Radicon Series A Junior Catalogue

Series A Junior Worm Gear

Technical Up to - 12kW / 950 Nm Worm Gears CAJ-2.00GB1211

PRODUCTS IN THE RANGE Serving an entire spectrum of mechanical drive applications from food, energy, mining and metal; to automotive, aerospace and marine propulsion, we are here to make a positive difference to the supply of drive solutions.

Series A Worm Gear units and geared motors in single & double reduction types

Series BD Screwjack worm gear unit

Series BS Worm gear unit

Series C Right angle drive helical worm geared motors & reducers

Series F Parallel angle helical bevel helical geared motors & reducers

Series G Helical parallel shaft & bevel helical right angle drive gear units

Series H Large helical parallel shaft & bevel helical right angle drive units

Series J Shaft mounted helical speed reducers

Series K Right angle helical bevel helical geared motors & reducers

Series M In-line helical geared motors & reducers

Roloid Gear Pump Lubrication and fluid transportation pump

Series X Cone Ring Pin and bush elastomer coupling

Series X Gear Torsionally rigid, high torque coupling

Series X Grid Double flexing steel grid coupling

Series X Nylicon Gear coupling with nylon sleeve

Series X Torque Limiter Overload protection device

We offer a wide range of repair services and many years experience of repairing demanding and highly critical transmissions in numerous industries.

We can create custom engineered transmission solutions of any size and configuration.

ATEX Compliance Assured

Total compliance with the ATEX Directive safeguarding the use of industrial equipment in potentially explosive atmospheres is assured for users of our geared products. Certification is available for standard gearboxes and geared motors with badging displaying the CE Mark and the Ex mark, name and location of the manufacturer, designation of series or type, serial number, year of manufacture, Ex symbol and equipment group/category. ATEX directive 94/9/EC (also known as ATEX 95 or ATEX 100A) and the CE Marking Directive are enforced in all EC member states. Compliance is compulsory for designers, manufacturers or suppliers of electrical and non-electrical equipment for use in potentially explosive atmospheres created by the presence of flammable gases, vapours, mists or dusts. Ex compliant standard gearboxes can be supplied against Groups 2 or 3 for surface industries in designated hazardous location Zones 1 and 2 for gases, vapours and mists; and in Zones 21 and 22 for dusts.

SERIES AJ

i

SERIES AJ CONTENTS PAGE General Description __________________________________________________________________ 3 Unit Designations ____________________________________________________________________ 4 Explanation and use of Ratings and Service Factors _________________________________________ 5 Load Classification by Applications ______________________________________________________ 6 Moments of Inertia ___________________________________________________________________ 7 Lubrication _________________________________________________________________________ 8 Selection Procedure __________________________________________________________________

9 - 12

Mounting Positions ___________________________________________________________________

13 - 15

Exact Ratios ________________________________________________________________________ 16 Output Options ______________________________________________________________________ 17 Motor Adaptors / Additional Features _____________________________________________________ 18 Series X Couplings ___________________________________________________________________ 19 MOTORISED Motor Performance Data and Standard Motor Variants Available _____________________________

21 - 22

Brake Motors / Motors Available ______________________________________________________ 23 Motor Details _____________________________________________________________________ 24 Selection Tables - Geared Motors _____________________________________________________

25 - 38

Dimension Sheets - Geared Motors ___________________________________________________

39 - 45

REDUCER Overhung and Axial Loads on Shafts __________________________________________________

47 - 48

Ratings - Input Power / Output Torque _________________________________________________

49 - 72

Dimension Sheets - Speed Reducers __________________________________________________

73 - 79

Case with Additional Machined Spigot _________________________________________________ 80 Torque Arm ______________________________________________________________________ 81 Shipping Specification ________________________________________________________________ 82

2

SERIES AJ GENERAL DESCRIPTION Single Reduction Units (worm) Series A Junior is offered in unit sizes 280, 410, 510, 610, 730 and 860 based on a single universal case for each size, giving a high degree of common parts and interchangeability. Units can be mounted in the under driven, over driven and vertical mounting positions and provide a choice of shaft arrangements for either motorised or reducer versions. Motors can be close coupled in frame sizes 63 to 132 in powers from 0.12 kW to 11 kW. All units are designed with hollow output bores, output shafts can be fitted allowing handing to be changed without dismantling the unit. Double extended output shafts are also available.

Single Reduction Units (worm)

Series A Junior gives a choice of 12 standard ratios from 5/1 to 70/1 and important features include high efficiencies and load carrying capacities combined with long life and reliability. All units are lubricated for life to reduce maintenance to a minimum. Double Reduction Units (worm/worm) These units consist of a standard single reduction unit with a smaller shaft mounted Series A unit fitted to the input shaft. The range extends the ratios available up to the maximum of 4200/1 making them ideal for fitting to slow moving machinery.

Double Reduction Units (worm/ worm)

As with the single reduction units they are available in underdriven, over-driven and vertical types, foot mounting and shaft mounting. All lubricated for life. Motorised Units Units are designed to be close coupled with standard dimension IEC motors. Units are also available to accept standard dimension NEMA motors (consult our Application Engineers). Lubricated for life - fit and forget Series A Junior units are factory filled with synthetic lubricant which means. - no oil level checks, topping up, draining or re-filling

Motorised Single Reduction Units (worm)

- no routine maintenance or danger of starting up without lubricant - they will mount in any location, however inaccessible - they are particularly suitable for locations where non contamination through leakage is essential. For units running at input speeds below 500 rev/min with either the input or output shaft vertical, also for the second stage of all double reduction units irrespective of shaft disposition the lubricant level is simply increased - see lubrication instructions. Motorised Double Reduction Units (worm/ worm)

As improvements in design are being made continually this specification is not to be regarded as binding in detail and drawings and capacities are subject to alteration without notice. Certified drawings will be sent on request.

3

SERIES AJ UNIT DESIGNATIONS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20

*

Example

A

0 5 1 0 7 . 5

W R C - A -

- -

-

-

- -

20 1 - Series A

Additional Features Paint, Lubricant, etc e.g. -

Range A

See Page 19

19 - Motor Required e.g.

2-4 - Size of Unit

-

A See Page 24

For R or G Types Without Motor

0 5 1

Enter

-

For slow speed applications where greater oil quantities are required

5 - Revision Version 0

F

etc

Enter D 6, 7, 8 - Nominal Overall Ratio

e.g. 7

.

18 - No of Motor Poles

5

2 4 6 or 8

5 0 .

For R or G Type enter

-

See Page 17

15, 16, 17 -

9 - Unit Version

Geared Motor

W

- Standard Unit

Motor Power Required

F

- STD Unit with Output

e.g. .

T

- STD Unit with Torque Arm

For R or G Type

G

- Feet Side Mounting

enter

H

- Feet End Mounting

13, 14 -

7 5

R - Reducer unit - Single Reduction - Reducer unit - Double Reduction

For All Other Types Enter -

M - Motorised - Single Reduction

11 - OUTPUT SHAFT

G - Unit to allow fitting of non STD IEC motor - Single Reduction - Unit to allow fitting of NEMA motor - Single Reduction

N

- Motorised - Double Reduction

H

- Unit to allow fitting of non STD IEC motor - Double Reduction

B

- Unit to allow fitting of NEMA motor - Double Reduction

C - Standard Single Extension D - Standard Double Extension H - Standard Shaft Mounted N - NEMA Single Extension P - NEMA Double Extension A - NEMA Shaft Mounted See Page 18

* This Page May Be Photocopied Allowing The Customer To Enter Their Order To access the on line configurator please visit www.swift-gears.com

4

- -

See Page 14 - 16

12 - Motor Adaptor For G or A Unit Types See Page 19

10 - Type of Unit

A

-

Mounting Position e.g. E 2

D

See Pages 26 - 39

SERIES AJ Gear unit selection is made by comparing actual loads with catalogue ratings. Catalogue ratings are based on a standard set of loading conditions, whereas actual load conditions vary according to type of application. Service Factors are therefore used to calculate an equivalent load to compare with catalogue ratings. i.e. Equivalent Load = Actual Load x Service Factor Two types of Service Factor must be considered:-

Mechanical Service Factor Fm and Thermal Service Factors Ft, Fp and Fd

Mechanical ratings and service factors Fm

Table 1. Mechanical service factors Fm

Mechanical ratings measure capacity in terms of life and/or strength, assuming 10 hr/day continuous running under uniform load conditions. Catalogue ratings allow 100% overload at starting, braking or momentarily during operation up to 10 hours per day. The unit selected must therefore have a catalogue rating at least equal to half maximum overload. Mechanical Service Factor Fm (Table 1) is used to modify the actual load according to daily operating time, and type of loading. Load characteristics for a wide range of applications are detailed in Table 5 opposite, which are used in deciding the appropriate Service Factor Fm from Table 1. If overloads can be calculated, or accurately assessed, actual loadsshould be used instead of Fm.

Prime mover

Load classification-driven machine

Duration of service hrs per day

Uniform

Under 3 3 to 10 Over 10

Electric motor, steam turbine or hydraulic motor Multi-cylinder internal combustion engine Single cylinder internal combustion engine

0.80

Moderate Shock 1.00

Heavy Shock 1.50

1.00

1.25

1.75

1.25

1.50

2.00

Under 3

1.00

1.25

1.75

3 to 10

1.25

1.50

2.00

Over 10

1.50

1.75

2.25

Under 3

1.25

1.50

2.00

3 to 10

1.50

1.75

2.25

Over 10

1.75

2.00

2.50

Table 2. Thermal Service Factors Ft

For units subject to frequent stop/start overloads in excess of 10 times per day, refer to our Application Engineers.

Ambient temperature ยบC

-30

-20

-10

0

10

20

30

40

50

For applications where high inertia loads are involved e.g. crane travel drives, slewing motion etc., unit selection should be referred to our Application Engineers.

Factor Ft

1.65

1.52

1.39

1.26

1.14

1.0

0.86

0.73

0.60

Thermal ratings and service factors The Thermal ratings are a measure of the gear units ability to dissipate heat. If they are exceeded the lubricant may overheat and breakdown, resulting in gear failure. Thermal service factors are used for reducer units only. Sizes A0730 and A0860 are fitted with fans as standard if these sizes are required without fans refer to our Application Engineers. Motorised unit ratings assume a standard motor fitted which is T.E.F.C. Catalogue thermal limitations are based on the unit operating continuously in an environment with an ambient temperature equal to 20oC and in mounting position A, B or C. The thermal rating is affected by ambient temperature, duration of running per hour and mounting position. To account for these varying conditions, the service factors given in tables 2, 3 and 4 should be applied to the catalogue thermal ratings as follows:Ttherm = Tt = Ttherm = Ft = Fp = Fd =

Output Speed (Rev/ min) 0 >100 >200 >300 >400 >500 >600 >700

to to to to to to to

100 200 300 400 500 600 700

Mounting Position (See pages 14 and 15 GHJ PST ABC DEF KMN WXY 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 Refer to 1.0 1.0 1.0 our Applications 1.0 1.0 1.0 Department 1.0 1.0 1.0 1.0 1.0

1.0 1.0

1.0 1.0

Table 4. Thermal Service Factors Fd

Tt x Ft x Fp x Fd Catalogue output torque thermal rating (Nm) Allowable output torque thermal rating (Nm) Service factor for ambient temperature (see Table 2) Service factor for different mounting positions (see Table 3) Thermal service factor for duration of running (see Table 4)

Double Reduction Units For double reduction units the factors given in tables 2 and 4 apply. The input shaft speed referred to in table 4 should now be the input speed of the primary unit. The following new thermal service factors, Fp, should be applied. In each case the description refers to the position of the primary unit. i Inputshaft horizontal and wheel- line horizontal ii Inputshaft horizontal and wheel-line vertical iii Inputshaft vertical and wheel-line horizontal

Table 3. Thermal Service Factors Fp (Single Reduction Units)

>60

280 - 610 730 860 280 - 610 730 860 280 - 610 730 860 280 - 610 730 860 280 - 610 730 860 280 - 610 730 860 280 - 610 730 860 280 - 610 730 860

1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0

100

400

725

960

1160

1450

1750

Fp = 1.0 Fp = 0.88 Fp = 0.68

2900

General

% Running time per hour

Input shaft speed Unit Size (Rev/min)

>50 - 60 >40 - 50 >30 - 40 >20 - 30 1.46 1.45 1.46 1.46 1.40 1.46 1.46 1.34 1.41 1.46 1.32 1.38 1.46 1.30 1.37 1.46 1.28 1.34 1.46 1.26 1.32 1.46 1.20 1.27

1.72 1.68 1.72 1.72 1.59 1.72 1.72 1.50 1.61 1.72 1.46 1.56 1.72 1.43 1.54 1.72 1.39 1.50 1.72 1.36 1.46 1.72 1.28 1.38

1.96 1.92 1.96 1.96 1.80 1.96 1.96 1.66 1.82 1.96 1.61 1.75 1.96 1.56 1.72 1.96 1.52 1.66 1.96 1.47 1.61 1.98 1.36 1.50

2.32 2.26 2.32 2.32 2.07 2.32 2.32 1.88 2.12 2.32 1.81 2.02 2.32 1.75 1.96 2.32 1.69 1.88 2.32 1.63 1.81 2.32 1.48 1.66

<20 2.86 2.74 2.86 2.86 2.47 2.86 2.86 2.21 2.53 2.86 2.14 2.38 2.86 2.05 2.32 2.86 1.97 2.21 2.86 1.89 2.14 2.86 1.68 1.93

When selecting units, use actual load required to be transmitted, not rating of prime mover. Wherever possible use required output torque (Nm). Catalogue also gives input power rating (kW), being power required from mover allowing for gear unit efficiency. When units transmit less than rated output torque, required input power may be reduced pro-rata to decide capacity of prime mover.

5

SERIES AJ

LOAD CLASSIFICATION BY APPLICATIONS Driven Machine

Table 5 U = Uniform load M = Moderate shock load H = Heavy shock load = Refer to Application Engineering

Cranes main hoists bridge travel trolley travel

type of load U

Crusher ore H stone H sugar H Dredges cable reels M conveyors M cutter head drives H jig drives H manoeuvring winches M pumps M screen drive H stackers M utility winches M

type of Dry dock cranes load main hoist auxiliary hoist boom, luffing Agitators rotating, swing or slew pure liquids U tracking, drive wheels liquids and solids M liquids-variable density M Elevators bucket-uniform load U Blowers bucket-heavy load M centrifugal U bucket-continuous U lobe M centrifugal discharge U vane U escalators U freight M Brewing and distilling gravity discharge U bottling machinery U man lifts brew kettles-continuous passenger duty U cookers-continuous duty U Fans mash tubs-continuous centrifugal U duty U cooling towers scale hopper-frequent induced draft starts M forced draft induced draft M Can filling machines U large, mine, etc M large, industrial M Cane knifes M light, small diameter U Car dumpers H Feeders apron M Car pullers M belt M disc U Clarifiers U reciprocating H screw M Classifiers M Food industry Clay working beef slicer M machinery cereal cooker U brick press H dough mixer M briquette machine H meat grinders M clay working machinery M pug mill M Generators-not welding U Compressors centrifugal U Hammer mills H lobe M reciprocating Hoists multi-cylinder M heavy duty H single cylinder H medium duty M skip hoist M Conveyors-uniformly loaded or fed Laundry washers apron U reversing M assembly U belt U Laundry tumblers M bucket U chain U Line shafts flight U driving processing oven U equipment M screw U light U other line shafts U Conveyors-heavy duty not uniformly Lumber industry fed barkers-hydraulicapron M mechanical M assembly M burner conveyor M belt M chain saw and drag saw H bucket M chain transfer H chain M craneway transfer H flight M de-barking drum H live roll edger feed M oven M gang feed M reciprocating H green chain M screw M live rolls H shaker H log deck H Driven Machine

Driven Machine log haul-incline log haul-well type log turning device main log conveyor off bearing rolls planer feed chains planer floor chains planer tilting hoist re-saw merry-go-round conveyor roll cases slab conveyor small waste conveyor-belt small waste conveyor-chain sorting table tipple hoist conveyor tipple hoist drive transfer conveyors transfer rolls tray drive trimmer feed waste conveyor Machine tools bending roll punch press-gear driven notching press- belt driven plate planers tapping machine other machine tools main drives auxiliary drives

type of load

log haul H presses M pulp machine reel M stock chest M suction roll M washers and thickeners M winders M

M H H

Pullers barge haul

U M M M M M M M M M M H H H M U

Mill-rotary type ball H cement kilns H dryers and coolers H kilns, other than cement H pebble H rod plain H wedge bar H tumbling barrels H M M U M

Oil industry chillers M oil well pumping paraffin filter press M rotary kilns M Paper mills agitators, (mixers) M barker-auxiliarieshydraulic M barker-mechanical H barking drum H beater and pulper M bleacher U calenders M calenders-super H converting machine, except cutters, platers M conveyors U couch M cutters-plates H cylinders M dryers M felt stretcher M felt whipper H jordans M

6

type of load

H H H H M M M M

Metal mills draw bench carriage and main drive M pinch, dryer and scrubber rolls-reversing slitters M table conveyors non-reversing group drives M individual drives H reversing wire drawing and flattening machine M wire winding machine M

Mixers concrete mixers -continuous concrete mixers -intermittent constant density variable density

Driven Machine

Printing presses H

Pumps centrifugal U proportioning M reciprocating single acting; 3 or more cylinders M double acting; 2 or more cylinders M single acting; 1 or 2 cylinders double acting; single cylinder rotary gear type U lobe, vane U Rubber and plastics industries crackers H laboratory equipment M mixed mills H refiners M rubber calenders M rubber mill-2 on line M rubber mill-3 on line M sheeter M tire building machines tire and tube press openers tubers and strainers M warming mills M Sand muller M Sewage disposal equipment bar screens U chemical feeders U collectors U dewatering screws M scum breakers M slow or rapid mixers M thickeners M vacuum filters M Screens air washing rotary-stone or gravel travelling water intake

U M U

Slab pushers M Steering gear Stokers U Sugar industry cane knives M crushers M mills M Textile industry batchers M calenders M cards M dry cans M dryers M dyeing machinery M knitting machines looms M mangles M nappers M pads M range drives slashers M soapers M spinners M tenter frames M washers M winders M Windlass

SERIES AJ MOMENTS OF INERTIA MOMENTS OF INERTIA (Kg cm2) Referred to Input Shaft Single Reduction RATIO

A0280

A0410

A0510

A0610

AO730

A0860

5.0 7.5 10.0 12.5 15.0 20.0 25.0 30.0 40.0 50.0 60.0 70.0

0.06 0.05 0.04 0.04 0.03 0.04 0.03 0.03 0.03 0.03 0.03 0.02

0.40 0.29 0.22 0.21 0.20 0.15 0.18 0.16 0.14 0.13 0.13 0.12

1.18 0.67 0.49 0.41 0.31 0.42 0.36 0.27 0.20 0.19 0.17 0.16

2.47 1.40 0.96 0.77 0.63 0.74 0.63 0.53 0.40 0.34 0.29 0.28

5.77 3.58 2.33 2.22 1.91 1.46 1.92 1.48 1.24 1.11 1.09 1.07

13.68 7.84 5.77 4.21 4.28 3.23 4.23 3.45 2.94 2.54 2.38 2.40

Double Reduction RATIO

A0410

A0510

A0610

A0730

A0860

75.0 100.0 125.0 150.0 200.0 225.0 250.0 300.0 350.0 375.0 400.0 450.0 500.0 600.0 625.0 700.0 750.0 800.0 900.0 1000.0 1200.0 1250.0 1400.0 1500.0 1600.0 1750.0 1800.0 2000.0 2100.0 2400.0 2500.0 2800.0 3000.0 3500.0 3600.0 4200.0

0.03 0.03 0.03 0.03 0.03 0.03 0.03 0.04 0.03 0.03 0.04 0.03 0.04 0.04 0.03 0.02 0.03 0.03 0.03 0.03 0.03 0.03 0.02 0.03 0.03 0.02 0.03 0.03 0.02 0.03 0.03 0.02 0.03 0.02 0.03 0.02

0.04 0.04 0.04 0.03 0.03 0.03 0.03 0.04 0.03 0.03 0.04 0.03 0.04 0.04 0.03 0.02 0.03 0.03 0.03 0.03 0.03 0.03 0.02 0.03 0.03 0.02 0.03 0.03 0.02 0.03 0.03 0.02 0.03 0.02 0.03 0.02

0.19 0.20 0.19 0.17 0.17 0.17 0.17 0.13 0.18 0.17 0.13 0.17 0.13 0.13 0.17 0.12 0.17 0.14 0.16 0.14 0.14 0.13 0.12 0.13 0.14 0.12 0.13 0.13 0.12 0.13 0.13 0.12 0.13 0.12 0.13 0.12

0.24 0.22 0.24 0.18 0.18 0.18 0.18 0.14 0.18 0.20 0.14 0.17 0.14 0.14 0.17 0.12 0.17 0.14 0.16 0.14 0.14 0.13 0.12 0.13 0.14 0.12 0.13 0.13 0.12 0.13 0.13 0.12 0.13 0.12 0.13 0.12

0.40 0.35 0.40 0.34 0.34 0.23 0.34 0.38 0.32 0.23 0.38 0.23 0.38 0.38 0.33 0.15 0.33 0.19 0.25 0.19 0.19 0.18 0.15 0.18 0.19 0.15 0.17 0.18 0.15 0.17 0.18 0.15 0.17 0.15 0.17 0.15

GD2 (Kg cm2) = 4 x Moment of Inertia (Kg cm2)

7

SERIES AJ LUBRICATION Series A Junior units are factory filled with a Polyglycol based synthetic lubricant. They are “Lubricated for Life” and require no routine maintenance in service. In the event of a major overhaul involving strip-down and re-assembly of the gear unit refer to Table 1 for a list of approved lubricants. Lubricant quantities are given in Tables 2 and 3.

Table 1 Approved Lubricants Type G Polyglycol based synthetic lubricants with Anti-Wear or EP additives These lubricants are suitable for ambient temperatures of 0oC to 40oC; outside of this, please consult our Application Engineers GRADE 6G SUPPLIER

LUBRICAT RANGE

OIL SUPPLIERS’ CORRESPONDING DESIGNATIONS

Boxer Services / Millers Oils

Boxergear W

320 (-31)

Caltex

Synlube CLP

320 (-31)

Carl Bechem GmbH

Berusynth EP

320 (-25)

Castrol International

Alphasyn PG

320 (-31)

Esso/Exxon

Glycolube

320 (-25)

Fuchs Lubricants

Renolin PG

320 (-34)

Klüber Lubrication Kuwait Petroleum International Laporte Performance Chemicals

Klübersynth GH6

320 (-25)

Klübersynth UH1 6

320 (-25)

Q8 Gade

320 (-22)

Breox Industrial Lubricant SW

320 (-25)

Breox SL range

320 (-37)

Mobil Oil Company Limited

Glygoyle

HE320 (-37)

Optimol Ölwerke GmbH

Optiflex A

320 (-28)

Tivela

SC (-25)

Tivela S

320 (-34)

Texaco Limited

Synlube CLP

320 (-31)

Total

Carter SY

320 (-28)

Tribol GmbH

Tribol 800

320 (-25)

Shell Oils

DANGER

Numbers in brackets indicate recommended minimum operating temperature in ºC.

THE UNIT MUST NOT RUN BELOW THIS TEMPERATURE.

Table 2 Lubricant Quantities (Litres) Applicable for all mounting positions:UNIT SIZE

MOTORISED or REDUCER

A0280

A0410

A0510

A0610

A0730

A0860

Oil Capacity (Litres)

0.24

0.38

0.56

1.00

2.02

3.10

Table 3 Lubricant Quantities (Litres) For units running at input speeds below 500 rev/min with either the input or output shaft vertical, also for the secondary stage of all double reduction units irrespective of shaft disposition, the oil quantities in Table 3 below are applicable:UNIT SIZE

MOTORISED or REDUCER

A0280

A0410

A0510

A0610

A0730

A0860

Oil Capacity (Litres)

0.31

0.48

0.74

1.28

2.62

3.94

8

SERIES AJ

SELECTION PROCEDURE FOR MOTORISED UNITS EXAMPLE

APPLICATION DETAILS

Absorbed power of driven machine = 0.38kW Output speed of gearbox or Input speed of machine = Application = Uniformly loaded belt conveyor Duration of service (hours per day) = 24hrs Mounting position = D Ambient temperature = 20oC Running time (%) = 100%

55rev/min

1 DETERMINE MECHANICAL SERVICE FACTOR (Fm) Refer to Load Classification by Application, table 5, page 7 Application =

Uniformly loaded belt conveyor

Conveyors-uniformly loaded or fed

U

apron U assembly U belt U bucket U chain U

=

Uniform load

Refer to mechanical service factor (Fm), table 1, page 6 Duration of service (hours per day) = Prime mover Electric motor, steam turbine or hydraulic motor

24hrs

Load classification-drive

Duration of servicehrs per day

Uniform

Under 3

0.80

2 DETERMINE REQUIRED OUTPUT TORQUE AT GEARBOX OUTPUTSHAFT

Moderate Shock

1.00

3 to 10

1.00

1.25

Over 10

1.25

1.50

Absorbed = output torque

Absorbed power x 9550 Gearbox output speed

0.38 x 9550 = 55

66 Nm

Therefore mechanical service factor (Fm)

=

1.25

3 SELECT GEARED MOTOR Refer to selection table one motor size larger than absorbed power. Absorbed power = 0.38kW, therefore refer to 0.55kW selection table, page 32 Always select from 4 POLE selection table in the first instance as this offers a more economical solution. Required output speed of gearbox = 55 rev/min

2.61 2.30 2.27 2.10 2.01 1.53 1.51 1.33 0.99

Column Entry

1 Through 20

Spaces to be filled when entering order

Kg

2764 A 0 4 1 0 5 . 0 _ M _ - _ _ . 5 5 4 A _ 19.4 80a 2764 7 . 5 2764 1 0 . 2758 1 3 . 2758 1 5 . 2748 2 0 . 2748 2 5 . 2742 3 0 . 2730 4 0 .

Go to point 4

9

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

17 24 33 38 44 57 66 76 94

UNIT DESIGNATION

Weight of Base Mount Unit Motor Frame Size

N Overhung Load

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

Fm

Service Factor

261 187 130 110 94 70 55 46 34

M2 Nm Output Torque

i

Ratio

4 POLE

N2 R/MIN Output Speed

0.55 kW

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

SERIES AJ

SELECTION PROCEDURE FOR MOTORISED UNITS 4 CHECK OUTPUT TORQUE Output torque (M2) of selected unit must be equal or more than required output torque at gearbox outputshaft. Required output torque at gearbox outputshaft = 66 Nm

2.61 2.30 2.27 2.10 2.01 1.53 1.51 1.33 0.99

Column Entry

1 Through 20

Spaces to be filled when entering order

Kg

2764 A 0 4 1 0 5 . 0 _ M _ - _ _ . 5 5 4 A _ 19.4 80a 2764 7 . 5 2764 1 0 . 2758 1 3 . 2758 1 5 . 2748 2 0 . 2748 2 5 . 2742 3 0 . 2730 4 0 .

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

17 24 33 38 44 57 66 76 94

UNIT DESIGNATION

Weight of Base Mount Unit Motor Frame Size

N Overhung Load

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

Fm

Service Factor

261 187 130 110 94 70 55 46 34

M2 Nm Output Torque

i

Ratio

4 POLE

N2 R/MIN Output Speed

0.55 kW

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

Selected unit's output torque (M2) = 66 Nm, therefore unit is acceptable

5 CHECK SERVICE FACTOR Service factor (Fm) of selected unit must be equal or more than required service factor. Required service factor of gearbox = 1.25

2.61 2.30 2.27 2.10 2.01 1.53 1.51 1.33 0.99

Column Entry

1 Through 20

Spaces to be filled when entering order

Kg

2764 A 0 4 1 0 5 . 0 _ M _ - _ _ . 5 5 4 A _ 19.4 80a 2764 7 . 5 2764 1 0 . 2758 1 3 . 2758 1 5 . 2748 2 0 . 2748 2 5 . 2742 3 0 . 2730 4 0 .

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

17 24 33 38 44 57 66 76 94

UNIT DESIGNATION

Weight of Base Mount Unit Motor Frame Size

N Overhung Load

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

Fm

Service Factor

261 187 130 110 94 70 55 46 34

M2 Nm Output Torque

i

Ratio

4 POLE

N2 R/MIN Output Speed

0.55 kW

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

Selected unit's service factor (Fm) = 1.51, therefore unit is acceptable.

