627F Instruction Manual Sept 1990 by RMC Process Controls & Filtration, LLC.

Type 627F

Instruction Manual

Fisher Controls Controls

Type 627F Pilot-Operated Pressur Pressure e Reducing Regulator R

September 1990

Introduction Introduction

Form 5282

pressure control in a wide variety of applications using pressure factor measurement (fixed factor billing). The regulator can be used with natural gas, air, or a variety of other gases.

Scope of Manual This manual provides instructions for installation, adjustment, maintenance, and parts ordering for the Type 627F regulator.

Description The Type 627F pilot-operated (Type 6351F pilot) pressure reducing regulator (figure 1) provides economical, accurate

Specifications Table 1 gives some general specifications for the Type 627F regulator. The nameplates (figure 2) give detailed information for a particular regulator as it comes from the factory.

W5607-1 W5641-1

d101545X012

Figure 1. Type 627F Pressure Reducing Regulators

Type 627F Table 1. Specifications Body Sizes 3/4, 1, or 2-inch End Connection Styles(1) NPT screwed with 3/4, 1, or 2-inch sizes ANSI Class 300 and 600 raised face (RF) flanged with 1 or 2-inch sizes Maximum Inlet Pressure and Maximum Pressure Differential(2) See table 2 Minimum Pressure Differential ACTUATOR SPRING AND (COLOR CODE) Low Differential (Silver) High Differential (Red)

PILOT CONTROL SPRING AND (COLOR CODE) 5 to 35 Psig 35 to 100 Psig (Silver) (Red) 10 Psi

20 Psi

Outlet Pressure Ranges (2) J 5 to 35 psig range (0.34 to 2.4 bar), J 35 to 100 psig range (2.4 to 6.9 bar)

Maximum Emergency Outlet Pressure(2) 250 psig (17.2 bar) for all Type 627F actuators and Type 6351F pilot components. Orifice Sizes J 3/8 x 1/8, J 3/8 x 1/4, J 3/8 and J 1/2-inch Temperature Capabilities(1) -20 to 180_F (-29 to 82_C) Pilot Connections Supply: 1/4-inch NPT female Sense: 1/4-inch NPT female Body Tap Connection 1/4-inch NPT female (ductile iron body only) Approximate Weight NPT body with Ductile Iron or Steel Casings: 10 pounds (4.5 kg) NPT body with Aluminum Casings: 6.3 pounds (2.8 kg) Flanged body with Steel Casings: 18 pounds (8.2 kg) Flanged body with Ductile Iron Casings: 14 pounds (6.4 kg)

1. End connections threaded to other than ANSI standards can usually be supplied. Consult your Fisher sales office or sales representative. 2. The pressure/temperature limits in this manual and any applicable standard or code limitation should not be exceeded.

WARNING

Personal injury, property damage, equipment damage, or leakage due to escaping gas or bursting of pressure-containing parts may result if this regulator is overpressured or is installed where service conditions could exceed the limits given in tables 1, 2, and 3 or where conditions exceed any ratings of the adjacent piping or piping connections To avoid such injury or damage, provide pressure-relieving or pressure-limiting devices (as required by the appropriate code, regulation, or standard) to prevent service conditions from exceeding those limits. Additionally, physical damage to the regulator could cause personal injury or property damage due to escaping gas. To avoid such injury or damage, install the regulator in a safe location.

10B3679-d

Figure 2. Nameplates

Type 627F Table 2. Maximum Allowable Inlet Pressures and Pressure Differential ORIFICE SIZE INCHES

3/8 x 1/8 3/8 x 1/4 3/8 1/2

LOW DIFFERENTIAL TENSION SPRING, SILVER COLOR CODE Maximum Maximum Inlet Pressure Pressure, Differential, Psig Psi 100 100 100 100 100 100 60 60

HIGH DIFFERENTIAL TENSION SPRING, RED COLOR CODE Maximum Maximum Inlet Pressure Pressure, Differential, Psig Psi 250 250 250 250 250 250 125 125

LOW DIFFERENTIAL TENSION SPRING, SILVER COLOR CODE Maximum Maximum Inlet Pressure Pressure, Differential, Psig Psi 6.9 6.9 6.9 6.9 6.9 6.9 4.1 4.1

HIGH DIFFERENTIAL TENSION SPRING, RED COLOR CODE Maximum Maximum Inlet Pressure Pressure, Differential, Psig Psi 17.2 17.2 17.2 17.2 17.2 17.2 8.6 8.6

