Page 5/6 CODE

3113

OCCURRENCE 2 TIME

1050.6

Page 6/6 CODE

1003

OCCURRENCE 3 TIME

1076.4

3-second scroll unless the up/down button is pressed

SECTION 55 - ELECTRIC SYSTEM

BACKLIGHTING AND DIMMING A proper and uniform backlighting for matrix, gauge pointer and symbols shall be provided. Separate backlighting electronics shall be provided for matrix and symbols-gauge pointers. The backlighting will be achieved by LEDs and dimming shall be provided through the setup menu selections. The backlighting shall go at its maximum level when the front, rear and driving lights are off. The gauges backlighting dimming is switched on when the cluster sees a HIGH level on front work lights, rear work lights or driving lights for more then 100 ms. The lamps intensity is decreased when side lights are activated. The 2 different luminance levels are defined as 100% during daytime use and 50% when backlighting is active. The display intensity of luminance will be 6 cd/m2 (not dimmed).

DIMMING LAW The dimming adjustment is done through the setup menu, it can be used in single. In single step mode, the luminance level go from min to max value in 10 steps. The luminance levels of display and gauges always varies in parallel. The cluster switches between day and night luminance levels using the work and driving light status, and is able to manage the display and gauges independently using the same law and customer setting. Only the night settings can be adjusted since the day setting of the display is 100% intensity. During dimming setup the matrix shows the dimming symbol together with the percentage of luminance: its value varies using a step of 10%.

The maximum available luminance spread will be 30%.

The dimming symbol appears when the proper menu is selected and stays on the matrix for at least 2 seconds.

To avoid dark zones the maximum difference of intensity of luminance between closed points is 15%.

The dot matrix visualization will be as follows:

Note that the matrix backlighting may go to 0 by customer selection. The lamps and the audible alarm will warn the customer of an alarm condition occurring.

The default value is 80% and the may go to zero if set by the customer.

SECTION 55 - ELECTRIC SYSTEM

WORK HOURS In order to allow service or the customer to view vehicle hours of operation, it will not be necessary to have the key. By pressing the menu enter/display scroll switch, with the key turned to OFF, the instrument cluster panel will activate and display the service hours for 10 seconds. The hourmeter increments when the engine is running (rpm> 600). The hours are displayed starting from 0.0 until 210,554,060.7 using an interval of 6 minutes. In case of battery disconnection, the cluster can lose 0.1 hour or 6 minutes max.

- once in the adjustment mode the meaning of the arrow UP switch is “increase hourmeter value”, and the meaning of arrow DOWN switch is “decrease hourmeter value”. Single switch pressure will increase or decrease the value of one unit (6 min). Continuous switch pressure will increase or decrease the value continuously (1 every 300 milliseconds): when the value reaches a multiple of 10, the increment/decrement rate is 10 units every 300 ms; when the value reaches a multiple of 100, the rate is 100 units every 300 ms; when the value reaches a multiple of 1000, the rate is 1000 units every 300 ms. During continuous setting the value stops flashing.

WORK HOURS SETTING In order to allow service to install a new Vehicle Control Module (VCM) on an old vehicle, it is possible to increase (no decrease will be allowed) the hour to the same setting as the original. To modify the hourmeter value, execute the following procedure:

Once the operator has reached the desired value press and hold down the arrow UP and display switches for 15 seconds to end setting procedure. It is not possible to set a value lower than the current one, and the procedure can be repeated three times in the cluster life.

- select the hourmeter function on the display; - press and hold depressed for 15 seconds “arrow UP” and “display” until the value shown on display starts to blink (1 Hz, duty 50%);

Work hours

Any of the above at with ignition low

Power up LCD and show work hours for 10 seconds

To save the new value

Hourmeter setting

With the key turned to ON, press for 15 seconds Blinking to indicate ability to edit values

0.1, 1, 10, 100 or 1000 hours step depending on continuous time pressed To exit without saving

Value may only increase for the hourmeter. While setting the value it can be decreased due to operator overshoot, but the value can not be stored if it is below the current stored value. Pressing DISPLAY will exit without saving. ENTER must be pressed to store the modified value in protected memory.

SECTION 55 - ELECTRIC SYSTEM

OPERATION Auto wake up at every 600 ms for sensing a change in ENTER, DISPLAY, UP or DOWN switch status will be provided. Upon sensing of one of those inputs transition, the cluster has to wake up.

With the key OFF, all indicators set to the parking position. The parking position is hard to obtain with the internal stops of the stepper motor. With the key ON, follow the procedure below.

As a general rule, at engine start-up, it is necessary to deactivate all alarms and instrument gauges, unless an error is detected on the starting line.

Needle collision control at key-on At key-on drive all needles CCW for 1 second

Vibration, service, transport or battery loss can generate a FALSE

If RTZ is observed on all 5 gauges

TRUE

FALSE Remove power from gauges: - engine coolant - fuel level

Drive gauges until they reach: - tachometer - transmission temp - battery voltage

Drive gauges: - engine coolant - fuel level Start all normal display functions

SECTION 55 - ELECTRIC SYSTEM

TACHOMETER

ENGINE COOLANT TEMPERATURE INDICATOR

The tachometer accuracy should be less than or equal ±50 rpm.

A stepper motor will drive coolant temperature gauge. The gauge accuracy should be less than or equal 3%. Needle calibration has never to be lost for any external condition.

The above-specified tolerances must be respected in all operating ranges (temperature, voltage, etc.). A stepper motor will drive the tachometer. Needle calibration has never to be lost for any external condition. The message to be used is EEC1. EEC1 MESSAGE

INSTRUMENT POSITION

0000

0 rpm

0001 => FFFD

According to the value

Green field

0 - 2500 rpm

Red field

2500 - 3000 rpm

FFFF

0 rpm

The behaviour of the gauge in case of faulty sensor will be to return to the parked position. Since this signal is a function of the engine controller the appropriate warning lamp and lamp will be illuminated. During cranking, the needle movement shall be frozen in order to inhibit any spurious movement of it.

INSTRUMENT

TEMPERATURE

Gauge indication range

+65 to +112 °C (+149 to +234 °F)

Green field

+65 to +106 °C (+149 to 223 °F)

Red field

+106 to +112 °C (+223 to 234 °F)

The message to be used is engine temperature. ENGINE TEMPERATURE MESSAGE

INSTRUMENT POSITION

00 => FD

According to the logic above

Minimum value

An audible alarm must sound when the engine temperature exceeds 106 °C (223 °F). In case the sender is disconnected, the gauge has to go to 65 °C (149 °F) position. Reconnecting the sensor the gauge has to return to the correct position. Both the movements have to be uniform. The behaviour of the gauge in case of faulty sensor will be to return to the parked position. Since this signal is a function of the engine controller the appropriate warning lamp and lamp will be illuminated. During cranking, the needle movement shall be frozen in order to inhibit any spurious movement of it.

SECTION 55 - ELECTRIC SYSTEM

VOLTMETER GAUGE

TRANSMISSION OIL TEMPERATURE GAUGE

The voltmeter will indicate the voltage of the vehicle electric system.

The oil temp gauge indicates transmission oil temperature from 75 °C to 115 °C (167 to 239 °F). This gauge is broken up into two ranges, green and red. The green field goes from 75 °C to 106 °C (167 to 223 °F). The red zone is from 105 °C to 115.5 °C (221 to 240 °F). This gauge will be connected to a sensor that will provide a specific resistance to correlate to a specific oil temperature.

This gauge will have three operating ranges: two reds and one green. One red range will indicate low voltage. The other red will indicate high voltage. The green range will indicate normal operating voltage. The bottom of the scale is 9 V. Low voltage range 11 V or less.

INSTRUMENT

TEMPERATURE

The pointer will be ±3° of the bold centerline indicating 11 V.

Gauge indication range

+75 to +115 °C (+167 to +239 °F)

The normal operating range will vary between 11 and 16 V.

Green field

+75 to +106 °C (+167 to+ 223 °F)

High voltage range 16 V or more.

Red field

+105 to +115.5 °C (+221 to +240 °F)

The pointer will be ±3° of the bold centerline indicating 16 V. The top of the scale will be 18 V. A stepper motor will drive the voltmeter gauge. The gauge accuracy should be less than or equal 3%. Needle calibration has never to be lost for any external condition. Loss of voltmeter sensor will be the loss of the internal VCM A/D converter. During cranking, the needle movement shall be frozen in order to inhibit any spurious movement of it. A/D accuracy is specified as ±180 mV during self test operation.

- 5 V = 75 °C (167 °F). The centerline of the pointer will be at ±2 angular degrees from the centerline of the bold reference mark that indicates this temperature. - 2.6 V = 93.3 °C (200 °F). The centerline of the pointer will be at ±3 angular degrees from the centerline of the bold reference mark that indicates this temperature. - 2.05 V = 115.5 °C (240 °F). The centerline of the pointer will be at ±2 angular degrees from the centerline of the bold reference mark that indicates this temperature. The same range of temperature is used for powershift and powershuttle transmissions. The gauge will move by 9 angular degrees at keyon in the clockwise position, to replicate the current instrument cluster behaviour. This is necessary due to the cool temperatures present when the unit is working in backhoe position. In case the sender is disconnected, the gauge has to go down to home position. Reconnecting the sensor will make the error code inactive and the gauge has to return to the correct position. Both the movements have to be uniform. A stepper motor will drive the transmission oil temperature gauge. The gauge accuracy should be less than or equal ±2%. Needle calibration has never to be lost for any external condition. During cranking, the needle movement shall be frozen in order to inhibit any spurious movement of it.

SECTION 55 - ELECTRIC SYSTEM

FUEL LEVEL GAUGE When a certain low fuel level is reached, the relevant “low fuel” lamp will be lit according to the following logic. The filtering of the data read is obtained with a hysteresis on the resistance value joined to a delay time of 2 seconds. Ohmic parameter threshold and delay time value must be kept in NVM. Lamp activation depends on values used for needle movement; this means that at key-on the low fuel level warning is active if the cluster sees a resistance value greater the table below. Resistance values The fuel level gauge will indicate the fuel level of the vehicle tank. The gauge dial will be divided into two ranges: red and green. The red range will indicate a low fuel zone. The green range will indicate a non-low fuel zone. This gauge will be connected to a sensor that will provide specific a resistance to correlate to a specific fuel tank level. TANK SIZE 133 litres (29.25 gal)

EMPTY VALUE (X) 320 Ohm

RED-GREEN BORDER (Y) 186 Ohm

- X = empty. The centerline (CL) of the pointer will be at +0° / -2° angular degrees from the centerline of this empty mark. - Y = red - green threshold. The centerline (CL) of the pointer will be at +/-3 angular degrees from the centerline of this “half” mark. - Z = full. The centerline (CL) of the pointer will be at +4/-0 angular degrees from the centerline of this “full” mark.

FULL VALUE (Z) 6.5 Ohm

INDICATED FUEL LEVEL 30% with 18 angular degrees of gauge motion

In case the sender is disconnected, the gauge has to go down in empty position. Reconnecting the sensor the gauge has to return to the correct position. Both the movements have to be uniform. A stepper motor will drive fuel level gauge. The gauge accuracy should be less than or equal ±2%. Needle calibration has never to be lost for any external condition. During cranking, the needle movement shall be frozen in order to inhibit any spurious movement of it.

SECTION 55 - ELECTRIC SYSTEM

WARNING SYSTEM The diagnostic has to inform the operator regarding all the operating conditions of the loader backhoe which are out of range.

ALARM ACTIVATION Non Critical

- error codes;

A failure is present but the operator can continue his work: the purpose is to warn him regarding the presence of the fault. This will be a 1 second beep every 30 seconds.

- faults in the system;

Critical

- required action.

A serious fault that can affect either the safety of the operator or the damage of the loader backhoe is present: the operator shall stop the loader backhoe. This will be a continuous alarm.

These conditions are different from each other: - warnings;

We can define warnings as all those situations that could be dangerous for the loader backhoe or for the operator.

Action Required

The diagnostic will move the display to the red range or will activate the buzzer.

The system is asking for a certain manoeuvre from the operator in order to return to the normal functionality. This will be a continuous alarm.

The display will show the symbol indicating the current problem.

Safety

There are conditions in which the diagnostic detects one of its sensors out of order: in this case it will generate an error code. According to the severity of the failure, it will control the relevant warning lamp and the audible alarm: the display will display the appropriate Icon together with the error code number. If it is necessary to inform the operator that he/she has done an incorrect manoeuvre, or that he/she must perform a special operation (required action), the diagnostics will display an icon again or will activate the relevant buzzer.

The system purpose is to warn the operator regarding the presence of a dangerous situation for his safety. This will be a continuous alarm. General Sound There are certain conditions in which it is necessary to activate an audible alarm. This is a one second beep to draw the operators attention to the cluster. Whenever an audible alarm activation is related to an icon visualization, this icon should remain displayed at least for 4 seconds in order to give the possibility to the operator to understand the cause of the alarm activation. When many warnings with different priority occur, the audible alarm is related to the higher priority warning. When a warning activates with an audible alarm different from the current one, the corresponding icon must be displayed simultaneously. If a warning lamp dedicated to a function is associated to the activation cause of the audible alarm, the warning lamp will activate together with the audible alarm.

