Watts Lfm513-6 Installation and operating instructions

Installation, Operation and Maintenance

Deep Well Pump Control Valve

Sizes: 2" to 24"

NOTICE

For Australia and New Zealand: Pipeline strainers should be

installed between the upstream shutoff valve and the inlet of

the backflow preventer.

It’s important that this device be tested periodically in compli-

ance with local codes, but at least once per year or more as

service conditions warrant. If installed on a fire sprinkler system,

all mechanical checks, such as alarm checks and backflow

preventers, should be flow tested and inspected internally in

accordance with NFPA 13 and NFPA 25.

WARNING

Read this Manual BEFORE using this equipment.

Failure to read and follow all safety and use information

can result in death, serious personal injury, property

damage, or damage to the equipment.

Keep this Manual for future reference.

Table of Contents Page

Introduction............................................2

Installation ............................................2

Commissioning the Deep Well Pump Control .................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 are required to

consult the local building and plumbing codes prior

to installation. If the information provided here is not

consistent with local building or plumbing codes, the

local codes should be followed. This product must be

installed by a licensed contractor in accordance with

local codes and ordinances.

WARNING

Need for Periodic Inspection/Maintenance: This product

must be tested periodically in compliance with local codes,

but at least once per year or more as service conditions

warrant. All products must be retested once maintenance

has been performed. Corrosive water conditions and/or

unauthorized adjustments or repair could render the product

ineffective for the service intended. Regular checking and

cleaning of the product’s internal and external components

helps assure maximum life and proper product function.

WARNING

CLOSES VALVE

OPENS VALVE

FLOW

Model LFM513-6 / LFM6513-6

IOM-ACV-513-6_6513-6

LFM513-6 (Globe) Deep Well Pump Control Valve

Standard Components

2(L)

CLOSES VALVE

OPENS VALVE

FLOW

X/Y

(Supply Pressure)

Installation

1. Prior to installation, flush line to remove debris.

2. Install valve so the flow arrow matches flow through the line, and gauges to monitor valve inlet and outlet pressures.

3. Install isolation valves upstream and downstream of the main valve.

4. Provide adequate clearance for valve servicing and maintenance. Refer to valve servicing dimensions on next page. Avoid installing

valves 6" and larger in the vertical position (main valve stem horizontal). Automatic Control Valves (ACVs) are designed for horizon-

tal in-line installation, with the cover facing up (main valve stem vertical). Slow operation or premature stem and guide wear may

occur if valve is not installed according to factory recommendations. Consult factory for detailed engineering review prior to order-

ing if valve is to be installed other than horizontally in-line.

5. If valve is equipped with a pilot control system, extra precautions should be made during installation to protect the piping circuit

from damage. Only remove the pilot control system from the valve if necessary. Tubing and fittings should be kept clean and

replaced exactly as removed. Consult appropriate hydraulic schematic to ensure proper re-assembly.

6. Connect solenoid wiring leads to desired switching device, using safe, standard electrical practices.

7. Wire the limit switch contacts to the proper relay connections, using safe, standard electrical practices. Adjust the limit switch collar

to the approximate make/break contact position.

8. Field install remote operating pressure line, minimum recommended size ½”, to the downstream side of the system check valve.

9. After installation, vent entrapped air from valve cover and pilot system by following instructions on Technical Bulletin.

Start-up of an automatic control valve requires that proper procedures be followed. Time must be allowed for the valve to react to adjustments and the

system to stabilize. The objective is to bring the valve into service in a controlled manner to protect the system from damaging over-pressure.

Operation

The Deep Well Pump Control Valve is designed to minimize the

surges associated with the starting and stopping of well pumps.

The valve slowly opens and closes as required to control pumping

related surges. The pump starts and stops against an open valve.

Pump start up: When the pump is signaled to start, the 4-Way

Solenoid is energized and directs fluid and pressure into the cover

chamber (above the diaphragm), and relieves fluid and pressure

from the power chamber (below the diaphragm). The fluid and

pressure relieved from the cover chamber is vented to atmo-

sphere or available floor drain. The valve closes at an adjustable

rate, gradually admitting pumping pressure into the distribution

system. Rate of valve closure is controlled by the adjustable clos-

ing speed control, which restricts the speed at which fluid and

pressure evacuate the power chamber. The valve remains closed

during the pumping cycle.