6 CHECK OVERHUNG LOADS If sprocket, gear, etc is mounted on the outputshaft then refer to Overhung Loads Procedure, page 48, and compare with allowable overhung load (N) of selected unit Allowable overhung load (N) must be equal or more than calculated overhung load (P)

2.61 2.30 2.27 2.10 2.01 1.53 1.51 1.33 0.99

Column Entry

1 Through 20

Spaces to be filled when entering order

Kg

2764 A 0 4 1 0 5 . 0 _ M _ - _ _ . 5 5 4 A _ 19.4 80a 2764 7 . 5 2764 1 0 . 2758 1 3 . 2758 1 5 . 2748 2 0 . 2748 2 5 . 2742 3 0 . 2730 4 0 .

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

17 24 33 38 44 57 66 76 94

UNIT DESIGNATION

Weight of Base Mount Unit Motor Frame Size

N Overhung Load

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

Fm

Service Factor

261 187 130 110 94 70 55 46 34

M2 Nm Output Torque

i

Ratio

4 POLE

N2 R/MIN Output Speed

15 kW

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

NOTE: If any of the following conditions occur then consult Application Engineering:

a) Inertia of the Driven Machine (Referred to motor speed) >10 b) Ambient temperature is above 40oC or c) Sizes A0730 and A08060 are Inertia of Gear Unit plus Motor required without a fan

10

SERIES AJ

SELECTION PROCEDURE FOR REDUCER UNITS EXAMPLE

APPLICATION DETAILS

Absorbed power of driven machine = 0.28kW Output speed of gearbox or Input speed of machine = 20rev/min Application = Uniformly loaded belt conveyor Duration of service (hours per day) = 24hrs Motor speed = 3 phase electric motor, 4 pole, 1450rpm Mounting position = D Ambient temperature = 20oC Running time (%) = 100%

2 DETERMINE MECHANICAL SERVICE FACTOR (Fm) Refer to Load Classification by Application, table 5, page 7 Application =

Conveyors-uniformly loaded or fed

1 DETERMINE MECHANICAL SERVICE FACTOR (Fm)

Motor speed Gearbox output speed

1450 20

Refer to exact ratios (page 17) for nearest standard ratio

Uniformly loaded belt conveyor

=

72

=

70:1

U

apron U assembly U belt U bucket U chain U

=

Uniform load

Refer to mechanical service factor (Fm), table 1, page 6 Duration of service (hours per day) =

3 DETERMINE REQUIRED MECHANICAL OUTPUT TORQUE CAPACITY OF GEARBOX Absorbed = output torque

Absorbed power x 9550 Gearbox output speed

= 134 Nm

0.28 x 9550 20

Prime mover Electric motor, steam turbine or hydraulic motor

Required mechanical = Absorbed output x Fm output torque torque

134 x 1.25

= 167Nm

Duration of servicehrs per day Under 3

24hrs

Load classification-drive Moderate Shock

Uniform 0.80

1.00

3 to 10

1.00

1.25

Over 10

1.25

1.50

Therefore mechanical service factor (Fm)

=

1.25

4 DETERMINE SIZE OF GEAR BOX REQUIRED Refer to ratings tables, Input speed = 1450rev/min, therefore refer to page 56.

SIZE OF UNIT NOMINAL NOMINAL OUTPUT SPEED RATIO REV / MIN

CAPACITY

Mechanical Input Power kW

A0510

Output Torque Nm 70.0 20.71 Input Power kW Thermal Output Torque Nm Efficiency %

0.35 86. 0.58 149. 53

A0610 0.58 147. 0.77 199. 55

A0730 0.86 247. 1.48 442. 62

A0860 1.35 402. 1.76 533. 65

Mechanical output torque capacity must be equal or more than required mechanical output torque capacity of gear box. Required mechanical output torque capacity = 167Nm. At a 70:1 ratio, nominal output speed 20.71 an A0730 unit has a mechanical output torque capacity of 247Nm. Therefore the unit is acceptable

5 DETERMINE EXACT RATIO OF GEAR BOX Refer to exact ratio table, page 17.

ominal Ratio N Column Entry

A0510

A0610

A0730

A0860

6 7 8

7 0 . 70 70 70 70

Exact ratio

=

70.0:1

4 CHECK THERMAL CAPACITY OF GEAR BOX SELECTED DETERMINE THERMAL OUTPUT TORQUE CAPACITY (Tt) Refer to ratings tables

SIZE OF UNIT NOMINAL NOMINAL OUTPUT SPEED RATIO REV / MIN

CAPACITY

Mechanical Input Power kW

A0510

Output Torque Nm 70.0 20.71 Input Power kW Thermal Output Torque Nm Efficiency % Tt

=

442Nm

11

0.35 86. 0.58 149. 53

A0610 0.58 147. 0.77 199. 55

A0730 0.86 247. 1.48 442. 62

A0860 1.35 402. 1.76 533. 65

Go to point 7

SERIES AJ

SELECTION PROCEDURE FOR REDUCER UNITS 7 DETERMINE THERMAL SERVICE FACTOR (Ft)

8 DETERMINE THERMAL SERVICE FACTOR (Fp)

Refer to table 2, page 6 Ambient temperature = 20ยบC Ambient temperatureยบC

-30

Factor Ft

1.65 1.52 1.39 1.26 1.14 1.0

Ft

=

-20

-10

0

10

Refer to table 3, page 6 Mounting position Nominal output speed (rev/min)

20

0 >100 >200

9 DETERMINE THERMAL SERVICE FACTOR (Fd)

Unit Size

1450

280-610 730 860

Fd

=

% Runnuing time per hour >60

>50-60

1.0 1.0 1.0

1.46 1.28 1.34

to to to

Fp

Refer to table 4, page 6 % running time = 100 Input shaft speed (Rev/min)

Mounting

Unit Output Shaft Speed (Rev/min)

1.0

= D = 20.71

ABC

DEF

1.0 1.0 1.0

1.0 1.0 1.0

100 200 300

=

1.0

10 DETERMINE ALLOWABLE OUTPUT TORQUE THERMAL RATING (Ttherm) Ttherm = Tt x Ft x Fp x Fd = 442 x 1.0 x 1.0 x 1.0 = 442 Nm Thermal output torque capacity (Ttherm) must be equal or more than absorbed output torque to drive machine Absorbed output torque = 134Nm (see step 3) Ttherm = 442Nm

1.0

Therefore unit is acceptable

11 DETERMINE REQUIRED POWER OF ELECTRIC MOTOR Refer to ratings tables to determine gear unit efficiency.

SIZE OF UNIT NOMINAL NOMINAL OUTPUT SPEED RATIO REV / MIN

CAPACITY

Power kW Mechanical Input

A0510 0.35 86. 0.58 149. 53

Output Torque Nm 70.0 20.71 Input Power kW Thermal Output Torque Nm Efficiency %

A0610

A0730

0.58 147. 0.77 199. 55

Efficiency % = 62 Required motor power = Absorbed power of driven machine x 100 = Efficiency The next largest standard motor power available is selected 0.55kW

A0860

0.86 247. 1.48 442. 62

28 x 100 62

=

1.35 402. 1.76 533. 65

45kW

12 CHECK MOMENTARY OVERLOAD CAPACITY Convert nominal motor capacity (kW) to torque (Nm) at gearbox output shaft Nominal output torque = Nominal motor capacity x 9550 x Efficiency = Output speed of gearbox x 100

.55 x 9550 x 62 20 x 100

=

163Nm

Refer to ratings tables to determine gear unit efficiency

kW COLUMN ENTRY

MOTOR FULL FLC FRAME LOAD (AMPS) SIZE SPEED 400 VOLTS

15 16 17 . 5 5 71 2720 1.5 80 1370 1.6 80 925 1.65 Maximum motor starting torque

=

EFFICIENCY %

POWER FACTOR

FL 3/4 L 1/2 L FL 3/4 L 68 66 62 0.80 0.73 67.5 68 65 0.74 0.64 67 62 53 0.72 0.62

D.O.L. STARTING % OF FULL LOAD

LRT LRC 0.63 280 0.52 250 0.52 250

Pull up torque x Normal output torque

STAR DELTA STARTING % OF FULL LOAD

LRT LRC LRT 420 400 370

=

1.8 x 163

=

=

2 x 247

=

494Nm

Maximum motor starting torque must be equal or less than peak allowable torque Peak allowable torque Maximum motor starting torque = 293Nm Therefore the unit is acceptable

=

494Nm

PULL UP TORQUE % FLT

260 180 200

293Nm

Gearbox will accept 2 x Momentary overload (10 times / day maximum) Peak allowable torque

=

2 x mechanical gearbox rating (see step 4)

13 CHECK OVERHUNG LOADS If sprocket, gear, etc is mounted on the input or output shaft then refer to Overhung loads procedure, pages 48 & 49 NOTE: If any of the following conditions occur then consult our Application Engineers: a) Inertia of the driven Machine (referred to motor speed) >10 b) Ambient temperature is above 40ยบC or c) Sizes A0730 and A0860 are Inertia of Gear Unit plus Motor required without a fan

12

SERIES AJ

HANDING & MOUNTING POSITIONS COLUMN 13 ENTRY

DOUBLE OUTPUT SHAFTS ARE AVAILABLE FOR ALL MOUNTING POSITIONS

A

B

C

D

E

F

G

H

J

K

M

N

13

SERIES AJ

HANDING & MOUNTING POSITIONS COLUMN 13 ENTRY

DOUBLE OUTPUT SHAFTS ARE AVAILABLE FOR ALL MOUNTING POSITIONS

P

S

T

H

X

Y

14

SERIES AJ

PRIMARY UNIT MOUNTING POSITIONS COLUMN 14 ENTRY

COLUMN 14 ENTRY

1

2

3

4

5

6

7

8

PRIMARY UNIT POSITION RELATIVE TO THE SECONDARY UNIT FOR SINGLE REDUCTION ENTER

-

15

SERIES AJ EXACT RATIOS Single Reduction NOMINAL RATIO COLUMN ENTRY 6

7

A0280

A0410

A0510

A0610

AO730

A0860

8

5

.

0

5.250

5.250

4.800

5.000

5.200

4.833

7

.

0

7.333

7.333

7.333

7.333

7.250

7.250

1

0

.

10.50

10.50

10.50

1

2

.

12.50

12.50

12.50

9.667 12.50

10.33 12.50

9.667 12.67

1

5

.

14.50

14.50

14.50

15.00

14.50

14.50

2

0

.

20.00

19.50

20.00

20.00

19.50

19.50

2

5

.

25.00

25.00

25.00

25.00

25.00

25.00

3

0

.

30.00

30.00

30.00

30.00

30.00

30.00

4

0

.

40.00

40.00

40.00

40.00

40.00

40.00

5

0

.

50.00

50.00

50.00

50.00

50.00

50.00

6

0

.

60.00

60.00

60.00

60.00

60.00

60.00

7

0

.

70.00

70.00

70.00

70.00

70.00

70.00

A0410

A0510

A0610

AO730

A0860

Double Reduction NOMINAL RATIO

COLUMN ENTRY 6

7

8

75.00

7

5

.

100.00

1

0

0

76.13 102.4

76.13 105.0

78.75 105.0

76.13 102.4

69.60 93.60

125.00

1

2

5

131.3

131.3

131.3

131.3

120.0

150.00

1

5

0

152.3

152.3

157.5

152.3

152.3

200.00

2

0

0

204.8

210.0

210.0

204.8

204.8

225.00

2

2

5

210.3

210.3

217.5

210.3

210.3

250.00

2

5

0

262.5

262.5

262.5

262.5

262.5

300.00

3

0

0

290.0

290.0

292.5

282.8

290.0

350.00

3

5

0

362.5

362.5

362.5

362.5

336.0

375.00

3

7

5

367.5

367.5

367.5

367.5

362.5

400.00

4

0

0

390.0

400.0

390.0

380.3

390.0

450.00

4

5

0

435.0

435.0

435.0

435.0

435.0

500.00

5

0

0

500.0

500.0

487.5

487.5

500.0

600.00

6

0

0

600.0

600.0

585.0

585.0

600.0

625.00

6

2

5

625.0

625.0

625.0

625.0

625.0

700.00

7

0

0

735.0

735.0

676.7

723.3

676.7

750.00

7

5

0

750.0

750.0

750.0

750.0

750.0

800.00

8

0

0

780.0

800.0

800.0

780.0

780.0

900.00

9

0

0

1000.00

1

0

C

900.0 1000.

900.0 1000.

900.0 1000.

900.0 1000.

900.0 1000.

1200.00

1

2

C

1200.

1200.

1200.

1200.

1200.

1250.00

1

3

C

1250.

1250.

1250.

1250.

1250.

1400.00

1

4

C

1365.

1400.

1400.

1365.

1365.

1500.00

1

5

C

1500.

1500.

1500.

1500.

1500.

1600.00

1

6

C

1600.

1600.

1600.

1600.

1600.

1750.00

1

7

C

1750.

1750.

1750.

1750.

1750.

1800.00

1

8

C

1800.

1800.

1800.

1800.

1800.

2000.00

2

0

C

2000.

2000.

2000.

2000.

2000.

2100.00

2

1

C

2100.

2100.

2100.

2100.

2100.

2400.00

2

4

C

2400.

2400.

2400.

2400.

2400.

2500.00

2

5

C

2500.

2500.

2500.

2500.

2500.

2800.00

2

8

C

2800.

2800.

2800.

2800.

2800.

3000.00

3

0

C

3000.

3000.

3000.

3000.

3000.

3500.00

3

5

C

3500.

3500.

3500.

3500.

3500.

3600.00

3

6

C

3600.

3600.

3600.

3600.

3600.

4200.00

4

2

C

4200.

4200.

4200.

4200.

4200.

16

SERIES AJ OUTPUT OPTIONS OUTPUT SHAFT OPTIONS, COLUMN 11 ENTRY

C

D

B

E

øF

A

SIZE OF UNIT A0280

A0410

A0510

A0610

A0730

A0860

TYPE OF OUTPUTSHAFT

COLUMN 11 ENTRY SINGLE DOUBLE EXT EXT

DIMENSIONS IN MM (INCH SHAFTS IN INCHES) A

B

C

Standard

C

D

35

23

5.5

Inch

N

P

1.25”

0.9375”

0.16”

Standard

C

D

45

34

6

Inch

N

P

1.625”

1.3125”

0.16”

Standard

C

D

57

42

7

Inch

N

P

2.125”

1.7500”

0.19”

Standard

C

D

70

55

7

Inch

N

P

2.625”

2.0000”

0.25”

Standard

C

D

83

62

7

Inch

N

P

3.25”

2.5000”

0.25”

Standard

C

D

98

80

8

Inch

N

P

3.875”

3.2500”

0.31”

OUTPUT BORE OPTIONS, COLUMN 11 ENTRY

K

D

E

øF

5.000 4.970 0.190” 0.188” 6.000 5.970 0.190” 0.188” 8.000 7.964 0.252” 0.250” 8.000 7.964 0.252” 0.250” 8.000 7.964 0.252” 0.250” 10.000 9.964 0.377” 0.375”

18.00 17.87 0.707” 0.699” 22.50 22.37 0.834” 0.826” 28.00 27.71 1.110” 1.102” 31.00 30.71 1.238” 1.230” 33.00 32.71 1.364” 1.356” 38.00 37.71 1.666” 1.658”

16.012 16.001 0.6250” 0.6245” 20.015 20.002 0.7500” 0.7495” 25.015 25.002 1.0000” 0.9995” 28.015 28.002 1.1250” 1.1245” 30.015 30.002” 1.2500” 1.2495” 35.018 35.002 1.5000” 1.4995”

H

K

J M

N

SIZE OF UNIT A0280

A0410

A0510

A0610

A0730

A0860

TYPE OF OUTPUTBORE

COLUMN 11 ENTRY

Standard

H

Inch

A

Standard

H

Inch

A

Standard

H

Inch

A

Standard

H

Inch

A

Standard

H

Inch

A

Standard

H

Inch

A

G

N

DIMENSIONS IN MM (INCH BORE IN INCHES) G 16.034 16.016 0.6257” 0.6250” 22.041 22.020 0.7508” 0.7500” 25.041 25.020 1.0008” 1.0000” 35.050 35.025 1.3760” 1.3750” 40.050 40.025 1.6260” 1.6250” 50.050 50.025 1.8760” 1.8750”

17

H 18.4 18.3 0.715” 0.709” 24.9 24.8 0.843” 0.837” 28.5 28.3 1.120” 1.114” 38.5 38.3 1.524” 1.518” 43.5 43.3 1.802” 1.796” 54.0 53.8 2.102” 2.096”

J 5.015 4.985 0.1895” 0.1875”

K

M

N

40

16.3 16.2

32

1.575”

6.015 5.985

50

0.1895” 0.1875”

1.969”

8.018 7.982

56

0.252” 0.250” 10.018 9.982 0.3145” 0.3125” 12.021 11.979 0.377” 0.375” 14.021 13.979 0.502” 0.500”

2.205” 64 2.520” 77 3.031” 93 3.661”

0.635” 0.630” 22.3 22.2 0.760” 0.755” 25.3 25.2 1.010” 1.005” 35.3 35.2 1.385” 1.380” 40.3 40.2 1.635” 1.630” 50.3 50.2 1.885” 1.880”

1.26” 40 1.57” 45 1.77” 50 1.97” 60 2.36” 73 2.87”

SERIES AJ

MOTOR ADAPTORS IEC & NEMA ADDITIONAL FEATURES IEC MOTOR ADAPTORS, COLUMN 12 ENTRY FOR G TYPE ONLY UNIT SIZE

MOTOR FRAME/ FLANGE

A0280

A0410

A0510

A0610

A0730

A0860

63/D

A

-

-

-

-

-

71/D

B

B

B

-

-

-

71/C

C

C

C

-

-

-

80/D

-

D

D

D

D

-

80/C

-

E

E

E

-

-

90/D

-

-

F

F

F

F

90/C

-

-

G

G

G

-

100/112D

-

-

-

H

H

H

100/112C

-

-

-

J

J

J

132/D

-

-

-

-

-

K

132/C

-

-

-

-

-

L

NEMA MOTOR ADAPTORS, COLUMN 12 ENTRY FOR A TYPE ONLY UNIT SIZE

MOTOR FRAME/ FLANGE

A0280

A0410

A0510

A0610

A0730

A0860

56C

T

T

T

T

-

-

143TC / 145TC

-

V

V

V

V

V

182TC / 184TC

-

-

-

X

X

X

213TC / 215TC

-

-

-

-

-

Y

ADDITIONAL FEATURES - COLUMN 20 ENTRY COLUMN 20 ENTRY

SPIGOT CASE

PRIME PAINTED ONLY

-

LUBRICANT TYPE MINERAL

SYNTHETIC



B





H K



R



T



2



3



4



5



6



7



 





  



18

SERIES AJ

CONE RING FLEXIBLE COUPLINGS C

This type of coupling compensates for normal angular and parallel misalignment of shafts, together with a limited freedom of axial movement. The conical section rubber rings provide greatly improved torsional flexibility in drives where shock or cyclic loadings are present.

C E

F

H

Two types are available, MEDIUM DUTY and HEAVY DUTY. Medium duty couplings (types 612 and 614) are identical to heavy duty couplings (types 611 and 613) except that they are supplied with only half the standard number of pin and ring assemblies. This enables a useful cost saving to be made when the size of coupling is determined by the shaft diameter rather than the coupling’s torque capacity.

J

D dia.

Parallel Keyway to BS 4235 : Part 1 1972 (1986) with P9 width tolerance

A dia.

Bore tolerance to ISO 286-2-1988(E) is M7 upto and incl. 50 mm K7 over 50 mm

DRIVEN HALF

DRIVEN HALF

Coupling Size

A

D

E

F

H

H

J

Reference Number

Bore Diameter

01

64

134

12

26

20

28

3

035

Reference Number

Bore Diameter

35

---

Pilot

38

018

18

02

70

147

12

26

12

23

3

038

03

83

171

19

35

26

37

3

040

40

019

19

04

97

193

19

35

19

37

3

042

42

020

20

05

117

215

19

35

11

37

3

045

45

022

22

06

127

254

31

56

46

59

3

048

48

024

24

07

147

279

31

56

34

52

3

050

50

025

25

055

55

028

28

056

56

030

30

060

60

032

32

 The coupling pin withdrawal distance is dimension H for straight bored couplings or dimension H for taper bushed couplings.

Types 611 & 612 Straight bored

Types 613 & 614 Taper bushed

Min. bore Hub Max. Driving Driven length C bore half half

Min. bore

Types 612 & 614 Medium Duty

Types 611 & 613 Heavy Duty

Taper kW Hub Torque kW 100 kW 960 Torque kW 100 Max bush 1450 length C kNm rev/min rev/min kNm rev/min rev/min length rev/min

Coupling size

Max. bore

01

38

*

19

48

25

9

40

22.3

0.090

0.95

9.1

13.7

0.181

1.89

4780

02

42

*

22

56

32

11

45

38.1

0.140

1.46

14.0

21.2

0.279

2.92

4335

03

48

*

25

61

40

14

50

38.1

0.232

2.43

23.4

35.3

0.465

4.87

3745

04

60

*

28

68

48

18

50

44.5

0.359

3.75

36.0

54.4

0.717

7.51

3320

05

70

*

32

76

60

16

50

44.5

0.509

5.33

77.3

1.018

10.7

3000

06

80

25

42

88

60

19

75

63.5

1.219

12.76

123

185

2.438

25.5

2520

07

90

30

55

100

75

35

82

76.2

1.681

17.60

169

255

3.362

35.2

2295

* Note: up to size 05 the Driving half hubs are solid.

51.2

All dimensions in mm

For applications in ambient temperatures above 80oC (176oF) or below -30oC (-22oF) refer to our Application Engineers. The depths of rectangular Imperial keyways to BS46 are generally greater than the equivalent metric keyways, hence the maximum bores given must be marginally reduced when using an Imperial inch system. Consult our Application Engineers for details.

19

SERIES AJ MOTORISED

MOTORISED

SERIES AJ

20

SERIES AJ

MOTOR PERFORMANCE DATA ALUMINIUM FRAME MOTORS Typical Speed/Torque Curve (D.O.L. Starting) (1) Starting Torque or Locked Rotor Torque (2) Pull Up Torque or Run Up Torque (3) Pull Out Torque or Breakdown Torque (4) Full Load Torque

1

8

.

2

5

.

3

7

.

5

5

.

7

5

1

.

1

1

.

5

2

.

2

3

.

0

4

.

0

5

.

5

7

.

5

9

.

2

1

1

.

63 63 71 63 63 71 80 63 71 71 80 71 71 80 90 71 80 80 90 80 80 90 100 80 90 90 100 90 90 100 112 90 100 112 132 100 100 132 132 112 112 132 132 132 132 132 132 132 132 132

1360 835 600 2680 1360 840 650 2730 1370 845 650 2730 1380 925 680 2720 1370 925 690 2800 1385 910 700 2840 1380 920 700 2820 1390 950 700 2850 1410 945 705 2900 1420 950 710 2900 1425 955 2900 1450 960 2900 1450 2910 1460 2920

0.5 0.6 0.7 0.54 0.7 0.8 0.8 0.7 0.8 1.1 1.0 1.05 1.2 1.2 1.4 1.5 1.6 1.65 2.05 1.9 2.2 2.2 2.4 2.5 2.9 3.1 3.4 3.5 3.8 3.9 4.3 5.0 5.2 5.5 5.8 6.5 6.8 7.1 7.6 8.2 8.6 9.5 11.8 11.85 13 15.3 15.6 18.5 18.5 22

EFFICIENCY % FL 55 43 42 61 56 52.5 53 64 64 53 55.5 65 65 62 62 68 67.5 67 63 71 70 67 68 76 72 71 69 76 76 75 72 78 78.5 75 74 79 80 78 76.5 83 83 78 83 85 81 84.5 86 85 88 89

¾L 50 41 38 58 52 51 49 61 60 52.5 52 62 64 59 59 66 68 62 60 69 69 65 68 75 72.5 68 68 75 76 74.5 72 78 78.5 76 74 79 80 78 77 83 83 78 82.5 85.5 80 84 86 85 88 89

½L 43 37 34 52 44 47 45 55 54 50 46 58 58 50 53 62 65 53 54 67 66 63 66 73 72 64 66 74 75 73 70 77 78 76 73.5 77 79 77 76 82 82 77 80 85 79 81 85 83 87 88

POWER FACTOR FL 0.65 0.62 0.56 0.79 0.67 0.62 0.61 0.80 0.68 0.62 0.68 0.79 0.67 0.72 0.62 0.80 0.74 0.72 0.62 0.83 0.72 0.75 0.68 0.83 0.76 0.73 0.68 0.82 0.76 0.75 0.71 0.82 0.78 0.77 0.74 0.84 0.80 0.78 0.75 0.85 0.81 0.78 0.82 0.79 0.76 0.84 0.81 0.85 0.82 0.82

21

¾L 0.60 0.56 0.50 0.73 0.60 0.55 0.56 0.72 0.63 0.55 0.60 0.72 0.60 0.62 0.54 0.73 0.64 0.62 0.54 0.78 0.62 0.66 0.58 0.75 0.68 0.67 0.58 0.73 0.66 0.66 0.62 0.73 0.71 0.71 0.64 0.74 0.72 0.71 0.68 0.81 0.72 0.72 0.75 0.72 0.66 0.79 0.75 0.81 0.75 0.77

½L 0.50 0.46 0.42 0.60 0.50 0.47 0.45 0.60 0.56 0.47 0.50 0.60 0.52 0.52 0.44 0.63 0.52 0.52 0.44 0.66 0.51 0.55 0.48 0.64 0.57 0.52 0.48 0.63 0.55 0.54 0.52 0.63 0.60 0.57 0.53 0.64 0.60 0.60 0.56 0.73 0.62 0.62 0.64 0.59 0.54 0.73 0.64 0.73 0.65 0.68

D.O.L. STARTING % OF FULL LOAD

STAR DELTA STARTING % OF FULL LOAD

LRT 260 230 200 250 260 230 180 240 270 240 180 280 280 220 260 280 250 250 320 230 250 240 160 250 250 240 200 240 260 180 180 300 240 220 180 270 240 190 180 280 270 230 340 260 260 330 260 340 260 210

LRT

LRC 320 250 250 380 320 260 230 400 370 280 250 400 420 340 380 420 400 370 420 460 430 360 440 540 440 460 440 500 500 500 430 700 530 500 500 700 550 600 430 700 620 600 700 650 660 700 690 720 740 620

85 84 73 100 80 80 100 80 105 81 70

ROTOR INERTIA WK2 IN KGM2

.

FLC (AMPS) 400 VOLTS

15 16 17 . 1 2

FULL LOAD SPEED

kW COLUMN ENTRY

MOTOR FRAME SIZE

Full Load Speed

PULL OUT TORQUE % FLT

Torque/Speed curves for specific motors can be supplied on request

PULL UP TORQUE % FLT

Cage Rotor IP55, TEFV (ICO141) S1 (Maximum Continuous) 3 PH 50Hz 380 - 415V F B

Torque

Type Enclosure Rating Supply Insulation Class Temp. Rise Class

240 200 180 210 240 200 160 210 240 200 160 250 260 170 220 260 180 200 270 190 190 190 110 190 220 140 140 200 230 150 170 260 210 190 130 250 210 150 130 260 230 160 280 180 180 270 180 270 180 200

260 180 180 210 260 180 180 210 260 180 180 250 270 200 230 250 200 210 280 230 200 240 170 240 250 290 180 250 260 200 200 320 240 200 160 300 250 200 160 300 290 230 280 270 260 270 270 270 270 270

0.00025 0.0003 0.0006 0.0002 0.0003 0.0005 0.0024 0.00023 0.0005 0.0006 0.00275 0.0004 0.0006 0.0024 0.00375 0.00045 0.0013 0.00275 0.005 0.00083 0.0016 0.00375 0.0093 0.00097 0.0033 0.005 0.0123 0.0016 0.004 0.01 0.017 0.0022 0.0073 0.015 0.038 0.005 0.009 0.03 0.046 0.0063 0.0115 0.038 0.016 0.0238 0.046 0.019 0.03 0.023 0.0338 0.03

LRC

220 195 190 220 200 210 220 215 220 230 200

SERIES AJ

STANDARD MOTOR VARIANTS AVAILABLE All variants of standard IEC and NEMA motors can be fitted to Series A, single and double reduction gear units. For example:

-

Single phase

-

DC

-

Energy efficient

-

Wash down

-

Explosion-proof

-

Suitable to be used with inverters

-

Force vented

-

Flame proof

-

Two speed

-

Tropicalised

-

Crane duty

-

Underground specification

-

Fitted with encoders

-

Fitted with tacho

-

Fitted with thermistors

-

Fitted with anti condensation heaters

-

Hydraulic motors with IEC flanges

-

Air motors with IEC flanges

Standard clutch brake modules with IEC flanges can be fitted between motor and gearhead. Variable speed packages are available, either belt variators or mechanical disc variators. For any of these combinations please contact your local Sales office.

