SPX W+ Instruction Manual

Instruction Manual

W+ Pump

Read and understand this manual prior to
operating or servicing this product.

453342 ISS 07.2010

Contents:

USA

Section Page Description

- 1 Introduction

- 3 Warnings

- 6 Important Warnings

- 8 Sectional Drawing

1 10 Introduction to the W+

1.1 - W+ range

1.2 - W+ pump features

1.3 - Identifying the pump model

2 11 Installation of the pump

2.1 - Positioning

2.2 - Lining up the pipe system

2.3 - Power supply

2.4 - Water supply for water-flushed shaft seal

2.5 12 Connecting steam or steam condensate for aseptic use

3 12 Before start-up

3.1 - Checking the pump body for foreign material

3.2 - Testing the pump

4 13 Putting the pump into service

4.1 - Flushing water/steam/condensate etc.

5 13 Maintenance

5.1 - Checking the shaft seal

5.2 - Replacing the shaft seal

5.3 15 Replacement of motor

5.4 16 Recommended spare parts

6 17 Technical data

6.1 - Maximum permissible outlet pressure

6.2 Required torques

7 Spare parts list and Pump dimensions

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453343 ISS S 07.2010

Congratulations, you are the owner of a quality built item from SPX Flow
Technology. This pump was manufactured by the skilled personnel of a
company which has served the needs of the dairy, food and process
industries for more than 100 years.

The purpose of this manual is to provide instructions for the safe installation,
operation and maintenance of your SPX Flow Technology equipment.

Read and understand the entire manual before removing from the crate and
installing the equipment.

SPX Flow Technology is committed to providing quality equipment and
customer satisfaction. We have a unique network of sales and service
support throughout the world, which are listed in this manual. Please note the
office located nearest to you. Should you have any questions concerning any
information contained in this manual, contact SPX Flow Technology in
Delavan, WI at 1-800-252-5200 for assistance.

Standard Warranty

Obligations of Seller

During the warranty period, the Seller shall repair, or at Seller's option,
replace parts determined by the seller to be defective in material or
workmanship.

The warranty period is one (1) year from the date of delivery to
Buyer F.O.B. point of manufacture. The foregoing shall be the sole obligation
of the seller under this warranty with respect to the equipment and the other
property included in this agreement. With respect to the equipment, materials,
parts and accessories manufactured by others, seller's sole obligation shall
be to use reasonable efforts to obtain for the Buyer the full benefit of the
manufacturer's warranties

Warranty Exclusions

Repair or replacement of parts required because of misuse, improper care or
storage, negligence, alterations, accident, use of incompatible supplies or
lack of specified maintenance are excluded from the Seller's warranty
obligations.

Disclaimer of Warranties

The foregoing warranty expressions are in lieu of all other warranties,
expressed or implied, including implied warranties of merchantability and
fitness for a particular purpose, and existence of any such other warranty is
hereby denied.

Limitation of Liability and Remedies

The liability of the Seller for breach of any warranty obligation hereunder is
limited to:

1. The repair or replacement of the equipment on which the
liability is based or,

2. At the Seller's option, the refund to the Buyer of the amount paid by
the Buyer to the Seller for said equipment.

Introduction

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453343 ISS S 07.2010

All other liability of the Seller with respect to this agreement, or from the
manufacture, installation, maintenance, repair or use of any equipment
covered by or furnished under this agreement, whether in contract or in tort,
or otherwise, is limited to the amount paid by the Buyer to the Seller pursuant
to the terms herein:

Seller shall not be liable for incidental or consequential damages of any kind
whatsoever. The remedies set forth herein are exclusive.

Breach

Any breach by the Seller with respect to any items or unit of equipment shall
be deemed a breach with respect to that item or unit only.

Infringement

The Seller will not be liable for the infringement of any patent by the Buyer's
use of any equipment or materials delivered hereunder.

A word about SPX Flow Technology Service Parts

We want to raise your awareness to the problem associated with the
purchase of parts not manufactured to the high quality specifications of SPX
Flow Technology.

In addition to our high quality, SPX Flow Technology parts are manufactured
to meet regulatory agency authorization, approvals and certification (3A
Sanitary standards, USDA, ASME, BISSC, and OSHA). Where applicable,
materials used in construction of SPX Flow Technology parts conform to FDA
regulations.

