Installation instructions – KING 7510 – 7511 Series User Manual

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When it comes to flow...we’re instrumental.

3

7510 – 7511 Series

Installation Instructions

Installation Instructions

7510/7511 series asseMbly without guide rod
parts list:

1. End Fitting
2. End Fitting O-Ring
3. Outlet Float Stop
4. Float
5. Acrylic Meter Tube
6. Inlet Float Stop

7510/7511 series asseMbly with guide rod
parts list:

1. End Fitting
2. End Fitting O-Ring
3. Outlet Float Stop

Guide Rod Assembly

4. Float
5. Acrylic Meter Tube
6. Inlet Float Stop

END FITTING

END FITTING O-RING

OUTLET FLOAT STOP

FLOAT

ACRYLIC METER TUBE

INLET FLOAT STOP

END FITTING

END FITTING O-RING

GUIDE ROD ASSEMBLY

FLOAT

ACRYLIC METER TUBE

INLET FLOAT STOP

OUTLET FLOAT STOP/

Pressure and temperature ratings are based on a study of the engineering data

for particular materials used in construction and on the design of individual

models. This information is supplemented by destructive test results. Meters with

stainless enclosures must never be operated without shields securely in place.

Meters exposed to difficult environments such as those created by certain

chemicals, excessive vibration or other stress inducing factors could fail at or

below the suggested maximums. Never operate meters above pressure and

temperature maximums. It is strongly recommended that all meter installations

utilize an appropriate pressure relief valve and/or rupture disc. The pressure

settings and locations of these devices should be such that meters cannot be

over pressurized. Meter failure could result in damage to equipment and serious

personal injury. Always use suitable safety gear, including OSHA approved eye

protection when working around meters in service. We are happy to pass along

chemical compatibility information that has been published by the manufacturer's

of raw materials used in our products; however, this information should not be

construed as a recommendation made by King Instrument Company, Inc. for a

specific application.

Carefully remove the flowmeter from piping system. Remove the threaded outlet

fitting and withdraw the float from the top. All necessary instrument components

are now fully accessible for cleaning with a bottle brush and appropriate mild

soap solution*. Before the meter is reassembled, inspect all parts for damage.

O-rings should be replaced during meter maintenance and cleaning.

To reassemble, carefully guide the float back into the tube. When installing

float/guide assembly make certain that the end of the guide fully engages the

inlet and/or outlet float stop. Reinstall and tighten fittings in appropriate ports.

Reinstall the instrument into the plumbing system after removing the old teflon

tape (with a wire brush) and replacing with fresh teflon tape.
*Do not use cleaning agents that will damage float, tube or o-rings.

Meters should be cleaned with a mild soap solution. This will be an effective

cleaner of rust stains. Caution must be used so that materials of construction are

not damaged by cleaning solutions. Hard water deposits can be removed with 5%

acetic acid solution (vinegar).

7510 / 7511 meters that require repair should be sent to the factory. Please call

for a Return Merchandise Authorization (RMA) number and return instructions.

-7510 / 7511 meters are not oxygen cleaned. Use with incompatible fluids may

cause o-rings to swell and break.

-O-rings should be replaced if meter is disassembled after it has been in service.
-Extra caution must be exercised when meters are used in high pressure gas

cylinder applications. Pressure regulators should be installed at the cylinder and

at the inlet of the meter.

-Serious property damage and great personal injury could occur as the result of a

meter misused or used in an unsuitable application.

1) Inspect meter for damage that may have occurred during shipping.

Report any damage to the container to the freight carrier immediately.

This is important information. Read it carefully

before beginning work.

2) Make sure your pressure, temperature, fluid and other

requirements are compatible with the meter.

3) Select a suitable location for installation to prevent excess stress

on the meter which may result from:

a) Misaligned pipe.

b) The weight of related plumbing.

c) "Water Hammer" which is most likely to occur when flow is

suddenly stopped as with quick closing solenoid operated valves.

(If necessary, a surge chamber should be installed. This will also be

useful in pressure start-up situations.)

d) Thermal expansion of liquid in a stagnated or valve isolated

system.

e) Instantaneous pressurization which will stress the meter and

could result in tube failure.