22

SERIES AJ

BRAKE MOTORS MOTORS AVAILABLE HAND RELEASE

1

STATOR

2

ARMATURE

3 ROTOR 4

SCREWS

5

ENDSHEILD

6

FAN COWL

7

SPRING

8

ADJUSTER NUT

9

FRICTION PLATE

10

ADJUSTMENT TUBES

BRAKE MOTORS Brake motors are fitted with spring-loaded brakes (mounted between motor endshield and fan blade) under the fan cowl. When the motor is switched on, the brake is supplied with DC voltage via a suitable rectifier. The spring-loaded brake is normally off, electromagnetically released brake comprising the stator (1), the armature (2) and the brake rotor (3). It is fixed to the motor endshield (5) with screws (4) and located under the fan cowl (6). The friction plate (9) is held against the motor end shield (5) and serves as a counter friction face. When the release current does not flow the springs (7) press the armature (2) against the brake rotor (3) which in turn is pressed against the friction plate (9). The braking torque is generated through friction on both friction faces.

When switching on the motor the brake release coil is activated and the magnetic force of the stator (1) releases armature (2) against the spring resistance (7). The rotor (3) is freed. The brake torque can be reduced by a maximum of 40% by using an adjuster (8). We recommend to check the air gap A periodically, although, normally the brake needs no maintenance. Depending on the inertia to brake, speed, and switching frequency, the rotor can wear and become smaller due to the friction at the friction surfaces. If A max. (see table) is attained, the air gap must be adjusted. Where adjustment is needed, slacken screws (4) and reset the gap by turning adjustment tubes (10). Re-tighten screws (4) to the correct torque shown in the table below.

MOTOR FRAME SIZE

63

71

80

90

100/112

132

BRAKE SIZE

06

06

08

10

12

14

16

32

60

BRAKE TORQUE

Nm

2.85

4

8

A

mm

0.2

0.2

0.2

A max

mm

0.5

0.5

0.5

BOLT TIGHTENING TORQUE

Nm

3

3

6

MOTORS AVAILABLE COLUMN 19 ENTRY

0.2 0.5 10

COLUMN 19 ENTRY

TYPE OF MOTOR

0.3

STANDARD

A

STANDARD WITH BRAKE

B

STANDARD WITH BRAKE & HAND RELEASE

C

FIT NON STANDARD MOTOR

N

FIT FREE ISSUE MOTOR

F

0.75 10

0.8 25

* The standard motor with brake will be fitted with a rectifier and wired for AC switching. For fast braking needed with safety critical applications (ie lifts, hoists and cranes), it is essential to switch the brake on the DC side of the rectifier. In such cases motor type N should be entered in column 19.

For larger frame sizes standard proprietary brake motors are available. For details contact our Application Engineers.

23

0.3

SERIES AJ MOTOR DETAIL B14 ‘C’ FACE

g1

kbr

45 o

ko

øg6 øm

øn ød

øg

g2

e

MOTOR FRAME SIZE

øg6

øm

øn

71

105

85

70

80

120

100

90S/L

140

115

100

160

112

160

132S/M

200

ød

FIXING BOLTS

e

ko

kbr

øg

g1

g2

14

30

210

251

137

107

167

4-M6

80

19

40

230

280

158

118

190

4-M6

95

24

50

270

329

177

149

218

4-M8

130

110

28

60

340

408

197

159

238

4-M8

130

110

28

60

340

408

197

159

238

4-M8

165

130

38

80

402

473

253

184

288

4-M10

B5 ‘D’ FLANGE

g1

kbr

22.5 o

ko

øg6 øm øn

ød

øg

g2

e

MOTOR FRAME SIZE

øg6

øm

øn

ød

e

ko

kbr

øg

g1

g2

FIXING BOLTS

63

140

115

95

11

23

185

227

122

101

160

4-M8

71

160

130

110

14

30

210

251

137

107

167

4-M8

80

200

165

130

19

40

230

280

158

118

190

4-M10

90S/L

200

165

130

24

50

270

329

177

149

218

4-M10

100

250

215

180

28

60

340

408

197

159

238

4-M12

112

250

215

180

28

60

340

408

197

159

238

4-M12

132S/M

300

265

230

38

80

402

473

253

184

288

4-M12

When fitting motor always use stepped key provided with gearbox, not the standard key supplied with motor These dimensions apply to our standard motors

24

SERIES AJ

Kg

160 115 80 67 58 42 34 28 21 17

5.25 7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00 50.00

4 6 8 9 11 13 15 18 20 24

5.12 4.60 4.15 3.74 3.38 2.98 2.67 2.20 1.58 1.08

1440 A 0 2 8 0 5 . 0 _ M _ - _ _ . 0 9 6 A _ 1440 7 . 5 1440 1 0 . 1440 1 3 . 1430 1 5 . 1430 2 0 . 1430 2 5 . 1420 3 0 . 1420 4 0 . 1410 5 0 .

10.6

63a

X 6 1 2 0 1 M 0 1 6 - _ _ _

38

76.13 105.00 131.25 152.25 210.00 210.25 262.50 290.00 362.50 400.00 435.00 500.00 600.00 625.00

48 61 69 84 105 108 118 123 150 149 167 167 186 195

3.41 2.06 2.57 2.24 1.27 1.74 1.59 1.53 1.25 0.94 1.13 1.13 1.01 0.97

2760 A 0 4 1 0 7 5 . _ N _ - _ _ . 0 9 6 A _ 18.6 63a 2750 1 0 0 2750 1 2 5 2740 1 5 0 2730 2 0 0 2730 2 2 5 2730 2 5 0 2730 3 0 0 2710 3 5 0 2710 4 0 0 2710 4 5 0 2710 5 0 0 2700 6 0 0 2700 6 2 5

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 2 M 0 2 0 - _ _ _ X 6 1 1 0 1 M 0 2 0 - _ _ _ X 6 1 1 0 2 M 0 2 0 - _ _ _

42 38 42

X 6 1 1 0 1 M 0 2 0 - _ _ _ X 6 1 1 0 2 M 0 2 0 - _ _ _

38 42

5.3 157.50 4.0 210.00 3.9 217.50 3.2 262.50 2.9 292.50 2.3 362.50 2.2 390.00 1.9 435.00 1.7 487.50 1.4 585.00 1.3 625.00 1.1 750.00 1.0 800.00 .93 900.00 .84 1 000.00 .70 1 200.00

90 105 116 124 134 158 155 182 181 207 211 240 230 271 264 299

3.05 2.92 2.45 2.49 2.11 1.94 1.98 1.69 1.70 1.49 1.46 1.28 1.34 1.14 1.17 1.03

3500 A 0 5 1 0 1 5 0 _ N _ - _ _ . 0 9 6 A _ 22.6 63a 3500 2 0 0 3490 2 2 5 3490 2 5 0 3490 3 0 0 3480 3 5 0 3480 4 0 0 3470 4 5 0 3470 5 0 0 3460 6 0 0 3460 6 2 5 3450 7 5 0 3450 8 0 0 3430 9 0 0 3440 1 0 C 3420 1 2 C

X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _

42 48

11 8.0 6.4 5.5 4.0 4.0 3.2 2.9 2.3 2.1 1.9 1.7 1.4 1.3

Column Entry

1 Through 20

Spaces to be filled when entering order

NOTE Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

25

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

Motor Frame Size

UNIT DESIGNATION

Weight of Base Mount Unit

N

Service Factor

Fm

Output Torque

M2 Nm

Ratio

6 POLE

i

Output Speed

N2 R/MIN

0.09 kW

Overhung Load

SELECTION TABLES GEARED MOTORS

SERIES AJ

6 POLE

NOTE Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

10.5

63a

Cone Ring Output Coupling

5.25 7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00 50.00 60.00

3 5 7 8 9 11 13 15 17 20 21

5.24 4.74 4.30 3.88 3.52 3.08 2.76 2.27 1.77 1.21 0.88

1450 A 0 2 8 0 5 . 0 _ M _ - _ _ . 1 2 4 A _ 1440 7 . 5 1440 1 0 . 1440 1 3 . 1440 1 5 . 1430 2 0 . 1430 2 5 . 1430 3 0 . 1420 4 0 . 1420 5 0 . 1410 6 0 .

18 76.13 13 105.00 10 131.25 8.9 152.25 6.5 210.00 6.5 210.25 5.2 262.50 4.7 290.00 3.8 362.50 3.4 400.00 3.1 435.00 2.7 500.00 2.3 600.00 2.2 625.00 1.8 750.00 1.7 800.00 8.6 157.50 6.5 210.00 6.3 217.50 5.2 262.50 4.6 292.50 3.8 362.50 3.7 367.50 3.5 390.00 3.1 435.00 2.8 487.50 2.3 585.00 2.2 625.00 1.8 750.00 1.7 800.00 1.5 900.00 1.4 1000.00 1.1 1200.00 1.1 1250.00

40 52 58 71 88 91 100 105 127 124 142 142 158 165 183 176 76 90 98 106 115 135 110 134 155 155 177 181 205 197 232 227 255 263

3.67 2.35 2.77 2.46 1.48 2.04 1.88 1.80 1.49 1.09 1.33 1.33 1.20 1.14 1.03 0.81 3.39 3.42 2.75 2.91 2.48 2.28 0.90 2.31 1.99 1.99 1.74 1.70 1.50 1.56 1.33 1.36 1.21 1.17

2760 A 0 4 1 0 7 5 . _ N _ - _ _ . 1 2 4 A _ 18.5 63a 2760 1 0 0 2750 1 2 5 2750 1 5 0 2740 2 0 0 2740 2 2 5 2740 2 5 0 2740 3 0 0 2720 3 5 0 2720 4 0 0 2710 4 5 0 2720 5 0 0 2710 6 0 0 2700 6 2 5 2700 7 5 0 2230 8 0 0 3500 A 0 5 1 0 1 5 0 _ N _ - _ _ . 1 2 4 A _ 22.5 63a 3500 2 0 0 3500 2 2 5 3490 2 5 0 3490 3 0 0 3480 3 5 0 3490 3 7 5 3490 4 0 0 3470 4 5 0 3480 5 0 0 3470 6 0 0 3470 6 2 5 3460 7 5 0 3460 8 0 0 3440 9 0 0 3450 1 0 C 3430 1 2 C 3430 1 2 C

X 6 1 1 0 1 M 0 2 0 - _ _ _

5.25 7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00 50.00

6 8 11 13 15 17 21 24 27 32

3.82 3.43 3.10 2.79 2.52 2.23 1.99 1.64 1.18 0.80

1436 A 0 2 8 0 5 . 0 _ M _ - _ _ . 1 2 6 A _ 1436 7 . 5 1434 1 0 . 1432 1 3 . 1424 1 5 . 1422 2 0 . 1418 2 5 . 1408 3 0 . 1406 4 0 . 1400 5 0 .

11 8.0 6.4 5.5 4.0 4.0 3.2 2.9

76.13 105.00 131.25 152.25 210.00 210.25 262.50 290.00

64 82 93 113 141 145 158 166

11 8.0 6.4 5.3 4.0 3.8 3.2 2.9 2.3 2.1 1.9 1.7 1.4 1.3

78.75 105.00 131.25 157.50 210.00 217.50 262.50 292.50 362.50 390.00 435.00 487.50 585.00 625.00

68 81 96 121 142 156 166 180 213 208 245 243 278 284

Spaces to be filled when entering order

Spaces to be filled when entering order X 6 1 2 0 1 M 0 1 6 - _ _ _

Max Bore Coupling Drive Half

1 Through 20

Motor Frame Size

Column Entry

Kg Weight of Base Mount Unit

UNIT DESIGNATION

259 185 130 109 94 68 54 45 34 27 23

159 114 80 67 58 42 33 28 21 17

N

Service Factor

Fm

Output Torque

M2 Nm

Ratio

4 POLE

i

Output Speed

N2 R/MIN

0.09 kW 0.12

Overhung Load

SELECTION TABLES GEARED MOTORS

38

38

X 6 1 1 0 2 M 0 2 0 - _ _ _

42

X 6 1 1 0 1 M 0 2 0 - _ _ _ X 6 1 1 0 2 M 0 2 0 - _ _ _

38 42

X 6 1 1 0 1 M 0 2 0 - _ _ _ X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _ X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _

38 42 48 42 48

X 6 1 1 0 1 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _

38 48

63b

X 6 1 2 0 1 M 0 1 6 - _ _ _

38

2.54 1.54 1.91 1.67 0.95 1.30 1.19 1.14

2752 A 0 4 1 0 7 5 . _ N _ - _ _ . 1 2 6 A _ 18.9 63b 2740 1 0 0 2738 1 2 5 2730 1 5 0 2720 2 0 0 2720 2 2 5 2710 2 5 0 2710 3 0 0

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 2 M 0 2 0 - _ _ _ X 6 1 1 0 1 M 0 2 0 - _ _ _ X 6 1 1 0 2 M 0 2 0 - _ _ _

42 38 42

3.52 3.52 3.19 2.28 2.17 1.83 1.86 1.57 1.45 1.48 1.26 1.27 1.11 1.09

3504 A 0 5 1 0 7 5 . _ N _ - _ _ . 1 2 6 A _ 22.9 63b 3502 1 0 0 3500 1 2 5 3488 1 5 0 3483 2 0 0 3473 2 2 5 3473 2 5 0 3470 3 0 0 3450 3 5 0 3460 4 0 0 3440 4 5 0 3440 5 0 0 3430 6 0 0 3430 6 2 5

X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _

42 48

X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _

42 48

26

10.9

SERIES AJ

N2 R/MIN

Weight of Base Mount Unit

Motor Frame Size

3.49 3.16 2.87 2.58 2.34 2.05 1.84 1.52 1.18 0.81

1442 A 0 2 8 0 5 . 0 _ M _ - _ _ . 1 8 4 A _ 1435 7 . 5 1432 1 0 . 1430 1 3 . 1430 1 5 . 1420 2 0 . 1415 2 5 . 1413 3 0 . 1401 4 0 . 1390 5 0 .

10.9

63b

X 6 1 2 0 1 M 0 1 6 - _ _ _

38

18 13 10 8.9 6.5 6.5 5.2 4.7

76.13 105.00 131.25 152.25 210.00 210.25 262.50 290.00

60 78 88 107 132 137 151 157

2.44 1.57 1.85 1.64 0.98 1.36 1.25 1.20

2750 A 0 4 1 0 7 5 . _ N _ - _ _ . 1 8 4 A _ 18.9 63b 2745 1 0 0 2735 1 2 5 2731 1 5 0 2710 2 0 0 2232 2 2 5 2710 2 5 0 2710 3 0 0

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 2 M 0 2 0 - _ _ _

42

17 13 10 8.6 6.5 6.3 5.2 4.6 3.8 3.5 3.1 2.8 2.3 2.2

78.75 105.00 131.25 157.50 210.00 217.50 262.50 292.50 362.50 390.00 435.00 487.50 585.00 625.00

64 77 92 114 135 148 159 173 203 201 233 232 265 272

3.22 3.22 3.06 2.26 2.28 1.83 1.94 1.65 1.52 1.54 1.32 1.33 1.16 1.14

3502 A 0 5 1 0 7 5 . _ N _ - _ _ . 1 8 4 A _ 22.9 63b 3500 1 0 0 3495 1 2 5 3485 1 5 0 3481 2 0 0 3476 2 2 5 3466 2 5 0 3466 3 0 0 3450 3 5 0 3450 4 0 0 3440 4 5 0 3440 5 0 0 3430 6 0 0 3420 6 2 5

X 6 1 1 0 2 M 0 2 5 - _ _ _

42

X 6 1 1 0 3 M 0 2 5 - _ _ _ X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _ X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _

48 42 48 42 48

160 5.25 115 7.33 80 10.50 67 12.50 58 14.50 42 20.00 34 25.00 28 30.00

9 12 17 19 22 26 31 36

2.56 2.30 2.08 1.87 1.69 1.49 1.34 1.10

1428 A 0 2 8 0 5 . 0 _ M _ - _ _ . 1 8 6 A _ 1428 7 . 5 1423 1 0 . 1417 1 3 . 1413 1 5 . 1407 2 0 . 1396 2 5 . 1386 3 0 .

71a

X 6 1 2 0 1 M 0 1 6 - _ _ _

38

19.50 25.00 30.00 40.00 50.00 60.00

30 34 39 49 57 60

3.36 3.33 2.94 2.17 1.41 1.04

2760 A 0 4 1 0 2 0 . _ M _ - _ _ . 1 8 6 A _ 15.8 71a 2760 2 5 . 2760 3 0 . 2760 4 0 . 2750 5 0 . 2750 6 0 .

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

11 8.0 6.4 5.5 11 8.0 6.4 5.3 4.0 3.9 3.2 2.9

76.13 105.00 131.25 152.25 78.75 105.00 131.25 157.50 210.00 217.50 262.50 292.50

96 123 139 169 102 121 144 180 211 232 248 269

1.71 1.03 1.28 1.12 2.36 2.36 2.14 1.53 1.46 1.23 1.24 1.05

2737 A 0 4 1 0 7 5 . _ N _ - _ _ . 1 8 6 A _ 20.8 71a 2721 1 0 0 2716 1 2 5 2710 1 5 0 3493 A 0 5 1 0 7 5 . _ N _ - _ _ . 1 8 6 A _ 24.8 71a 3487 1 0 0 3481 1 2 5 3466 1 5 0 3450 2 0 0 3440 2 2 5 3440 2 5 0 3430 3 0 0

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 2 M 0 2 0 - _ _ _ X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _

42 42 48

X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _

42 48

8.2 6.4 5.5 4.1 4.0 3.2 3.0 2.3 2.2 1.9 1.7 1.3

102.38 131.25 152.25 204.75 210.25 262.50 282.75 362.50 380.25 435.00 487.50 625.00

126 149 190 223 243 261 313 328 361 369 420 460

3.85 3.36 2.58 2.25 2.06 1.92 1.60 1.53 1.39 1.36 1.19 1.09

6130 A 0 6 1 0 1 0 0 _ N _ - _ _ . 1 8 6 A _ 6130 1 2 5 6060 1 5 0 5920 2 0 0 5840 2 2 5 5750 2 5 0 5500 3 0 0 5450 3 5 0 5270 4 0 0 5250 4 5 0 4990 5 0 0 4810 6 2 5

71a

X 6 1 1 0 4 M 0 2 8 - _ _ _

60

7.0 120.00 164 3.67 6970 A 0 7 3 0 1 2 5 _ N _ - _ _ . 1 8 6 A _ 46.8 71a 5.5 152.25 200 3.01 6960 1 5 0 4.1 204.75 255 2.36 6940 2 0 0 4.0 210.25 255 2.36 6940 2 2 5 3.2 262.50 288 2.09 6920 2 5 0 2.9 290.00 329 1.83 6910 3 0 0 2.5 336.00 363 1.66 6900 3 5 0 2.3 362.50 306 0.95 6910 3 7 5 2.2 390.00 417 1.44 6870 4 0 0 1.9 435.00 417 1.44 6870 4 5 0 1.7 500.00 466 1.29 6850 5 0 0 1.4 600.00 534 1.13 6820 6 0 0 1.3 625.00 510 1.18 6830 6 2 5

X 6 1 1 0 4 M 0 3 0 - _ _ _

60

X 6 1 1 0 3 M 0 3 0 - _ _ _ X 6 1 1 0 4 M 0 3 0 - _ _ _

48 60

43 34 28 21 17 14

Column Entry

1 Through 20

Spaces to be filled when entering order

27

12.8

33.8

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

Service Factor

Kg

Output Torque

UNIT DESIGNATION

5 7 10 12 14 16 20 23 26 30

Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

N

5.25 7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00 50.00

NOTE

Fm

259 185 130 109 94 68 54 45 34 27

6 POLE

M2 Nm

Ratio

4 POLE

i

Output Speed

0.09 kW 0.18

Overhung Load

SELECTION TABLES GEARED MOTORS

SERIES AJ

N2 R/MIN

Kg

261 187 130 110 94 69 55 46 34

5.25 7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00

7 10 14 16 19 23 27 31 36

2.53 2.29 2.08 1.87 1.70 1.49 1.33 1.10 0.85

1434 A 0 2 8 0 5 . 0 _ M _ - _ _ . 2 5 4 A _ 1429 7 . 5 1424 1 0 . 1419 1 3 . 1419 1 5 . 1409 2 0 . 1398 2 5 . 1393 3 0 . 1380 4 0 .

12.3

71a

X 6 1 2 0 1 M 0 1 6 - _ _ _

38

70 55 46 34 27 23 20

19.50 25.00 30.00 40.00 50.00 60.00 70.00

26 30 34 42 50 53 58

3.37 3.32 2.93 2.18 1.54 1.13 0.84

2760 A 0 4 1 0 2 0 . _ M _ - _ _ . 2 5 4 A _ 15.3 71a 2760 2 5 . 2760 3 0 . 2760 4 0 . 2750 5 0 . 2750 6 0 . 2750 7 0 .

X 6 1 2 0 1 M 0 2 0 - _ _ _ X 6 1 1 0 1 M 0 2 0 - _ _ _

38 38

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

18 13 10 9.0 6.5 17 13 10 8.7 6.5 6.3 5.2 4.7

76.13 105.00 131.25 152.25 210.25 78.75 105.00 131.25 157.50 210.00 217.50 262.50 292.50

84 108 121 147 189 89 107 126 157 187 204 219 238

1.77 1.14 1.34 1.19 0.99 2.34 2.34 2.22 1.64 1.65 1.33 1.41 1.20

2739 A 0 4 1 0 7 5 . _ N _ - _ _ . 2 5 4 A _ 20.3 71a X 6 1 1 0 1 M 0 2 0 - _ _ _ 2728 1 0 0 2718 1 2 5 2710 1 5 0 1640 2 2 5 X 6 1 1 0 2 M 0 2 0 - _ _ _ 3494 A 0 5 1 0 7 5 . _ N _ - _ _ . 2 5 4 A _ 24.3 71a X 6 1 1 0 2 M 0 2 5 -_ _ _ 4 2 3489 1 0 0 3478 1 2 5 X 6 1 1 0 3 M 0 2 5 - _ _ _ 3468 1 5 0 X 6 1 1 0 2 M 0 2 5 - _ _ _ 3460 2 0 0 X 6 1 1 0 3 M 0 2 5 - _ _ _ 3450 2 2 5 X 6 1 1 0 2 M 0 2 5 - _ _ _ 3440 2 5 0 X 6 1 1 0 3 M 0 2 5 - _ _ _ 3440 3 0 0

38

10 9.0 6.7 6.5 5.2 4.8 3.8 3.6 3.1 2.8 2.3 2.2 1.9 9.0 6.7 6.5 5.2 4.7 4.1 3.8 3.5 3.1 2.7 2.3 2.2 2.0 1.8

131.25 152.25 204.75 210.25 262.50 282.75 362.50 380.25 435.00 487.50 585.00 625.00 723.33 152.25 204.75 210.25 262.50 290.00 336.00 362.50 390.00 435.00 500.00 600.00 625.00 676.67 750.00

131 165 196 211 229 274 288 317 324 369 412 404 413 175 223 224 254 289 320 267 365 367 410 469 449 459 511

3.53 2.73 2.55 2.28 2.18 1.83 1.73 1.58 1.55 1.36 1.21 1.24 0.85 3.44 2.70 2.69 2.37 2.09 1.88 1.06 1.65 1.64 1.47 1.28 1.34 0.84 1.18

6130 A 0 6 1 0 1 2 5 _ N _ - _ _ . 2 5 4 A _ 33.3 71a 6130 1 5 0 6000 2 0 0 5920 2 2 5 5840 2 5 0 5600 3 0 0 5550 3 5 0 5380 4 0 0 5370 4 5 0 5120 5 0 0 4880 6 0 0 4950 6 2 5 4730 7 0 0 6970 A 0 7 3 0 1 5 0 _ N _ - _ _ . 2 5 4 A _ 46.3 71a 6950 2 0 0 6950 2 2 5 6940 2 5 0 6920 3 0 0 6900 3 5 0 6920 3 7 5 6890 4 0 0 6890 4 5 0 6860 5 0 0 6830 6 0 0 6840 6 2 5 6820 7 0 0 6810 7 5 0

X 6 1 1 0 3 M 0 2 8 - _ _ _

48

X 6 1 1 0 4 M 0 2 8 - _ _ _

60

X 6 1 1 0 3 M 0 2 8 - _ _ _ X 6 1 1 0 4 M 0 3 0 - _ _ _

48 60

X 6 1 1 0 3 M 0 3 0 - _ _ _ X 6 1 1 0 4 M 0 3 0 - _ _ _

48 60

X 6 1 1 0 3 M 0 3 0 - _ _ _ X 6 1 1 0 4 M 0 3 0 - _ _ _

48 60

Column Entry

1 Through 20

Spaces to be filled when entering order

NOTE Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

28

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

Motor Frame Size

UNIT DESIGNATION

Weight of Base Mount Unit

N

Service Factor

Fm

Output Torque

M2 Nm

Ratio

4 POLE

i

Output Speed

0.09 kW 0.25

Overhung Load

SELECTION TABLES GEARED MOTORS

42

48 42 48 42 48

SERIES AJ

N2 R/MIN

Kg

161 115 80 68 58 42 34

5.25 7.33 10.50 12.50 14.50 20.00 25.00

12 17 23 26 30 36 43

1.86 1.67 1.50 1.36 1.23 1.08 0.97

1420 A 0 2 8 0 5 . 0 _ M _ - _ _ . 2 5 6 A _ 1420 7 . 5 1410 1 0 . 1400 1 3 . 1400 1 5 . 1390 2 0 . 1370 2 5 .

13.3

71b

X 6 1 2 0 1 M 0 1 6 - _ _ _

38

115 80 68 58 43 34 28 21 17

7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00 50.00

17 24 28 31 41 48 55 67 79

3.70 3.63 3.34 3.21 2.43 2.42 2.13 1.57 1.02

2768 A 0 4 1 0 7 . 5 _ M _ - _ _ . 2 5 6 A _ 16.3 71b 2766 1 0 . 2766 1 3 . 2766 1 5 . 2756 2 0 . 2754 2 5 . 2754 3 0 . 2750 4 0 . 2742 5 0 .