Types of equipment include, but are not limited to, rotary pumps, centrifugal
pumps, homogenizers, ice cream freezers, scrape surface heat exchangers,
plate heat exchangers, ingredient feeders, process tanks and contact plate
freezers.

We bring this potentially serious problem to your attention in order to
safeguard your best interest and those of your employees.

If you have any questions, please feel free to call your local SPX Flow
Technology contact.

Introduction

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453343 ISS S 07.2010

Parts not manufactured to our specifications may cause damage to your SPX
Flow Technology equipment and void all warranties. Use of parts that do not
meet SPX Flow Technology specifications may cause property damages and
serious bodily injury

Policy regarding availability of service parts

SPX Flow Technology will attempt to remain in a position to supply
replaceable parts during the normal life of any item of SPX Flow Technology
equipment. This is contingent upon availability of tools, material and facilities
of our own as well as of our suppliers.

After the expiration of this period, the supply of service parts will be limited to
available stock of completed parts. If unable to supply the service part,
drawings will be furnished when available to permit local manufacturing, if
desired.

SPX Flow Technology reserves the right to improve, change or modify the
construction of its equipment or any parts thereof without incurring any
obligation to provide like changes to equipment previously sold.

Safety Information

Electrical Hazard

A pump is normally powered by an electric motor

. This creates a hazard of

electrical shock which could cause severe injury or even loss of life.

To minimize the risk of this hazard:

All electric/electronic installation, maintenance, and service must be
performed by trained and authorized electricians only.

All electric/electronic installation must comply with all applicable codes and
standards including those established by OSHA (Occupational Safety and
Health Administration).

Do Not perform any maintenance or service on the motor or any other
electrical devices unless the electric power source has been turned off and
Locked Out using a locking device for which only the person involved in
the maintenance procedure has possession of the key.

Make installation suitable for a wet environment, including:

1. A power disconnect which can be locked in a power Off position and

the key removed. This will allow maintenance or service to be
performed without possibility of power being accidentally turned on.

2. Protection of all electric connections within a sealed junction box.

3. Proper grounding of the motor.

4. Protection from flooding. Do not install in an area which could fill with

water to a level which contacts the motor.

Warnings

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Rotating Parts Hazard

Routine cleaning and maintenance procedures require pump disassembly.
The pump contains close fitting parts which rotate during operation. Should
the pump start unexpectedly while disassembled, severe injury could result.

To minimize the risk of this hazard:

1. Do Not assemble or disassemble the pump

2. Do Not remove the guard from the adapter

3. Do Not perform any maintenance or service on the motor or pump

unless the power source has been turned off and Locked Out, where
only the person involved in the maintenance procedure has
possession of the key.

High Temperature Hazard

Some pump applications may require processing of high temperature liquids
and/or the use of high temperature cleaning/sanitizing solutions. Pumping
high temperature liquids is considered to be hazardous and extreme care
should be taken when handling such liquids.

To minimize the risk of this hazard:

1. All installation, maintenance, and service of piping, valves, and other

controls must be performed by trained and authorized plumbers only.
This applies to process piping and cleaning/sanitizing piping.

2. All plumbing installation must comply with all applicable codes and
standards including those established by OSHA.

3. Do Not perform any maintenance or service on the motor or pump
unless the power source has been turned off and Locked Out, where
only the person involved in the maintenance procedure has
possession of the key..

4. Never disconnect any lines or fittings (whether process or
cleaning/sanitizing) or disassemble the pump until the line is no
longer under pressure and the fluid inside is not hot or harmful.

5. Operating personnel must be authorized and trained.

Warnings

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High Pressure Hazard

Fluids processed by a pump are under pressure. This creates a hazard to
personnel working in the area should a leak occur. Leaking high pressure
fluid may cause injury by startling personnel or from actual contact with the
leaking fluid.

To minimize the risk of this hazard:

1. All installation, maintenance, and service of piping, valves and other

controls must be performed by trained and authorized plumbers only.
This applies to process piping and cleaning/sanitizing piping.

2. All plumbing installation must comply with all applicable codes and
standards including those established by OSHA.

3. Never disconnect any lines or fittings (whether process or
cleaning/sanitizing) or disassemble the pump when lines are under
pressure.

4. Should a leak occur, immediately find the cause and stop the leak.

Never operate the pump with both the inlet valve and the outlet valve in
closed positions. If the pump runs with liquid in it, while the valves controlling
the suction and discharge lines are both closed, the liquid in the pump will
heat up and turn into vapor, causing a risk of explosion.