SECTION 55 - ELECTRIC SYSTEM

MAINTENANCE Two different kinds of maintenance will be available: - light maintenance; - heavy maintenance. LIGHT MAINTENANCE From 2 hours before the set value, display on the display the “light maintenance symbol” at every key on for 1 second after cranking; after this, the last selected icon will be visualized on the display. The hours shown will be the hours when light maintenance is required, not the standard hours displayed by the hourmeter.

LIGHT 500

Amber-coloured lighting The interval can be set between 50 and 500 hours in steps of 50 (0.0, 50, 100, 150, 200, 250, 300, 350, 400, 450, 500). The 0.0 setting turns the light maintenance feature off.

HEAVY MAINTENANCE From 10 hours before the set value, display on the display the “heavy maintenance symbol” at every key on and should last for 1 second after cranking. After cranking after this, the last selected icon will be visualized on the display. The hours shown will be the hours when light maintenance is required, not the standard hours displayed by the hourmeter.

HEAVY 1000

Amber-coloured lighting The interval can be set between 50 and 500 hours in steps of 100 (0.0, 500, 600, 700, 800, 900, 1000). The 0.0 setting turns the heavy maintenance feature off.

SECTION 55 - ELECTRIC SYSTEM

DISPLAY FUNCTION When the hourmeter reaches the light service interval

3 seconds 3 seconds LIGHT 500

GREEN AMBER Audible alarm for 1 second when displaying either service interval for the first time When the hourmeter reaches the heavy service interval

3 seconds HEAVY 1000

GREEN

AMBER

Audible alarm for 1 second when displaying either service interval for the first time Since heavy maintenance contains light maintenance the following will be shown: 500 - Light 1000 - Heavy 1500 - Light 2000 - Heavy The service indicator message will be cleared with a single key cycle

3 seconds

SECTION 55 - ELECTRIC SYSTEM

WARNING MESSAGES Function Engine coolant temperature too high Engine oil pressure too low

Lamp

STOP

Alarm

Lamp

Display lamp

Condition

DTC

Description

Priority Colour

Coolant Coolant above 112 °C 1002 VCM temperature 1 (234 °F) for 5 signal - too high seconds

Continuous

Pressure <26 bar (377 psi)

Continuous

500> rpm

Red

Oil pressure 3028 ECU sensor 1 pressure too low

Red

STOP

Continuous

The engine Switch must be running closed to 1008 VCM with switch 1 ground for 25 closed for 25 seconds seconds

Malfunction

STOP

Continuous

5 seconds without message

1051 ECU

Time-out of message

Red

Malfunction

STOP

Continuous

25 seconds without message

1053 ECU

Time-out of message

Red

Malfunction

STOP

Continuous

5 seconds without message

Time-out of 1054 VCM message engine 1 temperature

Red

Malfunction

STOP

Continuous

5 seconds without message

Time-out of 1055 VCM message inlet/ exhaust

Red

Malfunction

STOP

Continuous

5 seconds without message

Time-out of 1056 VCM message engine 1 fluid

Red

Malfunction

STOP

Continuous

5 seconds without message

Time-out of 1057 VCM message electric system

Red

Malfunction

STOP

Continuous

5 seconds without message

Time-out of 1059 VCM message display

Red

STOP

Continuous

Transmission oil above Transmission oil 115 °C 1009 VCM temperature 1 (239 °F) for 5 limit reached seconds

Red

STOP

Continuous

Transmission oil pressure too low

Transmission oil temperature too high General display message

STOP

DTC’s 3000 3366

Only display with display request

Red

SECTION 55 - ELECTRIC SYSTEM

Function

Lamp

Alarm

One touch idle active

Condition

DTC

Description

Priority Colour

N/A

VCM

Red

N/A

This prevents VCM damaging the parking brake

n/min

Brake temperature too high

Battery charge voltage too high

Display lamp

AUTO

Parking brake engaged

Engine oil pressure too high

Lamp

STOP

Continuous, if vehicle is in gear

Switch closed to ground

Red

Continuous

Sender temperature Warns customer over 152 Â°C 1006 VCM before brake 2 (306 Â°F) for 5 fade seconds

Red

Continuous

Pressure depends on speed

Red

3032 ECU

Continuous

3051 ECU

Battery voltage too high

Red

Battery charge voltage too high

Continuous

Supply Supply battery source above 1014 VCM voltage above 16 V for 5 16 V seconds

Red

Battery charge voltage too low

Continuous

3052 ECU

Battery voltage too low

Red

Continuous

Supply Supply battery source below 1015 VCM voltage below 11 V for 5 11 V seconds

Red

Alternator unable to charge

Continuous

Alternator L+ Alternator terminal 1050 VCM unable to under 1.5 V charge for 5 seconds

Red

Accelerator pedal signal out of range

One second alarm every 30 seconds

IVS not changing state in 300 ms

Foot accelerator 1010 VCM sensor - not 2 plausible

Amber

Accelerator pedal signal out of range

One second alarm every 30 seconds

Accelerator Foot accelerator above 4.75 V 1011 VCM sensor -signal 2 for 5 seconds above range

Amber

Accelerator pedal signal out of range

One second alarm every 30 seconds

Accelerator Foot accelerator under 0.25 V 1012 VCM sensor -signal 2 for 5 seconds below range

Amber

Battery charge voltage too low

Function

SECTION 55 - ELECTRIC SYSTEM

Lamp

Alarm

Lamp

Display lamp

Condition

DTC

Description

Priority Colour

Accelerator pedal signal out of range

One second alarm every 30 seconds

Foot accelerator 1013 VCM sensor - no 2 signal

Amber

Accelerator pedal signal out of range

One second alarm every 30 seconds

Accelerator Foot accelerator above 9 V for 1029 VCM sensor - shorted 2 5 seconds high to Vbat

Amber

Accelerator pedal signal out of range

One second alarm every 30 seconds

Accelerator Foot accelerator under 0.5 V 1030 VCM sensor - shorted 2 for 5 seconds low to Vbat

Amber

5V accelerator pedal power supply

One second alarm every 30 seconds

Accelerator Foot accelerator above 5.1 V 1023 VCM supply voltage 2 for 5 seconds too high

Amber

5V accelerator pedal power supply

One second alarm every 30 seconds

Accelerator Foot accelerator under 4.9 V 1024 VCM supply voltage 2 for 5 seconds too low

Amber

5V accelerator pedal power supply

One second alarm every 30 seconds

Accelerator Foot accelerator above 9 V for 1025 VCM supply shorted 2 5 seconds high to Vbat

Amber

5V accelerator pedal power supply

One second alarm every 30 seconds

Foot accelerator Accelerator supply voltage under 0.5 V 1026 VCM 2 shorted low to for 5 seconds ground

Amber

Accelerator knob signal out of range

One second alarm every 30 seconds

Accelerator Accelerator knob sensor above 4.75 V 1035 VCM signal above for 5 seconds range

Amber

Accelerator knob signal out of range

One second alarm every 30 seconds

Accelerator Accelerator knob sensor under 0.25 V 1036 VCM signal above for 5 seconds range

Amber

Accelerator knob signal out of range

One second alarm every 30 seconds

Accelerator 1037 VCM knob sensor no signal

Amber

SECTION 55 - ELECTRIC SYSTEM

Function

Lamp

Alarm

Lamp

Display lamp

Condition

DTC

Description

Priority Colour

Accelerator knob signal out of range

One second alarm every 30 seconds

Accelerator Accelerator knob sensor above 9 V for 1038 VCM shorted high to 5 seconds Vbat

Amber

Accelerator knob signal out of range

One second alarm every 30 seconds

Accelerator Accelerator knob sensor under 0.5 V 1039 VCM shorted low to for 5 seconds ground

Amber

5V accelerator knob power supply

One second alarm every 30 seconds

Accelerator Accelerator above 5.1 V 1031 VCM knob supply 2 for 5 seconds voltage too high

Amber

5V accelerator knob power supply

One second alarm every 30 seconds

Accelerator Accelerator under 4.9 V 1032 VCM knob supply for 5 seconds voltage too low

Amber

5V accelerator knob power supply

One second alarm every 30 seconds

Accelerator Accelerator knob supply above 9 V for 1033 VCM voltage shorted 5 seconds high

Amber

5V accelerator knob power supply

One second alarm every 30 seconds

Accelerator Accelerator knob supply under 0.5 V 1034 VCM voltage shorted for 5 seconds low

Amber

Continuous

Switch closed to ground with N/A vehicle in gear and no parking brake

This must have a debounce VCM 2 time of less then 500 ms

Amber

Engine over 1018 VCM operating boost 3 air temperature

Amber

Seat not in driving position

Boost temperature over

Boost air temperature too high

One second alarm every 30 seconds

Engine coolant temperature too high

One second alarm every 30 seconds

Coolant Engine over above 106 째C operating 1019 VCM (223 째F) for 5 coolant seconds temperature

Engine coolant temperature too high

One second alarm every 30 seconds

Coolant 3007 ECU temperature signal high

88 째C (1276 째F) for 5 seconds

Amber

Function

SECTION 55 - ELECTRIC SYSTEM

Lamp

Alarm

Transmission oil temperature above 105 °C (221 °F)

One second alarm every 30 seconds

Fuel temperature too high

One second alarm every 30 seconds

Fuel temperature too high

Lamp

Display lamp

Condition

DTC

Description

Coolant Transmission above 105 °C 1020 VCM over operating (221 °F) for 5 temperature seconds

Priority Colour

Amber

Fuel over 1021 VCM operating temperature

Amber

One second alarm every 30 seconds

Fuel temperature 3015 ECU signal source high

Amber

Fuel temperature too high

One second alarm every 30 seconds

Fuel 3016 ECU temperature 3 signal no signal

Amber

Clogged air filter

One second alarm every 30 seconds

Switch closed to ground for 5 seconds

1001 VCM

Air filter threshold

Air conditioning not functional

One second alarm every 30 seconds

Switch closed to Vbat for 5 seconds

1003 VCM

Air conditioning 4 system pressure

Amber

Hydraulic oil filter restriction

One second alarm every 30 seconds

Switch closed to ground for 5 seconds

1004 VCM

Hydraulic filter threshold

Red

Fuel contaminated with water

One second alarm every 30 seconds

Display message

1022 VCM

Amber

Fuel level sensor

One second alarm every 30 seconds

Fuel sender Fuel sender shorted high above 9 V for 1043 VCM instrument in 5 seconds stand-by

Amber

Fuel level sensor

One second alarm every 30 seconds

Fuel sender Fuel sender shorted low below 0.5 V 1044 VCM instrument in for 5 seconds stand-by

Amber

Fuel level sensor

One second alarm every 30 seconds

Input is switched battery for 5 seconds

Amber

Fuel over 82 °C (1189 °F) for 5 seconds

Fuel sender open circuit 1045 VCM instrument in stand-by

Red

SECTION 55 - ELECTRIC SYSTEM

Function

Lamp

Alarm

Lamp

Display lamp

Condition

DTC

Description

Priority Colour

Transmission temperature sensor

One second alarm every 30 seconds

Transmission Transmission temperature temperature sender above 1046 VCM sender shorted 9 V for 5 high seconds

Amber

Transmission temperature sensor

One second alarm every 30 seconds

Transmission Transmission temperature temperature sender below 1047 VCM sender shorted 0.5 V for 5 low seconds

Amber

Transmission temperature sensor

One second alarm every 30 seconds

Input is switched battery for 5 seconds

Transmission 1048 VCM temperature open circuit

Amber

Brake temperature sensor

One second alarm every 30 seconds

Brake Sender over temperature 1000 Ohm for 1049 VCM sender out of 5 seconds range

Amber

General display message

One second alarm

DTCâ&#x20AC;&#x2122;s 3000 3366

Only display VCM with display request

Amber

Low fuel warning

One second alarm

Low fuel - must stay on for VCM remaining key cycle

Amber

SECTION 55 - ELECTRIC SYSTEM

STARTING SYSTEM OPERATION

CHECKING THE STARTER MOTOR SYSTEM

The system includes a key switch, a reinforced wiring, a starter motor and a relay-solenoid valve assembly.

To troubleshoot the starter motor system rapidly and easily, it is recommended that a battery-starter motor testing device (quick discharge) be used, which includes a 0 - 20 V voltmeter and a 0 - 500 A ammeter to detect problems in the starter motor system.