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

11 6.4 11 8.0 6.4 5.4 11 8.3 6.4 5.6 4.1 4.0 3.2 3.0 2.3

76.13 131.25 78.75 105.00 131.25 157.50 76.13 102.38 131.25 152.25 204.75 210.25 262.50 282.75 362.50

133 192 141 168 199 249 146 174 205 263 307 335 361 432 453

1.24 0.93 1.71 1.71 1.55 1.11 2.91 2.78 2.43 1.87 1.63 1.49 1.39 1.16 1.11

2720 A 0 4 1 0 7 5 . _ N _ - _ _ . 2 5 6 A _ 21.3 71b 2690 1 2 5 3480 A 0 5 1 0 7 5 . _ N _ - _ _ . 2 5 6 A _ 25.3 71b 3470 1 0 0 3460 1 2 5 3440 1 5 0 5988 A 0 6 1 0 7 5 . _ N _ - _ _ . 2 5 6 A _ 34.3 71b 5933 1 0 0 5870 1 2 5 5698 1 5 0 5492 2 0 0 5370 2 2 5 5250 2 5 0 4890 3 0 0 4790 3 5 0

X 6 1 1 0 1 M 0 2 0 - _ _ _ X 6 1 1 0 2 M 0 2 0 - _ _ _ X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 5 - _ _ _

38 42 42 48

X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 8 - _ _ _ X 6 1 1 0 4 M 0 2 8 - _ _ _

42 48 60

12 9.0 7.0 5.6 4.1 4.0 3.2 2.9 2.5

69.60 93.60 120.00 152.25 204.75 210.25 262.50 290.00 336.00

154 197 227 276 352 353 398 455 502

3.66 3.05 2.65 2.18 1.71 1.71 1.51 1.32 1.20

6981 A 0 7 3 0 7 5 . _ N _ - _ _ . 2 5 6 A _ 6955 1 0 0 6941 1 2 5 6926 1 5 0 6895 2 0 0 6895 2 2 5 6870 2 5 0 6850 3 0 0 6820 3 5 0

X 6 1 1 0 4 M 0 3 0 - _ _ _

60

Column Entry

1 Through 20

Spaces to be filled when entering order

NOTE Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

29

47.3

71b

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

Motor Frame Size

UNIT DESIGNATION

Weight of Base Mount Unit

N

Service Factor

Fm

Output Torque

M2 Nm

Ratio

6 POLE

i

Output Speed

0.09 kW 0.25

Overhung Load

SELECTION TABLES GEARED MOTORS

SERIES AJ

6 POLE

NOTE Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

Kg

263 188 131 110 95 69 55

5.25 7.33 10.50 12.50 14.50 20.00 25.00

11 15 21 24 28 34 40

1.72 1.56 1.41 1.28 1.16 1.01 0.91

1420 A 0 2 8 0 5 . 0 _ M _ - _ _ . 3 7 4 A _ 1420 7 . 5 1410 1 0 . 1400 1 3 . 1400 1 5 . 1390 2 0 . 1370 2 5 .

13.0

71b

X 6 1 2 0 1 M 0 1 6 - _ _ _

38

263 188 131 110 95 71 55 46 35 28 18 11

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00 50.00 76.13 131.25

11 16 22 25 29 38 44 51 63 73 123 178

3.91 3.45 3.40 3.14 3.01 2.30 2.26 1.99 1.48 1.05 1.21 0.91

2767 A 0 4 1 0 5 . 0 _ M _ - _ _ . 3 7 4 A _ 16.0 71b 2767 7 . 5 2767 1 0 . 2765 1 3 . 2765 1 5 . 2755 2 0 . 2755 2 5 . 2752 3 0 . 2748 4 0 . 2742 5 0 . 2720 A 0 4 1 0 7 5 . _ N _ - _ _ . 3 7 4 A _ 21.0 71b 2690 1 2 5

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

X 6 1 2 0 1 M 0 2 0 - _ _ _ X 6 1 1 0 1 M 0 2 0 - _ _ _

38 38

18 13 11 8.8 18 13 11 9.1 6.7 6.6 5.3 4.9 3.8

78.75 105.00 131.25 157.50 76.13 102.38 131.25 152.25 204.75 210.25 262.50 282.75 362.50

130 157 186 232 135 162 192 243 288 311 337 403 424

1.59 1.59 1.51 1.12 2.83 2.75 2.41 1.86 1.74 1.55 1.48 1.24 1.18

3480 A 0 5 1 0 7 5 . _ N _ - _ _ . 3 7 4 A _ 25.0 71b 3470 1 0 0 3450 1 2 5 3440 1 5 0 5976 A 0 6 1 0 7 5 . _ N _ - _ _ . 3 7 4 A _ 34.0 71b 5911 1 0 0 5837 1 2 5 5702 1 5 0 5490 2 0 0 5370 2 2 5 5240 2 5 0 4880 3 0 0 4780 3 5 0

X 6 1 1 0 2 M 0 2 5 - _ _ _

42

X 6 1 1 0 3 M 0 2 5 - _ _ _ X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 3 M 0 2 8 - _ _ _

48 42 48

X 6 1 1 0 4 M 0 2 8 - _ _ _

60

20 15 11 9.1 6.7 6.6 5.3 4.8 4.1

69.60 93.60 120.00 152.25 204.75 210.25 262.50 290.00 336.00

142 183 213 257 328 329 373 424 470

3.40 3.16 2.83 2.34 1.84 1.83 1.61 1.42 1.28

6978 A 0 7 3 0 7 5 . _ N _ - _ _ . 3 7 4 A _ 6953 1 0 0 6946 1 2 5 6926 1 5 0 6894 2 0 0 6894 2 2 5 6870 2 5 0 6850 3 0 0 6820 3 5 0

X 6 1 1 0 4 M 0 3 0 - _ _ _

60

176 126 88 74 64 47 37 31 23

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

17 23 32 38 42 56 64 74 91

3.12 2.73 2.68 2.47 2.37 1.80 1.79 1.57 1.16

2764 A 0 4 1 0 5 . 0 _ M _ - _ _ . 3 7 6 A _ 19.8 80a X 6 1 2 0 1 M 0 2 0 - _ _ _ 2764 7 . 5 2759 1 0 . 2759 1 3 . X 6 1 1 0 1 M 0 2 0 - _ _ _ 2759 1 5 . 2749 2 0 . 2744 2 5 . 2744 3 0 . 2734 4 0 .

38

64 46 37 31 23 19 15

14.50 20.00 25.00 30.00 40.00 50.00 60.00

45 55 66 77 97 112 126

3.33 3.54 2.97 2.45 1.82 1.32 0.91

3510 A 0 5 1 0 1 5 . _ M _ - _ _ . 3 7 6 A _ 23.8 80a 3510 2 0 . 3500 2 5 . 3500 3 0 . 3490 4 0 . 3480 5 0 . 3480 6 0 .

X 6 1 1 0 1 M 0 2 5 - _ _ _ X 6 1 1 0 2 M 0 2 5 - _ _ _

38 42

X 6 1 1 0 1 M 0 2 5 - _ _ _

38

31 23 19 15 13 12 9.0 7.0 6.1 4.5

30.00 40.00 50.00 60.00 70.00 76.13 102.38 131.25 152.25 204.75

79 99 115 130 140 197 235 278 355 416

3.78 2.79 2.13 1.45 1.09 2.15 2.06 1.80 1.38 1.20

6130 A 0 6 1 0 3 0 . _ M _ - _ _ . 3 7 6 A _ 29.8 80a 6130 4 0 . 6130 5 0 . 6130 6 0 . 6110 7 0 . 5744 A 0 6 1 0 7 5 . _ N _ - _ _ . 3 7 6 A _ 37.8 80a 5595 1 0 0 5426 1 2 5 5080 1 5 0 4760 2 0 0

X 6 1 1 0 3 M 0 2 8 - _ _ _ X 6 1 1 0 2 M 0 2 8 - _ _ _

48 42

X 6 1 1 0 1 M 0 2 8 - _ _ _ X 6 1 1 0 3 M 0 2 8 - _ _ _ X 6 1 1 0 4 M 0 2 8 - _ _ _

38 48 60

23 19 15 13 13 10 7.7 6.1 4.5 4.4

40.00 50.00 60.00 70.00 69.60 93.60 120.00 152.25 204.75 210.25

111 133 149 162 208 267 307 373 476 477

3.96 3.10 2.20 1.59 2.71 2.26 1.96 1.61 1.27 1.26

6980 A 0 7 3 0 4 0 . _ M _ - _ _ . 3 7 6 A _ 42.8 80a 6980 5 0 . 6970 6 0 . 6960 7 0 . 6948 A 0 7 3 0 7 5 . _ N _ - _ _ . 3 7 6 A _ 50.8 80a 6913 1 0 0 6892 1 2 5 6870 1 5 0 6820 2 0 0 6820 2 2 5

X 6 1 1 0 3 M 0 3 0 - _ _ _

48

X 6 1 1 0 2 M 0 3 0 - _ _ _ X 6 1 1 0 4 M 0 3 0 - _ _ _

42 60

Column Entry

1 Through 20

Spaces to be filled when entering order

30

47.0

71b

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

Motor Frame Size

UNIT DESIGNATION

Weight of Base Mount Unit

N

Service Factor

Fm

Output Torque

M2 Nm

Ratio

4 POLE

i

Output Speed

N2 R/MIN

0.09 kW 0.37

Overhung Load

SELECTION TABLES GEARED MOTORS

38

SERIES AJ

2.61 2.30 2.27 2.10 2.01 1.53 1.51 1.33 0.99

2764 A 0 4 1 0 5 . 0 _ M _ - _ _ . 5 5 4 A _ 19.4 80a 2764 7 . 5 2764 1 0 . 2758 1 3 . 2758 1 5 . 2748 2 0 . 2748 2 5 . 2742 3 0 . 2730 4 0 .

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

187 130 110 94 69 55 46 34 27 23

7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00 50.00 60.00

24 34 39 45 57 69 80 101 116 131

3.95 3.97 3.50 3.13 2.99 2.49 2.06 1.56 1.21 0.84

3520 A 0 5 1 0 7 . 5 _ M _ - _ _ . 5 5 4 A _ 3510 1 0 . 3510 1 3 . 3510 1 5 . 3510 2 0 . 3500 2 5 . 3500 3 0 . 3490 4 0 . 3480 5 0 . 3480 6 0 .

80a

X 6 1 1 0 1 M 0 2 5 - _ _ _

38

55 46 34 27 23 20

25.00 30.00 40.00 50.00 60.00 70.00

71 81 102 120 136 146

3.92 3.18 2.35 1.84 1.33 1.00

6130 A 0 6 1 0 2 5 . _ M _ - _ _ . 5 5 4 A _ 29.4 80a 6130 3 0 . 6130 4 0 . 6130 5 0 . 6130 6 0 . 6090 7 0 .

X 6 1 1 0 3 M 0 2 8 - _ _ _ X 6 1 1 0 2 M 0 2 8 - _ _ _

48 42

X 6 1 1 0 1 M 0 2 8 - _ _ _

38

18 76.13 13 102.38 10 131.25 9.0 152.25

203 243 288 364

1.89 1.84 1.61 1.24

5746 A 0 6 1 0 7 5 . _ N _ - _ _ . 5 5 4 A _ 5584 1 0 0 5398 1 2 5 5060 1 5 0

80a

X 6 1 1 0 3 M 0 2 8 - _ _ _

48

34 27 23 20 20 15 11 9.0 6.7 6.5

40.00 50.00 60.00 70.00 69.60 93.60 120.00 152.25 204.75 210.25

114 136 154 167 213 275 319 385 491 493

3.37 2.65 2.03 1.47 2.27 2.11 1.89 1.56 1.23 1.22

6980 A 0 7 3 0 4 0 . _ M _ - _ _ . 5 5 4 A _ 42.4 80a 6980 5 0 . 6970 6 0 . 6960 7 0 . 6946 A 0 7 3 0 7 5 . _ N _ - _ _ . 5 5 4 A _ 50.4 80a 6914 1 0 0 6896 1 2 5 6860 1 5 0 6810 2 0 0 6810 2 2 5

X 6 1 1 0 3 M 0 3 0 - _ _ _

48

X 6 1 1 0 2 M 0 3 0 - _ _ _ X 6 1 1 0 4 M 0 3 0 - _ _ _

42 60

176 126 88 74 64 47 37 31

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00

26 35 49 56 63 84 96 110

2.10 1.84 1.80 1.66 1.60 1.21 1.20 1.06

2760 A 0 4 1 0 5 . 0 _ M _ - _ _ . 5 5 6 A _ 21.3 80b 2760 7 . 5 2750 1 0 . 2750 1 3 . 2750 1 5 . 2740 2 0 . 2730 2 5 . 2730 3 0 .

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

126 88 74 64 46 37 31 23 19

7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00 50.00

36 49 58 66 83 99 115 145 166

3.17 3.17 2.79 2.24 2.38 2.00 1.65 1.22 0.89

3515 A 0 5 1 0 7 . 5 _ M _ - _ _ . 5 5 6 A _ 25.3 80b 3505 1 0 . 3502 1 3 . 3500 1 5 . 3497 2 0 . 3487 2 5 . 3482 3 0 . 3471 4 0 . 3460 5 0 .

X 6 1 1 0 1 M 0 2 5 - _ _ _

38

X 6 1 1 0 2 M 0 2 5 - _ _ _

42

X 6 1 1 0 1 M 0 2 5 - _ _ _

38

62 46 37 31 23 19 15

15.00 20.00 25.00 30.00 40.00 50.00 60.00

69 85 102 118 147 172 194

3.75 3.50 3.15 2.54 1.87 1.43 0.97

6047 A 0 6 1 0 1 5 . _ M _ - _ _ . 5 5 6 A _ 31.3 80b 6014 2 0 . 5980 2 5 . 5967 3 0 . 5920 4 0 . 5883 5 0 . 5793 6 0 .

X 6 1 1 0 2 M 0 2 8 - _ _ _ X 6 1 1 0 3 M 0 2 8 - _ _ _

42 48

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

12 76.13 9.0 102.38 7.0 131.25

293 349 413

1.45 1.39 1.21

5380 A 0 6 1 0 7 5 . _ N _ - _ _ . 5 5 6 A _ 39.3 80b 5090 1 0 0 4760 1 2 5

X 6 1 1 0 3 M 0 2 8 - _ _ _ X 6 1 1 0 4 M 0 2 8 - _ _ _

48 60

31 30.00 23 40.00 19 50.00 15 60.00 13 70.00 13 69.60 10 93.60 7.7 120.00

130 165 198 222 241 309 396 456

3.68 2.66 2.08 1.48 1.07 1.82 1.52 1.32

6979 A 0 7 3 0 3 0 . _ M _ - _ _ . 5 5 6 A _ 44.3 80b 6954 4 0 . 6947 5 0 . 6936 6 0 . 6922 7 0 . 6900 A 0 7 3 0 7 5 . _ N _ - _ _ . 5 5 6 A _ 52.3 80b 6850 1 0 0 6820 1 2 5

X 6 1 1 0 4 M 0 3 0 - _ _ _ X 6 1 1 0 3 M 0 3 0 - _ _ _

60 48

X 6 1 1 0 2 M 0 3 0 - _ _ _ X 6 1 1 0 4 M 0 3 0 - _ _ _

42 60

Spaces to be filled when entering order

31

23.4

37.4

Motor Frame Size

Service Factor

Cone Ring Output Coupling

Output Torque

1 Through 20

Ratio

Column Entry

Kg Max Bore Coupling Drive Half

UNIT DESIGNATION

17 24 33 38 44 57 66 76 94

Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

N

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00 40.00

NOTE

Fm

261 187 130 110 94 70 55 46 34

6 POLE

M2 Nm

Output Speed

4 POLE

i

Weight of Base Mount Unit

N2 R/MIN

0.09 kW 0.55

Overhung Load

SELECTION TABLES GEARED MOTORS

Spaces to be filled when entering order

SERIES AJ

1.94 1.71 1.68 1.55 1.49 1.14 1.12 0.99

2760 A 0 4 1 0 5 . 0 _ M _ - _ _ . 7 5 4 A _ 20.5 80b 2760 7 . 5 2760 1 0 . 2750 1 3 . 2750 1 5 . 2740 2 0 . 2740 2 5 . 2730 3 0 .

X 6 1 2 0 1 M 0 2 0 - _ _ _

38

X 6 1 1 0 1 M 0 2 0 - _ _ _

38

189 132 111 96 69 55 46 35 28 143 92 69 55 46 35 28 23

7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00 50.00 9.67 15.00 20.00 25.00 30.00 40.00 50.00 60.00

33 46 53 61 77 93 107 136 157 43 64 79 96 110 138 162 183

2.93 2.94 2.60 2.32 2.22 1.85 1.53 1.16 0.90 4.00 3.50 3.52 2.90 2.36 1.74 1.36 0.99

3515 A 0 5 1 0 7 . 5 _ M _ - _ _ . 7 5 4 A _ 24.5 80b 3505 1 0 . 3505 1 3 . 3503 1 5 . 3501 2 0 . 3489 2 5 . 3487 3 0 . 3475 4 0 . 3460 5 0 . 6106 A 0 6 1 0 1 0 . _ M _ - _ _ . 7 5 4 A _ 30.5 80b 6072 1 5 . 6045 2 0 . 6033 2 5 . 6006 3 0 . 5972 4 0 . 5937 5 0 . 5880 6 0 .

X 6 1 1 0 1 M 0 2 5 - _ _ _

38

X 6 1 1 0 1 M 0 2 8 - _ _ _ X 6 1 1 0 2 M 0 2 8 - _ _ _ X 6 1 1 0 3 M 0 2 8 - _ _ _

38 42 48

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

18 14 11

76.13 102.38 131.25

274 328 388

1.40 1.36 1.19

5490 A 0 6 1 0 7 5 . _ N _ - _ _ . 7 5 4 A _ 5220 1 0 0 4910 1 2 5

80b

X 6 1 1 0 3 M 0 2 8 - _ _ _

48

46 35 28 23 20 20 15 12

30.00 40.00 50.00 60.00 70.00 69.60 93.60 120.00

121 153 184 208 226 287 371 430

3.41 2.50 1.96 1.50 1.09 1.68 1.57 1.40

6984 A 0 7 3 0 3 0 . _ M _ - _ _ . 7 5 4 A _ 43.5 80b 6960 4 0 . 6954 5 0 . 6942 6 0 . 6930 7 0 . 6910 A 0 7 3 0 7 5 . _ N _ - _ _ . 7 5 4 A _ 51.5 80b 6870 1 0 0 6840 1 2 5

X 6 1 1 0 3 M 0 3 0 - _ _ _

48

X 6 1 1 0 2 M 0 3 0 - _ _ _ X 6 1 1 0 4 M 0 3 0 - _ _ _

42 60

190 124 87 73 63 46 36 30 23

4.80 7.33 10.50 12.50 14.50 20.00 25.00 30.00 40.00

33 50 69 80 92 115 137 159 201

3.29 2.29 2.29 2.01 1.62 1.72 1.44 1.19 0.88

3514 A 0 5 1 0 5 . 0 _ M _ - _ _ . 7 5 6 A _ 28.4 90S 3509 7 . 5 3499 1 0 . 3494 1 3 . 3489 1 5 . 3483 2 0 . 3473 2 5 . 3463 3 0 . 3450 4 0 .

X 6 1 1 0 1 M 0 2 5 - _ _ _

38

X 6 1 1 0 2 M 0 2 5 - _ _ _

42

124 94 73 61 46 36 30 23 18

7.33 9.67 12.50 15.00 20.00 25.00 30.00 40.00 50.00

51 65 82 96 118 141 163 204 238

3.53 3.11 3.16 2.70 2.53 2.27 1.83 1.35 1.03

6094 A 0 6 1 0 7 . 5 _ M _ - _ _ . 7 5 6 A _ 34.4 90S 6049 1 0 . 5999 1 3 . 5955 1 5 . 5887 2 0 . 5814 2 5 . 5786 3 0 . 5687 4 0 . 5610 5 0 .

X 6 1 1 0 1 M 0 2 8 - _ _ _ X 6 1 1 0 2 M 0 2 8 - _ _ _

38 42

X 6 1 1 0 3 M 0 2 8 - _ _ _

48

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

47 36 30 23 18 15

19.50 25.00 30.00 40.00 50.00 60.00

129 154 180 229 275 307

3.10 3.13 2.65 1.92 1.50 1.07

6970 A 0 7 3 0 2 0 . _ M _ - _ _ . 7 5 6 A _ 47.4 90S 6962 2 5 . 6956 3 0 . 6926 4 0 . 6912 5 0 . 6900 6 0 .

X 6 1 1 0 3 M 0 3 0 - _ _ _ X 6 1 1 0 4 M 0 3 0 - _ _ _

48 60

X 6 1 1 0 3 M 0 3 0 - _ _ _

48

23 40.00 233 2.93 8860 A 0 8 6 0 4 0 . _ M _ - _ _ . 7 5 6 A _ 64.4 90S 18 50.00 277 2.21 8860 5 0 . 15 60.00 314 1.63 8850 6 0 . 13 70.00 344 1.21 8840 7 0 .

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

X 6 1 1 0 3 M 0 3 5 - _ _ _

48

Spaces to be filled when entering order

32

38.5

Motor Frame Size

Service Factor

Cone Ring Output Coupling

Output Torque

1 Through 20

Ratio

Column Entry

Kg Max Bore Coupling Drive Half

UNIT DESIGNATION

23 32 45 52 59 77 89 103

Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

N

5.25 7.33 10.50 12.50 14.50 19.50 25.00 30.00

NOTE

Fm

264 189 132 111 96 71 55 46

6 POLE

M2 Nm

Output Speed

4 POLE

i

Weight of Base Mount Unit

N2 R/MIN

0.09 kW 0.75

Overhung Load

SELECTION TABLES GEARED MOTORS

Spaces to be filled when entering order

SERIES AJ

N2 R/MIN

Weight of Base Mount Unit

Motor Frame Size

2.82 1.99 2.00 1.77 1.57 1.51 1.25 1.04

3514 A 0 5 1 0 5 . 0 _ M _ - _ _ 1 . 1 4 A _ 3508 7 . 5 3498 1 0 . 3498 1 3 . 3492 1 5 . 3486 2 0 . 3471 2 5 . 3465 3 0 .

27.8

90S

X 6 1 1 0 1 M 0 2 5 - _ _ _

38

188 143 110 92 69 55 46 35 28

7.33 9.67 12.50 15.00 20.00 25.00 30.00 40.00 50.00

49 64 80 94 117 141 162 203 238

3.06 2.72 2.77 2.38 2.39 1.97 1.60 1.19 0.93

6109 A 0 6 1 0 7 . 5 _ M _ - _ _ 1 . 1 4 A _ 33.8 90S 6064 1 0 . 6013 1 3 . 5970 1 5 . 5898 2 0 . 5863 2 5 . 5790 3 0 . 5695 4 0 . 5600 5 0 .

X 6 1 1 0 1 M 0 2 8 - _ _ _

38

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

X 6 1 1 0 3 M 0 2 8 - _ _ _

48

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

134 95 71 55 46 35 28 23

10.33 14.50 19.50 25.00 30.00 40.00 50.00 60.00

71 96 126 152 178 226 271 307

3.82 3.65 2.73 2.74 2.32 1.70 1.33 1.02

6988 A 0 7 3 0 1 0 . _ M _ - _ _ 1 . 1 4 A _ 46.8 90S 6979 1 5 . 6970 2 0 . 6964 2 5 . 6957 3 0 . 6926 4 0 . 6910 5 0 . 6894 6 0 .

X 6 1 1 0 2 M 0 3 0 - _ _ _ X 6 1 1 0 3 M 0 3 0 - _ _ _

42 48

55 46 35 28 23 20

25.00 30.00 40.00 50.00 60.00 70.00

154 181 231 274 314 344

3.93 3.51 2.57 1.95 1.56 1.17

8860 A 0 8 6 0 2 5 . _ M _ - _ _ 1 . 1 4 A _ 63.8 90S 8860 3 0 . 8860 4 0 . 8860 5 0 . 8850 6 0 . 8840 7 0 .

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

X 6 1 1 0 3 M 0 3 5 - _ _ _

48

192 125 88 74 63 46 37 31

4.80 7.33 10.50 12.50 14.50 20.00 25.00 30.00

49 72 100 116 134 167 199 231

2.27 1.58 1.58 1.39 1.12 1.18 0.99 0.82

3510 A 0 5 1 0 5 . 0 _ M _ - _ _ 1 . 1 6 A _ 32.5 90L 3500 7 . 5 3490 1 0 . 3480 1 3 . 3470 1 5 . 3460 2 0 . 3450 2 5 . 3430 3 0 .

X 6 1 1 0 1 M 0 2 5 - _ _ _

38

X 6 1 1 0 2 M 0 2 5 - _ _ _

42

184 125 95 74 61 46 37 31 23

5.00 7.33 9.67 12.50 15.00 20.00 25.00 30.00 40.00

51 74 95 119 139 172 205 237 296

3.41 2.43 2.14 2.18 1.86 1.74 1.57 1.26 0.93

6130 A 0 6 1 0 5 . 0 _ M _ - _ _ 1 . 1 6 A _ 38.5 90L 6062 7 . 5 5974 1 0 . 5878 1 3 . 5794 1 5 . 5663 2 0 . 5523 2 5 . 5471 3 0 . 5280 4 0 .

X 6 1 1 0 1 M 0 2 8 - _ _ _

38

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

X 6 1 1 0 3 M 0 2 8 - _ _ _

48

127 89 74 63 47 37 31 23 18

7.25 10.33 12.50 14.50 19.50 25.00 30.00 40.00 50.00

75 105 125 143 187 224 262 333 399

3.66 3.01 3.21 2.87 2.13 2.16 1.83 1.32 1.04

6988 A 0 7 3 0 7 . 5 _ M _ - _ _ 1 . 1 6 A _ 51.5 90L 6976 1 0 . 6968 1 3 . 6960 1 5 . 6944 2 0 . 6928 2 5 . 6916 3 0 . 6876 4 0 . 6850 5 0 .

X 6 1 1 0 2 M 0 3 0 - _ _ _ X 6 1 1 0 3 M 0 3 0 - _ _ _

42 48

X 6 1 1 0 4 M 0 3 0 - _ _ _

60

X 6 1 1 0 3 M 0 3 0 - _ _ _

48

47 37 31 23 18 15 13

19.50 25.00 30.00 40.00 50.00 60.00 70.00

189 227 266 338 402 455 500

3.21 3.09 2.77 2.02 1.52 1.12 0.84

8848 A 0 8 6 0 2 0 . _ M _ - _ _ 1 . 1 6 A _ 68.5 90L 8843 2 5 . 8056 3 0 . 8833 4 0 . 8826 5 0 . 8812 6 0 . 8790 7 0 .

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

X 6 1 1 0 5 M 0 3 5 - _ _ _ X 6 1 1 0 4 M 0 3 5 - _ _ _

70 60

Column Entry

1 Through 20

Spaces to be filled when entering order

33

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

Service Factor

Kg

Output Torque

UNIT DESIGNATION

33 48 68 78 90 113 137 158

Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

N

4.80 7.33 10.50 12.50 14.50 20.00 25.00 30.00

NOTE

Fm

288 188 131 110 95 69 55 46

6 POLE

M2 Nm

Ratio

4 POLE

i

Output Speed

0.09 1.1 kW kW

Overhung Load

SELECTION TABLES GEARED MOTORS

SERIES AJ

1 Through 20

Cone Ring Output Coupling

4.80 7.33 10.50 12.50 14.50 20.00 25.00 5.00 7.33 9.67 12.50 15.00 20.00 25.00 30.00 40.00

44 66 92 106 122 153 185 46 67 87 109 128 159 192 219 275

2.08 1.47 1.48 1.30 1.16 1.11 0.93 3.13 2.26 2.01 2.05 1.76 1.76 1.46 1.18 0.88

3510 A 0 5 1 0 5 . 0 _ M _ - _ _ 1 . 5 4 A _ 30.0 90L 3500 7 . 5 3490 1 0 . 3490 1 3 . 3480 1 5 . 3470 2 0 . 3450 2 5 . 6130 A 0 6 1 0 5 . 0 _ M _ - _ _ 1 . 5 4 A _ 36.0 90L 6095 7 . 5 6017 1 0 . 5928 1 3 . 5854 1 5 . 5730 2 0 . 5669 2 5 . 5542 3 0 . 5380 4 0 .

X 6 1 1 0 1 M 0 2 5 - _ _ _

38

X 6 1 1 0 2 M 0 2 5 - _ _ _ X 6 1 1 0 1 M 0 2 8 - _ _ _

42 38

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

X 6 1 1 0 3 M 0 2 8 - _ _ _

48

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

192 135 111 96 71 56 46 35 28

7.25 10.33 12.50 14.50 19.50 25.00 30.00 40.00 50.00

68 96 113 131 171 206 242 306 367

3.41 2.82 3.03 2.70 2.01 2.03 1.71 1.25 0.98

6988 A 0 7 3 0 7 . 5 _ M _ - _ _ 1 . 5 4 A _ 49.0 90L 6980 1 0 . 6972 1 3 . 6965 1 5 . 6949 2 0 . 6937 2 5 . 6926 3 0 . 6887 4 0 . 6860 5 0 .

X 6 1 1 0 2 M 0 3 0 - _ _ _

42

X 6 1 1 0 3 M 0 3 0 - _ _ _

48

71 56 46 35 28 23 20

19.50 25.00 30.00 40.00 50.00 60.00 70.00

173 208 245 312 372 425 465

3.03 2.90 2.59 1.90 1.44 1.15 0.86

8850 A 0 8 6 0 2 0 . _ M _ - _ _ 1 . 5 4 A _ 8847 2 5 . 8846 3 0 . 8841 4 0 . 8830 5 0 . 8817 6 0 . 8810 7 0 .

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

190 130 98 76 63 48 38 32

5.00 7.33 9.67 12.50 15.00 20.00 25.00 30.00

67 97 125 157 184 227 272 313

2.58 1.84 1.62 1.65 1.41 1.32 1.19 0.96

6130 A 0 6 1 0 5 . 0 _ M _ - _ _ 1 . 5 6 A _ 43.2 100La 6025 7 . 5 5889 1 0 . 5740 1 3 . 5611 1 5 . 5407 2 0 . 5191 2 5 . 5110 3 0 .

X 6 1 1 0 1 M 0 2 8 - _ _ _

38

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

X 6 1 1 0 3 M 0 2 8 - _ _ _

48

183 5.20 72 3.66 6987 A 0 7 3 0 5 . 0 _ M _ - _ _ 1 . 5 6 A _ 56.2 100La 131 7.25 99 2.77 6981 7 . 5 92 10.33 139 2.28 6962 1 0 . 76 12.50 165 2.43 6950 1 3 . 66 14.50 189 2.17 6938 1 5 . 49 19.50 247 1.62 6913 2 0 . 38 25.00 296 1.64 6888 2 5 . 32 30.00 346 1.39 6870 3 0 . 24 40.00 439 1.00 6820 4 0 . 98 9.67 132 3.68 8853 A 0 8 6 0 1 0 . _ M _ - _ _ 1 . 5 6 A _ 73.2 100La 75 12.67 170 3.31 8848 1 3 . 66 14.50 191 3.29 8843 1 5 . 49 19.50 250 2.43 8834 2 0 . 38 25.00 300 2.34 8825 2 5 . 32 30.00 352 2.10 7138 3 0 . 24 40.00 446 1.53 8803 4 0 . 19 50.00 530 1.15 8787 5 0 . 16 60.00 601 0.85 8770 6 0 .