Pump shutdown: When the pump is signaled to shut-off, the

4-Way Solenoid is de-energized, and directs fluid and pressure

into the power chamber (below the diaphragm), and relieves fluid

and pressure from the cover chamber (above the diaphragm).

The fluid and pressure relieved from the cover chamber is vented

to atmosphere or available floor drain. The valve opens at an

adjustable rate, gradually reducing pumping pressure, allowing the

system check valve to slowly close. Rate of valve opening is con-

trolled by the adjustable opening speed control, which restricts

the speed at which fluid and pressure evacuate the cover cham-

ber. When the valve reaches the full open position, the limit switch

is actuated, turning the pump off.

Manual Operation: Engaging the Solenoid Manual operator

simulates power to the solenoid, manually closing the main valve.

Disengaging the Solenoid Manual operator returns the valve to the

open position.

1 – Main Valve (M518 – Dual Chamber)

2 – Limit Switch

3 – 4-Way Solenoid

4 – Adjustable Opening Speed

5 – Adjustable Closing Speed

Y – Y-Strainer

X – Isolation Cocks

The following tables detail the recommended minimum valve servicing dimensions.

FLOW

Valve Servicing Dimensions

Commissioning Deep Well Pump Control

STEP 1

NOTE: System needs to be filled, pressurized, and ready for flow.

Pre-set pilots as noted:

Opening and Closing Speed – Prior to pump start, actuate manual operator on solenoid to enable diaphragm assembly to stroke

open and closed. Observing the limit switch stem indicator, monitor rate of opening and closing speed. Adjust accordingly per applica-

tion requirements.

Note: Cycle diaphragm multiple times to confirm rate of movement and remove excess air trapped within the cover chambers (See

Figure 1 Below).

To increase the rate of opening/closing, turn the adjustment

screws on the speed controls OUT, counterclockwise. In decrease

the rate of opening/closing, turn the adjustment screws on the

speed controls IN, clockwise.

STEP 2

Prior to pump start, energize the solenoid to confirm connection

to power source.

STEP 3

De-energize the solenoid prior to initial pump start.

STEP 4

Energize the solenoid at pump start to close the main valve,

checking that the main valve closes.

Globe

Angle

Size (in) 2 2½ 3 4 6 8 10 12 14 16 20 24

A (in) 20 22 22 24 32 34 38 44 48 52 56 56

B (in) 20 22 22 25 36 38 40 44 48 50 50 50

Size (in) 2 2½ 3 4 6 8 10 12 14 16

C (in) 20 22 22 24 32 34 38 44 48 52

D (in) 20 22 22 25 36 38 40 44 48 50

Figure 1

4-Way Solenoid

Manual

Operation

Normal

Operation

Closing Speed Flow Adjustment (located on the lower chamber):

While free flow goes into the upper chamber, the closing speed

flow control restricts flow out of the lower chamber of the main

valve.

If valve closing is too slow, turn the adjustment screw OUT, coun-

terclockwise, increasing the rate of closing.

STEP 6

When pump demand is satisfied, pump will continue to operate

as the main valve opens. To open main valve, de-energize the

solenoid, checking that the main valve opens.

STEP 7

Opening Speed Needle Valve Adjustment (located on the upper

chamber): While free flow goes into the lower chamber, the

Opening speed flow control restricts flow out of the upper cham-

ber of the main valve.

If valve opening is too slow, turn the adjustment screw OUT,

counterclockwise, increasing the rate of opening.

If valve opening is too quick, turn the adjustment screw IN, clock-

wise, decreasing the rate of opening.

STEP 5

STEP 8

At valve full open position deep well pump will stop. Adjust limit

switch collar to final position to ensure positive actuation of limit

switch electrical contact, if necessary, by sliding up/down to loca-

tion (See Figure 3).

Figure 2

Flow Control

Counterclockwise to INCREASE

the rate of opening

Clockwise to DECREASE

rate of opening

2A 2B

Figure 3

Limit Switch in Open Position

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.

Troubleshooting Guide

Issue Possible Cause Corrective Action Notes

Main Valve will not

open

Closed isolation valves in pilot system. Check isolation valves, ensure

open.