Table 3. Additional Specifications ACTUATOR SPRING AND (COLOR CODE) Low Differential (Silver) High Differential (Red)

ORIFICE SIZE Inch

3/8 x 1/8 3/8 x 1/4 3/8 1/2 3/8 x 1/8 3/8 x 1/4 3/8 1/2

9.5 x 3.2 9.5 x 6.4 9.5 12.7 9.5 x 3.2 9.5 x 6.4 9.5 12.7

ALLOWABLE INLET PRESSURE RANGE FOR MAINTAINING OUTLET PRESSURE WITHIN 1% OF THE ABSOLUTE OUTLET PRESSURE SETTING (1) 5 Psig (0.34 bar)

30 Psig (2.1 bar)

40 Psig (2.8 bar)

60 Psig (4.2 bar)

100 Psig (6.9 bar)

Psig

Bar

Psig

Bar

Psig

Bar

Psig

Bar

45 to 100 45 to 100 45 to 100 45 to 60 55 to 250 55 to 250 55 to 250 50 to 135

3.1 to 6.9 3.1 to 6.9 3.1 to 6.9 3.1 to 4.1 3.8 to 17.2 3.8 to 17.2 3.8 to 17.2 3.4 to 8.6

55 to 100 55 to 100 55 to 100 55 to 60 65 to 250 65 to 250 65 to 250 6. to 125

3.8 to 6.9 3.8 to 6.9 3.8 to 6.9 3.8 to 4.1 4.5 to 17.2 4.5 to 17.2 4.5 to 17.2 4.1 to 8.6

75 to 100 75 to 100 75 to 100

5.2 to 6.9 5.2 to 6.9 5.2 to 6.9

85 to 250 85 to 250 85 to 250 80 to 125

5.9 to 17.2 5.9 to 17.2 5.9 to 17.2 5.5 to 8.6

125 to 250 125 to 250 125 to 250 120 to 125

8.6 to 17.2 8.6 to 17.2 8.6 to 17.2 8.3 to 8.6

20 to 100 20 to 100 20 to 100 20 to 60 30 to 100 30 to 100 30 to 100 25 to 125

Bar 1.4 to 6.9 1.4 to 6.9 1.4 to 6.9 1.4 to 4.1 2.1 to 6.9 2.1 to 6.9 2.1 to 6.9 1.7 to 8.6

1. For best performance, outlet pressure setting should be made using an inlet pressure that is midway between the highest and lowest expected inlet pressure.

Installation Regulator operation within ratings does not preclude the possibility of damage from debris in the lines or from external sources. A regulator should be inspected for damage periodically and after any overpressure condition. Key numbers referenced in this section are shown in figures 4 and 5. Ensure that the operating temperature capabilities listed in table 1 are not exceeded. A pressure relieving or pressure limiting device must be provided by the user if the inlet pressure can exceed the outlet pressure rating of the downstream equipment. 1. Only personnel qualified through training and experience should install, operate, or maintain this regulator. 2. Make sure that there is no damage to, or foreign material in, the regulator. 3. Ensure that all tubing and piping have been blown free of foreign debris. 4. The regulator may be installed in any position as long as the flow through the body is in the direction indicated by the arrow cast on the body and both pilot openings are connected. 5. If continuous operation is required during inspection or maintenance, install a three-valve bypass around the regulator.

Shaded area shows where maximum outlet pressure setting is exceeded.

WARNING

A regulator may vent some gas to the atmosphere. In hazardous or flammable gas service, vented gas may accumulate and cause personal injury, death, or property damage due to fire or explosion. Vent a regulator in hazardous gas service to a remote, safe location away from air intakes or any hazardous area. The vent line or stack opening must be protected against condensation or clogging.

6. To keep the pilot spring case vent from being plugged or the spring case from collecting moisture or other foreign material, point the vent down or otherwise protect it. Vent orientation may be changed by removing the spring case and remounting it on the pilot body. To remotely vent the pilot, remove the vent and install obstruction-free tubing or piping into the 1/4-inch NPT vent tapping. Provide protection on a remote vent by installing a screened vent cap into the remote end of the vent pipe. If the regulator requires repositioning, refer to the body area maintenance procedures and/or the diaphragm case area maintenance procedures in the Maintenance section to reposition the regulator for the application.