X 6 1 1 0 2 M 0 3 0 - _ _ _

42

X 6 1 1 0 3 M 0 3 0 - _ _ _

48

X 6 1 1 0 4 M 0 3 0 - _ _ _

60

X 6 1 1 0 3 M 0 3 0 - _ _ _ X 6 1 1 0 4 M 0 3 5 - _ _ _

48 60

X 6 1 1 0 5 M 0 3 5 - _ _ _ X 6 1 1 0 4 M 0 3 5 - _ _ _

70 60

Spaces to be filled when entering order

NOTE Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

34

66.0

Motor Frame Size

Service Factor

Column Entry

Kg Max Bore Coupling Drive Half

UNIT DESIGNATION

Output Torque

N

Ratio

Fm

290 190 132 111 96 70 56 278 190 144 111 93 70 56 46 35

6 POLE

M2 Nm

Output Speed

4 POLE

i

Weight of Base Mount Unit

N2 R/MIN

0.09 1.5 kW kW

Overhung Load

SELECTION TABLES GEARED MOTORS

90L

Spaces to be filled when entering order

SERIES AJ

1 Through 20

Cone Ring Output Coupling

5.00 7.33 9.67 12.50 15.00 20.00 25.00 30.00

67 97 126 158 185 230 277 317

2.17 1.56 1.39 1.41 1.22 1.22 1.01 0.82

6130 A 0 6 1 0 5 . 0 _ M _ - _ _ 2 . 2 4 A _ 43.0 100La 6069 7 . 5 5934 1 0 . 5779 1 3 . 5651 1 5 . 5436 2 0 . 5330 2 5 . 5110 3 0 .

X 6 1 1 0 1 M 0 2 8 - _ _ _

38

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

X 6 1 1 0 3 M 0 2 8 - _ _ _

48

271 194 136 113 97 72 56 47 35

5.20 7.25 10.33 12.50 14.50 19.50 25.00 30.00 40.00

72 99 139 164 189 247 298 350 443

3.09 2.36 1.95 2.10 1.87 1.39 1.40 1.18 0.87

6993 A 0 7 3 0 5 . 0 _ M _ - _ _ 2 . 2 4 A _ 56.0 100La 6979 7 . 5 6966 1 0 . 6952 1 3 . 6939 1 5 . 6912 2 0 . 6892 2 5 . 6872 3 0 . 6820 4 0 .

X 6 1 1 0 2 M 0 3 0 - _ _ _

42

X 6 1 1 0 3 M 0 3 0 - _ _ _

48

194 146 111 97 72 56 47 35 28

7.25 9.67 12.67 14.50 19.50 25.00 30.00 40.00 50.00

100 131 170 191 250 301 355 452 537

3.59 3.16 2.84 2.83 2.10 2.01 1.79 1.31 0.99

8856 A 0 8 6 0 7 . 5 _ M _ - _ _ 2 . 2 4 A _ 73.0 100La 8851 1 0 . 8844 1 3 . 8842 1 5 . 8835 2 0 . 8825 2 5 . 8822 3 0 . 8807 4 0 . 8780 5 0 .

X 6 1 1 0 3 M 0 3 5 - _ _ _

48

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

5.00 7.33 9.67 12.50 15.00 20.00 25.00

100 144 185 232 272 335 401

1.75 1.25 1.10 1.12 0.96 0.89 0.81

6130 A 0 6 1 0 5 . 0 _ M _ - _ _ 2 . 2 6 A _ 50.8 112M 5960 7 . 5 5740 1 0 . 5500 1 3 . 5290 1 5 . 4960 2 0 . 4610 2 5 .

X 6 1 1 0 1 M 0 2 8 - _ _ _

38

189 129 98 76 63 47 38

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

X 6 1 1 0 3 M 0 2 8 - _ _ _

48

182 130 91 76 65 48 38 32

5.20 7.25 10.33 12.50 14.50 19.50 25.00 30.00

107 147 206 244 279 364 437 510

2.48 1.88 1.54 1.65 1.47 1.10 1.11 0.94

6980 A 0 7 3 0 5 . 0 _ M _ - _ _ 2 . 2 6 A _ 63.8 112M 6970 7 . 5 6940 1 0 . 6920 1 3 . 6900 1 5 . 6860 2 0 . 6820 2 5 . 6790 3 0 .

X 6 1 1 0 2 M 0 3 0 - _ _ _

42

X 6 1 1 0 3 M 0 3 0 - _ _ _

48

X 6 1 1 0 4 M 0 3 0 - _ _ _

60

130 98 75 65 48 38 32 24

7.25 9.67 12.67 14.50 19.50 25.00 30.00 40.00

148 194 251 282 368 442 519 658

2.86 2.50 2.24 2.23 1.65 1.59 1.42 1.04

8860 A 0 8 6 0 7 . 5 _ M _ - _ _ 2 . 2 6 A _ 80.8 112M 8846 1 0 . 8837 1 3 . 8828 1 5 . 8810 2 0 . 8793 2 5 . 5531 3 0 . 8750 4 0 .

X 6 1 1 0 3 M 0 3 5 - _ _ _ X 6 1 1 0 4 M 0 3 5 - _ _ _

48 60

X 6 1 1 0 5 M 0 3 5 - _ _ _ X 6 1 1 0 4 M 0 3 5 - _ _ _

70 60

Spaces to be filled when entering order

NOTE Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

35

Motor Frame Size

Service Factor

Column Entry

Kg Max Bore Coupling Drive Half

UNIT DESIGNATION

Output Torque

N

Ratio

Fm

282 192 146 113 94 71 56 47

6 POLE

M2 Nm

Output Speed

4 POLE

i

Weight of Base Mount Unit

N2 R/MIN

0.09 2.2 kW kW

Overhung Load

SELECTION TABLES GEARED MOTORS

Spaces to be filled when entering order

SERIES AJ

SELECTION TABLES GEARED MOTORS 1 Through 20

Spaces to be filled when entering order

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

1.60 1.16 1.03 1.04 0.90 0.90 2.28 1.74 1.44 1.55 1.38 1.03 1.03 0.87 3.95 2.65 2.33 2.10 2.09 1.55 1.48 1.33 0.97

Column Entry

Kg

Motor Frame Size

91 131 170 214 250 311 97 134 188 222 256 335 403 474 91 135 177 230 258 339 408 481 612

UNIT DESIGNATION

Weight of Base Mount Unit

N Overhung Load

5.00 7.33 9.67 12.50 15.00 20.00 5.20 7.25 10.33 12.50 14.50 19.50 25.00 30.00 4.83 7.25 9.67 12.67 14.50 19.50 25.00 30.00 40.00

Fm

Service Factor

284 194 147 114 95 71 273 196 137 114 98 73 57 47 294 196 147 112 98 73 57 47 36

M2 Nm

Output Torque

Ratio

4 POLE

i

Output Speed

N2 R/MIN

0.09 3.0 kW kW

6130 A 0 6 1 0 5 . 0 _ M _ - _ _ 3 . 0 4 A _ 46.8 100Lb 6040 7 . 5 5840 1 0 . 5610 1 3 . 5420 1 5 . 5100 2 0 . 6990 A 0 7 3 0 5 . 0 _ M _ - _ _ 3 . 0 4 A _ 59.8 100Lb 6970 7 . 5 6950 1 0 . 6930 1 3 . 6910 1 5 . 6870 2 0 . 6840 2 5 . 6810 3 0 . 8860 A 0 8 6 0 5 . 0 _ M _ - _ _ 3 . 0 4 A _ 76.8 100Lb 8854 7 . 5 8845 1 0 . 8833 1 3 . 8830 1 5 . 8816 2 0 . 8799 2 5 . 8794 3 0 . 8770 4 0 .

X 6 1 1 0 1 M 0 2 8 - _ _ _

38

X 6 1 1 0 2 M 0 2 8 - _ _ _

42

X 6 1 1 0 3 M 0 2 8 - _ _ _ X 6 1 1 0 2 M 0 3 0 - _ _ _

48 42

X 6 1 1 0 3 M 0 3 0 - _ _ _

48

X 6 1 1 0 4 M 0 3 0 - _ _ _ X 6 1 1 0 3 M 0 3 5 - _ _ _

60 48

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

197 4.83 136 3.19 8860 A 0 8 6 0 5 . 0 _ M _ - _ _ 3 . 0 6 A _ 93.0 132Sa 131 7.25 201 2.11 8860 7 . 5 98 9.67 264 1.84 8839 1 0 . 75 12.67 341 1.65 8825 1 3 . 66 14.50 383 1.65 8811 1 5 . 49 19.50 500 1.22 8783 2 0 . 38 25.00 600 1.17 8756 2 5 . 32 30.00 704 1.05 3695 3 0 .

X 6 1 1 0 3 M 0 3 5 - _ _ _

48

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

X 6 1 1 0 5 M 0 3 5 - _ _ _

70

6 POLE

NOTE Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

36

SERIES AJ

SELECTION TABLES GEARED MOTORS 1 Through 20

Spaces to be filled when entering order

8860 A 0 8 6 0 5 . 0 _ M _ - _ _ 4 . 0 4 A _ 83.0 112M 8850 7 . 5 8837 1 0 . 8819 1 3 . 8814 1 5 . 8794 2 0 . 8767 2 5 . 8760 3 0 .

198 4.83 180 2.40 8860 A 0 8 6 0 5 . 0 _ M _ - _ _ 4 . 0 6 A _ 102.0 132Ma 132 7.25 267 1.59 8860 7 . 5 99 9.67 350 1.39 8830 1 0 . 75 12.67 452 1.25 8810 1 3 . 66 14.50 508 1.24 8790 1 5 . 49 19.50 663 0.92 8750 2 0 . 38 25.00 796 0.88 8710 2 5 .

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

2.97 2.00 1.75 1.58 1.57 1.16 1.12 1.00

Column Entry

Kg

Motor Frame Size

121 179 236 306 344 450 542 639

UNIT DESIGNATION

Weight of Base Mount Unit

4.83 7.25 9.67 12.67 14.50 19.50 25.00 30.00

N Overhung Load

295 197 147 113 98 73 57 48

Fm

Service Factor

M2 Nm

Output Torque

Ratio

4 POLE

i

Output Speed

N2 R/MIN

0.09 4.0 kW kW

X 6 1 1 0 3 M 0 3 5 - _ _ _

48

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

X 6 1 1 0 3 M 0 3 5 - _ _ _

48

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

X 6 1 1 0 5 M 0 3 5 - _ _ _

70

6 POLE

NOTE Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

37

SERIES AJ

Column Entry

1 Through 20

Kg

4.83 7.25 9.67 12.67 14.50 19.50 25.00

164 243 318 413 464 609 732

2.20 1.48 1.30 1.17 1.16 0.86 0.83

8860 A 0 8 6 0 5 . 0 _ M _ - _ _ 5 . 5 4 A _ 96.0 132Sa 8846 7 . 5 8825 1 0 . 8798 1 3 . 8791 1 5 . 8760 2 0 . 8720 2 5 .

300 200 150 114 100

4.83 7.25 9.67 12.67 14.50

224 331 434 564 633

1.61 1.08 0.95 0.86 0.85

8860 A 0 8 6 0 5 . 0 _ M _ - _ _ 7 . 5 4 A _ 106.0 132Ma 8840 7 . 5 8810 1 0 . 8770 1 3 . 8760 1 5 .

Motor Frame Size

300 200 150 114 100 74 58

Spaces to be filled when entering order

Cone Ring Output Coupling Spaces to be filled when entering order

Max Bore Coupling Drive Half

UNIT DESIGNATION

Weight of Base Mount Unit

N

Service Factor

Fm

Output Torque

M2 Nm

Ratio

4 POLE

i

Output Speed

N2 R/MIN

0.09 5.5 kW kW

Overhung Load

SELECTION TABLES GEARED MOTORS

X 6 1 1 0 3 M 0 3 5 - _ _ _

48

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

X 6 1 1 0 5 M 0 3 5 - _ _ _

70

X 6 1 1 0 3 M 0 3 5 - _ _ _

48

X 6 1 1 0 4 M 0 3 5 - _ _ _

60

7.5 kW

4 POLE

NOTE Other output speeds are available using 2 and 8 pole motors - Please contact our Application Engineers

38

SERIES AJ

DIMENSIONS SINGLE REDUCTION A

0

0

W M

STANDARD UNIT kb k ko

g2

g

A

B

S

g6

T

L

L g1 P1

H Q

Q

P3 N1

D

D

D

U

P2 N1

H

4 Holes F1 dia

E

E

E

øC F7

W

V

E2

N2

E2

V1

V1

Output Shaft

N2

E1

øC1 k6

Protection Cover

E1

W1

R

E2

øC1 k6

J

øN3

J R

E1

W1

U

View on Output Shaft Bore N1 N1

Output Shaft

SIZE

A

B

øC

øC1

D

E

E1

E2

F1

H

J

L

N1

N2

A0280

58

28.6

16

16

79

35

23

5.5

9

52.5

41.5

30

40

32

A0410

66

41.3

22

20

98

45

34

6

11.5

58.5

49

32

50

40

A0510

74

50.8

25

25

117

57

42

7

11.5

57

52

35

56

45

A0610

87

60.3

35

28

140

70

55

7

11.5

66

56

40

64

50

A0730

105

73.0

40

30

168

83

62

7

13.5

81

70

45

77

60

A0860

117

85.7

50

35

200

98

80

8

17.5

90

79

55

93

73

SIZE

.N3

P1

P2

P3

Q

R

S

T

U

V

A0280

16.2

48

45

44

61.5

50.5

81

53

9

18.4 18.3

A0410

22.2

58

55

55

69

60

101

62

10

24.9 24.8

A0510

25.2

63

61

61

67

62

112

75

12

28.5 28.3

A0610

35.2

79

67

69

80

67

132

86

14

38.5 38.3

A0730

40.2

95

81

84

95

84

153

103

16

43.5 43.3

A0860

50.2

104

97

99

108

97

178

116

18

54.0 53.8

A0510 k kb 385 426 405 455 445 504 -

A0610 k kb 430 480 470 529 544 612 -

MOTOR FRAMESIZE

MOTORS 63 71 80 90S/L 100/112 132

ko 185 210 230 270 340 402

ALL SIZES g g1 g2 122 101 160 137 107 167 158 118 190 177 149 218 197 159 238 253 184 288

g6 140 160 200 200 250 300

A0280 k kb 314 356 340 381 -

39

A0410 k kb 354 395 379 429 -

V1

W

W1

18.00 17.87 22.50 22.37 28.00 27.71 31.00 30.71 33.00 32.71 38.00 27.71

5.015 4.985 6.015 5.985 8.018 7.982 10.018 9.982 12.021 11.979 14.021 13.979

5.000 4.970 6.000 5.970 8.000 7.964 8.000 7.964 8.000 7.964 10.000 9.964

A0730 k kb 471 521 511 570 581 649 -

A0860 k kb 537 596 607 675 676 747

SERIES AJ

DIMENSIONS SINGLE REDUCTION A

0

0

F M

STANDARD UNIT FLANGE MOUNTED k

g

g6 U3

P1

U4

A5

A3

4 Holes dimn F7

ko

P3

Protection Cover

g2

T

R3 R2

Output Flange Bolt Hole Positions (All Sizes)

Q1

S g1

N2

SIZE

A1

A3

A5

øC

øC1

D

E

E1

E2

81

63

49

28.6

16

16

79

35

23

5.5

A0410

101

80

60

41.3

22

20

98

45

34

6

A0510

112

90

65

50.8

25

25

117

57

42

7

A0610

132

105

71

60.3

35

28

140

70

55

7

A0730

153

120

91

73.0

40

30

168

83

62

7

A0860

178

132

100

85.7

50

35

200

98

80

8

SIZE

P1

P3

Q1

A0280

48

44

50.5

120

A0410

58

55

60

140

A0510

63

61

62

160

A0610

79

69

67

200

A0730

95

84

84

250

A0860

104

99

97

250

MOTOR FRAMESIZE

MOTORS 63 71 80 90S/L 100/112 132

ko 185 210 230 270 340 402

R2 80.030 80.000 95.035 95.000 110.035 110.000 130.040 130.000 180.040 180.000 180.040 180.000

ALL SIZES g g1 g2 122 101 160 137 107 167 158 118 190 177 149 218 197 159 238 253 184 288

g6 140 160 200 200 250 300

R3

S

T

U3

U4

F7

V

58

53

3

7

18.4 18.3

72

66

62

3.5

8

24.9 24.8

88

74

75

4

9

28.5 28.3

110

87

86

4.5

10

38.5 38.3

136

105

103

5

12

43.5 43.3

150

117

116

5

12

54.0 53.8

A0410 k kb 354 395 379 429 -

40

A0510 k kb 385 426 405 455 445 504 -

N1

N2

øN3

40

32

16.2

50

40

22.2

56

45

25.2

64

50

35.2

77

60

40.2

93

73

50.2

V1

W

W1

18.00 17.87 22.50 22.37 28.00 27.71 31.00 30.71 33.00 32.71 38.00 37.71

5.015 4.985 6.015 5.985 8.018 7.982 10.018 9.982 12.021 11.979 14.021 13.979

5.000 4.970 6.000 5.970 8.000 7.964 8.000 7.964 8.000 7.964 10.000 9.964

.6.6 on 100 PCD .9 on 115 PCD .9 on 130 PCD .11 on 165 PCD .13.5 on 215 PCD .13.5 on 215 PCD

60

A0280 k kb 314 356 340 381 -

øC1 k6

W1

Output Shaft

A0280

P4

E2 E1

E

E2

V1

Output Shaft

N2

B

V1

øC1 k6

øN3

W1

E E1

View on Output Shaft Bore N1 N1

D

D

øC F7

N1 N1

V

W

P4 P4

D

E

B

E1 E2

A1

A0610 k kb 430 480 470 529 544 612 -

A0730 k kb 471 521 511 570 581 649 -

A0860 k kb 537 596 607 675 676 747

SERIES AJ

DIMENSIONS SINGLE REDUCTION A

0

0

G M

STANDARD UNIT SIDE MOUNTED FEET kb k T

ko

N1

øN3

N2

Q

4 Holes F1 dia

Feet can be fitted on either side of the gearcase as shown by the dotted line

A g1

E

Output Shaft

Output Shaft

SIZE

A

A6

B

øC

øC1

D

E

E1

E2

A0280

58

62

28.6

16

16

79

35

23

A0410

66

75

41.3

22

20

98

45

34

A0510

74

78

50.8

25

25

117

57

A0610

87

86

60.3

35

28

140

70

A0730

105

103

73.0

40

30

168

A0860

117

118

85.7

50

35

SIZE

N2

øN3

P1

P2

P3

F1

H

J2

J3

N1

5.5

9

52.5

101.5

78.5

40

6

11.5

58.5

127

92

50

42

7

11.5

57

138

100

56

55

7

11.5

66

162

117

64

83

62

7

13.5

81

186

138

77

200

98

80

8

17.5

90

217

156

93

R

R4

S

T

U6

A0280

32

16.2

48

45

44

50.5

199

81

53

5

A0410

40

22.2

58

55

55

60

247

101

62

6

A0510

45

25.2

63

61

61

62

266

112

75

6

A0610

50

35.2

79

67

69

67

319

132

86

8

A0730

60

40.2

95

81

84

84

358

153

103

8

A0860

73

50.2

104

97

99

97

415

178

116

10

MOTOR FRAMESIZE

MOTORS 63 71 80 90S/L 100/112 132

ko 185 210 230 270 340 402

ALL SIZES g g1 g2 122 101 160 137 107 167 158 118 190 177 149 218 197 159 238 253 184 288

g6 140 160 200 200 250 300

E2 E1

V1

øC1 k6

W1

V1

W1

R4

øC1 k6

J3

E

J2

E2 E1

U6

D

D

N1

A6

P2

R

N1

D

E

B

g2

H

N2

S

g

g6 H Q

E1 E2

N1

A6

View on Output Shaft Bore

P3

P1

øC F7

W

V

A0280 k kb 314 356 340 381 -

41

A0410 k kb 354 395 379 429 -

A0510 k kb 385 426 405 455 445 504 -

V

V1

W

W1

18.4 18.3 24.9 24.8 28.5 28.3 38.5 38.3 43.5 43.3 54.0 53.8

18.00 17.87 22.50 22.37 28.00 27.71 31.00 30.71 33.00 32.71 38.00 37.71

5.015 4.985 6.015 5.985 8.018 7.982 10.018 9.982 12.021 11.979 14.021 13.979

5.000 4.970 6.000 5.970 8.000 7.964 8.000 7.964 8.000 7.964 10.000 9.964

A0610 k kb 430 480 470 529 544 612 -

A0730 k kb 471 521 511 570 581 649 -

A0860 k kb 537 596 607 675 676 747

SERIES AJ

DIMENSIONS SINGLE REDUCTION A

0

0

H M

STANDARD UNIT END MOUNTED FEET g2

g

ko

øC F7

k

A

N2

B

J2 g1

J3

R4

4 Holes F1 dia

P1 P3

V1

øC1 k6

W1

V1

W1

P2

Output Shaft

øC1 k6

N2

N1

g6 S

T4

øN3

N1

kb

View on Output Shaft Bore

U6

W

V

Output Shaft E

E E2 J

J

R

R

E1

Protection Cover

E

E2 E1

E1 E2

D

D

D

SIZE

A

B

øC

øC1

D

E

E1

E2

F1

J

J2

J3

N1

N2

A0280

58

28.6

16

16

79

35

23

5.5

9

41.5

101.5

78.5

40

32

A0410

66

41.3

22

20

98

45

34

6

11.5

49

127

92

50

40

A0510

74

50.8

25

25

117

57

42

7

11.5

52

138

100

56

45

A0610

87

60.3

35

28

140

70

55

7

11.5

56

162

117

64

50

A0730

105

73.0

40

30

168

83

62

7

13.5

70

186

138

77

60

A0860

117

85.7

50

35

200

98

80

8

17.5

79

217

156

93

73

SIZE

øN3

P1

P2

P3

R

R4

S

T4

U6

V

A0280

16.2

48

45

44

50.5

199

81

73

5

18.4 18.3

A0410

22.2

58

55

55

60

247

101

84.5

6

24.9 24.8

A0510

25.2

63

61

61

62

266

112

83

6

28.5 28.3

A0610

35.2

79

67

69

67

319

132

96

8

38.5 38.3

A0730

40.2

95

81

84

84

358

153

114

8

43.5 43.3

A0860

50.2

104

97

99

97

415

178

129

10

54.0 53.8

A0510 k kb 393 434 413 463 453 512 -

A0610 k kb 440 490 480 539 544 622 -

MOTOR FRAMESIZE

MOTORS 63 71 80 90S/L 100/112 132

ko 185 210 230 270 340 402

ALL SIZES g g1 g2 122 101 160 137 107 167 158 118 190 177 149 218 197 159 238 253 184 288

g6 140 160 200 200 250 300

A0280 k kb 334 376 360 401 -

A0410 k kb 376.5 417.5 401.5 451.5 -

42

V1

W

W1

18.00 17.87 22.50 22.37 28.00 27.71 31.00 30.71 33.00 32.71 38.00 37.71

5.015 4.985 6.015 5.985 8.018 7.982 10.018 9.982 12.021 11.979 14.021 13.979

5.000 4.970 6.000 5.970 8.000 7.964 8.000 7.964 8.000 7.964 10.000 9.964

A0730 k kb 482 532 522 581 592 660 -

A0860 k kb 550 609 620 688 689 760

SERIES AJ

DIMENSIONS DOUBLE REDUCTION A

0

0

W N

STANDARD UNIT T3

T2

T*

B1 S

A1

B

S1

View on Output Shaft Bore N1 N1

410, 510 and 610

B2

øC F7

W

* Fans not fitted to sizes

T*

V

A

g1

øN3

L

N2

L H Q

N2

H Q

4 Holes F1 dia

kb D

k ko

E1

E1

V1

Output Shaft

E2

V1 øC1 k6

E

øC1 k6

P3 P1

E2

W1

P2

Q2

U

J R

Q2

E1

E2

E

W1

S3

S2

E

J R

D

Q2

g2

g6

D Q2

g

T4

Output Shaft

SIZE

A

A1

B

B1

B2

øC

øC1

D

E

E1

E2

F1

H

J

L

N1

N2

øN3

P1

A0280

66

58

41.3

59.7

28.6

22

20

98

45

34

6

11.5

58.5

49

32

50

40

22.2

58

A0410

74

58

50.8

61.2

28.6

25

25

117

57

42

7

11.5

57

52

35

56

45

25.2

63

A0610

87

66

60.3

71.7

41.3

35

28

140

70

55

7

11.5

66

56

40

64

50

35.2

79

A0730 105

66

73.0

80

41.3

40

30

168

83

62

7

13.5

81

70

45

77

60

40.2

95

A0860 117

74

85.7

92.3

50.8

50

35

200

98

80

8

17.5

90

79

55

93

73

50.2

104

W

W1

SIZE

P2

P3

Q

Q2

R

S

S1

S2

S3

T

T2

T3

T4

U

A0410

55

55

69

61.5

60

101

81

135.9 107.3

62

126

48

53

10

A0510

61

61

67

61.5

62

112

81

153.4 124.8

75

143

48

53

12

A0610

69

67

80

69

67

132

101

188.6 147.3

86

171

58

62

14

A0730

84

81

95

69

84

153

101

219.6

197

192

58

62

16

A0860

99

97

108

67

97

178

112

253.5 202.7

227

208

63

75

18

63 71 80 90S/L

ko 185 210 230 270

g 122 137 158 177

MOTOR FRAME SIZE

MOTORS

ALL SIZES g1 g2 101 160 107 167 118 190 149 218

g6 140 160 200 200

178

A0410 k kb 314 356 340 381 -

43

A0510 k kb 314 356 340 381 -

A0610 k kb 354 395 379 429 -

V

V1

24.9 24.8 28.5 28.3 38.5 38.3 43.5 43.3 54.0 53.8

22.50 22.37 28.00 27.71 31.00 30.71 33.00 32.71 38.00 37.71

A0730 k kb 354 395 379 429 -

6.015 6.000 5.985 5.970 8.018 8.000 7.982 7.964 10.018 8.000 9.982 7.964 12.021 8.000 11.979 7.964 14.021 10.000 13.979 9.964

A0860 k kb 385 426 405 455 445 504

SERIES AJ

DIMENSIONS DOUBLE REDUCTION A

0

0

F

N

STANDARD UNIT FLANGE MOUNTED Q

Q

W

V

k

A

g6

T* T2

øN3

ko

kb

S

T4

View on Output Shaft Bore N1 N1

B

øC F7

T3

N2

* Fans not fitted to sizes

T*

410, 510 and 610

g

Viewed in direction of arrow Y

N2 g2

Y

S3

E

D øC1 k6

W1

øC1 k6

Q1

E

V1

V1

W1

R3 R2

E2 E1

D

Q2 Q2

U3

4 Holes dimn F7

U4

A5

S2 A1

B2

P4

S1

D

E

Q2 Q2

E1 E2

Y

E1 E2

Y

Output Shaft

Output Shaft

Output Flange Bolt Hole Positions (All Sizes)

SIZE

A

A1

A5

B

B2

øC

øC1

D

E

E1

E2

A0410

66

58

60

41.3

28.6

22

20

98

45

34

6

A0510

74

58

65

50.8

28.6

25

25

117

57

42

7

A0610

87

66

71

60.3

41.3

35

28

140

70

55

7

A0730

105

66

91

73.0

41.3

40

30

168

83

62

7

A0860

117

74

100

85.7

50.8

50

35

200

98

80

8

SIZE

Q2

R2

A0410 61.5 A0510 61.5 A0610

69

A0730

69

A0860

67

MOTORS MOTOR FRAME SIZE

R3

95.035 95.000 110.035 110.000 130.040 130.000 180.040 180.000 180.040 180.000

63 71 80 90S/L

ko 185 210 230 270

S

S1

S2

S3

T

T2

T3

F7 ø9 on 115 PCD ø9 on 130 PCD ø11 on 165 PCD ø13.5 on 215 PCD ø13.5 on 215 PCD T4

U3

N1

N2

øN3

P4

Q

Q1

50

40

22.2

55

69

140

56

45

25.2

61

67

160

64

50

35.2

69

80

200

77

60

40.2

84

95

250

93

73

50.2

99

108

250

U4

72

101

81

108.6

80

62

126

48

53

3.5

8

88

112

81

118.6

90

75

143

48

53

4

9

110

132

101

146.3

105

86

171

58

62

4.5

10

136

153

101

161.3

120

197

192

58

62

5

12

150

178

112

182.8

132

227

208

63

75

5

12

g 122 137 158 177

ALL SIZES g1 g2 101 160 107 167 118 190 149 218

g6 140 160 200 200

A0410 k kb 314 356 340* 381* -

* When motor shaft vertically up these motors cannot be fitted

44

A0510 k kb 314 356 340 381 -

A0610 k kb 354 395 379* 429* -

V

V1

24.9 24.8 28.5 28.3 38.5 38.3 43.5 43.3 54.0 53.8

22.50 22.37 28.00 27.71 31.00 30.71 33.00 32.71 38.00 37.71

A0730 k kb 354 395 379* 429* -

W

W1

6.015 6.000 5.985 5.970 8.018 8.000 7.982 7.964 10.018 8.000 9.982 7.964 12.021 8.000 11.979 7.964 14.021 10.000 13.979 9.964