NOTE: In closed thermal transfer or cooling systems, install the meter

in the cool side of the line to minimize meter expansion and

contraction and possible fluid leaks at the threaded connections.

4) Handle the meter carefully during installation.

a) Use an appropriate amount of teflon tape on external pipe

threads before making connections. Do not use paste or stick type

thread sealing products.

b) Extreme caution should be exercised when using PVC solvent

cement around Acrylic. Solvents can cause acrylic to stress crack.
c) Over tightening of plastic connections may result in fitting

damage.

5) Install the meter vertically with the inlet port at the bottom.
6) Meters with stainless steel fittings will support several feet of pipe

as long as significant vibration or stress resulting from misaligned pipe

are not factors.

7) Meters with plastic fittings must be installed so that fittings are not

made to support any part of the associated plumbing. In addition,

meter frame should be fastened to bulkhead, panel or column.

8) Meters used in gas service should have suitable valves plumbed in

at the inlet and outlet of the meter. These valves should be no more

than 1-1/2 pipe diameters from the meter ports. The valve at the

outlet should be used to create back pressure as required to prevent

float bounce. It should be set initially and then left alone. The inlet

valve should be used for throttling purposes. Depending on the

installation, valves may not be essential, but they are most useful in

many installations. Remember: To get a correct reading of flow in gas

service, it is necessary to know the pressure right at the outlet of the

meter (before the valve).

9) Pressure and temperature maximums must never be exceeded.

EPR

225 °F

Buna-N

Viton

Kalrez

275 °F

350 °F

400 °F

Water

Air

130° F

150 psig

100° F

100 psig

Maximum Non-Shock

Pressure and

Temperature

O-Ring Temperature

Ambient

temperature

33° F - 125° F

Viton and Kalrez are registered trademarks of DuPont Dow

Elastomers.

O-Ring Material

Pressure

Temperature

Maximum

Temperature

BL FLOAT

Lowest meter

capacity or

medium capacity

with low viscosity

fluids

GS FLOAT

Maximum flow

meter capacity

with limited

viscosity

immunity

GV FLOAT

Highest immunity

to viscous fluids

with medium

meter capacity.

GS FLOAT

Maximum flow

meter capacity

with limited

viscosity

immunity

Meters are not specifically recommended for service other than

water or air. The user must determine meter suitability for use

with other fluids.

END FITTING

END FITTING O-RING

OUTLET FLOAT STOP

FLOAT

ACRYLIC METER TUBE

INLET FLOAT STOP

END FITTING

END FITTING O-RING

GUIDE ROD ASSEMBLY

FLOAT

ACRYLIC METER TUBE

INLET FLOAT STOP

OUTLET FLOAT STOP/

Pressure and temperature ratings are based on a study of the engineering data

for particular materials used in construction and on the design of individual

models. This information is supplemented by destructive test results. Meters with

stainless enclosures must never be operated without shields securely in place.

Meters exposed to difficult environments such as those created by certain

chemicals, excessive vibration or other stress inducing factors could fail at or

below the suggested maximums. Never operate meters above pressure and

temperature maximums. It is strongly recommended that all meter installations

utilize an appropriate pressure relief valve and/or rupture disc. The pressure

settings and locations of these devices should be such that meters cannot be

over pressurized. Meter failure could result in damage to equipment and serious

personal injury. Always use suitable safety gear, including OSHA approved eye

protection when working around meters in service. We are happy to pass along

chemical compatibility information that has been published by the manufacturer's

of raw materials used in our products; however, this information should not be

construed as a recommendation made by King Instrument Company, Inc. for a

specific application.

Carefully remove the flowmeter from piping system. Remove the threaded outlet

fitting and withdraw the float from the top. All necessary instrument components

are now fully accessible for cleaning with a bottle brush and appropriate mild

soap solution*. Before the meter is reassembled, inspect all parts for damage.

O-rings should be replaced during meter maintenance and cleaning.

To reassemble, carefully guide the float back into the tube. When installing

float/guide assembly make certain that the end of the guide fully engages the

inlet and/or outlet float stop. Reinstall and tighten fittings in appropriate ports.