Insufficient supply pressure. Check upstream pressure. Depending on water

source, supply pressure

may not be controlled by

valve operator.

Main valve stem assembly corroded/

damaged

Inspect stem assembly, clean/

replace if necessary.

Blockage in pilot system. Inspect & clean any installed

pilot system strainers, check

orifice/speed controls for

blockages.

Improperly configured opening speed

control.

Adjust opening speed control

to verify functionality, adjust as

required.

Standard setting for open-

ing speed control is 1 1/2

- 2 1/2 turns open from full

closed position. Can be

adjusted in field.

Main Valve will not

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 assembly corroded/

damaged.

Inspect stem assembly, clean/

replace if necessary.

Blockage in main valve. Perform freedom of movement

test; if valve does not close,

disassemble and remove

blockage.

Worn/damaged valve seat. Perform seat sealing check;

disassemble and inspect/re-

pair seat if required.

Improperly configured closing speed

control.

Adjust closing speed control

to verify functionality, adjust as

required.

Standard setting for

closing speed control is

11/2 - 21/2 turns open from

full closed position. Can

be adjusted in field.

Solenoid will not

actuate

Possible Cause: Low or no voltage Check voltage at the solenoid

connection, insuring that it has

the minimum of 85% of the

coils rated voltage.

Should be performed by

licensed electrician

Manual operated is engaged Turn manual operator counter-

clockwise to disengage

Valve Disassembly Instructions

Before undertaking valve disassembly, it is recommended to gather the following tools to aid you during the process:

• Small & large adjustable wrenches

• Screwdriver set

• Machinist fine metal file

• Fine wire brush

• Bench vise

• Basic valve IO&M manual

• Hammer & dull cold chisel

• Heavy-duty ratchet & socket set

• Hexagonal wrench set

• 320 grit/fine Emery cloth

• Appropriate technical bulletins for

valve start-up procedures.

1. Isolate the valve from line pressure and depressurize it to ensure safe working conditions. Disconnect any electrical

connections if so equipped.

2. Carefully remove Position Indicator or Limit Switches if equipped. Remove all tubing, fittings, and Control Pilots

necessary to easily access and remove the cover. Remove 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 installation of lifting “eye” bolts in order to facilitate cover removal; installation ports are provided on

the cover for this purpose.

4. Remove the Disc and Diaphragm Assembly from the valve body by lifting straight up.

a. Large diameter valves may require a lifting “eye” bolt to be installed in the valve stem accessory threads located on the very

top of the valve stem.

5. Before removing Stem Nut, examine stem threads for mineral build-up. Remove deposits with a fine wire brush. Extreme care should

be taken not to damage the finish on stem guiding surfaces when disassembling. Avoid applying pipe wrenches to top or bottom

stem guide surfaces.

VALVE COVER

BRASS BAR STOCK

(ANGLE UPWARD)

HAMMER

6. After removing the Stem Nut, the remainder of the Disc & Diaphragm Assembly should disassemble easily. Polish stem guide

surfaces with fine emery cloth to remove any mineral deposits 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 valve seat. If seat is not damaged, removal is not necessary. If it is damaged please contact factory for instructions.

8. Replace Seat Disc, Diaphragm and Spacer Washers provided in Main Valve repair kit (refer to Table 2 or 3 for correct repair kit part

number). Re-assemble in the reverse order of disassembly.

9. Re-Install Disc and Diaphragm Assembly in the valve, taking care not to damage the lower guide area in the center of the valve

seat.

10. Re-install Cover Spring. Replace Valve Cover and tighten Cover Nuts in a crossing pattern to ensure even distribution. Test the Disc

and Diaphragm Assembly for 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 valve to service by following instructions on the Technical Bulletin matching the valve function.

Size (in) 2 2½ 3 4 6 8 10 12 14 16

P/N 0677-21 0677-22 0677-23 0677-24 0677-25 0677-26 Consult Factory 0677-28 0677-29 0677-30

Table 2: Full Port Valve (M100/M1100) Repair Kits

Table 3: Reduced Port Valve (M6100 / M61100) Repair Kits

Size (in) 3 4 6 8 10 12 16 20 & 24

P/N 0677-21 0677-23 0677-24 0677-25 0677-26 0677-27 0677-28 0677-30

Installation: If unit is installed in any orientation other than

horizontal (cover up) OR extreme space constraints exist,

consult customer service prior to or at the time of order.

