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To ensure peak performance and longevity of your automatic 

control valve, Watts/Ames recommends following the below  

standard maintenance schedule.  

• 

Monthly Maintenance

– Visual inspection of valve(s) for leaks
– Inspect for proper operation(s); exercise valve.

• 

Quarterly Maintenance

– Conduct monthly inspection.
– Validate/Re-establish necessary setpoints of controls/pilots. 

• 

Annual Maintenance

– Conduct monthly & quarterly inspections.
– Inspect & clean all strainers.  
– Inspect valve coating, touch up as required.

• 

3-5 Year Maintenance

– Conduct monthly, quarterly, & annual maintenance.
–  Inspect & replace valve elastomers (diaphragm, O-rings, 

valve/pilot seats)

– Re-establish necessary set points of controls/pilots.

Automatic Control Valve Maintenance Schedule

 

Troubleshooting Guide

 

Warning: 

The valve cannot be serviced under pressure.  

Upstream and downstream Isolation Valves must be installed 

to protect system piping. Accurate diagnosis and trouble-

shooting requires the valve to open fully, and may subject 

downstream piping and equipment to high pressure and/or 

flow rates. The downstream Isolation Valve should be kept 

closed while diagnosing the valve.

Extreme caution should be used while performing the 

troubleshooting techniques listed below.

WARNING

!

Recommended tools for diagnosis: (3) PRESSURE GAUGES, 

installed to monitor the inlet pressure, outlet pressure, and cover 

chamber pressure. If included, a POSITION INDICATOR should 

be installed to visually assess the position of the disc &  

diaphragm assembly.

 Test 1: Diaphragm Seal Test

1.  Close upstream & downstream isolation valves. Close pilot 

isolation valves or remove pilot control tubing to isolate valve 

cover from incoming fluid & pressure. Remove uppermost 

cover plug, test cock, or limit switch.

2.  With the valve cover chamber vented to atmosphere,  

partially open the upstream isolation valve, allowing incoming 

pressure to lift the disc & diaphragm assembly. A volume of 

water will be displaced from the cover chamber as the valve 

opens; consult valve specification sheets for approximate 

cover capacity. A continuous flow of water from the open port 

indicates a damaged diaphragm or loose disc & diaphragm 

assembly. Disassemble valve and replace diaphragm or tighten 

disc & diaphragm assembly.

Test 2: Seat Seal Test

1.  Close downstream isolation valve and install pressure gauges 

on an open inlet and outlet port of main valve.  

2.  Open upstream isolation valve to allow pressure on to the 

valve cover. Allow valve to fully close.

3.  Monitor downstream pressure gauge; reading should hold 

steady below incoming pressure. If pressure on downstream 

side rises to match upstream pressure, leakage is occurring 

through the seat of the main valve. Disassemble valve, inspect 

and repair/replace any required parts.
a.  If gauge pressure rises to match outlet pressure (down-

stream of closed isolation valve) yet remains below inlet 

pressure, the isolation valve may be leaking as opposed to 

main valve seat.

Test 3:  Freedom of Movement/Valve  

Travel Test

1.  Close upstream and downstream isolation valves. Install valve 

position indicator.  

2.  Partially open upstream isolation valve and allow cover to fill 

with fluid & pressure, closing the valve fully. Mark the position 

indicator’s full closed position.

3.  Isolate cover chamber from receiving fluid and pressure by 

closing isolation valves or removing control tubing.  

4.  Carefully vent cover chamber to atmosphere by opening test 

cock or removing a cover plug. Observe the valve position 

indicator as the valve travels to the full-open position. The disc 

& diaphragm assembly should move freely from fully closed to 

fully open position without binding or “grabbing” at any point 

during its movement.

a.  The disc & diaphragm assembly may momentarily “hesi-

tate” while travelling from fully closed to fully open position 

– this is a normal characteristic of diaphragm operated 

control valves, and does not indicate mechanical binding 

or improper valve operation.

b.  A continuous discharge of water from the cover chamber 

after venting to atmosphere indicates leakage past the 

diaphragm.

5.  If necessary, disassemble valve and inspect/repair disc & 

diaphragm assembly.

4          IOM-A-ACV-980-16-19_680-16-19   2115 

EDP# 1917102 

© 2021 Watts

IOM-A-ACV-980-16-19_680-16-19   2115 

EDP# 1917102 

© 2021 Watts         5

Summary of Contents for 680GD-16-19

Page 1: ...l Valve 3 Maintenance Schedule 6 Trouble Shooting Guide 6 Valve Disassembly Instructions 8 ACV Schematic 11 Local building or plumbing codes may require modifica tions to the information provided You...

Page 2: ...to minimize the surges asso ciated with the starting and stopping of pumps The valve slowly opens and closes as required to control pumping related surges The pump starts and stops against a closed v...

Page 3: ...to confirm rate of movement and remove excess air trapped within the cover chambers To increase the rate of opening closing turn the adjustment screws on the speed controls OUT counterclockwise See Fi...

Page 4: ...nue to operate as the main valve closes To close main valve de energize the solenoid checking that the main valve closes STEP 7 Closing Speed Flow Adjustment While free flow goes into the upper chambe...

Page 5: ...cification sheets for approximate cover capacity A continuous flow of water from the open port indicates a damaged diaphragm or loose disc diaphragm assembly Disassemble valve and replace diaphragm or...

Page 6: ...Main Valve will not close Closed isolation valves in pilot system Check isolation valves ensure open Diaphragm is damaged Conduct diaphragm seal test repair and replace if necessary Main valve stem a...

Page 7: ...e cover nuts and washers 3 Remove the cover If cover is not free to be removed loosen it by tapping upward along its outside edge with a dull cold chisel pic tured above a Large valves may require the...

Page 8: ...its and inspect for excessive wear Remove any mineral build up from other components with wire brush or by using a Mineral Dissolving Solution Inspect parts for wear and replace if necessary 7 Inspect...

Page 9: ...r smooth travel by following the Freedom of Movement Test procedure in previous section 11 Test the integrity of the Seat Seal by following the Seat Seal Test procedure in previous section 12 Return v...

Page 10: ...r 3 and Smaller ASTM A276 302 Stainless Steel 13A Bearing Retaining Ring 4 and Larger ASTM A276 302 Stainless Steel 14 Inner Bearing ASTM A276 304 Stainless Steel 15 O ring Buna N Nitrile 16 O ring Bu...

Page 11: ...IOM A ACV 980 16 19_680 16 19 2115 EDP 1917102 2021 Watts 11 NOTES...

Page 12: ...2 2021 Watts USA Backflow T 978 689 6066 F 978 975 8350 AmesFireWater com USA Control Valves T 713 943 0688 F 713 944 9445 AmesFireWater com Canada T 888 208 8927 F 905 481 2316 AmesFireWater ca Latin...

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