To eliminate the risk of explosion, it is strongly recommended that the
following be included in the system:

1. A pressure relief device which relieves pressure and contains any
discharge, or

2. A thermal/pressure overload device to isolate the pump motor in the event
of excessive temperature/pressure.

Leaking Fluid Hazard

Fluid leaks or spills may occur in any pumping system. This creates a hazard
to personnel due to slippery floor conditions or contact with possibly
hazardous fluids.

To minimize the risk of this hazard:

1. Always clean up leaks and spills immediately.

2. Find and correct the cause of the leak immediately.

Warnings

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453343 ISS S 07.2010

The following important cautions describe ways to avoid incorrect operating
procedures which will cause serious damage to the pump.

Cavitation

Cavitation is a condition within the pump which results in extreme hydraulic
forces which can create a risk of severe damage to pump components.
Cavitation makes a characteristic "rattling" noise. It is caused by operation
with low fluid pressure at the pump inlet.

To minimize this risk:

Install and operate the pump so that NPSH (net positive suction head)
available to the pump equals or exceeds the "NPSH required" as shown on
the pump performance curve. To increase NPSH available:

1. Decrease the temperature of the liquid being pumped.

2. Increase the height of liquid supply level.

3. Decrease the suction line length and remove restrictions to flow such

as elbows, valves, etc.

4. Increase the suction line size (diameter).

5. Reduce the pump flow rate (throttle discharge).

Corrosion Pitting

Stainless steel is subject to a risk of corrosion when improperly cleaned or
sanitized.

To minimize this risk:

1. Never use steel wool or a wire brush to clean stainless steel surfaces.

Iron particles will embed and cause corrosion pits. Use a non-metallic

brush or scrub pad for cleaning when required.

2 . Never allow prolonged contact of sanitizing solutions or other

corrosive cleaning chemicals with stainless steel. Only use sanitizing
solutions immediately prior to processing.

Important Warnings

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Motor Overload

Depending on the impeller diameter and motor horsepower, there is a risk the
pump motor will overload if operated with a fully opened, unrestricted
discharge.

To minimize this risk:

1. Before operating the pump, review performance curve and application

giving consideration to motor horsepower and impeller diameter
versus expected discharge flow rate and pressure. If the pump is
operated with less than expected discharge pressure, the flow rate will
increase and the load on the motor will increase.

2. Install a throttling type valve in the discharge piping to allow control of
pump discharge flow rate during initial operation. The valve may be
removed later when the system is proven to supply adequate
discharge pressure to prevent overload.

Impeller Shaft Location

The location of the impeller shaft on the motor shaft is critical for correct
pump operation and to obtain maximum operating efficiency.

APV Centrifugal Pumps are designed to achieve excellent operating
efficiency. This efficiency is possible, in part, because of precision
manufacturing of the pump components. The impeller must be precisely
located between the casing and backplate to take full advantage of the
pump's operating efficiency.

Incorrect location of the impeller shaft may cause the impeller to contact the
casing or the backplate during operation and cause extensive damage to the
pump.

The procedures for correctly locating the impeller shaft are described in the
Maintenance section. This should be referred to whenever:

1. A new pump is installed onto a motor or pedestal.

2. The impeller shaft is loosened or removed from the motor or pedestal

shaft.

3. A replacement casing or backplate is installed.

Important Warnings

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Sectional Drawing

W+

Section 1

Shaft size ø25 and ø35

Section 2

Shaft size ø25 and ø35

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Sectional Drawing

W+

1a: Pump housing
2a: Cap nut
3: O-ring
4: Impeller
6: O-ring
7a: Back plate
8: Locating pin
9a: Clamp ring
10: O-ring
11: Shaft
14: Extension frame

Section 1 Single seal for shaft size ø25 and ø35
Section 2 Double seal with liquid/steam flushing for shaft size ø25 and ø35

5.1: Seal housing

5.3: Pressure ring

5.4: Drain pipe

5.5: O-rings

5.6: Stationary seal face

5.7: Rotary seal face

5.8: Pin

5.9: Seal housing

5.10: O-ring

5.11: Pressure ring

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1. Introduction to the W+ program

1.1 The W+ range

This manual covers all the standard versions of the W+ pump as well as
aseptic versions (Wa+ pumps) and pumps with inducer (Wi+ pumps).
Check the pump's nameplate to make sure that you have one of the
above versions. The WHP+ and W+140/50 pump versions are described
in a special manual which will come with the pump. The WK+ (pedestal
pump version) is described in a supple mentary manual.