The starter motor has a built-in solenoid valve and a positive engagement drive system. When the key switch is operated with the forward and reverse travel lever in neutral position, the solenoid coils are energized and cause the piston to be magnetically drawn inside the solenoid. This movement causes the drive pinion to mesh with the ring gear on the engine flywheel. When the pinion touches the ring gear, the piston of the solenoid valve closes a series of contacts enabling the battery to directly power all four field coils, thus providing full power to the starter motor. The starter motor contains a single set of contacts and a solenoid valve piston, which completely closes the contacts, even if the teeth of the pinion are not perfectly aligned with the teeth of the ring gear. In this case, a spring is compressed and forces the complete engagement of the pinion as soon as the starter motor starts rotating. Once the ignition is turned off, the solenoid and the starter motor are de-energized. The solenoidâ&#x20AC;&#x2122;s recoil spring causes the drive pinion to be uncoupled and the contacts of the solenoid to reopen.

Use a testing device in accordance with the manufacturerâ&#x20AC;&#x2122;s instructions. If a testing device of the type indicated is not available, use a standard 0 - 20 V voltmeter and a 0 - 500 A ammeter to check the operation of the starter motor on the vehicle. Before testing: - check that the battery is fully charged. - check that no wire of the starting system is cut or stripped and that the connections are not loose. - check that the motor is not seized.

SECTION 55 - ELECTRIC SYSTEM Current draw on the starter motor system Disconnect the ground cable (negative) from the battery (3). Disconnect the positive cable from the battery on the solenoid of the starter motor. Connect the positive cable of the ammeter (1) to the positive terminal of the battery and the negative cable to the input terminal of the solenoid. Reconnect the ground cable (negative) of the battery to the negative terminal of the battery. Connect the positive cable of the voltmeter (2) to the positive terminal of the battery and the negative cable of the voltmeter to the negative terminal of the battery. Disconnect the injection pump fuel inlet cut-off wire from the solenoid. Start the motor and observe the values indicated by the voltmeter and ammeter. The voltage must remain steady at around 12 V with a current draw of 250 to 300 A. If the current draw is within the indicated range, the starter motor (4) is operating correctly. If the voltage drops during the test, refer to chapter â&#x20AC;&#x153;Resistance on the system of the starter motor systemâ&#x20AC;?. If the current draw is higher than the specified range, check the system as indicated below. If tests of the starting system have proved satisfactory, the starter motor is defective and must be removed in order to identify the source of the problem. If the current draw is less than the specified range, the starter motor is defective and must be removed in order to identify the source of the problem.

SECTION 55 - ELECTRIC SYSTEM

RESISTANCE ON THE SYSTEM OF THE STARTER MOTOR (Voltage lowering) If the current draw is excessive, it is necessary to check the system according to the voltage drop occurring between its single components. IMPORTANT: disconnect the injection pump fuel inlet cut-off wire from the solenoid. Positive cable of the battery Connect the positive cable of the voltmeter (1) to the positive terminal of the battery (2). Connect the negative cable of the voltmeter (1) to the battery terminal of the starter motor solenoid valve (3). Start the starter motor and observe the reading on the voltmeter. If the voltage drop exceeds 0.2 V, check and retighten the cable connections. Check the voltage again. If it is still excessive, replace the cable. Starter motor connections to ground Connect the positive cable of the voltmeter (1) to the body of the starter motor (2). Connect the negative cable of the voltmeter (1) to the motor block (3). Start the starter motor and observe the reading on the voltmeter. If the voltage drop exceeds 0.2 V, check and retighten the cable connections, check the ground connections between the starter motor clamp and the undercarriage.

Ground cable of the battery Connect the positive cable of the voltmeter (1) to the motor block (2). Connect the negative cable of the voltmeter (1) to the negative terminal of the battery (3). Start the starter motor and observe the reading on the voltmeter. If the voltage drop exceeds 0.2 V, check and retighten the ground cable connections. Check the voltage again. If it is still excessive, replace the ground cable.

SECTION 55 - ELECTRIC SYSTEM

STARTER MOTOR TECHNICAL SPECIFICATIONS Manufacturer............................................................................................................................................. Denso Voltage......................................................................................................................................................... 12 V Rated power............................................................................................................................................. 2.7 kW Starting system .......................................................................................................................................Positive Operating time ..............................................................................................................................................30 s Direction of rotation.................................................................................... Clockwise seen from the pinion side Weight......................................................................................................................................... 8.4 kg (18.5 lb) Maximum consumption without load at 11 V and 3000 rpm minimum...................................... 200 A maximum Maximum consumption with a torque of 19.6 Nm (14.5 lbf·ft) at 8 V and 1130 rpm minimum 600 A maximum Maximum consumption when shimming at 3 V with a torque of 39.2 Nm (568 lbf·ft) minimum ......1400 A maximum

92 MAIN COMPONENTS 1. Motor 2. Induction coils 3. Armature 4. Commutator 5. Brush assembly 6. Pinion gear 7. Intermediate pinion 8. Solenoid 9. Clutch 10. Drive pinion

SECTION 55 - ELECTRIC SYSTEM

1. Shim 2. Bearing 3. Armature 4. Bearing 5. Coils housing 6. Protection 7. Brush spring 8. Brush assembly 9. Disc 10. Cover 11. Screw 12. Screw 13. Drain 14. Screw 15. Protection 16. Gasket 17. Washer 18. Nut 19. Rod 20. Connection assembly 21. Screw 22. Connection assembly 23. Nut 24. Ring 25. Roller 26. Cage 27. Pinion 28. Ball 29. Spring 30. Drain 31. Screw 32. Washer 33. O-ring 34. Flange 35. Pinion, rings and spring assembly 36. O-ring 37. Bearing 38. Bearing 39. Spring 40. Shaft 41. Body 42. Clutch assembly

SECTION 55 - ELECTRIC SYSTEM REMOVAL AND INSTALLATION Disconnect the ground cable (negative) from the battery. Remove the rear protection cover and disconnect all cables connected to the starter motor. Remove the three retaining screws of the starter motor and remove the starter motor. To install the starter motor again, proceed in the reverse order to that of removal.

SECTION 55 - ELECTRIC SYSTEM

TEST BENCH CHECK Check NOTE: before carrying out the test, check that the battery is fully charged then obtain a battery-starter motor testing device (quick discharge) and a carbon cell (variable load resistance). Lock the starter motor in a vice with soft jaws. Connect the negative cable (4) of the battery to the mounting flange of the starter motor. Connect a short cable (6) between the solenoid battery wire and the terminals of the solenoid switch. Connect the positive cable of the voltmeter (3) to the positive terminal of the battery and the negative cable to the negative terminal of the battery, the positive cable of the ammeter (1) to the positive terminal of the battery and the negative terminal the solenoid valve battery or to the starter motor clamp. Install a tachometer (5) at the end of the armature shaft. Activate the starter motor by adjusting the carbon cell (2) to obtain a voltage of 11 V. When the armature is rotating at 3000 rpm, the maximum current draw must not exceed 200 A. If the starter motor does not operate in these conditions, check that the field coils are not grounded, that the armature is not rubbing and that its shaft is not deformed.

SECTION 55 - ELECTRIC SYSTEM Armature The surface of the commutator must be clean and without traces of burns. If necessary, remove traces of burns using fine sandpaper. Do not use emery cloth. Then, clean the commutator with a cloth soaked in gasoline. After rectifying the commutator, polish it with fine sandpaper, then wipe it with a cloth soaked in gasoline. NOTE: make sure not to graze the metal of the commutator during rectification of insulating notches. The resistance of the armature insulation may be checked by connecting an ohmmeter (1) between the blades of the commutator (2) and the armature shaft (3). The resistance must be infinite (no continuity). To check that the armature is not short-circuited, a special device for armatures must be used. The other solution is to replace the armature. If the circumference of the armature has come into contact with the starter pole shoes, the bearings of the armature are probably excessively worn out. First check that the starter pole shoes have been tightened and that the armature rotates without any concentric defect. If necessary, replace the armature bearings. Field coils To check the resistance of the field coil insulation, connect an ohmmeter (1) between the brushes of each induction coil (2) and a clean unpainted area of the body (3). The resistance must be infinite (no continuity). To check the continuity of the field coils, connect an ohmmeter between the brushes of each induction coil and the main supply terminal (the thickest braided wire). The resistance must be equal to 1 MW. If the field coils are defective, the entire assembly consisting of the body and the field coils must be replaced. Drive pinion The drive pinion must only rotate clockwise. If the pinion is seized or turns in both directions or if its teeth are damaged, change the complete drive assembly. NOTE: if the teeth of the drive pinion are damaged, also check the teeth of the engine flywheel ring gear.

SECTION 55 - ELECTRIC SYSTEM

TROUBLESHOOTING STARTING SYSTEM The motor does not start when the starter switch key is operated and the transmission is in the neutral position. Is the battery properly charged?

Charge or replace the battery.

YES Check the starter motor wiring. Are there bad connections, cut or stripped cables?

Repair or replace the cables.

YES

NO Is the starter motor seized?

YES

Repair or replace the starter motor.

NO Operate the starter switch key. Is there a voltage of +12 V on the (white) input YES wire of the starting solenoid valve (terminal 30)?

Does the solenoid make a â&#x20AC;&#x153;clickingâ&#x20AC;? YES sound? NO

NO Check the starter motor relay (K01). Can you hear the relay operate after operating the starter switch key? NO

Windings, brush or starter motor mechanism possibly defective.

Solenoid possibly defective. Remove the starter motor and inspect.

Remove the connector from the relay (K01). Is there a voltage of +12 V at terminal 86 (white/black) after the starter switch key is operated?

YES

Replace the relay.

NO Check the starter motor safety relay (K3). Can one hear the relay operate after operating the reverse travel lever? NO Remove the connector from relay K3. Is there a voltage of +12 V at terminal 86 (white/black) after the reverse travel lever is operated?

YES

Replace the relay.

NO Are the cable wires of the reverse travel lever properly connected? YES Does the reverse travel lever switch operate correctly?

Reconnect the wires to the switch.

Replace the switch.

YES Are the indicators on the instrument panel correctly lighted after operating the key switch? YES Are the cable wires of the key switch connected correctly? YES Replace the key switch.

Check the main power supply between the battery and the starter motor key. Pin 2 (red wire) of the ignition key connector.

NO Reconnect the wires to the key switch.

SECTION 55 - ELECTRIC SYSTEM

STARTER MOTOR FAULT The starter motor does not run (the magnetic switch makes no operating noise).

The starter motor does not run (the magnetic switch makes an operating noise).

CAUSE

ACTION

Too low specific density and battery level.

Inspect the battery.

Poor ignition switch system connection or contact.

Replace the wiring harness and the ignition switch.

Malfunction of the coil or of the magnetic switch pull-in piston.

Replace the magnetic switch.

Too low specific density and battery level.

Inspect the battery.

Poor start-up system contact.

Repair the wiring harness.

Poor magnetic switch contact.

Replace the magnetic switch.

Motor malfunction (e.g. short circuit, brush wear).

Repair or replace the motor assembly.

The starter motor runs too slowly. Poor magnetic switch contact.

Replace the magnetic switch.

Motor malfunction (e.g. short circuit, brush wear).

Repair or replace the motor assembly.

The pinion gear does not engage with the ring gear.

Repair or replace the clutch and the control lever.

Sliding clutch.

Replace the clutch.

Anomalous bushing wear.

Replace the bushing.

Wear on pinion gear or ring gear tooth tips.

Replace the clutch and the ring gear.

Poor pinion gear sliding.

Lubricate or replace the clutch.

The pinion gear springs.

Poor ignition switch return.

Replace the ignition switch.

Field coil loss.

Pinion gear disengagement fault caused by a coil short circuit in the magnetic switch.

Replace the magnetic switch.

The starter motor running cannot crank the engine. Anomalous noise.

Magnetic switch coil burnt, etc.

100

SECTION 55 - ELECTRIC SYSTEM

ALTERNATOR TECHNICAL SPECIFICATIONS Manufacturer .............................................................................................................................................Denso Rated voltage ...............................................................................................................................................12 V Polarity .................................................................................................................... Negative terminal grounded Current ......................................................................................................................................................120 A Minimum charging speed ..................................................................................................................... 1400 rpm Maximum speed................................................................................................................................... 9000 rpm Operating temperature ....................................................................................-30 °C to 90 °C (-435 to 1305 °F) Direction of rotation .................................................................................... Clockwise seen from the pulley side Regulated voltage at 5000 rpm with 10 A at 25 °C (362 °F) ...........................................................14.2 - 14.8 V Maximum load that can be applied at terminal L.........................................................................12 V, 3.4 W x 6

OPERATION The alternator, installed on the motor, on the front RH side of the vehicle, is driven by the crankshaft pulley with the help of a belt. The alternator contains built-in regulators. Current draw on the starter motor system: When the ignition key is turned, a current of low intensity is sent by the battery to the field winding of the rotor (terminal IG). At this stage, the indicator lamp (terminal L) turns on and the rotor is partially magnetized. When the motor starts and the partially magnetized rotor rotates inside the stator, a three-phase alternating current is generated (terminal B+). A constant portion of this current is transformed into a direct current by three excitation diodes installed in the rectifier. The direct current is sent as reinforcement through the field winding of the rotor. Using this method an increase in the magnetic field of the rotor is obtained, as well as a rapid rise in the voltage and current generated at the output. The luminosity of the indicator lamp decreases when the voltage generated at the output is increasing (terminal L). The indicator lamp goes out when the voltage at terminal “L” is equal to that of the battery. The voltage continues to increase up to the value predefined by the regulator. In case the alternator belt is broken, the voltage does not accumulate in the alternator and the load indicator lamp remains lighted to indicate the problem.