Type 627F

32B3309-B 22B3796-D C0723

Figure 3. Operational Schematic

Type 627F 7. The Type 627F regulator requires a downstream control line. Install the control line before putting the regulator into operation. Ensure that the downstream control line piping is at least 3/8-inch or larger outside diameter tubing and connected to a straight section of outlet piping several pipe diameters downstream of the regulator. Connect the other end of the control line to the pilot side connection (marked ‘‘sense’’). 8. The Type 627F regulator also requires inlet pressure to be piped to the pilot supply connection (see figure 3). If the optional factory pilot supply piping was not selected, run a 3/8-inch outer diameter or larger supply line from the upstream pipeline or from the 1/4-inch NPT body tap (ductile iron body only) to the pilot inlet connection marked ‘‘in’’. Do not make the upstream pipeline connection in a turbulent area, such as near a nipple, swage, or elbow. To properly isolate the regulator, install a hand valve in the pilot supply line, and provide vent valves to relieve pressure from the regulator.

Startup Startup and Adjustment Startup

pilot. If a pressure setting beyond this range is necessary, substitute the appropriate pilot control spring. Change the pilot stamping to indicate the new pressure range. The only adjustment necessary on a Type 627F regulator is the pressure setting of the pilot control spring. Turning the pilot adjusting screw clockwise into the spring case increases the spring compression and pressure setting. Turning the pilot adjusting screw counterclockwise decreases the spring compression and pressure setting.

Stabilizer Restriction Should system dynamics cause pressure control to cycle, the pilot mounting nipple (key 56) has a female thread to receive a restriction screw, part number 17A7279X012, number 70 drill size or 0.028-inch (0.71 mm) diameter (yellow color code). The restriction can be used to improve system stability by slowing the speed of response, if needed. Note Always use a pressure gauge to monitor pressure when making adjustments.

Shutdown WARNING

To avoid personal injury or property damage due to explosion or damage to regulator or downstream components during startup, release downstream pressure to prevent an overpressure condition on the diaphragm of the regulator. In order to avoid an overpressure condition and possible equipment damage, pressure gauges should always be used to monitor pressures during start-up. 9. Slowly open the upstream shutoff valves to the pilot and the regulator inlet. 10. Slowly open the downstream shutoff valves to the pilot sense connection and the regulator outlet. 11. Check all connections for leaks. 12. Make final pilot control spring adjustments according to the adjustment procedures. Standard factory set point is approximately mid-range of the pilot spring range.

Adjustment The range of allowable pressure settings is marked on the

WARNING To avoid personal injury or property damage due to explosion or damage to regulator or downstream components during shutdown, release downstream pressure to prevent an overpressure condition on the diaphragm of the regulator. 13. Close the upstream shutoff valves to the pilot and regulator inlets. 14. Close the downstream shutoff valves to the pilot sense connection and the regulator outlet. 15. Slowly open the vent valve on the downstream side of the regulator to vent all pressures.

Principle of Operation The superior performance of a Type 627F regulator is due to the amplifying effect of the pilot and the two-path control system (figure 3). Changes in outlet pressure act quickly on the main regulator diaphragm which repositions the valve disk to provide fast response to system changes. Simultaneously, the pilot amplifies system pressure changes to position the main regulator valve disk for precise pressure control.

Type 627F Table 4. Recommended Torque Values Key Number(1)

Foot Pounds

Newton Meters

Orifice

Cap screw (w/aluminum diaphragm casing)

Cap screw (w/ductile iron or steel diaphragm casing)

Description Type 627F Actuator

2 3 18

Lever, cap screw

Closing Cap

Spring case cap screw w/aluminum or ductile iron diaphragm casing) Spring case cap screw (w/steel diaphragm casing)

Spring Retainer

Diaphragm Connector

Body Plug

Machine Screw

Type 6351F Pilot 3 12

1. Refer to figure 4 for key number locations.

Inlet pressure is used for the pilot supply pressure. If downstream flow increases, lowering the outlet pressure below the regulator set point, pressure on the pilot diaphragm and the lever side of the main regulator diaphragm decreases. The pilot opens to supply the required loading pressure increase. The increased loading pressure from the pilot overcomes the main regulator spring force, and the main regulator valve disk moves farther open to supply the required flow.