Units are designed and constructed to meet the requirements of the
3A sanitary standards for cleanability of processing equipment.

1.2 The W+ pump features

Standard Options are available in the W+ range:

- with frame and feet

- with shaft seal in carbon/SiC or SiC/SiC

- with O-rings in EPDM or FPM (Viton) (Kalrez and possibly others)

- with single or double shaft seal prepared for water-flushed or
steam-flushed shaft seal

Additional Options:

- Heating/Cooling Jacket

- Casing Drain

- Portable 2- and 3-wheel Cart

- Inducer (Wi+)

- Double O-ring sealing of pump body fitted for sterile flushing (Wa+)

- Heavy duty clamping ring, increasing the pump’s maximum
permissible outlet pressure to 360 PSIG
(available for W+30/120, W+55/35,
W+55/60, W+60/110, W+70/40) or 290 PSIG
(available for W+80/80).

- W+ pumps can be supplied with all standard welded ferrules
(tri-clamp, bevel seat, ISO, etc.) or with special aseptic connections
prepared for sterile flushing (Wa+).

1.3 Identifying the pump model

A nameplate as shown in Fig. 1 is fitted on the extension frame.

Example:

Serial No.: Use the serial number whenever requesting information on
service parts.
Type: The type indicates the type of pump, such as W+10/8,
W+22/20, etc.
Year: Indicates the year of manufacture.

Order No.: Indicates the number the pump was ordered under.

Fig. 1: Nameplate

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2. Installation of the Pump

2.1 Positioning

The pump must be positioned so that the suction pipe is as short as
possible and there is a sloping gradient towards the suction port.
Keep the number of valves, bends and tee-pieces on the suction side to
an absolute minimum.
There must be sufficient space around the pump for piping and access
for maintenance.

2.2 Lining up the pipe system

Line up the pipes carefully to the pump suction and discharge nozzles.
Make sure that the pipe system is adequately supported by pipe
supports, so that the pump body is not subject to strains and weight from
the pipe system.

2.3 Power supply

All electrical installation must comply with all applicable codes and
stand ards including those established by the Occupational Safety and
Health Administration (OSHA).

Install a main power disconnect on-off switch that can be locked in the
power off position and have the key removed when service is performed.

Thoroughly read the motor manufacturer’s instructions before making
installation.

The motor should be connected such that the direction of rotation of the
motor (and thus the impeller) is counterclockwise when viewed from the
front towards the suction nozzle of the pump body (fig. 2).

2.4 Water supply for water-flushed shaft seal

Pumps with a water-flushed shaft seal have two hose connectors on the
seal flange. The hose connectors are 1/8 inch NPT and fit a 1/4 inch
plas tic tubing. A flush flow of 4-8 gallons/hour is required. Maximum
pressure is 100 PSIG.

The hose connection in the seal flange should always be positioned
verti cally with the fluid inlet below and the outlet above. See Fig. 3.

Water consumption can be limited by installing a solenoid valve on the
supply side for the flushing water. The open/close function of the
solenoid valve can be controlled by the pump’s start/stop sequence.

Do not use the flushing water connectors for steam condensate. If you
want to use steam as the barrier medium, special aseptic piping is
required. See section 2.5 for connection.

Fig. 3

Fig. 2: Direction of shaft rotation

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453345 ISS S 07.2010

2. Installation of the Pump

2.5 Connecting steam or steam condensate for aseptic use

Shaft seals for aseptic use are supplied with stainless steel connectors
(18” NPT x 1/4” Tube).
The connection for steam or steam condensate with a static double seal
in the pump body is supplied with stainless steel fittings (1/8” NPT x 1/4”
Tube) and 1/4” stainless steel tubing.
Steam can be used at temperatures up to 300°F (150°C) and pressures
up to 72 PSIG (5 bar).

Before starting the pump, dismantle and clean the suction pipe. Any
foreign material in the pump should be removed.

3.1 Checking the pump body for foreign material

Remove the pump body as described below. The assembly drawing is to
be used for reference (page 8).

1. Disconnect the power supply.

2. Remove the pump body (item 1a) by undoing the clamp ring

(item 9a) or body screws and carefully pull off the pump body.