1. Ground connection 2. Terminal P: motor tachometer 3. Terminal L: charge indicator 4. Terminal B+: charge +12 V 5. Terminal IG: +12 V after ignition (10 A fuse)

SECTION 55 - ELECTRIC SYSTEM DIAGRAM OF THE CHARGING SYSTEM

1. Alternator

6. Battery

2. Output winding

7. Key switch

3. Rectifier

8. Charge indicator

4. Regulator

9. Speedometer

5. Starter motor

101

102

SECTION 55 - ELECTRIC SYSTEM

COMPONENTS

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15.

Front housing Rear housing Rectifier Brush holder Regulator Rear protective Insulation ring Insulation ring Screw Screw Nut Nut Rotor Pulley Pulley nut

16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29.

Sealing ring Sealing ring Washer Screw Electric terminal Screw Bearing Flange Flange Stator Stud screw Bearing Plate Screw

SECTION 55 - ELECTRIC SYSTEM REMOVAL Disconnect the negative cable from the battery. Disconnect the battery cable (1) from terminal B+ (2). Disconnect the connector (3).

Free the tension roller (4) using a suitable wrench, then remove the belt (5). Remove the screw (6) and the nut (7). Remove the screw (8). Remove the alternator (9).

103

104

SECTION 55 - ELECTRIC SYSTEM

PRELIMINARY CHECKS AND TESTS To prevent damage to components of the alternator charging circuit, the following precautions must be taken during maintenance: - NEVER connect or disconnect a charging system connection, including the battery, when the motor is running. - NEVER dead short to ground any component of the charging circuit. - ALWAYS disconnect the ground cable from the battery (negative) to recharge the battery on the vehicle using a battery charger. - ALWAYS respect the polarity when installing the battery on the vehicle or when using an auxiliary battery to start the motor. IMPORTANT: connect the positive cable to the positive terminal and the negative cable to the negative terminal.

PRELIMINARY CHECKS Before undertaking an electric inspection, check the charging system and the electric system carefully. Check the state of cables and the tightening of connections. Battery check Check each cell of the battery with a hydrometer. The battery must be charged at least 70% and be in good condition. Drive belt check Check that the belt and the pulley of the alternator are clean, without any trace of oil and grease and that they are in good condition. Indicator lamp check Turn the ignition key and check that the charge indicator is well lit. If it is not fully lighted, check its bulb. If the bulb is OK, check the alternator wire connections as described in the “Preliminary tests” section below. If the indicator lamp is lighted, start the motor and run it at a speed that is higher than the idling speed. The indicator lamp must turn off. If the indicator lamp does not turn off, turn off the motor and disconnect the ground cable L. If the indicator lamp goes out, an alternator component is defective. Follow the instructions given in the “Checking the alternator components” section below. If the indicator lamp stays lighted, look for a dead short to ground between the terminal “L” cable and the indicator lamp.

SECTION 55 - ELECTRIC SYSTEM PRELIMINARY TESTS The preliminary tests may be carried out without removing the charging system components; these tests help check the following items: - Connections of the alternator cables - Charging current and regulated voltage of the alternator - Voltage drops in the alternator charging system - Maximum flow of the alternator Required devices: - Voltmeter (0 - 30 V, moving coil) - Millivoltmeter (0 - 1 V) - Ammeter (0 - 110 A, moving coil) - Variable resistance of 1.5 Ohm, 110 A NOTE: most testing instruments sold in shops group together several measurement functions in a single device. Use these devices in accordance with the manufacturerâ&#x20AC;&#x2122;s instructions.

CHECKING THE CONNECTIONS OF THE ALTERNATOR CABLES Disconnect the battery. Disconnect the terminals B+ (2) and L (3) from the alternator. Reconnect the battery and turn the ignition key without starting the motor. Connect a voltmeter (4) between each terminal (B+ or L) and the ground (1). The voltmeter must show the battery voltage. If there is no battery voltage, the external cable has a continuity fault; in this case, check the entire system and carry out the necessary repairs. Connect the terminal L indicator lamp wire to the ground. The indicator lamp should turn on. Disconnect the battery and reconnect the cables to the alternator. NOTE: if the indicator lamp does not turn on after reconnecting the cable to the alternator, the regulator of the alternator or the rotor systems are defective. Make sure that terminal L is clean, then check the components of the alternator as indicated in this chapter.

105

106

SECTION 55 - ELECTRIC SYSTEM

CHECKING THE CHARGING CURRENT AND THE REGULATED VOLTAGE Make sure that all electric components are powered off and that the ignition is turned off (key on “off”). Disconnect the negative terminal from the battery and disconnect terminal B+ (4) from the alternator. Connect an ammeter (1) between the disconnected cable (3) and terminal B+ of the alternator. Connect a voltmeter (2) between terminal B+ of the alternator and the ground. Reconnect the battery. Start the motor and run it at a speed of 2000 rpm. Observe the values shown on the ammeter and the voltmeter. The voltage shown on the voltmeter should at first be very high and then should stabilize between 14.2 - 14.8 V when the value on the ammeter drops below 10 A. If the voltmeter stabilizes at a voltage greater than 14.8 V, the regulator of the alternator needs to be replaced. On the other hand, if the voltmeter stabilizes below 14.2 V, a component of the alternator is defective or the resistance in the external connections of the charging circuit is too high. If the ammeter indicates zero amps, an alternator component is defective. Turn off the motor and carry out the operations described in the “Checking the alternator components”.

SECTION 55 - ELECTRIC SYSTEM CHECK OF VOLTAGE DROPS IN CHARGING SYSTEM Voltage drop on insulated side Make sure that the starter switch key is turned to OFF. Disconnect the negative cable from the battery and disconnect cable B+ (1) from the alternator. Connect a millivoltmeter (4) between the positive terminal of the battery and cable B+ (5) (positive side on cable). Connect an ammeter (2) between terminal B+ of the alternator and cable B+ (negative side on cable). Reconnect the negative cable of the battery and connect a variable resistance (3) between the battery terminals by adjusting the cursor to the minimum current draw (maximum resistance). Start the motor and increase its speed to 2000 rpm. Gradually reduce the resistance until the ammeter shows 90 A. Observe the millivoltmeter, which must not indicate a value that is greater than 400 millivolts. If the value exceeds 400 millivolts, the resistance of the external system is too high. If the output value of the alternator is not sufficient and the millivoltmeter indicates a value that is less than 400 millivolts, an alternator component is defective. Carry out the operations described in the â&#x20AC;&#x153;Checking the alternator componentsâ&#x20AC;?. Stop the engine.

107

108

SECTION 55 - ELECTRIC SYSTEM

Voltage lower on ground side Make sure that the starter switch key is turned to OFF. Check the system as for the previous test, but connect the millivoltmeter (4) between the negative terminal of the battery and the alternator body (negative side towards the body). NOTE: make sure that the variable resistance (3) is in the minimum current draw position (maximum resistance). Start the motor and increase its speed to 2000 rpm. Gradually reduce the resistance until the ammeter (2) shows 90 A. Observe the millivoltmeter, which must not indicate a value that is greater than 200 millivolts. If the value exceeds 200 millivolts, the resistance of the external system is too high. If the output value of the alternator is not sufficient and the millivoltmeter indicates a value that is less than 200 millivolts, an alternator component is defective. Carry out the operations described in the “Checking the alternator components”. Stop the engine.

CHECKING THE MAXIMUM OUTPUT OF THE ALTERNATOR Make sure that the starter switch key is turned to OFF. Disconnect the negative cable from the battery and disconnect cable B+ (5) from the alternator. Connect an ammeter (2) between terminal B+ (1) of the alternator and the disconnected cable B+ (negative side towards the cable). Connect a voltmeter (4) between terminal B+ of the alternator and the ground. Reconnect the battery, start the motor and increase its speed to 2000 rpm. Gradually reduce the resistance (3) until the ammeter shows 90 A. Observe the voltmeter, which must not indicate a value that is less than 14.2 V. If the value lowers below 14.2 V, an alternator component is defective. Carry out the operations described in the “Checking the alternator components”.

SECTION 55 - ELECTRIC SYSTEM CHECKING THE ALTERNATOR COMPONENTS Checking of components must be done only if the PRELIMINARY TESTS reveal an alternator defect which relates to the following components: - regulator; - continuity of the rotor field winding; - brushes, springs and slip rings. NOTE: these checks may be carried out without removing the alternator from the vehicle. The alternator must be removed to check the other components of the alternator. Refer to the â&#x20AC;&#x153;Removalâ&#x20AC;? section in this chapter. IMPORTANT: before disconnecting the cables from the alternator, make sure that the starter switch key is turned to OFF and that the negative cable of the battery is disconnected. Required devices: - 12 V battery; - multimeter; - 2.2 W test lamp.

CHECKING THE ROTOR AND THE RELEVANT FIELD SYSTEM Disconnect all cables from the alternator. Connect a 12 V battery and a 2.2 W test lamp (2) in series between terminal L (1) and the alternator body (negative side on body). The test lamp must turn on. If the lamp does not turn on, the rotor system is defective. Check the brushes, the slip rings and the continuity of the rotor field windings. If the inspection reveals that these components are in good condition, the defect may be due to the regulator.

109

110

SECTION 55 - ELECTRIC SYSTEM

CHECKING THE CONTINUITY OF THE ROTOR FIELD WINDING Remove the regulator with the brush holder. Connect an ohmmeter (3) between the two slip rings (2). The resistance must be 2.6 ohms at 20 °C (68 °F). If the resistance is not correct, replace the rotor (1) as described in the “Removal” section below.

RECTIFIER - CHECKING THE POSITIVE / NEGATIVE DIODES Check each of the six diodes separately. Connect a multimeter (2) in series with one of the diodes. Place one wire of the multimeter on the connecting pin (1) of the diode and the other wire on the plate where the diode is installed. Note down the value of the resistance indicated by the multimeter. Reverse the wires of the multimeter. The multimeter should indicate infinite resistance (open circuit) only during the first half of the test. If this check reveals that a diode is defective, replace the entire rectifier.

RECTIFIER - CHECKING THE EXCITATION DIODES Check each of the excitation diodes separately. Connect a multimeter (2) in series on the excitation diode module. Place the negative wire on terminal L (1) and the other wire on the connection of each excitation diode (3). Note down the value of the resistance indicated by the multimeter. Reverse the wires of the multimeter. The multimeter should indicate infinite resistance (open circuit) only during the first half of the test. If this check reveals that a diode is defective, replace the entire rectifier.

SECTION 55 - ELECTRIC SYSTEM STATOR - CHECKING THE CONTINUITY OF THE WINDING Check each excitation diode separately by proceeding as follows: Connect the wires of the ohmmeter (3) between wires A, B and C (2). The resistance between each of the wires must be low (0.1 W). If the resistance is greater than this value, it indicates a possible break in the winding, i.e. an open circuit. A lower value (0.0. for example) indicates a short circuit in the winding. If the result of this check is not satisfactory, replace the stator (1) and its casing.

STATOR - CHECKING THE INSULATION Check the insulation of each winding with respect to the alternator casing. There must not be any continuity between the winding and the casing. If the ohmmeter (2) indicates any value other than an open circuit, replace the entire stator (1).

ROTOR CHECK Before checking the rotor components, inspect the slip rings to make sure that they are in good condition. - Check that the slip rings are clean and smooth. If necessary, clean them with a cloth soaked in gasoline. If the slip rings are burnt, scrape them with very fine sandpaper (do not use emery cloth) and wipe them. NOTE: make sure that the sandpaper is sufficiently fine in order to obtain a perfect finish of the slip ring surfaces and avoid premature wear of the brushes. - If the slip rings are excessively worn, replace the rotor.

111

112

SECTION 55 - ELECTRIC SYSTEM

ROTOR - CHECKING THE CONTINUITY OF THE FIELD WINDING Connect an ohmmeter (3) between the two slip rings (2). The resistance must be 2.6 ohms at 20 °C (68 °F). If the resistance is incorrect, replace the rotor (1).

ROTOR - CHECKING THE INSULATION OF THE FIELD WINDING Using an ohmmeter (3), measure the resistance between each slip ring (2) and the rotor terminals (1). The resistance should always be infinite. If a resistance is not infinite, replace the rotor.

SECTION 55 - ELECTRIC SYSTEM

113

TROUBLESHOOTING FAULT

Not recharged.

Recharge insufficient.

Excessive recharge.

CAUSE

ACTION

Recharging system interrupted (warning lamp, fuse, connector, etc.).