Reinstall the instrument into the plumbing system after removing the old teflon

tape (with a wire brush) and replacing with fresh teflon tape.
*Do not use cleaning agents that will damage float, tube or o-rings.

Meters should be cleaned with a mild soap solution. This will be an effective

cleaner of rust stains. Caution must be used so that materials of construction are

not damaged by cleaning solutions. Hard water deposits can be removed with 5%

acetic acid solution (vinegar).

7510 / 7511 meters that require repair should be sent to the factory. Please call

for a Return Merchandise Authorization (RMA) number and return instructions.

-7510 / 7511 meters are not oxygen cleaned. Use with incompatible fluids may

cause o-rings to swell and break.

-O-rings should be replaced if meter is disassembled after it has been in service.
-Extra caution must be exercised when meters are used in high pressure gas

cylinder applications. Pressure regulators should be installed at the cylinder and

at the inlet of the meter.

-Serious property damage and great personal injury could occur as the result of a

meter misused or used in an unsuitable application.

1) Inspect meter for damage that may have occurred during shipping.

Report any damage to the container to the freight carrier immediately.

This is important information. Read it carefully

before beginning work.

2) Make sure your pressure, temperature, fluid and other

requirements are compatible with the meter.

3) Select a suitable location for installation to prevent excess stress

on the meter which may result from:

a) Misaligned pipe.

b) The weight of related plumbing.

c) "Water Hammer" which is most likely to occur when flow is

suddenly stopped as with quick closing solenoid operated valves.

(If necessary, a surge chamber should be installed. This will also be

useful in pressure start-up situations.)

d) Thermal expansion of liquid in a stagnated or valve isolated

system.

e) Instantaneous pressurization which will stress the meter and

could result in tube failure.

NOTE: In closed thermal transfer or cooling systems, install the meter

in the cool side of the line to minimize meter expansion and

contraction and possible fluid leaks at the threaded connections.

4) Handle the meter carefully during installation.

a) Use an appropriate amount of teflon tape on external pipe

threads before making connections. Do not use paste or stick type

thread sealing products.

b) Extreme caution should be exercised when using PVC solvent

cement around Acrylic. Solvents can cause acrylic to stress crack.
c) Over tightening of plastic connections may result in fitting

damage.

5) Install the meter vertically with the inlet port at the bottom.
6) Meters with stainless steel fittings will support several feet of pipe

as long as significant vibration or stress resulting from misaligned pipe

are not factors.

7) Meters with plastic fittings must be installed so that fittings are not

made to support any part of the associated plumbing. In addition,

meter frame should be fastened to bulkhead, panel or column.

8) Meters used in gas service should have suitable valves plumbed in

at the inlet and outlet of the meter. These valves should be no more

than 1-1/2 pipe diameters from the meter ports. The valve at the

outlet should be used to create back pressure as required to prevent

float bounce. It should be set initially and then left alone. The inlet

valve should be used for throttling purposes. Depending on the

installation, valves may not be essential, but they are most useful in

many installations. Remember: To get a correct reading of flow in gas

service, it is necessary to know the pressure right at the outlet of the

meter (before the valve).

9) Pressure and temperature maximums must never be exceeded.

EPR

225 °F

Buna-N

Viton

Kalrez

275 °F

350 °F

400 °F

Water

Air

130° F

150 psig

100° F

100 psig

Maximum Non-Shock

Pressure and

Temperature

O-Ring Temperature

Ambient

temperature

33° F - 125° F

Viton and Kalrez are registered trademarks of DuPont Dow

Elastomers.

O-Ring Material

Pressure

Temperature

Maximum

Temperature

BL FLOAT

Lowest meter

capacity or

medium capacity

with low viscosity

fluids

GS FLOAT

Maximum flow

meter capacity

with limited

viscosity

immunity

GV FLOAT

Highest immunity

to viscous fluids

with medium

meter capacity.

GS FLOAT

Maximum flow

meter capacity

with limited

viscosity

immunity

Meters are not specifically recommended for service other than

water or air. The user must determine meter suitability for use

with other fluids.