Fisher R622 Instruction Manual

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Page 1

Instruction Manual Form 5782

October 2009

Type R622

Type R622 Pressure Reducing Regulator

W8806

Figure 1. Type R622 Regulator

WaRning

Failure to follow these instructions or to properly install and maintain this equipment could result in an explosion

and/or re causing property damage and

personal injury or death. Fisher® regulators must be installed,

operated, and maintained in accordance with federal, state, and local codes, rules and regulations, and Emerson Process Management Regulator T echnologies, inc. instructions.

For LP-gas service, an approved regulator (such as one listed by UL) should be used or approved by the authority Having Jurisdiction. The installation in most states, must comply with nFPa 58 standard.

if the regulator vents gas or a leak develops in the system, service to the unit may be required. Failure to correct trouble could result in a hazardous condition.

Call a gas service person to service

the unit. Only a qualied person must

install or service the regulator.

introduction

Scope of the Manual

This manual provides instructions for the installation, adjustment, maintenance, and parts ordering information for the Type R622 pressure reducing regulator.

Product Description

Type R622 direct-operated, spring-loaded regulators provide economical pressure reducing control in a variety of residential, commercial, and industrial applications. These regulators can be used with

natural, manufactured, or liqueed petroleum gases and

have the same inlet and outlet pressure capabilities.

D103093X012

www.emersonprocess.com/regulators

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Type R622

Specications

Body Size and End Connection Style

1/2 NPT

Maximum allowable inlet Pressure

(1)

Operating: 125 psig (8,62 bar) Emergency: 125 psig (8,62 bar)

Except 1.8 to 2.2-inches w.c. (4 to 5 mbar) spring range which has operating and emergency pressures of 60 psig (4,14 bar)

Maximum allowable Outlet (Casing) Pressure

Operating to avoid internal Part Damage: 3 psid (0,21 bar d) above outlet pressure setting

Emergency: 20 psi (1,38 bar)

(1)

Flow Coefcients

Wide-Open Cg for Relief Sizing: 12.5 Wide-Open Cv for Relief Sizing: 0.36 C1: 35

IEC Sizing Coefcients

XT: 0.78 FD: 0.82 FL: 0.89

internal Relief Performance

Start-to-Discharge is 8 to 22-inches w.c. (20 to 55 mbar) for setpoints from

1.8 to 20-inches w.c. (4 to 50 mbar) Start-to-Discharge is 140 to 200% over setpoint from 20-inches w.c. to 2.2 psig (50 to 152 mbar)

Outlet Pressure Ranges

See Table 1

Spring Case Vent Connection

3/4 NPT with removable screen

Pressure Registration

Internal

Maximum Temperature Capabilities

-20° to 160°F (-29° to 71°C)

Orice Size

1/8-inch (3,2 mm)

approximate Weight

2.35 pounds (1 kg)

1. The pressure/temperature limits in this instruction manual or any applicable standard limitation should not be exceeded.

(1)

OUTLET PRESSURE RangE

1.8 to 2.2-inches w.c. 5 to 7-inches w.c.

6.5 to 9-inches w.c. 9 to 13-inches w.c.

13 to 20-inches w.c. 16 to 35-inches w.c.

1 to 2.2 psig

(4 to 5 mbar) (12 to 17 mbar) (16 to 22 mbar) (22 to 32 mbar) (32 to 48 mbar) (40 to 87 mbar) (69 to 152 mbar)

Table 1. Outlet Pressure Ranges

COnTROL SPRing

PaRT nUMBER

T14453T0012 T14398T0012 T14399T0012 T14400T0012 T14401T0012 T14402T0012 T14403T0012

COnTROL SPRing

COLOR CODE

Purple

Orange

Yellow

Silver

Gray

Pink

Light Blue

SPRing FREE LEngTH,

inCHES (mm)

3.40 (86,4)

3.61 (91,7)

4.10 (104)

3.60 (91,4)

3.52 (89,4)

3.66 (93,0)

SPRing WiRE DiaMETER,

inCHES (mm)

0.051 (1,30)

0.062 (1,58)

0.067 (1,70)

0.072 (1,83)

0.080 (2,03)

0.093 (2,36)

0.105 (2,67)

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Type XXXX

VaLVE DiSK

Type XXXX

Month Year

Type XXXX

inLET PRESSURE OUTLET PRESSURE aTMOSPHERiC PRESSURE

RELiEF VaLVE SPRing

Type R622

COnTROL (Main) SPRing

UPPER SPRing CaSE

aTMOSPHERiC PRESSURE OUTLET PRESSURE inLET PRESSURE

In addition, Type R622 regulators have internal relief across the diaphragm to help minimize overpressure. Any outlet pressure above the start-to-discharge point of the nonadjustable relief valve spring moves the diaphragm off the relief valve seat, allowing excess pressure to bleed out through the screened spring case vent.