Due to the care Fisher takes in meeting all manufacturing requirements (heat treating, dimensional tolerances, etc.), use only replacement parts manufactured or furnished by Fisher. Instructions are given below for replacing the disk assembly, orifice, diaphragm, and O-rings. These procedures may also be used for disassembly required for inspection and replacement of other parts.

When downstream pressure increases due to lowered demand, greater pressure is registered on the pilot diaphragm and the lever side of the main regulator diaphragm. The pilot closes, and the excess loading pressure bleeds off to downstream, through the pilot restriction. With the lower loading pressure, the spring can move the main regulator disk closer to the orifice.

Body Area Maintenance Procedures

Under no flow conditions, the excess loading pressure bleeds through the pilot restriction to the downstream system until the loading pressure equals outlet pressure. The main valve is closed by the spring and the bleed stops.

Maintenance Key numbers are referenced in figure 4 unless otherwise noted. For a summary of maximum torque values, refer to table 4. Due to normal wear, damage from external sources, or debris in the air or gas line, regulator parts such as the disk assembly, orifice, and diaphragm must be inspected periodically and replaced as necessary to ensure correct performance. The frequency of inspection and replacement depends upon the severity of conditions and the requirements of applicable laws. Normal wear of the orifice and disk assembly is accelerated with high pressure drops and with impurities in the flow stream.

WARNING Isolate the regulator from all pressure to avoid personal injury and equipment damage due to explosion or sudden release of process pressure. Cautiously release all pressure from the regulator before attempting disassembly. The disk assembly and orifice can be inspected, removed, and replaced without removing the regulator body from the line connections. If the disk assembly and orifice are not damaged, refer to the Diaphragm and Spring Case Area Maintenance Procedures in this section. These procedures are for gaining access to the disk assembly, orifice, diaphragm casing O-ring and stem assembly. All pressure must be released from the regulator before the following steps can be performed. While using the following procedures, refer to figure 4 for key number locations unless otherwise directed.

Type 627F Replacing the Disk Assembly or Orifice To inspect and replace the disk assembly (key 9) or orifice (key 2), remove the closing cap (key 36) and loosen the lock nut (key 34) relieving tension spring pressure. Hold the spring seat bolt (key 61) to prevent turning of the bolt from the tension spring (key 32). Remove the cap screws (key 3), and separate the diaphragm casing (key 5) from the body (key 1). Note If the body cap screws (key 3) are evenly removed and replaced very carefully, then the tension spring force will not need to be released. 2. Inspect and, if necessary, remove the orifice (key 2). If removed, coat the threads of the replacement orifice with lubricant (key 38) and torque to 25 foot-pounds (34 NSm). 3. Inspect the disk assembly and, if necessary, remove the hair pin clip (key 13) that holds the disk assembly (key 9) in place. If replacing the disk assembly is the only maintenance required, refer to the Start Up Procedure.

Replacing the Stem Assembly If it is necessary to perform maintenance on the stem assembly, continue with steps 4 through 12. 4. Remove the boost body (key 6), O-ring (key 7), and stem guide (key 8) from the diaphragm casing (key 5). Unhook the stem (key 10) from the lever (key 15) and remove from the diaphragm casing (key 5). 5. Remove and inspect the diaphragm casing O-ring (key 4) and the stem O-ring (key 11) and replace if necessary. 6. Install the replacement diaphragm casing O-ring (key 4) onto the boost body (key 6). Apply lubricant (key 42) to the stem O-ring and install on the stem (key 10).

11. Secure the diaphragm casing to the body with the cap screws (key 3). For an aluminum diaphragm casing (key 5), torque the cap screws (key 3) to 16 foot pounds (22 NSm). For ductile iron or steel diaphragm casings, torque the cap screws (key 3) to 25 foot pounds (34 NSm). Torque the two body cap screws (key 3) very evenly to square up the orifice (key 2) and disk assembly (key 9) seating relationship. 12. It may be necessary to reposition the diaphragm spring case to prevent rain, ice, and foreign debris from entering the pilot spring case through the vent.