A0860 k kb 385 426 405 455 445 504

SERIES AJ

DIMENSIONS DOUBLE REDUCTION A

0

0

G N

STANDARD UNIT SIDE MOUNTED FEET

S

øN3

ko

k

g6 T* T2

N2

J2

N1

kb

N1

T4

View on Output Shaft Bore

R4

A

øC F7

T3

J3

W

V

N2 N2

* Fans not fitted to sizes

T*

g

410, 510 and 610

Viewed in direction of arrow Y

g2 Y

E2

Y

E1

D

E g1

P4

Output Shaft

E1 E2

V1

øC1 k6

4 Holes F1 dia

E

V1

Q

W1

H Q

øC1 k6

H

W1

U6

D

A6

A5

S2 A1

B2

R

S1

D

E

E1

E2

Y

Output Shaft

SIZE

A

A1

A5

A6

B

B2

øC

øC1

D

E

E1

E2

F1

H

J2

J3

N1

N2

A0280

66

58

55

75

41.3

28.6

22

20

98

45

34

6

11.5

58.5

127

92

50

40

A0410

74

58

61

78

50.8

28.6

25

25

117

57

42

7

11.5

57

138

100

56

45

A0610

87

66

67

86

60.3

41.3

35

28

140

70

55

7

11.5

66

162

117

64

50

A0730

105

66

81

103

73.0

41.3

40

30

168

83

62

7

13.5

81

186

138

77

60

A0860

117

74

97

118

85.7

50.8

50

35

200

98

80

8

17.5

90

217

156

93

73

SIZE

øN3

P4

Q

R

S

S1

S2

T

T2

T3

T4

U6

A0280

22.2

55

69

60

101

81

103.6

62

126

48

53

6

A0410

25.2

61

67

62

112

81

106.6

75

143

48

53

6

A0610

35.2

69

80

67

132

101

127.3

86

171

58

62

8

A0730

40.2

84

95

84

153

101

144.3

197

192

58

62

8

A0860

50.2

99

108

97

178

112

168.8

227

208

63

75

10

MOTORS MOTOR FRAME SIZE

63 71 80 90S/L

ko 185 210 230 270

g 122 137 158 177

ALL SIZES g1 g2 101 160 107 167 118 190 149 218

g6 140 160 200 200

A0410 k kb 314* 356* 340* 381* -

* When motor shaft vertically up these motors cannot be fitted

45

A0510 k kb 314 356 340 381 -

A0610 k kb 354 395 379* 429* -

V

V1

W

W1

24.9 24.8 28.5 28.3 38.5 38.3 43.5 43.3 54.0 53.8

22.50 22.37 28.00 27.71 31.00 30.71 33.00 32.71 38.00 37.71

6.015 5.985 8.018 7.982 10.018 9.982 12.021 11.979 14.021 13.979

6.000 5.970 8.000 7.964 8.000 7.964 8.000 7.964 10.000 9.964

A0730 k kb 354 395 379 429 -

A0860 k kb 385 426 405 455 445 504

SERIES AJ REDUCER

REDUCER

SERIES AJ

46

SERIES AJ

OVERHUNG LOADS (NEWTONS) ON OUTPUT SHAFTS Maximum permissable overhung loads When a sprocket, gear etc. is mounted on the shaft a calculation, as below, must be made to determine the overhung load on the shaft, and the results compared to the maximum permissible overhung loads tabulated. Overhung loads can be reduced by increasing the diameter to the sprocket, gear, etc. If the maximum permissible overhung load is exceeded, the sprocket, gear, etc. should be mounted on a separate shaft, flexibly coupled and supported in its own bearings, or the gear unit shaft should be extended to run in an outboard bearing. Alternatively, a larger gear is often a less expensive solution. Permissible overhung loads vary according to the direction of rotation. The values tabulated are for the most unfavourable direction with the unit transmitting full rated power and the load P applied midway along the shaft extension. Hence they can sometimes be increased for a more favourable direction of rotation, or if the power transmitted is less than the rated capacity of the gear unit, or if the load is applied nearer to the gear unit case. Refer to our Application Engineers for further details. In any event, the sprocket, gear etc. should be positioned as close as possible to the gear unit case in order to reduce bearing loads and shaft stresses, and to prolong life. Overhung loads (Newtons)

Overhung member Chain sprocket* Spur or helical pinion Vee belt sheave Flat belt pulley

kW x 9,500,000 x K

P =

NxR

K (factor) 1.00 1.25 1.50 2.00

where P kW N R K

= = = = =

Note:

1 Newton = 0.10197 kg = 0.2248 lbs.

* If multistrand chain drives are equally loaded and the outer strand is further than dimension A output or B or C input refer to our Application Engineers.

Equivalent overhung load (Newtons) Power transmitted by the shaft (killowatts) Speed of shaft (rev/min) Pitch radius of sproket (mm) Factor

Frb

Fra C

Fra A

Frb A

B

Input Shaft

Output Shaft Input Shaft

Output Shaft

Single reduction (worm)

Double reduction (worm/worm)

Distance midway along the shaft extension Size of Unit

Dimension A (mm)

Dimension B (mm)

A0280

17.5

A0410

22.5

14.5

20.5

A0510

28.5

14.5

24

A0610

35

20.5

28.5

A0730

41.5

20.5

35

A0860

49

24

41.5

-

Dimension C (mm) 14.5

47

SERIES AJ

OVERHUNG LOADS (NEWTONS) & AXIAL THRUSTS (NEWTONS) OVERHUNG LOADS (Fra) 7 AXIAL THRUST CAPACITIES ON OUTPUT SHAFT OUTPUT REV / MIN

A0280

A0410

A0510

A0610

A0730

A0860

580

290

190

145

95

70

15 & UNDER

OHL (Fra)

1410

1400

1390

1390

1380

1380

1330

THRUST

4780

4920

5010

5020

5080

5080

4320

OHL (Fra)

2760

2750

2750

2740

2720

2700

2180

THRUST

6520

6110

6110

6110

6170

6170

4660

OHL (Fra)

3500

3490

3490

3470

3470

3440

3420

THRUST

8040

7780

7770

7470

7470

7470

6600

OHL (Fra)

6130

5800

5800

5530

5530

5520

4570

THRUST

7480

7160

7160

7060

6750

6700

5760

OHL (Fra)

6960

6920

6920

6900

6860

6860

6790

THRUST

12200

11100

11100

11100

11100

10800

10500

OHL (Fra)

8860

8820

8820

8810

8770

6920

6920

THRUST

14100

12300

14300

14600

14500

14800

12000

REDUCER OVERHUNG LOADS (Frb) ON INTPUT SHAFT at 1450 rev / min SIZE

SINGLE REDUCTION UNIT

RATIO

A0280 300 340 305 650 400 520 435 560 650 670 680 690

5 7.5 10 12.5 15 20 25 30 40 50 60 70

SINGLE REDUCTION UNIT

RATIO 75 150 200 300 400 600 800 1200 1600 2400 3000 4200

A0410 1030 860 380 820 890 335 635 660 550 410 835 565

A0510 615 945 665 855 305 1040 1210 725 405 560 525 485

A0610 705 995 905 650 725 825 1130 1090 830 760 665 955

A0730 1840 1210 845 965 905 605 1430 803 645 512 825 1180

A0860 1400 1790 1630 890 1230 796 2060 1330 1240 935 900 1530

A0410 425 485 515 680 695 695 690 690 700 700 700 700

A0510 310 400 450 660 660 665 650 655 660 660 665 665

SIZE A0610 1100 680 700 662 690 710 895 915 925 1020 1030 715

A0730 990 650 690 590 655 705 850 905 925 990 1020 705

A0860 785 1050 1150 1430 1530 1610 845 920 960 855 885 785

48

SERIES AJ

RATINGS AT 2900 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

CAPACITY Mechanical

5.0

580.00

Thermal

Mechanical 7.5

386.67

Thermal

Mechanical 10.0

290.00

Thermal

Mechanical 12.5

232.00

Thermal

Mechanical 15.0

193.33

Thermal

SINGLE REDUCTION

Mechanical 20.0

145.00

Thermal

Mechanical 25.0

116.00

Thermal

Mechanical 30.0

96.67

Thermal

Mechanical 40.0

72.50

Thermal

Mechanical 50.0

58.00

Thermal

Mechanical 60.0

48.33

Thermal

Mechanical 70.0

41.43

Thermal

Input Power kW Output Torque Nm Input Power kW

SIZE OF UNIT A0280 0.98 15. 2.36

A0410 2.21 34. 3.17

A0510 4.69 68. 5.46

A0610 7.03 106. 7.57

A0730 10.10 161. 20.00

A0860 17.40 261. 25.80

Output Torque Nm

37.

49.

79.

115.

323.

389.

Efficiency %

88

88

91

92

93

94

Input Power kW Output Torque Nm Input Power kW

0.89 18. 1.87

1.97 41. 2.61

3.36 72. 4.29

5.16 112. 6.19

7.83 172. 17.40

11.90 262. 21.70

Output Torque Nm

40.

55.

92.

135.

389.

485.

Efficiency %

85

86

88

90

92

92

Input Power kW Output Torque Nm Input Power kW

0.82 23. 1.42

1.97 57. 2.10

3.41 102. 3.28

4.63 130. 5.31

6.58 203. 14.50

10.50 307. 18.20

Output Torque Nm

41.

61.

97.

150.

455.

535.

Efficiency %

82

84

86

88

91

92

Input Power kW Output Torque Nm Input Power kW

0.74 24. 1.19

1.83 61. 1.79

3.03 105. 2.93

4.74 168. 4.22

7.08 259. 11.50

9.61 363. 16.30

Output Torque Nm

39.

60.

101.

149.

428.

626.

Efficiency %

78

81

84

86

89

91

Input Power kW Output Torque Nm Input Power kW

0.68 25. 1.18

1.76 67. 1.64

2.73 109. 2.89

4.09 171. 3.78

6.35 267. 10.80

9.59 408. 13.50

Output Torque Nm

45.

62.

116.

157.

464.

579.

Efficiency %

78

79

84

84

88

89

Input Power kW Output Torque Nm Input Power kW

0.59 27. 0.79

1.36 68. 1.55

2.58 131. 1.86

4.09 215. 2.68

4.80 264. 9.18

7.18 401. 11.40

Output Torque Nm

37.

78.

92.

137.

517.

646.

Efficiency %

68

78

75

78

86

87

Input Power kW Output Torque Nm Input Power kW

0.53 29. 0.73

1.33 78. 1.10

2.17 132. 1.68

3.40 215. 2.39

4.81 321. 6.29

6.85 463. 7.77

Output Torque Nm

41.

63.

100.

148.

426.

529.

Efficiency %

66

69

72

75

81

82

Input Power kW Output Torque Nm Input Power kW

0.44 27. 0.69

1.17 79. 1.01

1.80 128. 1.60

2.75 201. 2.17

4.08 320. 5.90

6.13 490. 7.32

Output Torque Nm

44.

67.

112.

155.

473.

590.

Efficiency %

63

67

71

72

79

81

Input Power kW Output Torque Nm Input Power kW

0.35 25. 0.56

0.88 73. 0.90

1.38 123. 1.46

2.05 187. 1.91

2.99 297. 5.08

4.51 458. 6.31

Output Torque Nm

43.

75.

131.

173.

521.

654.

Efficiency %

54

63

68

69

75

77

Input Power kW Output Torque Nm Input Power kW

0.27 23. 0.44

0.71 69. 0.68

1.07 110. 1.02

1.62 173. 1.38

2.36 282. 3.75

3.44 415. 4.48

Output Torque Nm

39.

65.

105.

145.

463.

552.

Efficiency %

51

59

63

64

73

73

Input Power kW Output Torque Nm Input Power kW

0.20 17. 0.37

0.53 55. 0.54

0.86 100. 0.89

1.34 163. 1.19

1.90 256. 3.01

2.79 385. 3.71

Output Torque Nm

36.

55.

103.

143.

423.

525.

Efficiency %

44

52

59

61

68

70

Input Power kW Output Torque Nm Input Power kW

0.16 14. 0.30

0.41 45. 0.46

0.64 79. 0.71

1.03 135. 0.93

1.55 227. 2.30

2.42 369. 2.83

Output Torque Nm

31.

52.

91.

118.

355.

439.

Efficiency %

39

48

54

55

64

66

49

SERIES AJ

RATINGS AT 2900 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN Mechanical

75.0

38.67

100.

29.00

125.

23.20

150.

19.33

Thermal

200.

14.50

Thermal

225.

12.89

250.

11.60

300.

9.67

350.

8.29

Thermal

375.

7.73

Thermal

400.

7.25

450.

6.44

Thermal

500.

5.80

Thermal

600.

4.83

625.

4.64

700.

4.14

750.

3.87

Thermal

800.

3.63

Thermal

Thermal Mechanical Thermal Mechanical Thermal Mechanical

Mechanical

Mechanical Thermal Mechanical Thermal Mechanical

SINGLE REDUCTION

SIZE OF UNIT

CAPACITY

Thermal Mechanical

Mechanical

Mechanical Thermal Mechanical

Mechanical

Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical

Mechanical

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

50

A0410

A0510

A0610

A0730

A0860

0.75 123. 1.00 169. 66 0.54 114. 0.94 207. 62 0.57 137. 0.69 167. 55 0.52 149. 0.82 246. 57 0.35 123. 0.79 311. 52 0.44 162. 0.75 296. 53 0.40 163. 0.57 241. 47 0.41 174. 0.77 365. 45 0.34 175. 0.53 293. 43 0.15 54. 0.34 160. 29 0.26 130. 0.75 464. 38 0.30 174. 0.50 311. 40 0.32 187. 0.55 359. 35 0.29 186. 0.52 381. 32 0.28 189. 0.53 415. 33 0.19 109. 0.30 217. 24 0.26 189. 0.50 441. 30 0.20 136. 0.56 546. 27

0.90 156. 1.66 297. 69 0.90 191. 1.15 246. 61 0.90 228. 1.04 266. 58 0.74 229. 1.42 459. 62 0.76 285. 0.94 357. 54 0.61 243. 1.29 548. 58 0.65 282. 0.85 379. 51 0.54 257. 0.85 426. 49 0.54 304. 0.79 459. 47 0.22 94. 0.50 262. 36 0.55 309. 0.85 505. 43 0.45 286. 0.77 519. 45 0.48 309. 0.80 561. 39 0.42 305. 0.79 640. 37 0.41 309. 0.78 647. 37 0.18 105. 0.33 246. 24 0.36 309. 0.76 740. 35 0.35 282. 0.59 536. 31

1.76 314. 2.33 425. 69 1.79 391. 1.72 374. 63 1.50 386. 1.52 392. 60 1.20 384. 1.88 628. 62 1.17 448. 1.37 538. 55 1.02 416. 1.74 758. 57 1.03 463. 1.22 564. 52 0.84 445. 1.61 918. 55 0.88 498. 1.14 676. 48 0.40 161. 0.74 360. 33 0.80 501. 1.17 772. 49 0.73 454. 1.06 713. 44 0.69 501. 1.05 810. 45 0.60 482. 0.98 856. 42 0.63 501. 1.07 946. 39 0.42 328. 0.60 527. 35 0.57 501. 1.00 1000. 36 0.54 501. 1.13 1220. 35

1.94 360. 3.06 586. 74 1.94 471. 3.06 765. 72 1.94 557. 2.29 666. 66 1.73 597. 2.03 707. 69 1.33 582. 2.03 919. 65 1.36 603. 1.58 709. 64 1.20 603. 1.66 867. 58 1.06 603. 1.50 885. 61 0.95 603. 1.55 1040. 53 0.53 271. 0.98 578. 42 0.84 603. 1.50 1150. 57 0.83 603. 1.46 1140. 51 0.75 603. 1.46 1280. 50 0.66 603. 1.38 1410. 48 0.68 603. 1.06 1030. 43 0.41 358. 0.44 398. 37 0.60 603. 1.06 1200. 41 0.56 603. 0.88 1050. 42

4.13 742. 4.49 809. 78 3.08 713. 3.80 888. 75 2.99 822. 2.77 757. 69 2.65 943. 2.83 1010. 71 1.98 892. 2.43 1120. 67 2.03 950. 2.44 1160. 68 1.81 950. 1.81 947. 61 1.66 950. 1.62 924. 60 0.83 437. 1.16 651. 48 1.39 950. 1.57 1080. 57 1.32 950. 1.62 1200. 56 1.21 950. 1.48 1190. 55 1.17 950. 1.56 1330. 49 1.03 950. 1.48 1460. 47 1.00 950. 1.47 1480. 46 0.65 617. 0.63 594. 42 0.89 950. 1.43 1690. 43 0.80 950. 1.28 1670. 46

SERIES AJ

RATINGS AT 2900 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

CAPACITY Mechanical

900.

3.22

1000.

2.90

1200.

2.42

1250.

2.32

1400.

2.07

1500.

1.93

1600.

1.81

1750.

1.66

1800.

1.61

2000.

1.45

2100.

1.38

2400.

1.21

2500.

1.16

2800.

1.04

3000.

0.97

3500.

0.83

3600.

0.81

4200.

0.69

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

SINGLE REDUCTION

Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

51

SIZE OF UNIT A0410

A0510

A0610

A0730

A0860

0.23 189. 0.49 497. 28 0.23 189. 0.54 567. 25 0.21 189. 0.51 604. 23 0.20 189. 0.44 533. 23 0.16 141. 0.30 364. 20 0.19 189. 0.44 606. 21 0.16 136. 0.48 685. 17 0.18 189. 0.30 394. 18 0.18 189. 0.37 531. 18 0.14 137. 0.44 746. 15 0.17 189. 0.30 447. 16 0.14 138. 0.37 654. 13 0.11 99. 0.43 859. 11 0.13 139. 0.30 550. 12 0.11 99. 0.37 776. 9 0.11 100. 0.30 653. 8 0.10 76. 0.37 820. 6 0.10 77. 0.30 689. 6

0.32 309. 0.72 795. 32 0.33 309. 0.59 634. 29 0.29 309. 0.59 738. 27 0.28 309. 0.48 601. 27 0.18 162. 0.33 380. 19 0.25 309. 0.48 699. 25 0.21 249. 0.59 929. 22 0.18 192. 0.33 448. 18 0.22 280. 0.40 616. 21 0.19 252. 0.48 880. 20 0.18 223. 0.33 521. 18 0.18 254. 0.40 775. 18 0.14 180. 0.48 999. 15 0.17 256. 0.33 656. 16 0.14 182. 0.40 880. 13 0.14 184. 0.33 744. 12 0.12 140. 0.40 1000. 10 0.12 141. 0.33 850. 9

0.51 501. 0.98 1130. 33 0.47 501. 1.01 1280. 32 0.43 501. 0.95 1360. 29 0.41 501. 0. 1310. 30 0.39 501. 0.60 876. 28 0.38 501. 0.88 1490. 27 0.33 411. 0.88 1530. 24 0.35 501. 0.60 1030. 25 0.36 501. 0.71 1250. 23 0.29 416. 0.86 1780. 22 0.32 501. 0.60 1170. 22 0.29 419. 0.71 1540. 18 0.23 299. 0.76 1800. 16 0.26 422. 0.60 1440. 18 0.23 302. 0.71 1780. 13 0.21 305. 0.60 1680. 13 0.20 231. 0.71 2040. 10 0.18 233. 0.60 1910. 10

0.54 603. 0.98 1260. 38 0.51 603. 0.88 1190. 36 0.45 603. 0.88 1390. 34 0.44 603. 8 0.66 1010. 33 0.41 603. 0.44 679. 33 0.39 603. 0.66 1180. 31 0.39 603. 0.88 1730. 29 0.37 603. 0.44 766. 28 0.38 603. 0.52 959. 27 0.34 603. 0.66 1470. 27 0.34 603. 0.44 893. 26 0.33 603. 0.52 1190. 23 0.28 522. 0.66 1750. 23 0.30 603. 0.44 1110. 22 0.28 526. 0.52 1420. 19 0.25 532. 0.44 1320. 19 0.23 400. 0.52 1570. 15 0.21 404. 0.44 1460. 14

0.77 950. 1.38 1900. 41 0.72 950. 1.28 1900. 40 0.64 950. 1.28 2220. 38 0.64 950. 0.90 1460. 36 0.57 950. 0.63 1080. 37 0.57 950. 0.90 1710. 34 0.54 950. 1.20 2570. 33 0.52 950. 0.63 1220. 32 0.51 950. 0.78 1660. 31 0.49 950. 0.90 2130. 30 0.47 950. 0.63 1430. 30 0.44 950. 0.78 2060. 27 0.40 817. 0.90 2490. 25 0.40 950. 0.63 1780. 26 0.36 824. 0.78 2410. 23 0.34 833. 0.63 2070. 21 0.29 624. 0.78 2720. 18 0.27 631. 0.63 2340. 17

SERIES AJ

RATINGS AT 1750 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN Mechanical

5.0

350.00

Thermal

Mechanical 7.5

233.33

Thermal

Mechanical 10.0

175.00

Thermal

Mechanical 12.5

140.00

Thermal

Mechanical

SINGLE REDUCTION

15.0

116.67

Thermal

Mechanical 20.0

87.50

Thermal

Mechanical 25.0

70.00

Thermal

Mechanical 30.0

58.33

Thermal

Mechanical 40.0

43.75

Thermal

Mechanical 50.0

35.00

Thermal

Mechanical 60.0

29.17

Thermal

Mechanical 70.0

25.00

SIZE OF UNIT

CAPACITY

Thermal

A0280

Input Power kW Output Torque Nm Input Power kW

0.74 19. 1.82

A0410 1.68 43. 2.65

A0510 3.61 86. 4.38

A0610 5.41 135. 6.14

A0730 7.73 205. 14.10

A0860 13.40 332. 17.70

Output Torque Nm

46.

68.

104.

153.

376.

441.

Efficiency %

88

88

91

91

93

94

Input Power kW Output Torque Nm Input Power kW

0.68 23. 1.46

1.49 51. 2.20

2.55 90. 3.54

Output Torque Nm

51.

77.

126.

Efficiency %

85

86

88

Input Power kW Output Torque Nm Input Power kW

0.62 29. 1.12

1.48 71. 1.77

2.5 126. 2.73

3.93 141. 5.15

5.94 217. 12.20

9.02 331. 15.00

185.

450.

552.

90

92

93

8 3.50 162. 4.43

4.94 252. 10.10

7.95 384. 12.50

Output Torque Nm

53.

85.

134.

206.

522.

608.

Efficiency %

81

83

85

88

90

92

Input Power kW Output Torque Nm Input Power kW

0.56 29. 0.94

1.36 76. 1.52

2.27 130. 2.43

3.57 208. 3.55

5.29 321. 8.13

7.18 449. 11.20

Output Torque Nm

51.

85.

139.

207.

497.

703.

Efficiency %

77

81

84

85

89

90

Input Power kW Output Torque Nm Input Power kW

0.50 31. 0.93

1.31 83. 1.39

2.03 134. 2.37

3.07 210. 3.17

4.72 329. 7.62

7.15 503. 9.30

Output Torque Nm

58.

87.

157.

217.

536.

657.

Efficiency %

77

80

83

84

88

89

Input Power kW Output Torque Nm Input Power kW

0.44 32. 0.64

1.00 83. 1.29

1.93 160. 1.57

3.07 262. 2.29

3.53 322. 6.42

5.31 489. 7.80

Output Torque Nm

48.

108.

129.

194.

593.

725.

Efficiency %

67

78

75

78

86

87

Input Power kW Output Torque Nm Input Power kW

0.40 35. 0.59

0.98 94. 0.93

1.62 160. 1.41

2.54 261. 2.04

3.55 390. 4.50

5.07 564. 5.46

Output Torque Nm

53.

89.

139.

208.

499.

609.

Efficiency %

65

70

72

75

81

82

Input Power kW Output Torque Nm Input Power kW

0.33 33. 0.55

0.87 95. 0.85

1.34 154. 1.33

2.06 243. 1.84

3.00 388. 4.18

4.53 595. 5.10

Output Torque Nm

57.

93.

153.

217.

547.

672.

Efficiency %

61

67

70

72

79

80

Input Power kW Output Torque Nm Input Power kW

0.26 30. 0.45

0.65 88. 0.76

1.02 148. 1.21

1.52 225. 1.62

2.19 359. 3.59

3.32 555. 4.38

Output Torque Nm

55.

104.

177.

239.

598.

739.

Efficiency %

53

62

66

68

75

77

Input Power kW Output Torque Nm Input Power kW

0.18 24. 0.35

0.48 75. 0.57

0.79 132. 0.86

1.20 207. 1.19

1.72 339. 2.67

2.52 501. 3.13

Output Torque Nm

51.

93.

146.

206.

536.

627.

Efficiency %

49

58

61

63

72

73

Input Power kW Output Torque Nm Input Power kW

0.13 19. 0.30

0.35 58. 0.46

0.57 107. 0.75

0.90 177. 1.03

1.38 307. 2.16

2.09 476. 2.60

Output Torque Nm

47.

81.

144.

204.

493.

599.

Efficiency %

43

51

58

60

68

70

Input Power kW Output Torque Nm Input Power kW

0.10 15. 0.24

0.26 48. 0.39

0.41 84. 0.61

0.68 144. 0.80

1.00 242. 1.67

1.58 393. 2.00

Output Torque Nm

42.

78.

130.

173.

419.

509.

Efficiency %

39

48

54

55

63

65

52

SERIES AJ

RATINGS AT 1750 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

CAPACITY Mechanical

75.0

23.33

100.

17.50

125.

14.00

150.

11.67

200.

8.75

225.

7.78

250.

7.00

300.

5.83

350.

5.00

375.

4.67

400.

4.38

450.

3.89

500.

3.50

600.

2.92

625.

2.80

700.

2.50

750.

2.33

800.

2.19

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

SINGLE REDUCTION

Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

53

SIZE OF UNIT A0410

A0510

A0610

A0730

A0860

0.53 142. 0.81 221. 64 0.35 121. 0.78 279. 61 0.41 156. 0.55 217. 54 0.36 169. 0.68 333. 56 0.22 128. 0.66 423. 51 0.30 181. 0.65 412. 52 0.28 182. 0.47 329. 46 0.27 189. 0.60 454. 44 0.23 189. 0.45 404. 42 0.09 56. 0.28 222. 30 0.17 135. 0.60 597. 38 0.20 189. 0.42 429. 39 0.20 189. 0.47 499. 34 0.18 189. 0.44 531. 32 0.17 189. 0.46 581. 32 0.12 115. 0.24 296. 24 0.16 189. 0.43 619. 29 0.12 140. 0.42 646. 27

0.69 193. 1.41 405. 68 0.69 233. 0.94 323. 59 0.67 270. 0.84 343. 56 0.50 251. 1.16 601. 60 0.52 309. 0.79 483. 52 0.41 264. 0.94 637. 56 0.44 309. 0.71 515. 49 0.37 278. 0.63 498. 48 0.35 309. 0.68 630. 45 0.14 98. 0.43 363. 36 0.35 309. 0.63 585. 40 0.30 309. 0.66 721. 43 0.30 309. 0.63 692. 38 0.27 309. 0.63 805. 36 0.26 309. 0.57 750. 35 0.12 111. 0.27 329. 24 0.23 309. 0.57 872. 33 0.24 309. 0.44 627. 30

1.25 365. 1.91 566. 68 1.23 434. 1.37 482. 62 1.07 443. 1.22 509. 58 0.83 434. 1.57 854. 61 0.79 493. 1.13 721. 54 0.69 465. 1.48 1050. 56 0.69 501. 1.00 755. 51 0.57 494. 1.38 1270. 54 0.55 501. 0.95 923. 46 0.25 167. 0.62 507. 34 0.50 501. 0.99 1060. 47 0.49 501. 0.89 976. 43 0.43 501. 0.88 1110. 44 0.3 501. 0.83 1180. 41 0.39 501. 0.91 1310. 38 0.27 346. 0.50 748. 35 0.35 501. 0.86 1390. 35 0.33 501. 0.88 1520. 35

1.47 447. 2.57 799. 73 1.40 555. 2.32 936. 71 1.31 603. 1.70 794. 64 1.09 603. 1.71 975. 67 0.85 603. 1.71 1260. 63 0.85 603. 1.34 986. 62 0.75 603. 1.40 1180. 56 0.66 603. 1.26 1200. 59 0.59 603. 1.34 1470. 51 0.33 281. 0.73 698. 42 0.52 603. 1.26 1560. 56 0.52 603. 1.28 1630. 49 0.46 603. 1.25 1780. 49 8 0.41 603. 1.22 2010. 47 0.42 603. 0.90 1430. 42 0.26 377. 0.38 606. 37 0.37 603. 0.90 1670. 40 0.35 603. 0.74 1450. 41

3.00 872. 3.16 920. 77 2.21 829. 2.69 1010. 73 2.15 950. 1.96 862. 67 1.66 950. 2.24 1300. 69 1.30 950. 1.93 1440. 65 1.26 950. 2.07 1590. 66 1.13 950. 1.43 1210. 59 1.04 950. 1.39 1300. 58 0.53 453. 0.82 752. 47 0.87 950. 1.32 1490. 55 0.83 950. 1.39 1680. 54 0.75 950. 1.25 1650. 53 0.73 950. 1.33 1840. 48 0.64 950. 1.26 2030. 45 0.63 950. 1.25 2050. 44 0.42 650. 0.54 875. 42 0.55 950. 1.25 2390. 42 0.49 950. 1.07 2260. 45

SERIES AJ

RATINGS AT 1750 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN Mechanical

900.