NOTICE

ITEM DESCRIPTION MATERIAL

1Pipe Plug Lead Free Brass

2Cover ASTM A536 65-45-12 Epoxy Coated Ductile Iron

3Cover Bearing ASTM A276 304 Stainless Steel

4Stud with Cover Nut & Washer ASTM A570 Gr.33 Zinc Plated Steel

5Upper Body ASTM A536 65-45-12 Epoxy Coated Ductile Iron

6Gasket Seal Buna-N (Nitrile)

7Body ASTM A536 65-45-12 Epoxy Coated Ductile Iron

8Stem Nut ASTM A276 304 Stainless Steel

9Lock Washer ASTM A276 302 Stainless Steel

10 Diaphragm Washer ASTM A536 65-45-12 Epoxy Coated Ductile Iron

11 Diaphragm* Buna-N (Nitrile)

12 Inner Bearing Bolts** (3" and Smaller) ASTM A276 304 Stainless Steel

13 Inner Bearing Retainer** (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* Buna-N (Nitrile)

17 Upper Stem ASTM A276 304 Stainless Steel

18 Lower Stem ASTM A276 304 Stainless Steel

19 Spring ASTM A276 302 Stainless Steel

20 Disc Retainer ASTM A536 65-45-12 Epoxy Coated Ductile Iron

21 Spacer Washer* NY300 Fiber

22 Disc* Buna-N (Nitrile)

23 Disc Guide ASTM A743 CF8M (316) Stainless Steel

24 Lock Washer ASTM A276 304 Stainless Steel

25 Stem Nut ASTM A276 304 Stainless Steel

26 Seat Ring*** ASTM A743 CF8M (316) Stainless Steel

26A Seat Screw*** (8" and Larger) ASTM A276 304 Stainless Steel

27 Seat Gasket * Buna-N (Nitrile)

13A

26A

13A

26A

* Contained in Main Valve Repair Kit

**4 inch and larger valves do not require Bearing Bolts

***6 inch and smaller valves, Seat Ring is threaded

ACV Assembly Diagram – Series LFM513-6

NOTES

USA: T: (978) 689-6066 • F: (978) 975-8350 • Watts.com

Canada: T: (888) 208-8927 • F: (905) 481-2316 • Watts.ca

Latin America: T: (52) 55-4122-0138 • Watts.com

Limited Warranty: Watts Regulator Co. (the “Company”) warrants each product to be free from defects in material and workmanship under normal usage for a period of one year from the date of

original shipment. In the event of such defects within the warranty period, the Company will, at its option, replace or recondition the product without charge.

THE WARRANTY SET FORTH HEREIN IS GIVEN EXPRESSLY AND IS THE ONLY WARRANTY GIVEN BY THE COMPANY WITH RESPECT TO THE PRODUCT. THE COMPANY MAKES NO OTHER

WARRANTIES, EXPRESS OR IMPLIED. THE COMPANY HEREBY SPECIFICALLY DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED

WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.

The remedy described in the first paragraph of this warranty shall constitute the sole and exclusive remedy for breach of warranty, and the Company shall not be responsible for any incidental, special

or consequential damages, including without limitation, lost profits or the cost of repairing or replacing other property which is damaged if this product does not work properly, other costs resulting

from labor charges, delays, vandalism, negligence, fouling caused by foreign material, damage from adverse water conditions, chemical, or any other circumstances over which the Company has no

control. This warranty shall be invalidated by any abuse, misuse, misapplication, improper installation or improper maintenance or alteration of the product.

Some States do not allow limitations on how long an implied warranty lasts, and some States do not allow the exclusion or limitation of incidental or consequential damages. Therefore the above

limitations may not apply to you. This Limited Warranty gives you specific legal rights, and you may have other rights that vary from State to State. You should consult applicable state laws to

determine your rights. SO FAR AS IS CONSISTENT WITH APPLICABLE STATE LAW, ANY IMPLIED WARRANTIES THAT MAY NOT BE DISCLAIMED, INCLUDING THE IMPLIED WARRANTIES OF

MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE LIMITED IN DURATION TO ONE YEAR FROM THE DATE OF ORIGINAL SHIPMENT.

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