Diaphragm and Spring Case Area Maintenance Procedures These procedures are for gaining access to the tension spring, diaphragm assembly, and lever assembly. All spring pressure must be released from the diaphragm casing before these steps can be performed. While using the following procedures, refer to figure 4 for key number locations unless otherwise directed. 1. To release the tension spring force, remove the closing cap (key 36), the lock nut (key 34), and washer (key 62). Hold the spring seat bolt (key 61) to prevent turning of the bolt from the tension spring (key 32). 2. Remove the spring case cap screws (key 37), the nameplates, and lift off the spring case (key 29). If changing the tension spring (key 32) or repositioning the spring case (key 29) is the only maintenance required, remove the spring seat bolt (key 61) from the tension spring (key 32) and unscrew the spring retainer (key 53). Install the replacement tension spring. Install left hand threaded end of spring seat bolt (key 61) into tension spring (key 32) until the spring is flush with the top of the bolt threads as shown in figure 4. Rotate the spring case so it is correct for the application. Skip to step 14. For diaphragm area maintenance, continue with step 3. 3. Remove the diaphragm assembly by tilting it so that the pusher post (key 19) slips off the lever (key 15).

7. Apply lubricant (key 42) to the stem (key 10) and insert the stem into the diaphragm casing (key 5) and hook it on the lever (key 15).

4. If it is necessary to replace the lever assembly, remove the lever cap screws (key 18).

8. Apply lubricant (key 42) to the O-ring (key 7) and insert parts removed in steps 4 and 5 into the diaphragm casing (key 5).

5. Install the replacement lever (key 15) into the lever retainer (key 16) by inserting the lever pin (key 17). Secure the lever assembly into the diaphragm casing with the cap screws (key 18) and torque the cap screws to 7 foot-pounds (9 NSm).

9. Install the the disk assembly (key 9), line up the hole in the disk assembly and stem (key 10) and insert the hair pin clip (key 13). 10. Position the diaphragm casing plus attached parts in relation to the body (key 1) so that they are correct for the application.

If it is necessary to perform maintenance on the diaphragm assembly, continue with steps 6 through 15. 6. Unscrew the diaphragm connector (key 54), and remove the lower spring seat (key 31). Separate the diaphragm (key 23) from the diaphragm head (key 24), dia-

Type 627F phragm head washer (key 55) and the pusher post (key 19). 7. Install the diaphragm (key 23), in reverse order in step 6, apply lubricant (key 38) to the threads of the diaphragm connector (key 54) and finger tighten. 8. Hook the pusher post on the lever (key 15), then turn the diaphragm (key 23) to match the holes in the diaphragm with the holes in the spring casing. 9. Unhook the pusher post from the lever, hold the pusher post and torque the diaphragm connector (key 54) to 7 footpounds (9 NSm). 10. Apply lubricant (key 42) to the pusher post (key 19) as shown in figure 4, then hook the pusher post on the lever (key 15) and check the hole alignment. If necessary, loosen the diaphragm connector (key 54) and reposition the diaphragm (key 23) on the pusher post (key 19). Retorque the connector (see step 9). 11. To change the tension spring, remove the spring seat bolt (key 61) from the tension spring (key 32) and unscrew the spring retainer (key 53). 12. Install the tension spring (key 32) on the lower spring seat (key 31), insert and tighten the spring retainer (key 53). Install the tension spring on the spring seat bolt (key 61) until the spring is flush with the top of the bolt threads as shown in figure 4. 13. Install the spring case (key 29) over the spring seat bolt and so that the pilot assembly will be in the correct position for the application. Place the nameplates (key 39) over the screw holes, insert the spring case cap screws (key 37), and finger tighten. 14. Install the locknut (key 34), and hold the spring seat bolt (key 61) to prevent turning, by running the locknut all the way down the threads and tighten as shown in figure 4. Install the closing cap gasket (key 63). Apply lubricant (key 38) to the threads on top of the spring case (key 29) and install the closing cap (key 36). 15. Using a crisscross pattern, finish tightening the spring case cap screws (key 37, see table 3).

Pilot Key numbers are referenced in figure 5 unless otherwise noted.

Trim Parts 1. Remove the body plug (key 3) and remove the plug spring (key 6), and plug/stem assembly (key 4) from the body.

2. Inspect the removed parts and body plug gasket (key 23), replace as necessary, and make sure the plug seating surfaces are free from debris. 3. Sparingly apply Lubriplate lubricant or equivalent to the body plug gasket (key 23) and the threads of the body plug (key 3). Install the body plug gasket over the body plug. 4. Install the plug spring (key 6), and plug/stem assembly (key 4) into the body (key 1). Torque the body plug (key 3) to 6 foot-pounds (8 NSm).