1.94

1000.

1.75

1200.

1.46

1250.

1.40

1400.

1.25

1500.

1.17

1600.

1.09

1750.

1.00

1800.

0.97

2000.

0.88

2100.

0.83

2400.

0.73

2500.

0.70

2800.

0.63

3000.

0.58

3500.

0.50

3600.

0.49

4200.

0.42

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical

SINGLE REDUCTION

SIZE OF UNIT

CAPACITY

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

54

A0410

A0510

A0610

A0730

A0860

0.14 189. 0.43 704. 27 0.14 189. 0.42 699. 24 0.13 189. 0.42 794. 22 0.12 189. 0.35 690. 22 0.10 144. 0.24 495. 20 0.11 189. 0.35 783. 20 0.09 139. 0.42 978. 17 0.11 189. 0.24 532. 18 0.11 189. 0.30 699. 17 0.08 141. 0.35 963. 15 0.10 189. 0.24 604. 16 0.08 143. 0.30 860. 13 0.07 102. 0.35 1140. 11 0.08 144. 0.24 743. 12 0.07 103. 0.30 1020. 10 0.06 104. 0.24 880. 9 0.06 79. 0.30 1070. 7 0.06 79. 0.24 927. 6

0.20 309. 0.53 924. 31 0.21 309. 0.44 741. 27 0.18 309. 0.44 862. 26 0.18 309. 0.38 748. 26 0.12 170. 0.27 505. 19 0.16 309. 0.38 869. 24 0.13 255. 0.44 1080. 22 0.12 201. 0.27 596. 18 0.14 293. 0.32 799. 21 0.12 259. 0.38 1090. 20 0.12 233. 0.27 692. 18 0.11 262. 0.32 1010. 18 0.09 186. 0.38 1240. 15 0.11 265. 0.27 871. 16 0.09 188. 0.32 1140. 13 0.08 190. 0.27 986. 12 0.07 144. 0.32 1300. 10 0.07 146. 0.27 1130. 9

0.32 501. 0.85 1570. 32 0.29 501. 0.88 1790. 32 0.26 501. 0.83 1920. 29 0.25 501. 0.74 1770. 29 0.24 501. 0.50 1230. 27 0.23 501. 0.74 2010. 27 0.20 421. 0.77 2170. 24 0.21 501. 0.50 1450. 25 0.22 501. 0.60 1720. 23 0.1 426. 0.74 2470. 22 0.20 501. 0.50 1650. 22 0.17 432. 0.60 2110. 19 0.13 308. 0.67 2580. 17 0.16 436. 0.50 2020. 18 0.13 312. 0.60 2450. 14 0.12 315. 0.50 2340. 14 0.11 239. 0.60 2800. 11 0.10 241. 0.50 2680. 11

0.33 603. 0.83 1730. 37 0.31 603. 0.74 1640. 35 0.28 603. 0.74 1910. 33 0.27 603. 0.56 1430. 33 0.25 603. 0.38 1030. 33 0.24 603. 0.56 1670. 31 0.24 603. 0.74 2370. 29 0.23 603. 0.38 1150. 28 0.23 603. 0.45 1410. 27 8 0.21 603. 0.56 2070. 27 0.21 603. 0.38 1340. 26 0.20 603. 0.45 1750. 23 0.17 538. 0.56 2460. 23 0.18 603. 0.38 1660. 22 0.17 545. 0.45 2080. 20 0.15 550. 0.38 1980. 19 0.14 414. 0.45 2300. 16 0.12 418. 0.38 2180. 15

0.48 950. 1.18 2630. 40 0.44 950. 1.07 2560. 39 0.39 950. 1.07 2990. 37 0.40 950. 0.77 2050. 35 0.35 950. 0.54 1590. 36 0.35 950. 0.77 2400. 33 0.33 950. 1.07 3720. 33 0.32 950. 0.54 1780. 31 0.31 950. 0.66 2350. 31 0.30 950. 0.77 2980. 29 0.28 950. 0.54 2080. 29 0.27 950. 0.66 2910. 27 0.24 843. 0.77 3480. 25 0.24 950. 0.54 2580. 26 0.22 853. 0.66 3400. 24 0.20 862. 0.54 3000. 22 0.17 645. 0.66 3830. 19 0.16 652. 0.54 3380. 18

SERIES AJ

RATINGS AT 1450 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

CAPACITY Mechanical

5.0

290.00

Thermal

Mechanical 7.5

193.33

Thermal

Mechanical 10.0

145.00

Thermal

Mechanical 12.5

116.00

Thermal

Mechanical

SINGLE REDUCTION

15.0

96.67

Thermal

Mechanical 20.0

72.50

Thermal

Mechanical 25.0

58.00

Thermal

Mechanical 30.0

48.33

Thermal

Mechanical 40.0

36.25

Thermal

Mechanical 50.0

29.00

Thermal

Mechanical 60.0

24.17

Thermal

Mechanical 70.0

20.71

Thermal

Input Power kW Output Torque Nm Input Power kW

SIZE OF UNIT A0280 0.67 20. 1.65

A0410 1.52 46. 2.45

A0510 3.26 93. 4.01

A0610 4.90 147. 5.65

A0730 6.98 223. 12.30

A0860 12.10 362. 15.30

Output Torque Nm

51.

75.

115.

170.

394.

457.

Efficiency %

87

88

91

91

93

94

Input Power kW Output Torque Nm Input Power kW

0.61 25. 1.33

1.34 56. 2.04

2.30 98. 3.26

3.54 152. 4.77

5.34 235. 10.60

8.12 359. 12.90

Output Torque Nm

55.

86.

140.

206.

471.

574.

Efficiency %

85

86

88

89

92

93

Input Power kW Output Torque Nm Input Power kW

0.55 31. 1.02

1.32 76. 1.64

2.31 136. 2.53

3.14 175. 4.12

4.42 272. 8.78

7.14 414. 10.80

Output Torque Nm

58.

95.

149.

230.

545.

632.

Efficiency %

80

83

85

88

90

91

Input Power kW Output Torque Nm Input Power kW

0.50 31. 0.86

1.22 81. 1.41

2.04 139. 2.25

3.20 224. 3.30

4.74 345. 7.10

6.43 484. 9.63

Output Torque Nm

56.

95.

155.

231.

521.

729.

Efficiency %

77

81

83

85

88

90

Input Power kW Output Torque Nm Input Power kW

0.45 33. 0.85

1.17 89. 1.29

1.82 143. 2.20

2.75 225. 2.95

4.22 354. 6.64

6.40 541. 8.05

Output Torque Nm

63.

98.

174.

242.

561.

683.

Efficiency %

77

79

82

83

88

89

Input Power kW Output Torque Nm Input Power kW

0.39 35. 0.58

0.89 88. 1.20

1.74 171. 1.47

2.76 281. 2.15

3.15 345. 5.59

4.74 525. 6.74

Output Torque Nm

52.

120.

144.

217.

620.

751.

Efficiency %

67

77

74

77

85

86

Input Power kW Output Torque Nm Input Power kW

0.35 37. 0.54

0.88 100. 0.87

1.45 172. 1.32

2.28 280. 1.91

3.17 418. 3.95

4.54 605. 4.75

Output Torque Nm

58.

99.

155.

233.

524.

635.

Efficiency %

64

69

71

74

80

81

Input Power kW Output Torque Nm Input Power kW

0.29 35. 0.50

0.77 102. 0.80

1.20 165. 1.24

1.85 260. 1.73

2.68 415. 3.67

4.06 638. 4.43

Output Torque Nm

62.

104.

171.

242.

573.

699.

Efficiency %

61

67

70

71

78

80

Input Power kW Output Torque Nm Input Power kW

0.23 31. 0.41

0.58 94. 0.71

0.91 158. 1.12

1.37 241. 1.51

1.96 384. 3.14

2.97 594. 3.81

Output Torque Nm

59.

117.

197.

268.

626.

767.

Efficiency %

53

62

66

67

74

76

Input Power kW Output Torque Nm Input Power kW

0.16 25. 0.33

0.41 77. 0.54

0.70 141. 0.81

1.07 221. 1.12

1.54 362. 2.35

2.25 535. 2.73

Output Torque Nm

56.

105.

163.

231.

563.

653.

Efficiency %

49

58

61

63

71

72

Input Power kW Output Torque Nm Input Power kW

0.11 19. 0.27

0.30 60. 0.44

0.49 110. 0.70

0.77 181. 0.97

1.18 314. 1.91

1.80 490. 2.27

Output Torque Nm

51.

91.

162.

230.

519.

624.

Efficiency %

43

51

57

59

67

69

Input Power kW Output Torque Nm Input Power kW

0.09 15. 0.23

0.22 49. 0.37

0.35 86. 0.57

0.58 147. 0.76

0.86 247. 1.48

1.35 402. 1.76

Output Torque Nm

46.

88.

146.

196.

442.

533.

Efficiency %

38

48

53

55

62

65

55

SERIES AJ

RATINGS AT 1450 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN Mechanical

75.0

19.33

100.

14.50

125.

11.60

150.

9.67

200.

7.25

225.

6.44

250.

5.80

300.

4.83

350.

4.14

375.

3.87

400.

3.63

450.

3.22

500.

2.90

600.

2.42

625.

2.32

700.

2.07

750.

1.93

800.

1.81

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical

SINGLE REDUCTION

SIZE OF UNIT

CAPACITY

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

56

A0410

A0510

A0610

A0730

A0860

0.47 149. 0.75 246. 63 0.30 123. 0.73 311. 61 0.36 163. 0.51 241. 53 0.32 176. 0.65 377. 56 0.19 130. 0.63 479. 51 0.26 187. 0.61 466. 52 0.24 189. 0.45 371. 46 0.23 189. 0.54 483. 43 0.19 189. 0.43 457. 42 0.08 56. 0.27 252. 30 0.14 136. 0.54 636. 38 0.17 189. 0.40 486. 39 0.17 189. 0.45 567. 34 0.15 189. 0.42 604. 31 0.15 189. 0.44 664. 31 0.10 117. 0.23 329. 24 0.13 189. 0.41 707. 29 0.10 142. 0.38 690. 27

0.62 208. 1.33 459. 67 0.62 250. 0.87 357. 59 0.59 282. 0.78 379. 55 0.43 259. 1.03 640. 60 0.44 309. 0.75 544. 51 0.35 272. 0.84 679. 56 0.37 309. 0.68 579. 48 0.32 286. 0.56 531. 47 0.29 309. 0.64 712. 44 0.12 99. 0.41 413. 36 0.30 309. 0.56 621. 40 0.25 309. 0.63 816. 42 0.26 309. 0.56 735. 37 0.22 309. 0.56 854. 35 0.22 309. 0.52 797. 34 0.10 113. 0.25 365. 24 0.19 309. 0.52 927. 33 0.20 309. 0.40 668. 29

1.10 384. 1.77 628. 67 1.07 448. 1.28 538. 61 0.94 463. 1.13 564. 57 0.72 452. 1.48 962. 60 0.68 501. 1.06 809. 54 0.60 483. 1.40 1180. 56 0.58 501. 0.94 848. 50 0.48 501. 1.31 1440. 54 0.46 501. 0.90 1040. 46 0.21 169. 0.59 579. 34 0.42 501. 0.94 1200. 47 0.41 501. 0.84 1100. 43 0.36 501. 0.84 1260. 43 0.32 501. 0.78 1340. 41 0.33 501. 0.87 1490. 37 0.23 352. 0.47 840. 35 0.30 501. 0.82 1580. 34 0.28 501. 0.79 1630. 34

1.32 483. 2.38 884. 73 1.23 582. 2.12 1020. 70 1.10 603. 1.56 867. 63 0.91 603. 1.59 1080. 66 0.71 603. 1.59 1400. 63 0.71 603. 1.25 1100. 61 0.63 603. 1.34 1350. 56 0.55 603. 1.17 1340. 59 0.50 603. 1.25 1630. 51 0.28 284. 0.67 766. 42 0.44 603. 1.17 1730. 55 0.43 603. 1.23 1870. 48 0.39 603. 1.17 1970. 48 0.34 603. 1.15 2270. 46 0.36 603. 0.84 1590. 41 0.22 384. 0.36 691. 36 0.31 603. 0.84 1850. 39 0.29 603. 0.69 1610. 41

2.65 920. 2.81 976. 76 1.95 872. 2.39 1080. 73 1.81 950. 1.75 913. 66 1.39 950. 2.11 1460. 68 1.09 950. 1.82 1620. 65 1.06 950. 1.95 1800. 65 0.95 950. 1.34 1370. 58 0. 8 950. 1.30 1450. 57 0.45 459. 0.74 802. 46 0.73 950. 1.25 1680. 54 0.69 950. 1.30 1880. 53 0.63 950. 1.19 1860. 52 0.62 950. 1.28 2100. 47 0.54 950. 1.21 2320. 45 0.53 950. 1.17 2280. 44 0.36 661. 0.51 991. 42 0.46 950. 1.17 2670. 42 0.41 950. 1.00 2510. 45

SERIES AJ

RATINGS AT 1450 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

CAPACITY Mechanical

900.

1.61

1000.

1.45

1200.

1.21

1250.

1.16

1400.

1.04

1500.

0.97

1600.

0.91

1750.

0.83

1800.

0.81

2000.

0.73

2100.

0.69

2400.

0.60

2500.

0.58

2800.

0.52

3000.

0.48

3500.

0.41

3600.

0.40

4200.

0.35

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

SINGLE REDUCTION

Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

57

SIZE OF UNIT A0410

A0510

A0610

A0730

A0860

0.12 189. 0.41 805. 27 0.12 189. 0.38 746. 24 0.11 189. 0.38 847. 22 0.10 189. 0.33 755. 22 0.08 145. 0.23 550. 19 0.10 189. 0.33 857. 20 0.08 141. 0.38 1040. 17 0.09 189. 0.23 590. 17 0.09 189. 0.27 770. 17 0.07 143. 0.33 1050. 16 0.09 189. 0.23 669. 16 0.07 145. 0.27 946. 13 0.05 103. 0.33 1250. 12 0.07 146. 0.23 823. 12 0.05 104. 0.27 1120. 10 0.05 105. 0.23 975. 9 0.05 80. 0.27 1180. 7 0.05 80. 0.23 1030. 6

0.17 309. 0.48 984. 31 0.17 309. 0.40 788. 27 0.16 309. 0.40 916. 25 0.15 309. 0.34 799. 25 0.10 173. 0.25 558. 19 0.13 309. 0.34 929. 24 0.11 258. 0.40 1150. 22 0.10 203. 0.25 657. 18 0.12 297. 0.30 876. 20 0.10 262. 0.34 1170. 20 0.10 237. 0.25 764. 18 0.10 265. 0.30 1100. 17 0.07 188. 0.34 1320. 15 0.09 268. 0.25 961. 16 0.07 190. 0.30 1250. 13 0.07 192. 0.25 1090. 12 0.06 146. 0.30 1420. 10 0.06 148. 0.25 1240. 9

0.26 501. 0.81 1790. 32 0.24 501. 0.79 1930. 31 0.22 501. 0.79 2190. 29 0.21 501. 0.68 1930. 29 0.20 501. 0.47 1380. 27 0.19 501. 0.68 2190. 27 0.17 425. 0.74 2480. 24 0.18 501. 0.47 1630. 24 0.18 501. 0.56 1920. 23 0.15 432. 0.68 2690. 22 0.16 501. 0.47 1840. 22 0.15 437. 0.56 2350. 19 0.11 312. 0.64 2960. 17 0.13 442. 0.47 2260. 18 0.11 316. 0.56 2730. 15 0.10 319. 0.47 2620. 14 0.09 242. 0.56 3120. 11 0.08 244. 0.47 2990. 11

0.28 603. 0.77 1930. 37 0.26 603. 0.69 1820. 35 0.23 603. 0.69 2120. 33 0.23 603. 0.52 1600. 32 0.21 603. 0.36 1170. 32 0.20 603. 0.52 1870. 30 0.20 603. 0.69 2630. 29 0.19 603. 0.36 1310. 27 0.19 603. 0.42 1590. 26 0.17 603. 0.52 2310. 27 0.17 603. 0.36 1520. 25 0.17 603. 0.42 1970. 23 0.14 545. 0.52 2760. 23 0.15 603. 0.36 1880. 22 0.14 552. 0.42 2350. 20 0.13 557. 0.36 2240. 19 0.11 419. 0.42 2590. 16 0.10 423. 0.36 2470. 15

0.40 950. 1.10 2910. 40 0.37 950. 1.00 2840. 39 0.33 950. 1.00 3310. 37 0.33 950. 0.72 2300. 35 0.30 950. 0.51 1790. 36 0.29 950. 0.72 2680. 33 0.28 950. 1.00 4110. 33 0.27 950. 0.51 2010. 31 0.26 950. 0.62 2630. 31 0.25 950. 0.72 3330. 29 0.24 950. 0.51 2340. 29 0.22 950. 0.62 3260. 27 0.20 854. 0.72 3880. 25 0.20 950. 0.51 2900. 25 0.19 864. 0.62 3800. 24 0.17 872. 0.51 3380. 22 0.14 653. 0.62 4280. 19 0.13 659. 0.51 3800. 18

SERIES AJ

RATINGS AT 1160 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN Mechanical

5.0

232.00

Thermal

Mechanical 7.5

154.67

Thermal

Mechanical 10.0

116.00

Thermal

Mechanical 12.5

92.80

Thermal

Mechanical

SINGLE REDUCTION

15.0

77.33

Thermal

Mechanical 20.0

58.00

Thermal

Mechanical 25.0

46.40

Thermal

Mechanical 30.0

38.67

Thermal

Mechanical 40.0

29.00

Thermal

Mechanical 50.0

23.20

Thermal

Mechanical 60.0

19.33

Thermal

Mechanical 70.0

16.57

SIZE OF UNIT

CAPACITY

Thermal

A0280

Input Power kW Output Torque Nm Input Power kW

0.59 22. 1.46

A0410 1.34 51. 2.22

A0510 2.89 103. 3.62

A0610 4.34 162. 5.12

A0730 6.17 246. 10.40

A0860 10.70 400. 12.70

Output Torque Nm

56.

85.

129.

191.

414.

475.

Efficiency %

87

88

90

91

93

94

Input Power kW Output Torque Nm Input Power kW

0.53 27. 1.19

1.17 61. 1.86

2.02 107. 2.96

3.12 167. 4.35

4.70 257. 8.98

7.15 394. 10.80

Output Torque Nm

61.

97.

157.

234.

495.

598.

Efficiency %

84

86

88

89

92

92

Input Power kW Output Torque Nm Input Power kW

0.48 33. 0.92

1.16 83. 1.50

2.03 148. 2.30

2.76 191. 3.76

3.87 296. 7.43

6.26 453. 9.07

Output Torque Nm

64.

108.

168.

261.

574.

659.

Efficiency %

80

82

84

87

90

91

Input Power kW Output Torque Nm Input Power kW

0.43 34. 0.77

1.07 88. 1.29

1.78 151. 2.06

2.81 243. 3.03

4.14 376. 6.02

5.62 526. 8.06

Output Torque Nm

62.

107.

175.

262.

549.

759.

Efficiency %

76

80

82

84

88

90

Input Power kW Output Torque Nm Input Power kW

0.39 36. 0.76

1.02 96. 1.18

1.59 155. 2.00

2.40 244. 2.71

3.69 384. 5.64

5.60 589. 6.76

Output Torque Nm

70.

111.

197.

276.

591.

712.

Efficiency %

76

79

82

82

87

88

Input Power kW Output Torque Nm Input Power kW

0.34 37. 0.52

0.78 95. 1.10

1.52 185. 1.34

2.42 304. 1.98

2.75 374. 4.75

4.14 569. 5.67

Output Torque Nm

57.

136.

163.

247.

653.

783.

Efficiency %

66

76

74

76

85

86

Input Power kW Output Torque Nm Input Power kW

0.31 40. 0.47

0.77 109. 0.80

1.28 186. 1.21

2.01 303. 1.76

2.78 454. 3.38

3.98 657. 4.02

Output Torque Nm

63.

113.

176.

265.

554.

664.

Efficiency %

63

69

71

73

79

80

Input Power kW Output Torque Nm Input Power kW

0.25 38. 0.44

0.68 110. 0.73

1.05 179. 1.14

1.62 281. 1.60

2.35 450. 3.13

3.55 692. 3.74

Output Torque Nm

67.

119.

193.

276.

604.

729.

Efficiency %

60

66

69

70

78

79

Input Power kW Output Torque Nm Input Power kW

0.19 32. 0.37

0.50 101. 0.65

0.80 170. 1.03

1.20 260. 1.40

1.71 414. 2.69

2.60 642. 3.22

Output Torque Nm

65.

133.

223.

305.

660.

800.

Efficiency %

51

61

65

66

74

75

Input Power kW Output Torque Nm Input Power kW

0.13 26. 0.30

0.34 79. 0.50

0.59 145. 0.75

0.94 238. 1.04

1.34 390. 2.02

1.97 577. 2.32

Output Torque Nm

62.

120.

186.

265.

595.

683.

Efficiency %

48

57

60

62

71

71

Input Power kW Output Torque Nm Input Power kW

0.09 20. 0.25

0.25 61. 0.41

0.41 112. 0.65

0.65 186. 0.90

0.99 322. 1.64

1.50 502. 1.93

Output Torque Nm

57.

105.

185.

263.

549.

653.

Efficiency %

42

50

56

58

66

68

Input Power kW Output Torque Nm Input Power kW

0.07 16. 0.21

0.18 50. 0.34

0.29 88. 0.53

0.49 150. 0.71

0.71 253. 1.28

1.12 411. 1.50

Output Torque Nm

51.

102.

168.

226.

470.

561.

Efficiency %

38

48

52

53

62

64

58

SERIES AJ

RATINGS AT 1160 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

CAPACITY Mechanical

75.0

15.47

100.

11.60

125.

9.28

150.

7.73

200.

5.80

225.

5.16

250.

4.64

300.

3.87

350.

3.31

375.

3.09

400.

2.90

450.

2.58

500.

2.32

600.

1.93

625.

1.86

700.

1.66

750.

1.55

800.

1.45

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

SINGLE REDUCTION

Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

59

SIZE OF UNIT A0410

A0510

A0610

A0730

A0860

0.40 158. 0.70 279. 63 0.25 125. 0.67 355. 60 0.30 172. 0.48 277. 53 0.27 184. 0.61 436. 55 0.16 133. 0.59 560. 51 0.21 189. 0.58 540. 51 0.20 189. 0.42 428. 45 0.19 189. 0.48 524. 42 0.15 189. 0.40 530. 41 0.06 57. 0.25 295. 30 0.11 138. 0.48 689. 38 0.14 189. 0.38 564. 38 0.14 189. 0.42 664. 33 0.12 189. 0.40 707. 31 0.12 189. 0.42 777. 31 0.08 119. 0.21 371. 24 0.11 189. 0.39 829. 29 0.08 143. 0.34 755. 26

0.54 226. 1.26 535. 66 0.54 270. 0.81 405. 58 0.50 297. 0.72 430. 55 0.36 268. 0.91 691. 59 0.36 309. 0.70 627. 50 0.30 282. 0.75 738. 55 0.30 309. 0.63 668. 47 0.26 285. 0.50 573. 46 0.24 309. 0.61 825. 44 0.09 100. 0.39 484. 35 0.24 309. 0.50 668. 39 0.21 309. 0.60 946. 42 0.21 309. 0.50 791. 36 0.18 309. 0.50 919. 34 0.18 309. 0.46 859. 34 0.08 115. 0.22 410. 24 0.16 309. 0.46 999. 32 0.16 309. 0.35 724. 29

0.94 406. 1.63 715. 66 0.91 468. 1.17 610. 59 0.80 487. 1.04 639. 56 0.61 474. 1.38 1110. 60 0.55 501. 0.99 931. 53 0.51 501. 1.32 1370. 55 0.47 501. 0.88 976. 49 0.39 501. 1.24 1680. 53 0.37 501. 0.84 1200. 45 0.17 171. 0.56 681. 33 0.34 501. 0.89 1400. 46 0.33 501. 0.79 1270. 42 0.29 501. 0.79 1460. 43 0.26 501. 0.74 1560. 40 0.27 501. 0.83 1740. 36 0.19 359. 0.44 961. 35 0.24 501. 0.77 1840. 34 0.23 501. 0.71 1780. 34

1.17 526. 2.16 992. 72 1.03 603. 1.96 1160. 69 0.90 603. 1.44 984. 62 0.74 603. 1.46 1220. 65 0.58 603. 1.46 1580. 62 0.58 603. 1.15 1240. 60 0.51 603. 1.27 1570. 55 0.45 603. 1.07 1510. 58 0.41 603. 1.15 1830. 50 0.23 288. 0.62 875. 41 0.36 603. 1.07 1950. 54 0.35 603. 1.15 2130. 48 0.32 603. 1.07 2210. 47 0.28 603. 1.07 2580. 45 0.29 603. 0.77 1780. 41 0.18 391. 0.34 800. 36 0.25 603. 0.77 2080. 38 0.24 603. 0.63 1800. 40

2.22 950. 2.49 1070. 75 1.67 921. 2.13 1180. 72 1.48 950. 1.56 1000. 65 1.13 950. 1.98 1690. 67 0.89 950. 1.70 1880. 64 0.86 950. 1.79 2030. 64 0.78 950. 1.26 1580. 57 0.71 950. 1.20 1650. 56 0.37 466. 0.66 884. 46 0.60 950. 1.18 1950. 54 0.56 950. 1.20 2120. 52 0.52 950. 1.12 2150. 52 0.50 950. 1.20 2410. 46 0.44 950. 1.18 2760. 44 0.43 950. 1.08 2570. 43 0.30 674. 0.47 1140. 41 0.38 950. 1.08 3000. 41 0.34 950. 0.92 2840. 44

SERIES AJ

RATINGS AT 1160 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN Mechanical

900.

1.29

1000.

1.16

1200.

0.97

1250.

0.93

1400.

0.83

1500.

0.77

1600.

0.73

1750.

0.66

1800.

0.64

2000.

0.58

2100.

0.55

2400.

0.48

2500.

0.46

2800.

0.41

3000.

0.39

3500.

0.33

3600.

0.32

4200.