3. Turn the impeller (item 4) to ensure that there is no foreign material
behind it.

4. If there is any foreign material in the pump, remove it.

5. When the pump body is clean and free of foreign material,

reassemble the pump.

Mount the pump body as described below:

6. Check that the locating pin (item 8), where fitted, in the top of the
back plate mates with the detent in the pump body and carefully, to
avoid damaging the O-ring, press the pump body (item 1a) in over
the o-ring (item 6) and fasten with the clamp ring (item 9a) or body
screws, observing the correct tightening torque.

M8: 22 ft-lb (30 Nm)
M10: 41 ft-lb (55 Nm)
M12: 80 ft-lb (59 Nm)

7. Install suction and discharge pipes. Check that the pipe unions
have been tightened properly and that pipe supports have been
fitted.

To make the pump body easier to fit, we recommend that you give the
O-ring a thin layer of food-approved, acid-free grease or soap.

3.2 Testing the pump

To check that the pump is working satisfactorily, pour water into the
pump and start it for a moment. Check the direction of rotation (fig. 2).
Listen for any unusual noises.
In pumps with water-flushed or steam-flushed shaft seals, the seal
chamber must be filled with water/steam.

Never allow the pump to run without liquid, as this will ruin the shaft seal.

3. Before Start-up

Fig. 2: Direction of rotation

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453345 ISS S 07.2010

Check the following before starting the pump:

- that the shaft guard has been fitted properly

- that there is free access for liquid

- that the valve on the discharge side is closed
The valve on the discharge side (if fitted) is closed during start-up to
reduce motor starting current, but should be opened again as soon as
the pump has been started.

4.1 Flushing water/steam/condensate etc.

In pumps with a flushed shaft seal, check that the supply of flushing
medium is open and that the flow of the medium is adequate
(approx. 4-8 gallons/hour).

5.1 Checking the shaft seal

Check the pump’s shaft seal for leaks on a regular basis. If the shaft
seal is leaking, replace it or its relevant parts as described below.

5.2 Replacing the shaft seal

The assembly drawing shows the position and construction of the shaft
seal - both ordinary seals and seals with water/steam flushing.

To replace the shaft seal, it is necessary to dismantle the pump as
described below. The assembly drawing on page 8 is to be used for
reference.

1. Disconnect the power supply in the motor isolator by removing the
fuses and disconnecting the cables.

2. Turn off the steam and flushing water supply.

3. Close the inlet and discharge of the pump, and make sure that

there is no liquid in the pump body.

If the pump is used for hot and/or aggressive liquids, special
precau tions must be taken. In such cases, observe the local
regula tions for personal protection when working with these
products.

4. Once the inlet and outlet pipes have been closed properly, release
the clamp ring (item 9a) or body screws, take off the pump body
(item 1a) and remove the impeller (item 4).

5. Remove the stationary seal face (item 5.6) mounted in the back
plate (item 7a) with your fingers.

6. Remove the O-ring (item 5.5) from the stationary seal face.

7. Use your fingers to remove the rotary seal face (item 5.7) mounted

in the impeller (item 4).

4. Putting the Pump into Service

5. Maintenance

Dismantling the pump

Dismantling the shaft seal

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453345 ISS S 07.2010

5. Maintenance

8. Remove the O-ring (item 5.5) from the rotary seal face.

9. Clean the stator and rotary seal face locations, if necessary with air

or water.

9a. In the case of water-flushed/aseptic shaft seals, the back plate

must be removed to dismantle the rear shaft seal. The rear seal
stationary seal face (item 5.6) is mounted in the pressure ring
(item 5.11) and the rotary seal face (item 5.7) is mounted on the
shaft (item 11). These are removed in the same way as the front
seal components.

10. Check O-rings (item 5.5) for signs of cracks, lack of elasticity,
brittleness and/or chemical attack. Replace worn or defective parts.

11. Check the stationary seal face (item 5.6) and rotary seal face (item

5.7) for signs of wear too. The wearing surfaces must be
completely free of scratches/cracks. If not, the rotary seal face and
stationary seal face must both be replaced.

11a. In the case of water-flushed shaft seals, check the rear seal rings

(item 5.7, 5.6) for wear too, and replace if necessary.

12. Fit new O-rings on the stationary seal face and rotary seal face.

Note. Remember to moisten these with water.