Specications

The Specications section lists operating conditions and other specications of the Type R622 regulator. Information specic to a regulator’s construction is

stamped on the nameplate.

Principle of Operation

Refer to Figure 2. When downstream demand decreases, the pressure under the diaphragm increases. This pressure overcomes the regulator setting (which is set by a spring). Through the action of the pusher post assembly, lever, and valve stem,

the valve disk moves closer to the orice and reduces gas ow. If demand downstream increases, pressure

under the diaphragm decreases. Spring force pushes the pusher post assembly downward and the

valve disk moves away from the orice. Type R622

regulators include an internal relief valve used to help minimize overpressure. Any outlet pressure above

ORiFiCE

Figure 2. Type R622 Operational Schematic

STEM

the start-to-discharge point of the non-adjustable relief spring moves the diaphragm off of the relief seat, allowing excess pressure to discharge through the vent.

installation

Personal injury, equipment damage, or leakage due to escaping gas or bursting of pressure-containing parts might result if these regulators are overpressured or installed where service conditions could exceed the limits for which the regulators were designed, or where conditions exceed any ratings of the adjacent piping or piping connections. To avoid such injury or damage, provide pressurerelieving 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 a regulator could cause personal injury and property damage due to escaping

LEVER

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Type R622

gas. To avoid such injury and damage, install the regulator in a safe location.

a regulator may vent some gas to the

atmosphere in hazardous or ammable

gas service, vented gas might accumulate and cause personal injury, death or

property damage due to re or explosion.

Vent a regulator in hazardous gas service to a remote, safe location away from air intakes or any hazardous location. The vent line must be protected against condensation or clogging.

Before installing the regulator, check for damage which might have occurred in shipment. Also check for dirt or foreign matter which may have accumulated in the regulator body or in the pipeline. Apply pipe compound to the external threads of the pipeline and

install the regulator so that the ow is in the direction

of the arrow cast on the side of the body. The diaphragm actuator assembly can be rotated to any position relative to the body, in 90° increments.

Do not install the regulator in a location where there can be excessive water accumulation, such as directly beneath a downspout or in an undrained pit.

To obtain the maximum ow capacities or other

performance characteristics, the length of pipe from the

regulator outlet to the meter—or for the rst 18-inches

(457 mm), whichever is closer—should have no bends and should be the same size as the regulator outlet. Replace the regulator if water gets into the spring case or the lower casing of the regulator.

Type R622 regulators have a spring case vent (3/4 NPT) which is screened to prevent insects or foreign material from entering.

TO aPPLianCE

VEnT aSSEMBLY

VEnT LinE

BaSEMEnT

B2497

Figure 3. Typical Vent Line Installation

precautions apply to vent assemblies as the integral regulator vents described previously.

A program of regular inspection of the vent opening should be established to see that it has not become plugged by foreign material. On some installations, such as in areas of heavy snowfall, it may be necessary to install the regulator beneath a protective hood. If other protection is provided from the elements,

the vent should be pointing or sloping down sufciently

to allow any condensate to drain. Also check the regulator periodically for external or internal corrosion.

Overpressure Protection

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CaUTiOn

You are advised to use new vent piping because defective threads on the relief vent piping may interfere with the venting assembly if the piping obstructs the

movement of the vent apper.

On indoor installations, the vent should be piped outside the building, see Figure 3. Remove the screen from the regulator vent connection and connect vent piping from that connection to the outdoors. Vent piping should be as large in diameter as practical, be as short as possible, and have a minimum number of bends and elbows. Install a weather and insect resistant vent assembly on the outside end of the pipe, such as a Type Y602. The same installation

Some type of overpressure protection is needed if actual inlet pressure can exceed the outlet pressure rating. Overpressuring any portion of this equipment above the limits given in the

Specication section and table 1 may

cause damage to regulator parts, leaks in the regulator, or personal injury due to bursting of pressure-containing parts or explosion of accumulated gas.