Diaphragm Parts 1. Remove the closing cap (key 28), loosen the locknut (key 11), and back out the adjusting screw (key 10) until compression is removed from the control spring (key 9). 2. Remove the machine screws (key 12) and separate the spring case (key 2) from the body assembly (key 1). Remove the control spring (key 9). 3. Remove the diaphragm assembly (key 7) and inspect the removed parts and replace as necessary. Make sure the restriction hole (key 44) is free from debris. 4. Install the diaphragm assembly (key 7) and push down on it to see if the plug/stem assembly (key 4) strokes smoothly and approximately 1/16-inch (2 mm).

Note In step 5, if installing a control spring of a different range from the one that was removed, be sure to delete the spring range originally appearing on the spring case and indicate the new spring range. 5. Stack the control spring (key 9) and the control spring seat (key 8) onto the diaphragm assembly (key 7). Sparingly apply Lubriplate lubricant or equivalent to the control spring seat. 6. Install the spring case (key 2) on the body (key 1) with the vent (key 35) oriented to prevent clogging or entrance of moisture. Install the machine screws (key 12) and using a crisscross pattern, torque them to 3 foot-pounds (4 NSm).

7. When all maintenance is complete, refer to the Startup and Adjustment section to put the regulator back into operation, and adjust the pressure setting. Tighten the locknut (key 11), and install the closing cap (key 28).

Type 627F Parts Parts Ordering Ordering

Key

When corresponding with your Fisher sales office or sales representative about this regulator, always reference the type number which is found on the nameplate (key 39, figure 4).

11* 12* 13 14 15 16 17 18 19 23*

When ordering replacement parts, reference the key number of each needed part as found in the following parts list.

Parts Parts List Key

4* 5

6 7* 8 9*

Description

Part Number

Type 627F Main Regulator Type 627F Parts Kit (includes keys 4, 7, 9, 11, 12, 23, 55, and 63) Aluminum or ductile iron casing Stainless steel casing Body Ductile iron 3/4-inch NPT size 1-inch NPT size 2-inch NPT size Steel 3/4-inch NPT size 1-inch NPT size 2-inch NPT size Steel, raised face flanged, ANSI Class 300 1-inch size 2-inch size Steel, raised face flanged, ANSI Class 600 1-inch size 2-inch size Orifice Aluminum 3/8 x 1/8-inch (3.2 mm) 3/8 x 1/4-inch (6.4 mm) 3/8-inch (9.5 mm) 1/2-inch (12.7 mm) 303 Stainless steel 3/8 x 1/8-inch (3.2 mm) 3/8 x 1/4-inch (6.4 mm) 3/8-inch (9.5 mm) 1/2-inch (12.7 mm) Cap Screw, (2 req’d) Aluminum diaphragm case, pl steel Ductile iron diaphragm case, pl steel Steel diaphragm case, pl steel Diaphragm Case O-Ring, nitrile

18A1087 X012 1C4038 24052 1A5607 24052 17A2325 X022

Diaphragm Case Aluminum Ductile iron Steel Boost Body, aluminum O-Ring, nitrile Stem Guide, powdered metal

40B3084 X012 30B3053 X012 30B3104 X012 22B4767 X012 1E5477 06992 20B3061 X012

Disk Assembly (for all orifice sizes) Aluminum holder and nitrile disk 303 Stainless steel holder and nitrile disk Stem 416 stainless steel

*Recommended spare part. 1. Trademark of Fiske Brothers Refining Co. 2. Trademark of Never-Seez Corp.