Check the connections of the recharging system, clean and tighten the alternator and battery terminals.

Voltage regulator inefficient.

Replace the part.

Rotor winder interrupted.

Replace the part.

Worn brushes.

Replace the part.

Slackened fan belt.

Supply the correct voltage.

Voltage regulator faulty.

Replace the part.

Excessive wear of rotor rings or brushes.

Replace the part.

Short-circuited diodes.

Replace the part.

Short-circuited stator winders or rotor winder.

Replace the part.

Loose system connections.

Check the connections of battery terminals, starter motor terminals and alternator.

Voltage regulator inefficient.

Replace the part

Ground connection faulty.

Check connections for leaks.

114

SECTION 55 - ELECTRIC SYSTEM

BATTERY For the loader backhoe models two different kinds of installation are provided: - with one battery; - with two batteries (for cold climates).

TECHNICAL SPECIFICATIONS Single battery Voltage: ........................................................................................................................................................12 V Capacity (20 h):..........................................................................................................................................95 Ah Discharge current:......................................................................................................................................900 A Weight with electrolyte: ................................................................................................................... 25 kg (55 lb) Double battery Voltage: ........................................................................................................................................................12 V Capacity (20 h):..........................................................................................................................................60 Ah Discharge current:......................................................................................................................................600 A Weight with electrolyte: ................................................................................................................ 17 kg (37.5 lb)

OPERATION All models feature one or two 12 V, negative ground, “maintenance free” lead calcium (Pb-Ca) type battery.

The battery is constructed in such a manner that each cell contains positive and negative plates placed alternatively next to each other.

IMPORTANT: “Maintenance Free” means that under normal charging conditions the battery does not lose water from the electrolyte. Conditions that may cause water loss include prolonged charging above 14.4 V where gassing occurs as it approaches full charge. This can be caused by a faulty charging system or boost/recovery charging equipment. The battery has four major functions:

Each positive plate is separated from a negative plate by a non conducting porous envelope separator.

- to provide a source of current for starting, lighting and instrumentation; - to help control the voltage in the electric system; - to provide current when the electric consumption exceeds the alternator output; - to support quiescent loads from radio and microprocessor memory.

If any of the positive plates should make contact with negative plates within a cell, the cell will short circuit and suffer irreparable damage. All of the positive plates are welded to a bus-bar, forming a positive terminal and all of the negative plates are welded to a similar bus-bar forming a negative terminal. Each positive plate is composed of a lead grid with lead peroxide pasted into the grid openings. The negative plates are composed of a lead grid with spongy lead pasted into the grid openings. The plates are submerged in a liquid electrolyte solution of diluted sulphuric acid.

SECTION 55 - ELECTRIC SYSTEM REPLACEMENT Move the machine to a level and firm ground. Lower the loader attachment to the ground. Place the backhoe attachment in the road travel position. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Stop the engine and remove the starter key.

S WARNING S Never reverse the battery terminals. Connect the positive cable to the positive terminal (+) and the negative cable to the negative terminal (-). When disconnecting the battery cables, always disconnect the negative cable (-) first. When reconnecting the battery cables, always connect the negative (-) cable last. Never short-circuit the battery terminals with metal objects. Never touch the battery terminals with your hands. This could generate an electrolysis inside the human body and damage the bodyâ&#x20AC;&#x2122;s vital organs. Place the battery switch in the OFF position. Remove the battery master switch support (6) without disconnect the battery cables. Remove the terminal covers and disconnect the cables, first from the negative terminal (1) then the positive terminal (2). Remove the nuts and washers (3), the clamping bar (4) and the brackets (5) and remove the old battery. Install the new battery. Install the brackets (5), the clamping bar (4) and the washers and nuts (3). Clean the cables and the connecting terminals and coat them with grease. Connect the cables, first to the positive terminal (2), then the negative terminal (1) and install the terminal covers. Reassemble the battery master switch support (6).

115

116

SECTION 55 - ELECTRIC SYSTEM

CHARGE AND ELECTROLYTE LEVEL CHECK

S WARNING S

The battery electrolyte generates severe burns. The battery contains sulphuric acid. Avoid any contact with the skin, eyes or clothing.

Before carrying out any welding on the machine or repair work on the electric circuit, disconnect the battery and disconnect the B+ and D+ wires on the alternator. When reconnecting, check the wire markings.

Antidote: EXTERNAL: rinse well with water, removing any soiled clothing.

CHARGE CHECK

INTERNAL: avoid vomiting. Drink water to rinse your mouth. Consult a doctor.

Measure the density of the acid of the single cells with a commonly available measuring device.

EYES: rinse thoroughly with water for 15 minutes and get prompt medical attention.

The measured values (see table below) indicate the charge status of the battery.

When working with batteries, always wear gloves, protection goggles and suitable clothes.

When measuring, the temperature of the acid should be +20 °C (68 °F), if possible.

S WARNING S

ELECTROLYTE CONCENTRATION

Never touch the battery terminals with your hands. This could generate an electrolysis inside the human body and damage the body’s vital organs.

S WARNING S Batteries produce explosive gases. To prevent any risk of explosion, observe the following instructions:

in kg/dm3 (lb/ft3)

Charge

Normal

Tropical

1.28 (80)

1.23 (77)

good

1.20 (75)

1.12 (70)

reduced: charge

1.12 (70)

1.08 (67)

low: immediately charge

- place the battery switch in the OFF position; - when disconnecting the battery cables, always disconnect the negative cable (-) first; - when reconnecting the battery cables, always connect the negative (-) cable last; - never short-circuit the battery terminals with metal objects; - do not weld, grind or smoke near a battery. Keep open flames away and do not smoke near batteries. Always provide good ventilation when charging a battery or using a battery in an enclosed space.

ELECTROLYTE LEVEL CHECK Remove the vent plugs and check the level in each battery cell. The level should come up to 6 mm (0.24 in) above the separator plates. Add distilled water if necessary.

SECTION 55 - ELECTRIC SYSTEM

117

CONNECTING A BOOSTER BATTERY

S WARNING S When the electrolyte of a battery is frozen, it can explode if you attempt to charge the battery or if you try to start the engine using a booster battery. Always keep the battery charged to prevent the electrolyte freezing.

S WARNING S Connecting jumper cables wrongly or shortcircuiting battery terminals can cause an accident. Connect the jumper cables following the instructions in this manual. IMPORTANT: make sure that the voltage of the booster batteries is the same as that of the machine system (12 V). Open the battery box and then remove the tool box. Remove the terminal covers. Connect the positive (+) jumper cable to the positive (+) terminal of the machineâ&#x20AC;&#x2122;s battery. Connect the negative (-) jumper cable to one of the fastening screws (1) of tank. Start the engine First disconnect the negative (-) jumper cable, then disconnect the positive (+) jumper cable from the booster battery. Install the terminal covers. Install the tool box and close the battery box.

BATTERY MASTER SWITCH

S WARNING S The battery master switch must be switched off at the end of each working day, for machine service or for any operations on the electric system. It acts as an anti-theft device when the cab doors and windows are locked. The battery master switch (1) is located in the battery compartment and is used to completely disconnect the battery from the electric system. When the battery master switch has an inclination of 45Â°, the circuit is disconnected. When the master switch is in vertical position, the circuit is connected.

118

SECTION 55 - ELECTRIC SYSTEM

TROUBLESHOOTING FAULT The electric system is inoperative.

Starter motor speed too low, the engine cranks slowly.

Starter motor inoperative.

The charge indicator lamp stays on with the engine running.

POSSIBLE CAUSE

ACTION

Loose or oxidised battery connections.

Check that the battery voltage with open circuit is at least 12.6 V.

Clean and tighten the connections. Sulphated batteries.

Check the electrolyte level and density.

Battery isolator switch off.

Restore the battery isolator switch.

The main connection fuse of the machine is blown.

Find the reason of the failure and replace the connection fuse.

Loose or corroded connections.

Clean and tighten loose connections.

Low battery output voltage.

Check that the battery voltage with open circuit is at least 12.6 V. Check the electrolyte level and density.

Incorrect viscosity of the engine oil.

Use an oil with correct viscosity for the temperature conditions.

Transmission gearshift lever engaged.

Move gearshift lever to neutral.

Loose or corroded connections.

Clean and tighten loose connections.

Dead batteries.

Charge or replace the batteries.

Low engine idle speed.

Increase idle speed.

Loose belt.

Check belt tension.

Malfunctioning battery.

Check that the battery voltage with open circuit is at least 12.6 V. Check the electrolyte level and density.

Malfunctioning alternator.

Check the alternator and repair, if necessary.

SECTION 55 - ELECTRIC SYSTEM

FAULT Batteries will not charge.

The charge indicator flashes, indicating excessive charging voltage.

POSSIBLE CAUSE

119

ACTION

Loose or corroded battery connections.

Clean and tighten the connections.

Sulphated batteries.

Check that the battery voltage with open circuit is at least 12.6 V. Check the electrolyte level and density.

Loose or worn belt.

Check the automatic belt tensioner. If necessary, replace the belt.

Malfunctioning alternator.

Check the alternator and repair, if necessary.

120 NOTES:

SECTION 55 - ELECTRIC SYSTEM

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 82 - LOADER LOADER ATTACHMENT CONTROLS............................................................................................................. 4 LOADER ATTACHMENT OPERATION ...................................................................................................... 4 4x1 LOADER BUCKET CONTROL (Optional) ............................................................................................ 7 LOADER ATTACHMENT CONTROL LOCK (Specific to certain countries)................................................ 8 BUCKET SELF-LEVELLING ADJUSTMENT ................................................................................................... 9 LOADER ATTACHMENT SAFETY STRUT.................................................................................................... 12 LOADER ATTACHMENT SAFETY STRUT (B100C - B110C) .................................................................. 12 LOADER ATTACHMENT SAFETY STRUT (B100CTC - B110CTC - B115C) .......................................... 14 REMOVAL AND INSTALLATION OF LOADER BUCKET .............................................................................. 15 LOADER BUCKET (B100C - B110C) ........................................................................................................ 15 LOADER BUCKET (B100CTC - B110CTC - B115C) ................................................................................ 16 LOADER BUCKET WITH FORKS (Optional) ............................................................................................ 17 BUCKET TEETH REPLACEMENT............................................................................................................ 18 LOADER REMOVAL....................................................................................................................................... 19 LOADER ATTACHMENT (B100C - B110C) .............................................................................................. 19 LOADER ATTACHMENT (B100CTC - B110CTC - B115C) ...................................................................... 21

SECTION 82 - LOADER

The loader assy consists essentially of an arm hinged to the loader backhoe chassis, on which is installed a linkage moving the bucket frontally. Three kinds of loader arm are provided:

- bent loader arm (2WS);

- bent loader arm (2WS-TC);

- bent loader arm (4WS).

SECTION 82 - LOADER

LOADER ATTACHMENT CONTROLS

S WARNING S Before starting the engine, make sure you are fully aware of the location and the function of each control. Operating the controls wrongly can cause serious physical injury.

S WARNING S Before using the controls make sure that the operatorâ&#x20AC;&#x2122;s seat is correctly adjusted in the loader attachment position. WITH STANDARD LOADER BUCKET Located on the right of the steering wheel, this nine position lever operates all the loader attachment controls. The speed of movement of each control depends on the angle to which the lever is tilted. In the intermediate position, two movements can be obtained simultaneously. WITH 4x1 LOADER BUCKET The function of the lever is identical to that of the machine fitted with the standard loader bucket, with the addition of the clam control.

LOADER ATTACHMENT OPERATION NEUTRAL AND HOLD With the lever in the neutral/hold position (0), the attachment movement can be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped.

SECTION 82 - LOADER RAISING THE LOADER ATTACHMENT With the lever in position (1), the attachment rises.

LOWERING THE LOADER ATTACHMENT With the lever in position (2), the attachment lowers.

LOADER BUCKET FLOAT CONTROL With the lever in position (3), the bucket follows the contours of the ground without it being necessary to operate the lever. NOTE: in this position the lever does not automatically return to neutral when it is released. It is necessary to move it manually.

SECTION 82 - LOADER

FILLING THE LOADER BUCKET With the lever in position (4), the bucket rolls back (fills).

DUMPING THE LOADER BUCKET With the lever in position (5), the bucket rolls forward (dumps).

AUTOMATIC RETURN TO LOADER BUCKET FILLING With the lever in position (6), the attachment lowers and, simultaneously, the bucket places itself to the digging position. NOTE: it is possible to adjust the tilt angle for bucket filling.