13. Fit the rotary seal face (item 5.7) on the impeller without using
tools.

Note. The "notch" in the rotary seal face must be located so that it

mates with the driving pin (item 5.8) in the impeller hub.

13a. In the case of water-flushed/aseptic seals, also fit a rotary seal face

(item 5.7) with its O-ring (item 5.5) in the location on the shaft,
again without using tools.

14. Fit drain pipe (item 5.4) to the back of the stationary seal face (item

5.6). Fit the stationary seal face (item 5.6) on the back plate without
using tools.

Note. The "notches" in the stationary seal face must mate with the

driving dogs on the carrier in the back plate. Check that the
stationary seal face is posi tioned so that it slides backwards and
forwards easily in the back plate.

14a. Where there are water-flushed/aseptic seals, fit the stationary seal

faces (item 5.6) into the seal cover (item 5.9) and back plate (item
7a).

15. After fitting, clean the wearing surfaces.

15a. For liquid-flushed/aseptic seals, remount the back plate (item 7a).

Fitting

Positioning the water supply
connections

Checking parts

for wear

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453345 ISS S 07.2010

16. Fit the impeller (item 4). Remember to use the proper tightening
torque:

M10: 33 ft-lb (45 Nm)
M14: 52 ft-lb (70 Nm)
M20: 148 ft-lb (200 Nm)

17. Check that the locating pin (item 8), where fitted, in the top of the
back plate mates with the detent in the pump body and carefully, to
avoid damaging the O-ring, press the pump body (item 1a) in over
the O-ring (item 6) and fasten with the clamp ring (item 9a) or body
screws, observing the correct tightening torque.

M8: 22 ft-lb (30 Nm)
M10: 41 ft-lb (55 Nm)
M12: 80 ft-lb (59 Nm)

5.3 Replacement of motor

The standard motor for the W+ pump has a locked front bearing. If the
motor is replaced, the new motor must also have a locked front bea ring.
The motor bearing is enclosed and permanently lubricated.

Follow the instructions below when replacing the motor. For replace ment
of bearings, see the motor supplier's service instructions.

1. Lock Out power supply then disconnect the pump and motor

from system.

2. Removal of the pump body. See para 5.2, points 1-4.

3. Remove the impeller.

4. If possible, stand the pump on end. See Fig. 4.

5. Undo the four motor flange bolts between the motor and extension

frame and remove them. See Fig. 4.

6. Lift the back plate, extension frame and spacer flange (where
fitted), which are still bolted together, up and off the shaft. See Fig.

4.

7. See Fig. 5. Loosen the screws in the shaft muff, pull the shaft off
and replace the motor.

8. See figure 6. Before remounting the pump shaft, remove any dirt
and grease from the motor shaft and the muff’s internal clamping
surfaces. Mount the pump shaft loosely. Position the balance hole
above the keyway.

9. Fit the back plate and extension frame over the shaft.

10. Tighten the bolts.

11. Turn the pump back so it stands on its legs.

12. Fit the impeller and secure it with the cap nut/inducer.

Remember to use the proper tightening torque:
M10: 33 ft-lb (45 Nm)
M14: 52 ft-lb (70 Nm)

M20: 148 ft-lb (200 Nm)

5. Maintenance

Back plate

Screw

Extension frame

Motor

Fig. 4: Unscrew motor flange bolts

Fig. 5: Loosen screws

Shaft

Screw

Motor

Keyway

Motor shaft

Balance hole

Pump shaft

Fig. 6: Mount pump shaft

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453345 ISS S 07.2010

5. Maintenance

13. Place the plastic star against the impeller (fig. 7).

14. Fit the pump body (item 1a) with the clamp ring (item 9a).

15. Push the shaft (item 11) forward until the impeller (pos 4) is

touching the plastic star (fig. 8).

16. Tighten the shaft screws. Remember to use the proper tightening
torque:

M8: 22 ft-lb (30 Nm)
M10: 41 ft-lb (55 Nm)

17. Remove the star by pulling it out through the inlet.

5.4 Recommended inventory of spare parts

Seal set

We recommend that you keep both seal kits and service kits for the W+
pumps in stock. The seal kit for the W+ pump consists of the wearing
parts of the pump, as specified on page 32 - 33.

Service kit

The service kit is made up of a number of the main components of the
pump which are not wearing parts, but which you still may have to
replace: shaft, impeller, cap nut and fixing kit.