0.28

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical

SINGLE REDUCTION

SIZE OF UNIT

CAPACITY

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

60

A0410

A0510

A0610

A0730

A0860

0.10 189. 0.39 946. 27 0.10 189. 0.34 813. 24 0.09 189. 0.34 923. 21 0.08 189. 0.29 828. 22 0.07 147. 0.21 620. 19 0.08 189. 0.29 939. 20 0.06 143. 0.34 1140. 17 0.08 189. 0.21 665. 17 0.07 189. 0.25 860. 17 0.06 145. 0.29 1160. 16 0.07 189. 0.21 753. 16 0.06 147. 0.25 1060. 13 0.04 104. 0.29 1370. 12 0.05 148. 0.21 926. 12 0.04 106. 0.25 1250. 10 0.04 107. 0.21 1100. 9 0.04 81. 0.25 1320. 7 0.04 81. 0.21 1150. 6

0.14 309. 0.43 1060. 30 0.14 309. 0.35 854. 26 0.13 309. 0.35 993. 25 0.12 309. 0.30 869. 25 0.08 175. 0.22 625. 19 0.11 309. 0.30 1010. 23 0.09 262. 0.35 1250. 21 0.08 207. 0.22 737. 18 0.10 302. 0.27 958. 20 0.08 266. 0.30 1270. 20 0.08 240. 0.22 857. 17 0.08 269. 0.27 1210. 17 0.06 191. 0.30 1440. 15 0.07 272. 0.22 1080. 16 0.06 193. 0.27 1360. 13 0.06 195. 0.22 1220. 12 0.05 148. 0.27 1560. 10 0.05 150. 0.22 1390. 9

0.21 501. 0.77 2090. 32 0.20 501. 0.71 2090. 31 0.18 501. 0.71 2370. 28 0.17 501. 0.61 2110. 28 0.16 501. 0.44 1570. 27 0.16 501. 0.61 2390. 26 0.14 432. 0.70 2900. 24 0.15 501. 0.44 1850. 24 0.15 501. 0.51 2140. 23 0.12 438. 0.61 2940. 22 0.13 501. 0.44 2100. 22 0.12 444. 0.51 2620. 19 0.09 317. 0.61 3400. 17 0.11 448. 0.44 2570. 18 0.09 321. 0.51 3040. 15 0.08 324. 0.44 2980. 14 0.07 245. 0.51 3470. 11 0.07 247. 0.44 3400. 11

0.23 603. 0.71 2160. 36 0.21 603. 0.63 2020. 34 0.19 603. 0.63 2360. 32 0.19 603. 0.49 1820. 32 0.17 603. 0.34 1350. 32 0.16 603. 0.49 2120. 30 0.16 603. 0.63 2920. 29 0.16 603. 0.34 1510. 27 0.16 603. 0.39 1820. 26 0.14 603. 0.49 2630. 26 0.14 603. 0.34 1760. 25 0.13 603. 0.39 2260. 23 0.12 553. 0.49 3130. 23 0.12 603. 0.34 2170. 22 0.11 559. 0.39 2690. 20 0.10 565. 0.34 2590. 19 0.09 425. 0.39 2960. 16 0.08 428. 0.34 2850. 15

0.33 950. 1.02 3280. 39 0.31 950. 0.92 3190. 38 0.27 950. 0.92 3730. 36 0.27 950. 0.67 2610. 34 0.24 950. 0.47 2060. 35 0.24 950. 0.67 3040. 32 0.22 950. 0.92 4630. 32 0.22 950. 0.47 2300. 30 0.21 950. 0.58 3000. 30 0.20 950. 0.67 3770. 29 0.19 950. 0.47 2690. 28 0.18 950. 0.58 3710. 27 0.17 866. 0.67 4400. 25 0.16 950. 0.47 3320. 25 0.15 876. 0.58 4320. 23 0.14 884. 0.47 3870. 22 0.12 662. 0.58 4860. 19 0.11 668. 0.47 4350. 18

SERIES AJ

RATINGS AT 960 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

CAPACITY Mechanical

5.0

192.00

Thermal

Mechanical 7.5

128.00

Thermal

Mechanical 10.0

96.00

Thermal

Mechanical 12.5

76.80

Thermal

Mechanical

SINGLE REDUCTION

15.0

64.00

Thermal

Mechanical 20.0

48.00

Thermal

Mechanical 25.0

38.40

Thermal

Mechanical 30.0

32.00

Thermal

Mechanical 40.0

24.00

Thermal

Mechanical 50.0

19.20

Thermal

Mechanical 60.0

16.00

Thermal

Mechanical 70.0

13.71

Thermal

Input Power kW Output Torque Nm Input Power kW

SIZE OF UNIT A0280 0.53 24. 1.32

A0410 1.20 55. 2.05

A0510 2.60 111. 3.31

A0610 3.91 175. 4.71

A0730 5.55 266. 8.97

A0860 9.66 434. 10.90

Output Torque Nm

61.

95.

142.

211.

432.

490.

Efficiency %

87

87

89

90

93

93

Input Power kW Output Torque Nm Input Power kW

0.47 29. 1.08

1.05 65. 1.72

1.81 115. 2.73

2.79 180. 4.02

4.20 277. 7.79

6.40 425. 9.28

Output Torque Nm

67.

108.

174.

260.

516.

618.

Efficiency %

84

85

87

88

91

92

Input Power kW Output Torque Nm Input Power kW

0.43 35. 0.83

1.03 89. 1.39

1.81 158. 2.13

2.46 204. 3.48

3.45 318. 6.45

5.58 486. 7.80

Output Torque Nm

70.

120.

187.

291.

599.

681.

Efficiency %

79

82

84

86

90

91

Input Power kW Output Torque Nm Input Power kW

0.39 36. 0.71

0.95 94. 1.20

1.59 162. 1.90

2.50 260. 2.81

3.69 403. 5.24

5.01 564. 6.94

Output Torque Nm

68.

120.

194.

292.

574.

784.

Efficiency %

76

80

82

84

88

89

Input Power kW Output Torque Nm Input Power kW

0.35 38. 0.70

0.91 102. 1.10

1.41 166. 1.85

2.14 261. 2.52

3.29 412. 4.91

4.99 631. 5.83

Output Torque Nm

77.

124.

218.

307.

617.

737.

Efficiency %

76

78

82

82

87

88

Input Power kW Output Torque Nm Input Power kW

0.31 40. 0.47

0.69 102. 1.02

1.36 198. 1.25

2.17 325. 1.85

2.45 400. 4.14

3.69 609. 4.89

Output Torque Nm

61.

152.

181.

276.

682.

810.

Efficiency %

65

76

73

75

84

85

Input Power kW Output Torque Nm Input Power kW

0.28 43. 0.43

0.69 116. 0.74

1.14 198. 1.13

1.80 323. 1.65

2.48 485. 2.95

3.55 703. 3.48

Output Torque Nm

68.

126.

195.

296.

579.

688.

Efficiency %

62

68

69

72

79

80

Input Power kW Output Torque Nm Input Power kW

0.23 40. 0.40

0.60 117. 0.68

0.94 190. 1.06

1.45 300. 1.49

2.10 480. 2.74

3.18 739. 3.24

Output Torque Nm

73.

132.

215.

308.

631.

756.

Efficiency %

59

65

68

69

77

78

Input Power kW Output Torque Nm Input Power kW

0.16 33. 0.33

0.45 107. 0.61

0.71 180. 0.96

1.07 276. 1.31

1.52 441. 2.36

2.32 684. 2.79

Output Torque Nm

70.

148.

248.

340.

690.

828.

Efficiency %

51

60

64

65

73

74

Input Power kW Output Torque Nm Input Power kW

0.11 26. 0.27

0.29 81. 0.47

0.51 148. 0.70

0.82 246. 0.98

1.19 414. 1.77

1.75 613. 2.02

Output Torque Nm

68.

134.

207.

297.

623.

709.

Efficiency %

47

56

59

61

70

70

Input Power kW Output Torque Nm Input Power kW

0.08 20. 0.23

0.21 62. 0.38

0.35 115. 0.61

0.56 189. 0.85

0.84 328. 1.45

1.29 512. 1.69

Output Torque Nm

63.

118.

207.

296.

576.

679.

Efficiency %

42

49

55

57

65

67

Input Power kW Output Torque Nm Input Power kW

0.06 16. 0.19

0.16 51. 0.32

0.25 90. 0.50

0.42 153. 0.67

0.61 258. 1.13

0.96 419. 1.32

Output Torque Nm

56.

114.

188.

255.

494.

584.

Efficiency %

38

47

52

53

61

63

61

SERIES AJ

RATINGS AT 960 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN Mechanical

75.0

12.80

100.

9.60

125.

7.68

150.

6.40

200.

4.80

225.

4.27

250.

3.84

300.

3.20

350.

2.74

375.

2.56

400.

2.40

450.

2.13

500.

1.92

600.

1.60

625.

1.54

700.

1.37

750.

1.28

800.

1.20

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical

SINGLE REDUCTION

SIZE OF UNIT

CAPACITY

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

62

A0410

A0510

A0610

A0730

A0860

0.35 165. 0.65 313. 62 0.21 127. 0.63 399. 59 0.26 179. 0.45 310. 52 0.23 189. 0.58 494. 54 0.13 134. 0.56 636. 50 0.18 189. 0.55 616. 50 0.16 189. 0.40 485. 44 0.16 189. 0.43 566. 42 0.13 189. 0.38 604. 41 0.05 58. 0.24 340. 30 0.10 140. 0.43 744. 37 0.12 189. 0.36 644. 38 0.12 189. 0.41 759. 33 0.10 189. 0.38 809. 30 0.10 189. 0.40 880. 31 0.07 121. 0.19 411. 24 0.09 189. 0.38 951. 28 0.07 144. 0.31 816. 26

0.49 242. 1.19 601. 66 0.49 288. 0.76 454. 57 0.44 309. 0.68 485. 54 0.31 276. 0.82 741. 58 0.30 309. 0.67 709. 49 0.25 285. 0.68 797. 54 0.26 309. 0.60 755. 46 0.22 284. 0.45 616. 45 0.20 309. 0.58 938. 43 0.08 101. 0.37 559. 35 0.20 309. 0.45 716. 38 0.17 309. 0.57 1080. 41 0.18 309. 0.45 846. 36 0.15 309. 0.45 984. 34 0.15 309. 0.41 921. 33 0.07 117. 0.21 452. 24 0.13 309. 0.41 1070. 31 0.14 309. 0.32 779. 28

0.83 425. 1.54 807. 66 0.79 485. 1.10 682. 59 0.69 501. 0.97 714. 56 0.53 492. 1.31 1260. 59 0.46 501. 0.94 1050. 52 0.42 501. 1.20 1490. 55 0.39 501. 0.83 1100. 49 0.33 501. 1.13 1830. 52 0.31 501. 0.80 1360. 44 0.14 173. 0.54 786. 33 0.29 501. 0.85 1590. 45 0.28 501. 0.75 1450. 41 0.25 501. 0.75 1670. 42 0.22 501. 0.71 1770. 39 0.22 501. 0.79 1970. 36 0.16 364. 0.41 1070. 34 0.20 501. 0.74 2100. 33 0.19 501. 0.64 1910. 33

1.04 564. 1.99 1090. 72 0.87 603. 1.85 1310. 68 0.75 603. 1.36 1110. 61 0.62 603. 1.35 1350. 64 0.49 603. 1.35 1750. 61 0.49 603. 1.07 1370. 59 0.43 603. 1.19 1760. 54 0.38 603. 0.99 1670. 57 0.34 603. 1.07 2020. 49 0.20 291. 0.59 990. 41 0.30 603. 0.99 2150. 54 0.30 603. 1.07 2350. 47 0.27 603. 0.99 2440. 47 0.23 603. 0.99 2840. 45 0.24 603. 0.70 1920. 40 0.16 397. 0.32 902. 36 0.21 603. 0.70 2230. 38 0.20 603. 0.57 1960. 39

1.86 950. 2.26 1160. 74 1.44 950. 1.94 1280. 71 1.25 950. 1.42 1080. 64 0.95 950. 1.87 1910. 66 0.74 950. 1.62 2130. 63 0.72 950. 1.66 2240. 63 0.65 950. 1.20 1780. 56 0.60 950. 1.11 1820. 55 0.31 471. 0.60 962. 45 0.50 950. 1.14 2250. 53 0.48 950. 1.11 2350. 52 0.43 950. 1.08 2490. 51 0.42 950. 1.11 2660. 45 0.37 950. 1.11 3110. 43 0.36 950. 1.00 2840. 42 0.25 684. 0.45 1280. 40 0.32 950. 1.00 3320. 40 0.28 950. 0.86 3150. 43

SERIES AJ

RATINGS AT 960 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

CAPACITY Mechanical

900.

1.07

1000.

0.96

1200.

0.80

1250.

0.77

1400.

0.69

1500.

0.64

1600.

0.60

1750.

0.55

1800.

0.53

2000.

0.48

2100.

0.46

2400.

0.40

2500.

0.38

2800.

0.34

3000.

0.32

3500.

0.27

3600.

0.27

4200.

0.23

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

SINGLE REDUCTION

Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

63

SIZE OF UNIT A0410

A0510

A0610

A0730

A0860

0.08 189. 0.37 1060. 26 0.08 189. 0.31 878. 23 0.07 189. 0.31 996. 21 0.07 189. 0.27 895. 22 0.06 149. 0.19 685. 19 0.06 189. 0.27 1010. 20 0.05 145. 0.31 1220. 17 0.06 189. 0.19 733. 17 0.06 189. 0.23 944. 17 0.05 147. 0.27 1250. 16 0.06 189. 0.19 831. 16 0.05 148. 0.23 1160. 13 0.04 106. 0.27 1480. 12 0.04 150. 0.19 1020. 12 0.04 107. 0.23 1370. 10 0.03 108. 0.19 1210. 9 0.03 82. 0.23 1440. 7 0.03 82. 0.19 1270. 6

0.12 309. 0.39 1140. 30 0.12 309. 0.32 918. 26 0.11 309. 0.32 1070. 24 0.10 309. 0.28 938. 24 0.07 178. 0.21 688. 19 0.09 309. 0.28 1090. 23 0.08 265. 0.32 1340. 21 0.07 209. 0.21 811. 18 0.09 306. 0.24 1040. 20 0.07 269. 0.28 1370. 20 0.07 243. 0.21 942. 17 0.07 272. 0.24 1300. 17 0.05 193. 0.28 1550. 15 0.06 275. 0.21 1180. 16 0.05 195. 0.24 1470. 13 0.05 197. 0.21 1340. 12 0.04 150. 0.24 1680. 11 0.04 151. 0.21 1530. 10

0.18 501. 0.72 2330. 31 0.17 501. 0.64 2250. 30 0.15 501. 0.64 2560. 28 0.14 501. 0.55 2280. 28 0.14 501. 0.41 1750. 26 0.13 501. 0.55 2590. 26 0.12 437. 0.64 3140. 24 0.12 501. 0.41 2060. 24 0.13 501. 0.46 2310. 22 0.10 444. 0.55 3180. 22 0.11 501. 0.41 2340. 22 0.10 449. 0.46 2840. 19 0.07 321. 0.55 3680. 17 0.09 453. 0.41 2870. 18 0.07 324. 0.46 3290. 15 0.07 327. 0.41 3320. 14 0.06 248. 0.46 3750. 12 0.05 250. 0.41 3790. 11

0.19 603. 0.64 2330. 35 0.18 603. 0.57 2190. 34 0.16 603. 0.57 2550. 32 0.16 603. 0.45 2030. 31 0.14 603. 0.32 1520. 31 0.14 603. 0.45 2360. 29 0.13 603. 0.57 3160. 28 0.13 603. 0.32 1690. 26 0.13 603. 0.37 2040. 26 0.12 603. 0.45 2920. 26 0.12 603. 0.32 1970. 25 0.11 603. 0.37 2520. 23 0.10 560. 0.45 3480. 23 0.10 603. 0.32 2440. 22 0.10 566. 0.37 3000. 20 0.09 571. 0.32 2900. 19 0.08 429. 0.37 3310. 16 0.07 433. 0.32 3190. 15

0.28 950. 0.95 3620. 38 0.26 950. 0.86 3530. 37 0.23 950. 0.86 4120. 35 0.23 950. 0.62 2900. 34 0.20 950. 0.45 2310. 35 0.20 950. 0.62 3380. 32 0.19 950. 0.86 5110. 32 0.19 950. 0.45 2580. 29 0.18 950. 0.54 3340. 30 0.17 950. 0.62 4190. 28 0.16 950. 0.45 3010. 28 0.15 950. 0.54 4130. 26 0.14 876. 0.62 4880. 25 0.14 950. 0.45 3720. 25 0.13 886. 0.54 4810. 23 0.12 894. 0.45 4330. 22 0.10 669. 0.54 5410. 19 0.09 675. 0.45 4860. 18

SERIES AJ

RATINGS AT 725 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN Mechanical

5.0

145.00

Thermal

Mechanical 7.5

96.67

Thermal

Mechanical 10.0

72.50

Thermal

Mechanical 12.5

58.00

Thermal

Mechanical

SINGLE REDUCTION

15.0

48.33

Thermal

Mechanical 20.0

36.25

Thermal

Mechanical 25.0

29.00

Thermal

Mechanical 30.0

24.17

Thermal

Mechanical 40.0

18.13

Thermal

Mechanical 50.0

14.50

Thermal

Mechanical 60.0

12.08

Thermal

Mechanical 70.0

10.36

SIZE OF UNIT

CAPACITY

Thermal

A0280

Input Power kW Output Torque Nm Input Power kW

0.44 27. 1.14

A0410 1.01 61. 1.81

A0510 2.21 124. 2.91

A0610 3.32 195. 4.17

A0730 4.70 297. 7.24

A0860 8.21 486. 8.66

Output Torque Nm

69.

110.

164.

246.

459.

513.

Efficiency %

86

87

89

89

92

93

Input Power kW Output Torque Nm Input Power kW

0.40 32. 0.94

0.88 72. 1.53

1.52 127. 2.42

2.35 199. 3.58

3.54 308. 6.30

5.40 472. 7.40

Output Torque Nm

76.

126.

203.

304.

550.

648.

Efficiency %

83

85

87

88

91

92

Input Power kW Output Torque Nm Input Power kW

0.36 39. 0.73

0.86 97. 1.24

1.52 175. 1.89

2.07 226. 3.11

2.89 351. 5.23

4.70 539. 6.24

Output Torque Nm

80.

140.

218.

341.

638.

716.

Efficiency %

79

82

83

86

89

90

Input Power kW Output Torque Nm Input Power kW

0.32 40. 0.61

0.80 103. 1.07

1.34 178. 1.69

2.11 287. 2.52

3.11 445. 4.26

4.21 623. 5.56

Output Torque Nm

76.

140.

226.

343.

612.

825.

Efficiency %

75

79

81

83

87

89

Input Power kW Output Torque Nm Input Power kW

0.29 42. 0.61

0.77 112. 0.98

1.19 182. 1.65

1.81 287. 2.26

2.76 454. 3.99

4.20 697. 4.68

Output Torque Nm

88.

145.

255.

361.

659.

776.

Efficiency %

75

77

80

80

86

87

Input Power kW Output Torque Nm Input Power kW

0.26 44. 0.40

0.57 110. 0.91

1.13 213. 1.12

1.75 340. 1.67

2.06 440. 3.38

3.11 671. 3.93

Output Torque Nm

69.

178.

211.

324.

728.

853.

Efficiency %

64

75

72

74

83

84

Input Power kW Output Torque Nm Input Power kW

0.23 47. 0.37

0.58 127. 0.67

0.96 217. 1.01

1.52 355. 1.48

2.09 534. 2.42

3.00 774. 2.81

Output Torque Nm

76.

147.

228.

346.

619.

725.

Efficiency %

61

67

68

71

78

78

Input Power kW Output Torque Nm Input Power kW

0.19 44. 0.35

0.51 127. 0.61

0.79 208. 0.95

1.23 328. 1.35

1.76 526. 2.25

2.68 811. 2.63

Output Torque Nm

82.

155.

251.

363.

675.

796.

Efficiency %

58

63

66

67

76

77

Input Power kW Output Torque Nm Input Power kW

0.13 34. 0.29

0.37 115. 0.55

0.59 196. 0.87

0.90 300. 1.19

1.28 481. 1.94

1.95 747. 2.27

Output Torque Nm

78.

173.

290.

400.

737.

873.

Efficiency %

50

59

63

63

71

73

Input Power kW Output Torque Nm Input Power kW

0.09 27. 0.24

0.23 83. 0.42

0.40 152. 0.63

0.65 253. 0.89

0.98 442. 1.47

1.47 666. 1.65

Output Torque Nm

78.

158.

243.

351.

668.

750.

Efficiency %

47

55

57

59

69

69

Input Power kW Output Torque Nm Input Power kW

0.06 20. 0.21

0.17 64. 0.35

0.28 118. 0.55

0.44 195. 0.78

0.67 337. 1.20

1.02 526. 1.38

Output Torque Nm

72.

139.

243.

350.

619.

719.

Efficiency %

41

48

54

56

64

65

Input Power kW Output Torque Nm Input Power kW

0.05 16. 0.17

0.12 52. 0.30

0.20 92. 0.45

0.33 157. 0.62

0.48 265. 0.94

0.76 430. 1.08

Output Torque Nm

65.

136.

222.

303.

532.

620.

Efficiency %

37

46

51

51

60

61

64

SERIES AJ

RATINGS AT 725 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

CAPACITY Mechanical

75.0

9.67

100.

7.25

125.

5.80

150.

4.83

200.

3.63

225.

3.22

250.

2.90

300.

2.42

350.

2.07

375.

1.93

400.

1.81

450.

1.61

500.

1.45

600.

1.21

625.

1.16

700.

1.04

750.

0.97

800.

0.91

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

SINGLE REDUCTION

Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

65

SIZE OF UNIT A0410

A0510

A0610

A0730

A0860

0.29 176. 0.60 377. 61 0.17 130. 0.58 479. 58 0.22 189. 0.41 371. 51 0.18 189. 0.54 598. 53 0.10 137. 0.53 773. 50 0.14 189. 0.52 752. 49 0.13 189. 0.37 587. 43 0.12 189. 0.37 632. 41 0.10 189. 0.36 737. 40 0.04 59. 0.23 424. 30 0.07 142. 0.37 832. 37 0.09 189. 0.34 786. 37 0.09 189. 0.37 899. 32 0.08 189. 0.36 992. 30 0.08 189. 0.35 982. 30 0.05 124. 0.17 475. 24 0.07 189. 0.35 1110. 28 0.05 146. 0.27 917. 26

0.40 259. 1.09 721. 65 0.40 309. 0.70 544. 56 0.34 309. 0.63 579. 52 0.25 285. 0.71 835. 57 0.23 309. 0.62 855. 48 0.19 285. 0.59 892. 53 0.20 309. 0.56 911. 45 0.17 284. 0.39 688. 45 0.16 309. 0.54 1140. 42 0.06 103. 0.36 699. 34 0.16 309. 0.39 796. 37 0.14 309. 0.54 1310. 40 0.14 309. 0.39 940. 34 0.12 309. 0.39 1090. 33 0.12 309. 0.36 1030. 32 0.05 119. 0.19 522. 23 0.10 309. 0.36 1190. 31 0.11 309. 0.28 871. 27

0.68 452. 1.41 962. 65 0.63 501. 1.00 809. 58 0.53 501. 0.89 848. 54 0.42 501. 1.22 1520. 58 0.36 501. 0.87 1260. 51 0.33 501. 1.04 1670. 53 0.31 501. 0.77 1330. 48 0.25 501. 0.98 2060. 51 0.24 501. 0.75 1650. 43 0.11 176. 0.52 982. 33 0.22 501. 0.79 1930. 44 0.22 501. 0.70 1750. 40 0.19 501. 0.71 2030. 41 0.17 501. 0.66 2150. 38 0.17 501. 0.68 2200. 35 0.12 372. 0.37 1260. 34 0.16 501. 0.68 2500. 33 0.15 501. 0.56 2150. 32

0.68 603. 1.76 1260. 70 0.67 603. 1.74 1600. 67 0.58 603. 1.27 1350. 60 0.4 603. 1.20 1570. 63 0.37 603. 1.20 2020. 60 0.37 603. 0.92 1540. 58 0.33 603. 1.10 2090. 53 0.29 603. 0.78 1900. 56 0.26 603. 0.92 2250. 48 0.15 296. 0.55 1210. 40 0.23 603. 0.87 2450. 53 0.23 603. 0.92 2630. 46 0.21 603. 0.87 2760. 46 0.1 603. 0.87 3220. 44 0.19 603. 0.61 2140. 39 0.12 405. 0.29 1070. 35 0.17 603. 0.61 2500. 37 0.15 603. 0.50 2210. 38

1.43 950. 2.07 1380. 72 1.11 950. 1.78 1530. 69 0.97 950. 1.30 1290. 62 8 0.73 950. 1.69 2240. 65 0.57 950. 1.52 2600. 61 0.56 950. 1.48 2600. 62 0.51 950. 1.13 2180. 54 0.47 950. 1.00 2120. 53 0.25 478. 0.56 1160. 44 0.39 950. 1.10 2800. 51 0.37 950. 1.00 2730. 50 0.34 950. 1.04 3110. 49 0.33 950. 1.00 3080. 44 8 0.29 950. 1.00 3600. 42 0.28 950. 0.91 3290. 41 0.20 698. 0.41 1520. 39 0.25 950. 0.91 3840. 39 0.22 950. 0.78 3660. 42

SERIES AJ

RATINGS AT 725 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN Mechanical

900.

0.81

1000.

0.73

1200.

0.60

1250.

0.58

1400.

0.52

1500.

0.48

1600.

0.45

1750.

0.41

1800.

0.40

2000.

0.36

2100.

0.35

2400.

0.30

2500.

0.29

2800.

0.26

3000.

0.24

3500.

0.21

3600.

0.20

4200.

0.17

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical

SINGLE REDUCTION

SIZE OF UNIT

CAPACITY

Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal Mechanical Thermal

Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency % Input Power kW Output Torque Nm Input Power kW Output Torque Nm Efficiency %

66

A0410

A0510

A0610

A0730

A0860

0.06 189. 0.32 1190. 26 0.06 189. 0.27 984. 23 0.06 189. 0.27 1120. 21 0.05 189. 0.23 1010. 21 0.04 152. 0.17 793. 19 0.05 189. 0.23 1140. 19 0.04 147. 0.27 1370. 17 0.05 189. 0.17 846. 17 0.05 189. 0.21 1080. 17 0.04 149. 0.23 1400. 16 0.04 189. 0.17 959. 15 0.04 151. 0.21 1330. 13 0.03 107. 0.23 1660. 12 0.03 152. 0.17 1180. 12 0.03 109. 0.21 1570. 10 0.03 109. 0.17 1390. 9 0.02 83. 0.21 1650. 7 0.02 84. 0.17 1460. 7

0.09 309. 0.34 1270. 29 0.09 309. 0.28 1030. 25 0.08 309. 0.28 1190. 24 0.08 309. 0.24 1060. 24 0.05 181. 0.19 792. 19 0.07 309. 0.24 1230. 22 0.06 270. 0.28 1500. 21 0.05 213. 0.19 932. 18 0.07 309. 0.21 1170. 20 0.05 274. 0.24 1540. 19 0.05 247. 0.19 1080. 17 0.05 277. 0.21 1470. 17 0.04 196. 0.24 1740. 15 0.05 279. 0.19 1360. 16 0.04 198. 0.21 1660. 13 0.04 200. 0.19 1540. 12 0.03 152. 0.21 1890. 11 0.03 154. 0.19 1750. 10

0.14 501. 0.63 2610. 30 0.13 501. 0.56 2530. 29 0.12 501. 0.56 2870. 27 0.11 501. 0.49 2580. 27 0.11 501. 0.37 2060. 26 0.10 501. 0.49 2930. 25 0.09 445. 0.56 3520. 23 0.09 501. 0.37 2420. 23 0.10 501. 0.41 2620. 22 0.08 452. 0.49 3590. 22 0.09 501. 0.37 2740. 21 0.08 457. 0.41 3210. 19 0.06 326. 0.49 4160. 17 0.07 461. 0.37 3360. 18 0.06 330. 0.41 3720. 15 0.05 332. 0.37 3880. 14 0.05 252. 0.41 4240. 12 0.04 254. 0.37 4430. 11

0.15 603. 0.56 2610. 35 0.14 603. 0.50 2460. 33 0.12 603. 0.50 2870. 31 0.12 603. 0.41 2370. 31 0.11 603. 0.29 1810. 30 0.11 603. 0.41 2760. 29 0.10 603. 0.50 3550. 28 0.10 603. 0.29 2000. 26 0.10 603. 0.34 2400. 25 0.09 603. 0.41 3420. 26 0.09 603. 0.29 2330. 24 0.09 603. 0.34 2960. 22 0.08 569. 0.41 4070. 23 0.08 603. 0.29 2880. 21 0.07 575. 0.34 3530. 20 0.07 580. 0.29 3430. 19 0.06 436. 0.34 3880. 16 0.05 440. 0.29 3770. 15

0.21 950. 0.85 4190. 37 0.20 950. 0.78 4090. 36 0.17 950. 0.78 4780. 35 0.18 950. 0.57 3380. 33 0.16 950. 0.41 2740. 34 0.16 950. 0.57 3950. 31 0.15 950. 0.78 5920. 31 0.14 950. 0.41 3040. 29 0.14 950. 0.50 3910. 29 0.13 950. 0.57 4890. 28 0.13 950. 0.41 3540. 27 0.12 950. 0.50 4840. 26 0.11 891. 0.57 5690. 25 0.11 950. 0.41 4380. 24 0.10 900. 0.50 5630. 23 0.09 908. 0.41 5090. 22 0.07 680. 0.50 6320. 19 0.07 686. 0.41 5720. 18

SERIES AJ

RATINGS AT 480 REV/MIN INPUT NOMINAL RATIO

NOMINAL OUTPUT SPEED REV / MIN

CAPACITY Mechanical

5.0

96.00

Thermal

Mechanical 7.5

64.00

Thermal

Mechanical 10.0

48.00

Thermal

Mechanical 12.5

38.40

Thermal

Mechanical 15.0

32.00

Thermal

Input Power kW Output Torque Nm Input Power kW

SINGLE REDUCTION

20.0

24.00

Thermal

Mechanical 25.0

19.20

Thermal

Mechanical 30.0

16.00

Thermal

Mechanical 40.0

12.00

Thermal

Mechanical 50.0

9.60

Thermal

Mechanical 60.0

8.00

Thermal

Mechanical 70.0

6.86

Thermal

0.34 30. 0.93

A0410 0.78 70. 1.52

A0510 1.71 144. 2.43

A0610 2.57 226. 3.52

A0730 3.65 345. 5.33

A0860 6.35 563. 6.22

Output Torque Nm