Type R622 regulators provide internal relief that limits the total outlet pressure build-up over setpoint. This internal relief may be adequate for most application, if not, provide additional pressure relief or a pressurelimiting device downstream. Regulators should be inspected for damage after any overpressure condition.

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Type R622

Startup

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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 startup.

1. Check to see that all appliances are turned off.

2. Slowly open the upstream shutoff valve.

3. Slowly open the downstream shutoff valve

4. Check all connections for leaks.

5. Make nal control spring adjustments according to

the adjustment procedures.

6. Light the appliance pilots.

adjustment

To increase the outlet pressure setting of the regulator, the adjusting screw (key 23, Figure 5) must be turned clockwise. This requires removal of the closing cap (key 31, Figure 5). To reduce the outlet pressure setting, turn the adjusting screw counterclockwise. A pressure gauge should always be used to monitor downstream pressure while adjustments are being made. Do not adjust the spring to produce an outlet

pressure setting above the limit identied on the

information label. If the required pressure setting is not within the range of the spring being used, substitute with the correct spring, see Table 1. When changing

the spring, also change the range identied on the

information label to indicate the actual pressure range of the spring in use. After the spring adjustment has been completed, replace the closing cap.

Shutdown

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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 regulator diaphragm.

Installation arrangements may vary, but in any installation it is important that the valves be opened or closed slowly. These steps apply to the typical installation.

1. Slowly close the downstream shutoff valve.

2. Slowly close the upstream shutoff valve.

3. Open vent valves downstream of the regulator.

4. Open vent valves upstream of the regulator.

Maintenance

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avoid personal injury or damage to property from sudden release of pressure or uncontrolled gas or other process

uid. Before starting to disassemble,

isolate the regulator from all pressure and cautiously release trapped pressure from the regulator. Use gauges to monitor inlet, loading and outlet pressures while releasing these pressures.

These procedures are for gaining access to the

diaphragm, valve disk and orice. All pressure must be

released from the diaphragm actuator assembly before the following steps can be performed.

While using the following procedures, refer to Figure 5 for key number locations.

Diaphragm and Disk Replacement

1. Remove the closing cap (key 31) and adjusting screw (key 23).

2. Remove the spring case machine screws (key 4) out of the spring case (key 25), and remove the spring case and control spring (key 22).

3. Lift the diaphragm assembly slightly, and slide it away from the lever (key 27), so that the pusher post (key 18) releases the lever.

4. Remove the diaphragm assembly (key 17). Examine the diaphragm assembly , replace if necessary.

5. Reassemble in the reverse order of the above procedures. Place the diaphragm assembly into position in the body (key 1), being sure the pusher post is properly hooked on the lever (key 27). Rotate the diaphragm so that the diaphragm and lower casing holes align. Check the diaphragm for proper orientation. Tighten the spring case machine screws (key 4) to 15 to 30-inch-pounds

(2 to 4 N•m).

6. To remove the disk follow steps 1 through 4.

7. Remove screws (key 4).

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Type R622

8. Remove lever (key 27)

9. Remove stem assembly (key 28)

10. Remove disk (key 33) from stem assembly (key 28). Examine the disk. If it is nicked, cut, or otherwise damaged, the disk should be replaced.

11. Put together in reverse order.

Inlet Screen and Orice Replacement

1. Remove the regulator from line.

2. Remove machine screws (key 4).

3. Remove inlet O-ring (key 5). Lubricate a new inlet

O-ring and place on inlet tting (key 3).

4. Remove inlet screen (key 13). Clean and/or replace the inlet screen, if necessary.

5. Install the inlet screen (key 13) and inlet tting

(key 3). Then install and tighten the machine screws (key 4) to 15 to 30-inch-pounds-force (2 to

4 N•m).

6. To replace the orice, follow steps 1 through 4, and then remove orice (key 24) from body. Examine the seating edge of the orice. If it is

nicked or rough, it should be replaced. Treat the

external threads of the new orice with lubricant

before reassembling, tightening to 15 to

20-inch-pounds (2 to 3 N•m) of torque.