SECTION 82 - LOADER 4x1 LOADER BUCKET CONTROL (Optional) This control operates the opening and closing of the 4x1 bucket clam. This control is proportional: When releasing the roller (7), it automatically returns to the initial position (neutral) and the bucket remains in the position where it was when movement stopped. It is possible to lock the roller into detent by moving the roller to the full forward (raised) position. To release the detent, press on the lower portion of the roller as your return it to the neutral position. When shifting the roller (7) forward: the loader bucket clam closes (A). When shifting the roller (7) backward: the loader bucket clam opens (B). 4x1 loader bucket control roller detent procedure The operator may install a detent position for the 4x1 bucket operation. This position alters operation in order to allow the operator to lock the switch in the open circuit position, so that this position is held until the operator unlocks the switch. The standard position of the switch is with the open U shape pointing upwards. In this configuration, the switch will automatically spring back to the neutral position when released, from any position. To set the detent position to the bucket open position, it is necessary to remove the top of the switch, rotating it by 180Â°. Remove the screw (2) of the roller (1) using a small phillips screwdriver.

SECTION 82 - LOADER

Lift and remove the top portion (3) of the roller switch, rotate it by 180Â° and tighten the screw in the top portion of the roller. NOTE: the open U shape must point downwards. Carefully restore the screw (2) into place and do not overtighten. Test the switch by lifting it up into detent position before restoring the cap into place. The switch should lock into position. In this condition, the 4x1 loader bucket control roller is locked. To unlock it, it is necessary to rotate the top portion again and take it back to its initial position.

LOADER ATTACHMENT CONTROL LOCK (Specific to certain countries) This pin (1), located next to the control lever, is used to lock the attachment controls. To lock the controls, remove the pin from its housing and install it in the specially provided hole in the console.

S WARNING S Before leaving the operatorâ&#x20AC;&#x2122;s compartment, undertaking any road travel or working with the backhoe attachment, place the pin in locking position.

SECTION 82 - LOADER

LOADER BUCKET SELF-LEVELLING The self-levelling linkage mounted on the right hand loader arm and frame automatically controls the angle of the loader bucket during the raising cycle of the lift arms to maintain a constant bucket level. There is no self-levelling during the lowering cycle. Self-levelling begins when the tube (2) on the loader arm contacts the bell crank (1) and lifts the vertical linkage rod (3). The tie rod then moves the bucket spool to the dump position to level the bucket.

AUTOMATIC SELF-LEVELLING CONTROL ADJUSTMENT Lower the loader attachment to the ground. Disconnect the vertical tie rod (3) at the lower bell crank. Raise the loader attachment so that the lower bucket pin is 800 mm (31.5 in) above the ground, and fully turn over the bucket to the rear.

Rotate the bell crank (1) until it touches the tube (2) on the loader arm. Make sure the lower bell crank arm is directed upwards. Adjust the length of the vertical rod (3) so that, when re-connected, the end of the loader arm tube remains in contact with the bell crank. Securely tighten the lock nuts on a vertical tie rod.

SECTION 82 - LOADER

“RETURN TO DIG” DEVICE - 2WS The “return to dig” device is an electrically activated feature which enables the operator to automatically return the bucket to a level digging position for a further work cycle, with one simple movement of the control lever (3). Whenever the bucket is rolled forward to dump the return to dig electric circuit is completed and the solenoid on the bucket spool is energised. When the loader bucket control lever (3) is moved diagonally left to the return to dig position (2) the electromagnet will hold the bucket spool in the roll back position until the bucket is in the level digging position at which time the indicator on the rod of the bucket self-levelling linkage will pass in front of the sensor which de-energises the electromagnet on the bucket spool enabling the spool to return to the neutral position.

Return to dig sensor - Adjustment The “return to dig” device consists of an electromagnet mounted on the bucket spool, a sensor (1) mounted on top of the loader arm and a pointer attached to the tube of the bucket self-levelling linkage. Place the bucket on the ground in the preferred digging position. Adjust the position of the sensor such that when the bucket is in digging position and loader arms are lowered, half (50%) of the sensor face is obscured by the self-levelling linkage pointer. Ensure the face of the sensor (1) is 3 - 6 mm (0.12 - 0.24 in) from the pointer (2) on the selflevelling linkage. As a visual aid for the operator, while seated in the cab, the pointer mounted on the loader arm can be seen to align with the pointer on the self-levelling linkage, when the loader arms are lowered and the bucket is in the level digging position.

SECTION 82 - LOADER “RETURN TO DIG” SYSTEM - 4WS The “return to dig” device is an electrically activated feature which enables the operator to automatically return the bucket to a level digging position for a further work cycle, with one simple movement of the control lever (3). Whenever the bucket is rolled forward to dump the return to dig electric circuit is completed and the solenoid on the bucket spool is energised. When the loader bucket control lever (3) is moved diagonally left to the return to dig position (2) the electromagnet will hold the bucket spool in the roll back position until the bucket is in the level digging position at which time the indicator on the rod of the bucket linkage will pass in front of the sensor which de-energises the electromagnet on the bucket spool enabling the spool to return to the neutral position.

Return to dig sensor - Adjustment The “return to dig” device consists of an electromagnet mounted on the loader bucket control valve spool, a sensor (1) mounted on top of the loader arm and a pointer attached to the tube of the bucket self-levelling linkage. Place the bucket on the ground in the preferred digging position. Check the dimensions of 88.5 mm (3.5 in) and 7.5 mm (0.3 in) are maintained as shown. Make sure that the sensor (1) is 6 mm (0.24 in) from the tie rod (2). As a visual aid for the operator, while seated in the cab, the pointer mounted on the loader arm can be seen to align with the pointer on the return to dig linkage, when the loader arms are lowered and the bucket is in the level digging position.

SECTION 82 - LOADER

LOADER ATTACHMENT SAFETY STRUT LOADER ATTACHMENT SAFETY STRUT (B100C - B110C) Located on the left-hand side of the loader attachment, this safety strut enables the loader attachment to be locked in the raised position in case of defects in the system. LOCKED POSITION Completely raise the loader attachment. Stop the engine and remove the starter key. Remove the split pin (1) and the lock pin (2).

Place the strut (3) on the cylinder rod and install the pin (2) and the split pin (1) back into the holes in the strut.

S WARNING S It is mandatory to install the safety strut when carrying out any operation requiring the loader attachment to be in the raised position.

SECTION 82 - LOADER UNLOCKED POSITION Remove the split pin (1) and the lock pin (2).

Remove the strut (3) from the attachment and install the pin (1) and the split pin (2) back into the holes in the strut. Start the engine and lower the loader attachment.

SECTION 82 - LOADER

LOADER ATTACHMENT SAFETY STRUT (B100CTC - B110CTC - B115C) Located on the left-hand side of the loader attachment, this safety strut enables the loader attachment to be locked in the raised position in case of defects in the system. LOCKED POSITION Completely raise the loader attachment. Stop the engine and remove the starter key. Remove the split pins (1) and the safety strut (2) from the arm. Put the split pins back in place. Place the strut (2) on the cylinder rod and fasten it by means of the fastening flip (3).

S WARNING S It is mandatory to install the safety strut when carrying out any operation requiring the loader attachment to be in the raised position. UNLOCKED POSITION Remove the flip (3) and the strut (2) from the cylinder rod.

Install the safety strut (2) on the loader arm by means of the split pins (1). Start the engine and lower the loader attachment.

SECTION 82 - LOADER

REMOVAL AND INSTALLATION OF LOADER BUCKET LOADER BUCKET (B100C - B110C) REMOVAL Move the machine to a level and firm ground. Lower the bucket to the ground in dump position (tilted completely forward). Stop the engine and remove the starter key. If the machine is fitted with a 4x1 bucket, release the pressure from the bucket circuit. Remove the fastening screws, then remove the pins (1).

S WARNING S Always wear eye protection when using a tool which might project metal particles. Use a hammer with a soft face, such as copper, for pins assembly/ disassembly. (4x1 bucket) disconnect and plug the hydraulic supply lines. Start the engine. Operate the attachment controls so as to release the bucket. Reverse the machine from the bucket. INSTALLATION Make sure all bushings are completely clean. Remove any dirt or foreign matter, if necessary. Start the engine. Use the attachment controls to engage the attachment between the bucket lugs. Install the arm/bucket pins (1) and then install the relevant retaining screws. Use the bucket controls to align the connecting rod orifices with the bucket lugs. Stop the engine and remove the starter switch key. (4x1 bucket) release the pressure from the bucket circuit. Install the rod/bucket pins (2), and then install the relevant retaining screws. (4x1 bucket) remove the plugs and reconnect the hydraulic lines.

SECTION 82 - LOADER

LOADER BUCKET (B100CTC - B110CTC - B115C) REMOVAL Move the machine to a level and firm ground. Lower the bucket to the ground in dump position (tilted completely forward). Stop the engine and remove the starter key. If the machine is fitted with a 4x1 bucket, release the pressure from the bucket circuit.

Remove the retaining rings and pins, then drive out the pins (1).

S WARNING S Always wear eye protection when using a tool which might project metal particles. Use a hammer with a soft face, such as copper, for pins assembly/ disassembly. (4x1 bucket) disconnect and plug the hydraulic supply lines. Start the engine. Operate the attachment controls so as to release the bucket. Reverse the machine from the bucket. INSTALLATION Make sure all bushings are completely clean. Remove any dirt or foreign matter, if necessary. Start the engine. Use the attachment controls to engage the attachment between the bucket lugs. Reinstall the arm/bucket pins (1) and then install the relevant retaining pins and rings. Use the bucket controls to align the connecting rod holes (3) with the bucket lugs. Stop the engine and remove the starter key. (4x1 bucket) release the pressure from the bucket circuit. Install the rod/bucket pins (2) and then install the relevant retaining pins and rings. (4x1 bucket) remove the plugs and reconnect the hydraulic lines.

SECTION 82 - LOADER LOADER BUCKET WITH FORKS (Optional)

S WARNING S The forks are heavy, so use great care when swinging them into their working and stowage position. INSTALL FORKS IN WORKING POSITION Move the bucket to a level and firm ground. Stop the engine and remove the starter key. Raise the parking brake lever. Remove the retained pin and the pin (1). Lower the fork (2) manually and carefully until it is laying in position against the bucket cutting edge. IMPORTANT: the forks must be laying against the cutting edge of the bucket, and never against bucket teeth.

Install the pin (1) and the safety pin. Repeat the same operations for the other fork. Slide the forks until they are suitably spaced for the intended job. IMPORTANT: the two forks must be positioned at the same distance from the centre of the bucket. IMPORTANT: never use the forks to lift the machine.

S WARNING S When using the forks with a 4x1 bucket, never attempt to use the bucket jaw opening function.

SECTION 82 - LOADER

INSTALL THE FORKS IN REST POSITION Rest the loader bucket on a level and firm ground. Stop the engine and remove the starter key. Disengage the parking brake lever. Remove the retained pin and the pin (1). Tilt the fork (2) manually and carefully until it is rearwards into transport position.

Reinstall the pin (1) and the safety pin into their housing. NOTE: if necessary, slide the fork to the side to bring it into its housing. Repeat the same operations for the other fork. IMPORTANT: the forks must be securely retained in their proper storage position using the pins and split pins provided for this purpose. If forks are not correctly secured, they can cause serious injury.

BUCKET TEETH REPLACEMENT Move the machine to a level and firm ground. Position the loader bucket so that the bucket teeth can be replaced. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Stop the engine and remove the starter key. Loosen and remove the screws (2) with the nuts (3). Extract the tooth (1). Clean the area around the tooth. Assemble the new tooth (1). Screw in and tighten the screws (2) with the nuts (3).

SECTION 82 - LOADER

LOADER REMOVAL LOADER ATTACHMENT (B100C - B110C) Remove the loader described previously).

bucket

(see

procedure

Disconnect the self-levelling linkage rod (3) from the bell crank (1). Strap the linkage rod (2) to loader arm.

Disconnect the loader lift cylinder rod end retaining pin (4). Lower the lift cylinder onto the chassis. Disconnect the hoses of the bucket cylinder and the pipes of the 4x1 bucket, where fitted. IMPORTANT: examine pipework to ensure that any clamps securing the hoses to the loader arms have also been released.

Support loader using a suitable sling.

SECTION 82 - LOADER

Install the loader pivot screw retainer 380000723.

Using heavy duty socket remove the pivot screw.

Ensure loader is properly supported and remove the bar (5).

Remove the loader from the machine.

SECTION 82 - LOADER INSTALLATION For installation, follow the removal procedure in reverse order. When assembling the fastening screws, tighten to a torque of 500 Nm (369 lbfÂˇft).

LOADER ATTACHMENT (B100CTC - B110CTC - B115C) Remove the loader described previously).

bucket

(see

procedure

Fully retract bucket cylinders and raise arm until lift cylinder pivots can be seen above engine guard. Place a suitable stand under the end of the arm to take the weight. Switch off the engine and relieve hydraulic pressure.

Remove the safety rings (2) and the pins and then drive out the pins (1). Lower the lift cylinders carefully onto the chassis.

SECTION 82 - LOADER

Remove the snap rings (3) and drive out the pins (4). Lower the arms onto the lift cylinders.

Disconnect and cap the lift cylinder hoses (5) at the top of the loader arm on each side of the machine and disconnect the return to dig sensor cable (7) on the right hand side. If the 4x1 bucket is fitted disconnect and cap hose (6) on each side of the loader.