24 29 R627FX00A12 R627FX00S12

12B3307 X012 12B3307 X022 12B3308 X012 30B3050 X012 30B3051 X012 30B7452 X012

31 32

34 36 37

41B8978 X012 41B8080 X012

38*

40B6754 X012 40B6756 X012

12B4986 X012 12B4986 X022 0B0422 09012 1A9288 09012 12B4986 X032 12B4986 X042 0B0422 35032 1A9288 35032

42* 53 54 55* 56 58 59 60

61 62 63*

Description Stem O-Ring, nitrile Stem Backup Ring, TFE (2 req’d) Hair Pin Clip, stainless steel Drive Pin, zn pl steel Lever, zn pl steel Lever Retainer, zn pl steel Lever Pin, stainless steel Lever Cap Screw, plated steel (2 req’d) Pusher Post, aluminum Diaphragm, nitrile Aluminum or ductile iron diaphragm case Steel diaphragm case Diaphragm Head, zinc plated steel Spring Case Aluminum Ductile iron Steel Lower Spring Seat, zn pl steel Tension Spring, pl steel Low differential, silver color code High differential, red color code Locknut, zinc plated steel Closing Cap Spring Case Cap Screw, pl steel (8 req’d) For aluminum or ductile iron diaphragm case For steel diaphragm case Lubriplate Mag-1(1), Lubricant, 0.9 pound can. Not furnished with regulator Nameplate For aluminum and ductile iron spring cases Aluminum Number 1 Number 2 For steel spring cases Stainless steel Number 1 Number 2 Never-Seez Lub 5(2) Lubricant, Not furnished with regulator Spring Retainer, zinc plated steel Diaphragm Connection, zinc plated steel Gasket, nylon Reducing Nipple, zinc plated steel Pipe Plug, steel Elbow, plated steel (optional) Pilot Supply Tubing, steel (optional) With Type P594-1 filter Without filter Spring Seat Bolt, zinc plated steel Washer, plated steel Closing Cap Gasket,

Part Number 1D6875 06992 1K7868 06992 10B3058 X012 1A9532 28982 20B3063 X012 30B3097 X012 10B3083 X012 10B7454 X012 10B3098 X012 10B3069 X012 10B8735 X012 1D6664 28982 40B3086 X012 30B3055 X012 30B3102 X012 1D6666 25072 12B3305 X012 12B3306 X012 1E9440 24112 1E5433 14012

11B9695 X012 1A6751 24052 1M1100 X0012

10B3679 X032 10B3679 X022

11B6572 X022 11B6572 X032 1M5239 06992 1H8552 24102 12B3301 X012 12B3302 X012 12B4987 X012 1A7675 24662 15A600 2X472 22B535 1X012 12B463 0X012 12B330 3X012 1B8659 28982 12B186 2X012

1C4248 X0212 1C4248 X0202 10B3059 X012

Type 627F

42B1863-C

32B3310-D

Figure 4. Type 627F Main Regulator Assembly

Type 627F

32B3797-D

Figure 5. Type 6351F Pilot Assembly Key

Description

Part Number

Type 6351F Pilot (figure 5) 1 2 3 4* 6* 7* 8 9

Parts Kit (included are keys 4, 6, 7, and 23) Body Assembly, aluminum Spring Case, aluminum Body Plug, aluminum Inner Valve Assembly Valve spring, steel Diaphragm Assembly, nitrile Upper Spring Seat, plated steel Control Spring, zn pl steel spring wire 5 to 35 psig range (0.34 to 2.4 bar) silver color code 35 to 100 psig range (2.4 to 6.9 bar) Red color code

*Recommended spare part.

R6351 X00012 1B7971 X0322 25A6220 X012 1B7975 09032 20B938 9X022 1B7979 37022 1B7980 000B2 1B7985 25062

Key

Part Number

10 11 12 22

Adjusting Screw, plated steel Locknut, zinc plated steel Machine Screw, carbon steel (6 reqâ&#x20AC;&#x2122;d) Pipe Nipple, galvanized zinc pl steel

10B7192 X012 1A9463 24122 1H4217 28992 1C4882 26232

23* 24 28 35

Body Plug Gasket, composition Filter P594-1 (optional) Closing Cap, aluminum Vent Assembly, Y602X1-A12

1C4957 04022 AJ5004 000A2 1H2369 X0012 27A551 6X012

Restriction, plated carbon steel No. 57 drill size or 0.043-inch (1.09 mm) dia. (red color code) Lubriplate Mag-1, Lubricant, 0.9 pound can. Not furnished.

17A2029 X012

45* 1B7883 27022

Description

1M1100 X0012

1K7485 27202

Type 627F

While this information is presented in good faith and believed to be accurate, Fisher Controls does not guarantee satisfactory results from reliance upon such information. Nothing contained herein is to be construed as a warranty or guarantee, express or implied, regarding the performance, merchantability, fitness

12 Printed in U.S.A.

Fisher Controls Controls

or any other matter with respect to the products, nor as a recommendation to use any product or process in conflict with any patent. Fisher Controls reserves the right, without notice, to alter or improve the designs or specifications of the products described herein.

For information, contact Fisher Controls: Marshalltown, Iowa 50158 USA Sao Paulo 05424 Brazil Cernay 68700 France Singapore 0512