7. Install the inlet screen (key 13) and inlet tting

(key 3). Then install and tighten the machine screws (key 4) to 15 to 30-inch-pounds-force

(2 to 4 N•m).

Parts Ordering

The type number, orice size, spring range, and date

of manufacture are located on the spring case. Always provide this information in any correspondence with

your local Sales Ofce regarding replacement parts

or technical assistance. If construction changes are

made in the eld, be sure that the information label is also changed to reect the most recent construction.

Parts List

Key Description Part number

1 Body, Aluminum T80567T0GY2 2 Pipe Plug, Carbon steel (2 required) 1D8293T0022 3 Inlet Fitting, Aluminum T21176T0BK2 4 Machine Screw, Carbon Steel (12 required) T13526T0012 5 O-Ring, Nitrile (NBR) T14431T0012 13 Inlet Screen, 18-8 Stainless steel T14436T0012 16 Relief Spring, 302 Stainless steel T13612T0012 17 Diaphragm T21163T0012 18 Pusher Post, Acetal T40653T0012 19 Lower Spring Seat, Zinc-plated steel T14396T0012 20 Relief Spring Retainer, 18-8 Stainless steel T13613T0012 22 Spring, Zinc-plated steel See Table 1 23 Adjusting Screw, Delrin For use with inches w.c. springs T21186T0012 For use with psig spring T21202T0012

24 Orice, Aluminum T21126T0012

25 Spring Case Assembly, Aluminum T40655T0022 26 Vent Screen, 18-8 Stainless steel T1121338982 27 Lever, Zinc-plated steel T21197T0012 28 Stem Assembly T14452T0012 29 Pin Lever, 18-8 Stainless steel T14397T0012 30 Machine Screw, Carbon-plated steel (2 required) 1E175828982 31 Closing Cap T21187T0012 33* Disk, Nitrile (NBR) T14437T0012 38 O-Ring, Nitrile (NBR) T14422T0012 41 Information Label - - - - - - - - - - -

*Recommended spare part

Delrin

is a mark owned by E.I. du Pont de Nemours and Co.

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POSiTiOn 1

28 29 30

27 18 1

41 42

2022

3125

VEnT OVER inLET

POSiTiOn 2POSiTiOn 4

Type R622

T80577

Figure 4. Vent Location

POSiTiOn 3 VEnT OVER OUTLET

T80577

Figure 5. Type R622 Regulator Assembly

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Type R622

41 42

Figure 5. Type R622 Regulator Assembly (continued)

industrial Regulators

Emerson Process Management Regulator Technologies, inc.

USA - Headquarters McKinney, Texas 75069-1872 USA Tel: 1-800-558-5853 Outside U.S. 1-972-548-3574

Asia-Pacic

Shanghai, China 201206 Tel: +86 21 2892 9000

Europe Bologna, Italy 40013 Tel: +39 051 4190611

Middle East and Africa Dubai, United Arab Emirates Tel: +971 4811 8100

For further information visit www.emersonprocess.com/regulators

The Emerson logo is a trademark and service mark of Emerson Electric Co. All other marks are the property of their prospective owners. Fisher is a mark owned by Fisher Controls, Inc., a business of Emerson Process Management.

The contents of this publication are presented for informational purposes only, and while every effort has been made to ensure their accuracy, they are not to be construed as warranties or

guarantees, express or implied, regarding the products or services described herein or their use or applicability. We reserve the right to modify or improve the designs or specications of such

products at any time without notice.

Emerson Process Management does not assume responsibility for the selection, use or maintenance of any product. Responsibility for proper selection, use and maintenance of any Emerson Process Management product remains solely with the purchaser.

natural gas Technologies

Emerson Process Management Regulator Technologies, inc.

USA - Headquarters McKinney, Texas 75069-1872 USA Tel: 1-800-558-5853 Outside U.S. 1-972-548-3574

Asia-Pacic

Singapore, Singapore 128461 Tel: +65 6777 8211

Europe Bologna, Italy 40013 Tel: +39 051 4190611 Gallardon, France 28320 Tel: +33 (0)2 37 33 47 00

TESCOM

Emerson Process Management Tescom Corporation

USA - Headquarters Elk River, Minnesota 55330-2445 USA Tel: 1-763-241-3238

Europe Selmsdorf, Germany 23923 Tel: +49 (0) 38823 31 0