Support loader using a suitable sling.

Remove the safety ring and pins and then pull out the pin (8).

SECTION 82 - LOADER Remove the loader from the machine.

INSTALLATION For installation, follow the removal procedure in reverse order.

24 NOTES:

SECTION 82 - LOADER

B100C - B100CLR - B100CTC B110C - B110CTC B115C

SECTION 84 - BACKHOE

DESCRIPTION AND OPERATION Loader backhoes are available with center pivot or sideshift backhoe attachment. On center pivot machines the backhoe pivots on a fixed central point at the rear of the machine. Independently operated stabilizers are attached to the base of the chassis and pivot about an arc to raise or lower each side of the machine.

On sideshift machines the backhoe is attached to a carriage hydraulically clamped to the machine frame. This allows the operator to reposition the carriage on the frame and to adjust the position of the backhoe attachment to suit the operating conditions. The machine is raised using two vertical stabilisers attached to each side of the machine.

Each stabilizer is independently operated using: - levers (1) and (2) on mechanical control loader backhoes;

- control levers (3) and (4) on â&#x20AC;&#x153;pilotâ&#x20AC;? control loader backhoes.

SECTION 84 - BACKHOE

The backhoe attachment is locked in position during transport using a hydraulically and mechanically operated lock (5).

The lock is operated by the lever (6) or the switch (7).

The backhoe on the mechanical control models is controlled using two main control levers. Three types of control pattern for two levers (8) and (9) systems are available as shown on the following pages. A four-lever system installed by the Dealer is also available as optional accessory.

The backhoe on the hydraulic control models is controlled using two rear hydraulic control levers (10) and (11).

SECTION 84 - BACKHOE Machines may be fitted with an optional telescopic dipper which can be operated simultaneously with other boom, dipper and bucket movements.

The telescopic dipper on the manually controlled models is controlled by a pedal (12) located in the rear part of the cab.

The telescopic dipper on pilot control modes, is controlled using the two buttons (13) and (14) on the left hydraulic control levers.

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BACKHOE ATTACHMENT CONTROLS NOTE: the instruments represented may not exactly correspond to the instruments on your machine. IMPORTANT: before using the backhoe attachment, make sure that the backhoe attachment sideshift carriage lock switch (3) is in the OFF position and that the lock hook has been disengaged (4), either by means of the lever (2) or the switch (1). IMPORTANT: whenever the backhoe attachment is used, the machine must be resting on the stabilizers.

S WARNING S Check control functions before operating the machine. Failure to check control pattern before operating can cause unexpected machine movement, death or serious injury.

S WARNING S Any uncontrolled movement of the machine can cause an accident. Before turning the operatorâ&#x20AC;&#x2122;s seat to the backhoe attachment working position, it is essential to place the direction-of-travel control lever and the powershuttle gearshift lever in the neutral position and immobilize the machine by means of the parking brake lever.

S WARNING S Before using the backhoe controls, make sure that the operatorâ&#x20AC;&#x2122;s seat is correctly adjusted in the backhoe attachment position.

SECTION 84 - BACKHOE BACKHOE ATTACHMENT MECHANICAL CONTROLS STABILIZER MECHANICAL CONTROLS IMPORTANT: whenever the backhoe attachment is used, the machine must be resting on the stabilizers. Left-hand stabilizer left-hand control lever This lever has three positions: Position (0): neutral. This position stops the movement of the left-hand stabilizer. As soon as the lever is released, it automatically returns to the neutral position (0) and the left-hand stabilizer stops raising or lowering. Position (1): the left-hand stabilizer lowers. Position (2): the left-hand stabilizer rises. Right-hand stabilizer right-hand control lever This lever has three positions: Position (0): neutral. This position stops the movement of the right-hand stabilizer. As soon as the lever is released, it automatically returns to the neutral position (0) and the right-hand stabilizer stops raising or lowering. Position (1): the right-hand stabilizer lowers. Position (2): the right-hand stabilizer rises. NOTE: to raise or lower the two stabilizers at the same time, operate the two levers simultaneously. IMPORTANT: before machine travel or before using the loader attachment, make sure the stabilizers are completely raised. During road travel, the stabilizers must be completely raised and immobilized by means of the pins provided for that purpose. Locking the stabilizer mechanical controls (specific to certain countries) This pin (1), located in front of the stabilizer control levers, is used to lock the stabilizer controls. To lock the controls, remove the pin from its housing and install it in the specially provided hole in the console.

S WARNING S Before leaving the operatorâ&#x20AC;&#x2122;s compartment, undertaking any road travel or working with the backhoe attachment, place the pin in locking position.

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ATTACHMENT MECHANICAL CONTROLS These control levers are used to operate the backhoe attachment. The speed of movement of each control depends on the angle to which the lever is tilted. In the intermediate position, two movements can be obtained simultaneously. Four backhoe attachment control configurations exist, depending on the country concerned: - standard configuration; - ISO configuration; - four lever pattern configuration; - cross-pattern configuration. The operating pattern of the control levers is different. Check which configuration you have on your machine. Standard configuration Backhoe boom and backhoe attachment swing lefthand control lever This lever has five positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (A): the boom lowers. Position (B): the boom rises. Position (C): the backhoe attachment swings to the left. Position (D): the backhoe attachment swings to the right. Backhoe dipper and backhoe bucket right-hand control lever This lever has five positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (E): the backhoe dipper extends. Position (F): the backhoe dipper retracts. Position (G): the backhoe bucket closes. Position (H): the backhoe bucket opens.

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ISO configuration Backhoe dipper and backhoe attachment swing lefthand control lever This lever has five positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (A): the backhoe dipper extends. Position (B): the backhoe dipper retracts. Position (C): the backhoe attachment swings to the left. Position (D): the backhoe attachment swings to the right. Backhoe boom and backhoe bucket right-hand control lever This lever has five positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (E): the boom lowers. Position (F): the boom rises. Position (G): the backhoe bucket closes. Position (H): the backhoe bucket opens.

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Four-lever pattern configuration Lever (1) for dipper This lever has three positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (A): the backhoe dipper extends. Position (B): the backhoe dipper retracts. Lever (2) for boom This lever has three positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (C): the boom rises. Position (D): the boom lowers. Lever (3) for backhoe bucket This lever has three positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (E): the backhoe bucket closes. Position (F): the backhoe bucket opens. Lever (4) for backhoe attachment swing This lever has three positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (G): the backhoe attachment swings to the right. Position (H): the backhoe attachment swings to the left.

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Cross-pattern configuration Backhoe boom and backhoe attachment swing lefthand control lever This lever has five positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (A): the boom lowers. Position (B): the boom rises. Position (C): the backhoe attachment swings to the left. Position (D): the backhoe attachment swings to the right. Backhoe dipper and backhoe bucket right-hand control lever This lever has five positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (E): the backhoe dipper extends. Position (F): the backhoe dipper retracts. Position (G): the backhoe bucket closes. Position (H): the backhoe bucket opens.

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TELESCOPIC DIPPER MECHANICAL CONTROL PEDAL (Optional) This pedal (A) has three positions: Position (0): neutral. This position enables the movement of the telescopic dipper to be stopped. The pedal automatically returns to this position as soon as it is released. Position (1): the telescopic dipper extends. Position (2): the telescopic dipper retracts. Before using this pedal make sure that the telescopic dipper is mechanically unlocked. NOTE: operating the backhoe attachment control levers and this pedal simultaneously will enable numerous possibilities of progressive functioning. AUXILIARY ATTACHMENT CONTROL PEDAL (Optional) This pedal (1) is located to the right of the backhoe attachment controls and is used for operating the auxiliary attachment, such as a hydraulic hammer.

LOCKING THE BACKHOE ATTACHMENT MECHANICAL CONTROLS (Specific to certain countries) This pin (1), located in front of the stabilizer control levers, is used to lock the backhoe attachment controls. To lock the controls, remove the pin from its housing and install it in the specially provided hole in the console.

S WARNING S Before leaving the operatorâ&#x20AC;&#x2122;s compartment, undertaking any road travel or working with the backhoe attachment, place the pin in locking position.

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BACKHOE ATTACHMENT HYDRAULIC CONTROLS

3. RIGHT-HAND HYDRAULIC CONTROL LEVER: the right-hand hydraulic control lever controls the bucket and the boom or the dipper (depending on the control pattern adopted).

8. HYDRAULIC CONTROL LEVER SUPPORT ANGLE ADJUSTMENT: these controls are used for the fore/aft and left/right adjustment of the arm.

NOTE: the operating speed depends on the angle of movement of the control levers. In intermediate position, two movements may be obtained simultaneously.

9. HORN BUTTON: (momentary action control).

4. STABILIZER CONTROLS: the right-hand control is for the right-hand stabilizer and the lefthand control is for the left-hand stabilizer.

5. CONTROL PATTERN CHANGE SWITCH: this switch is used for changing the standard control pattern to the ISO pattern.

10. CONTROLS OF AUXILIARY BIDIRECTIONAL ATTACHMENT (If fitted): proportional buttons for the activation of the additional attachment.

SECTION 84 - BACKHOE

CONTROL ENABLE SWITCH This control is located on the right-hand control lever. This switch has three positions: - position OFF: (lamp off) all controls will deactivate; - position (1): by pressing the upper side (lamp off), the stabilizers will activate; - position (2): by pressing the upper side (lamp on) again, all controls will activate.

S WARNING S After using the attachment or before leaving the machine, always tilt the switch to OFF by pressing the lower side of the switch (lamp off). Never forget this basic safety requirement. NOTE: when starting the engine, the position OFF for disabled controls is automatically selected.

CONTROL PATTERN CHANGE SWITCH (BOOM OR DIPPER) Located on the right-hand hydraulic control lever, this switch is fitted with a locking device. The switch is used to change from standard pattern to ISO version, or vice versa. To unlock the switch, push the locking device upwards and at the same time press the top of the switch (1). In this position, the switch turns on and the controls are in ISO pattern. The boom and dipper controls on the hydraulic control levers are now inverted. Press the bottom of the switch (1) to lock and return to standard pattern operation.

SECTION 84 - BACKHOE BACKHOE ATTACHMENT HYDRAULIC CONTROLS Standard configuration Backhoe boom and backhoe attachment swing lefthand hydraulic control lever This hydraulic control lever has five positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the hydraulic control lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (A): the boom lowers. Position (B): the boom rises. Position (C): the backhoe attachment swings to the left. Position (D): the backhoe attachment swings to the right. Backhoe dipper and backhoe bucket right-hand control lever This hydraulic control lever has five positions: Position (0): neutral/hold. This position enables the attachment movement to be stopped. As soon as the hydraulic control lever is released, it automatically returns to the neutral position (0) and the attachment remains in the position where it was when movement stopped. Position (E): the backhoe dipper extends. Position (F): the backhoe dipper retracts. Position (G): the backhoe bucket closes. Position (H): the backhoe bucket opens.

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STABILIZER HYDRAULIC CONTROLS These controls are located on the left-hand hydraulic control lever and may be operated independently or simultaneously. These controls are proportional, and therefore, the stabilizer speed may vary. IMPORTANT: whenever the backhoe attachment is used, the machine must be resting on the stabilizers. Left-hand stabilizer left-hand control lever This lever has four positions: Position (0): neutral. This position stops the movement of the left-hand stabilizer. As soon as the lever is released from positions (1) or (2), it automatically returns to the neutral position (0) and the left-hand stabilizer stops raising or lowering. When held in position (1): the left-hand stabilizer lowers. When held in position (2): the left-hand stabilizer rises. Position (3): stabilizer auto-up feature.

Right-hand stabilizer right-hand control lever This lever has four positions: Position (0): neutral. This position stops the movement of the right-hand stabilizer. As soon as the lever is released from positions (1) or (2), it automatically returns to the neutral position (0) and the righthand stabilizer stops raising or lowering. When held in position (1): the right-hand stabilizer lowers. When held in position (2): the right-hand stabilizer rises. Position (3): stabilizer auto-up feature.

SECTION 84 - BACKHOE Auto-up feature (Center pivot version) (Optional) Position (3): when the levers are momentarily pulled back to this position and then released, they return to the neutral position and the stabilizers automatically rise to road travel position, thereby leaving your hand free for other duties. To stop the automatic rise at any time, push or pull the levers; the rise of the stabilizers stops. NOTE: the machines not provided with the optional auto-up feature still have the relevant detent position, but this does not affect the stabilizer operation in any way. IMPORTANT: before machine travel or before using the loader attachment, make sure the stabilizers are completely raised. IMPORTANT: during road travel, the stabilizers must be completely raised and immobilized by means of the pins provided for that purpose. TELESCOPIC DIPPER CONTROLS (Optional) Press and hold down the right-hand button (1) to extend the telescopic dipper. As soon as the button is released the dipper stops and remains in the position it occupied when the button was released. Press and hold down the left-hand button (2) to retract the telescopic dipper. As soon as the button is released the dipper stops and remains in the position it occupied when the button was released. By pressing button (3), it is possible to set the engine rpm to idle run disabling accelerator handle and accelerator pedal. By pressing again button (3) the engine rpm are restored and the accelerator handle and accelerator pedal as well. Before using these controls, make sure the telescopic dipper is mechanically unlocked. NOTE: operating the backhoe attachment control levers and these controls simultaneously will enable numerous possibilities of progressive functioning.

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AUXILIARY BI-DIRECTIONAL CONTROLS (Optional) Press and hold the left-hand button (1) to let the oil flow out of the left-hand side of the boom. Press and hold the left-hand button (2) to let the oil flow out of the right-hand side of the boom.

HYDRAULIC CONTROL LEVER SUPPORT ADJUSTMENTS Fore and aft Press the two levers (1), then tilt the hydraulic control levers to the desired position. Once the desired position is reached, release the two levers (1).

Left and right Loosen the two knobs (2) located in front of each hydraulic control lever support, then tilt the supports to the required position. Once the adjustment has been carried out, tighten the two knobs (2).

SECTION 84 - BACKHOE BACKHOE ATTACHMENT SIDESHIFT (Sideshift version) To dig alongside a building or fence, etc., it is possible to shift the backhoe attachment sideways to the right or the left. MECHANICAL HANDLING Place the backhoe attachment to the left if you want to shift the attachment to the right, or place it to the right if you want to shift it to the left, then place the attachment on the ground. Press the backhoe attachment sideshift unlocking switch (1). The switch lamp turns on (ON position).

Operate the backhoe attachment controls alternately so as to slide the sideshift carriage sideways. Once the attachment is in the side position required, swing it round into alignment with the machine. Work on the opposite side of the sideshift carriage as much as possible. Otherwise, reduce the load in the bucket for better stability. Press the backhoe attachment sideshift locking switch (1). The switch lamp turns off (OFF position). IMPORTANT: except when the sideshift carriage is being moved, the switch (1) must always be in the OFF position. Never use the backhoe attachment with the sideshift carriage unlocked.

SECTION 84 - BACKHOE

HYDRAULIC HANDLING Press the backhoe attachment sideshift unlocking switch (1). The switch lamp turns on (ON position). For handling, press: - the button (2) side with the symbol to move the backhoe attachment to the left side of the track; - the button (2) side without symbol to move the backhoe attachment to the right side of the track. NOTE: track sides are referred to the travel direction of the machine. Press the backhoe attachment sideshift locking switch (1). The switch lamp turns off (OFF position). IMPORTANT: except when the sideshift carriage is being moved, the switch (1) must always be in the OFF position. Never use the backhoe attachment with the sideshift carriage unlocked.

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BACKHOE ATTACHMENT DISASSEMBLY CENTER PIVOT BACKHOE ATTACHMENT DISASSEMBLY Park the machine on a flat surface and position the backhoe on the ground.

S WARNING S Always support the structural members so that they will be stable and safe to work around.

Lower stabilizers sufficiently and however ensure that the rear tyres are in contact with the ground to remove the weight from the rear wheels. IMPORTANT: the rear wheels must remain in contact with the ground.

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On machines fitted with telescopic dipper install locking pin in transport hole (1). Fully retract telescopic dipper.

Fully retract dipper cylinder and lower boom until bucket is firmly resting on the ground. Support the backhoe using suitable stand and hoist capable of carrying 1500 Kg (3307 lb). Stop the engine and move the control levers through all operating positions to relieve the pressure from the system. Re-check that backhoe elements are fully supported. Disconnect all hoses that travel through the swing support reach the backhoe. Unscrew and remove the nut (2) to disconnect the backhoe lock (3).

Loosen and remove the nut (4) and the screw (5). Extract the pin (6) of the swing cylinder. Repeat the operation with both swing cylinders. Loosen and remove the nut (7) and the screw (8). Extract the lower pin (9) from the swing support using a hammer.

SECTION 84 - BACKHOE Loosen and remove the screw (10). Remove the upper pin (11) of the swing support.

Now it is possible to remove from the machine the backhoe assembly.

SECTION 84 - BACKHOE

SIDESHIFT BACKHOE ATTACHMENT DISASSEMBLY Park the machine on a flat surface and position the backhoe on the ground.

S WARNING S Always support the structural members so that they will be stable and safe to work around.

On machines fitted with telescopic dipper install locking pin in transport hole (1). Fully retract telescopic dipper.

SECTION 84 - BACKHOE Fully retract dipper cylinder and lower boom until bucket is firmly resting on the ground. Support the backhoe using suitable stand and hoist capable of carrying 1500 Kg (3307 lb). Turn off engine, then move backhoe control levers through all operating positions to relieve pressure in the system. Re-check that backhoe elements are fully supported. Disconnect all hoses that travel through the swing bracket reach the backhoe. Unscrew and remove the nut (2) to disconnect the backhoe lock (3).

Loosen and remove the screw (10). Remove the upper pin (11) of the swing support.

Now it is possible to remove from the machine the backhoe assembly.

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BACKHOE BUCKET REPLACEMENT REMOVAL Move the machine to a level and firm ground. Lower the stabilizers and place the bucket on the ground. Stop the engine and remove the starter key. Remove the lock rings and pins and the rod/bucket link pin (1).

S WARNING S Always wear eye protection when using a tool which might project metal particles. Start the engine. Retract the bucket cylinder rod. Operate the attachment controls so that the dipper/ bucket pin is not supporting the load of the dipper. Stop the engine and remove the starter key. Remove the lock rings and pins and the arm/bucket link pin (2). Start the engine. Operate the attachment controls so as to disconnect the dipper from the bucket.

INSTALLATION Start the engine. Extend the bucket cylinder rod to bring the connecting rod to their housing. Reinstall the rod/bucket link pin (1), then install the lock rings and pins. Slightly raise the attachment, then operate the bucket and dipper control to align the dipper hole with the bucket lugs. Reinstall the arm/bucket link pin (2), then install the lock rings and pins.

SECTION 84 - BACKHOE BACKHOE BUCKET DIGGING ANGLE It is possible to change the backhoe bucket opening angle, depending on the work which is to be carried out. Position (1): bucket maximum power. Position (2): enables the bucket to open by 10Â° more and, therefore, to dig vertical side trenches closer to the machine.

BUCKET TEETH REPLACEMENT Move the machine to a level and firm ground. Position the backhoe bucket so that the bucket teeth can be replaced. Place the direction-of-travel lever and gearshift lever in neutral position. Immobilize the machine by means of the parking brake. Stop the engine and remove the starter key. Loosen and remove the screws (2) with the nuts (3). Extract the tooth (1). Clean the area around the tooth. Assemble the new tooth (1). Screw in and tighten the screws (2) with the nuts (3).

SECTION 84 - BACKHOE

DIPPER REMOVE Park the machine on a level, firm surface and position the backhoe on the ground.

S WARNING S Always support the structural members so that they will be stable and safe to work around.

Lower stabilizers sufficiently to remove the weight from the rear wheels. IMPORTANT: the rear wheels must remain in contact with the ground.

Install the locking pin in transport hole (1) [on machines fitted with telescopic dipper].

SECTION 84 - BACKHOE Lower the backhoe to the ground and support using a suitable stand. Turn off engine, then move backhoe control levers through all operating positions to relieve pressure in the system.

Disconnect the hoses to the dipper cylinders. Arm hoses: - telescopic dipper;

- standard dipper.

Support the dipper cylinder, unscrew and remove the screw (2), slide out the pin (3). Lower cylinder onto boom. Use suitable cylinder supports to ensure weight of cylinder does not damage hydraulic tubes attached to the dipper.

SECTION 84 - BACKHOE

Support the dipper using suitable hoist. Unscrew and remove the screw (4), slide out the pin (5) and carefully lower dipper to the ground.

SECTION 84 - BACKHOE

TELESCOPIC DIPPER REVISION OVERHAUL INSPECTION OF GUIDE PADS Park the machine on level ground and retract the telescopic dipper. Position the dipper on a suitable stand with the bucket raised from the ground. Clean the area around the pads.

Inspect each upper guide pad and if the chamfered edge (1) on the corner of the pads is no longer visible the pads have worn beyond their limit and must be replaced. If pads do not require replacement visually check if the gap between the inner part of the dipper and upper guide pad is greater than 1.5 mm (0.06 in). If the gap is greater than 1.5 mm (0.06 in) the guide pads must be adjusted.

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ADJUSTMENT OF GUIDE PADS Position the dipper in the vertical position. Count the number of shims behind the adjusting screws on the left and right hand sides of the dipper to determine which side has the most shims. Remove one shim from behind an adjusting screw on the side of the dipper which contains the most shims. Reassemble the screw and tighten it to a tightening torque of 350 ÷ 400 Nm (258 ÷ 295 lbf·ft). Do NOT overtorque the screw. Repeat the procedure for the remaining three screws on the same side of the dipper. Recheck the gap. If the gap remains greater than 1.5 mm (0.06 in) remove a shim from behind each of the adjusting screws on the opposite side of the dipper. After performing an adjustment apply a coat of Dry Moly-coat grease to the slide rails of the dipper. NOTE: when all shims have been removed the guide pads must be replaced.

REPLACEMENT OF GUIDE PADS To replace the guide pads it is necessary to separate the inner and outer parts of the telescopic dipper using either of the following procedures which are dependent on workshop facilities. Procedure No. 1 Park the machine on level ground and lower the loader attachment bucket. Lower stabilizers sufficiently to remove the weight from the rear wheels. IMPORTANT: the rear wheels must remain in contact with the ground. Position the dipper on a suitable stand. Attach hoist to inner part of the dipper. Disconnect the hose connections to the bucket and the telescopic dipper cylinders. Remove the telescopic dipper cylinder pin (1) and separate the inner and the outer parts of the telescopic dipper.

SECTION 84 - BACKHOE Loosen and remove the screws (2). Remove the guide pads (3). Install new pads and apply thread sealant part to the retaining screws. Tighten to a torque of 29 ÷ 31 Nm (21.4 ÷ 22.9 lbf·ft). Do not over tighten or damage to the threaded inserts may occur. Re-assemble the inner and the outer parts of the telescopic dipper. Place 5 shims beneath the heads of each adjusting screw. Adjust guide pads as described previously. Procedure No. 2 This procedure requires the use of a loading dock or service pit. Park the machine with backhoe positioned over loading dock or service pit. Place the loader bucket on the ground and lower stabilizers sufficiently to remove the weight from the rear wheels. Attach suitable hoist to top of inner section of dipper and position boom so that dipper is hanging vertically. Disconnect the hose connections to the bucket and the telescopic dipper cylinders. Remove the telescopic dipper cylinder retaining pin. Slowly lower hoist allowing inner and outer parts of telescopic dipper to separate. Loosen and remove the screws (2). Remove the guide pads (3). Install new guide pads and apply thread sealant to the retaining screws. Tighten to a torque of 29 ÷ 31 Nm (21.4 ÷ 22.9 lbf·ft). Do not over tighten or damage to the threaded inserts may occur. Position new lower guide pads in the outer part of the telescopic dipper. Re-assemble the inner and the outer parts of the telescopic dipper. Place 5 shims beneath the heads of each adjusting screw. Adjust guide pads as described previously.

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BACKHOE ATTACHMENT HYDRAULIC HANDLING A unit enabling the hydraulic handling of the sideshift carriage which supports the backhoe attachment may be installed on the machine.

CONTROLS Press the backhoe attachment sideshift unlocking switch (1). The switch lamp turns on (ON position). For handling, press: - the button (2) side with the symbol to move the backhoe attachment to the left side of the track; - the button (2) side without symbol to move the backhoe attachment to the right side of the track. NOTE: track sides are referred to the travel direction of the machine. IMPORTANT: except when the sideshift carriage is being moved, the switch (1) must always be in the OFF position. Never use the backhoe attachment with the sideshift carriage unlocked.

HYDRAULIC DIAGRAM

A. Backhoe attachment control valve B. Union tee of main load-sensing line from backhoe attachment control valve

SECTION 84 - BACKHOE DISASSEMBLY AND ASSEMBLY

1. M14 x 210 hex screw [Tightening torque = 85 ÷ 115 Nm (62.69 ÷ 84.82 lbf·ft)] 2. Washer 3. Plate 4. Pin 5. Snap ring 6. Nut M14 7. Support 8. Shoe 9. Shim 10. Handling cylinder assy 11. M14 x 50 hex screw [Tightening torque = 135 ÷ 183 Nm (99.57 ÷ 134.97 lbf·ft)]

12. Washer 13. Spacer 14. Spacer 15. Snap ring 16. Pin 17. Cylinder support 18. Handling cylinder 19. M8 x 14 hex screw 20. Shim 21. Washer 22. Shoe 23. Shim 24. Fitting 25. M12 x 20 socket head screw 26. Shoe

40 NOTES:

SECTION 84 - BACKHOE