The table below shows the recommended inventory of spare parts for
normal operation and in cases where there are special needs - for
example 24-hour operation, operation with abrasive media or
proces ses that are sensitive to even the shortest production stoppage.

Wearing parts (seal kit, see page 32 - 33)

Service parts (shaft, impeller, cap nut page 27, fixing kit page 30-31)

Normal operation

Special needs

0-5 5-20 > 20

No. of pumps in service

2 3 1

3 6 2

Sets Sets Sets/ 10 pumps

Normal operation

Special needs

0-5 5-20 > 20

No. of pumps in service

0 1 1

1 2 1

Sets Sets Sets/ 10 pumps

Fig. 8: Push shaft forward

Impeller

Plastic star

Pump body

Fig. 7: Place plastic star against impeller

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6.1 Maximum permissible outlet pressure

The maximum pump outlet pressures specified below must not be
exceeded (applies to water at 68°F/20°C).

Max. 260 psig (18 bar): W+10/8, W+22/20, W+30/80, W+35/55,

W+35/35, W+110/130

Max. 200 psig (14 bar): W+25/210, W+30/120, W+50/8, W+55/35,
W+55/60, W+60/110, W+65/350, W+70/40,
W+80/80

The above values also apply to the corresponding models in the
Wa+ and Wi+ versions.

Subject to change.

6. Technical data

6.2 Required torques

Pump type Shaft Ø

Motor

type

shaft

screw

Motor

type

shaft

screw

Pump type Shaft Ø

Cap

Nut

W+10/8 Ø25 80 M8x25 30 Nm 22 lbf ft ----- ----- ----- ----- W+10/8 Ø25 M10 45 Nm 33 lbf ft

W+22/20 Ø25 80 M8x25 30 Nm 22 lbf ft 90-132 M8x30 30 Nm 22 lbf ft W +50/8 Ø25 M10 45 Nm 33 lbf ft

W+30/80 Ø25 90-160 M8x30 30 Nm 22 lbf ft ----- ----- ----- -----

W+35/35 Ø25 90-160 M8x30 30 Nm 22 lbf ft ----- ----- ----- ----- W+22/20 Ø25 M14 70 Nm 52 lbf ft

W+35/55 Ø25 90-160 M8x30 30 Nm 22 lbf ft ----- ----- ----- ----- W+30/80 Ø25 M14 70 Nm 52 lbf ft

W+50/8 Ø25 90-132 M8x30 30 Nm 22 lbf ft ----- ----- ----- ----- W+35/35 Ø25 M14 70 Nm 52 lbf ft

W+55/35 Ø25 90-160 M8x30 30 Nm 22 lbf ft ----- ----- ----- ----- W+35/55 Ø25 M14 70 Nm 52 lbf ft

W+55/35 Ø25 M14 70 Nm 52 lbf ft

W+25/210 Ø35 160-180 M8x30 30 Nm 22 lbf ft ----- ----- ----- -----

W+30/120 Ø35 90-180 M8x30 30 Nm 22 lbf ft 200 M10x40 55 Nm 41 lbf ft W+25/210 Ø35 M20 200 Nm 148 lbf ft

W+55/60 Ø35 90-180 M8x30 30 Nm 22 lbf ft 200 M10x40 55 Nm 41 lbf ft W+30/120 Ø35 M20 200 Nm 148 lbf ft

W+60/110 Ø35 90-180 M8x30 30 Nm 22 lbf ft 200-225 M10x40 55 Nm 41 lbf ft W +55/60 Ø35 M20 200 Nm 148 lbf ft

W+65/350 Ø35 132-180 M8x30 30 Nm 22 lbf ft 200-280 M10x40 55 Nm 41 lbf ft W +60/110 Ø35 M20 200 Nm 148 lbf ft

W+70/40 Ø35 90-180 M8x30 30 Nm 22 lbf ft 200 M10x40 55 Nm 41 lbf ft W+65/350 Ø35 M20 200 Nm 148 lbf ft

W+80/80 Ø35 90-180 M8x30 30 Nm 22 lbf ft 200-250 M10x40 55 Nm 41 lbf ft W +70/40 Ø35 M20 200 Nm 148 lbf ft

W+110/130 Ø35 100-180 M8x30 30 Nm 22 lbf ft 200-280 M10x40 55 Nm 41 lbf ft W+80/80 Ø35 M20 200 Nm 148 lbf ft

W+110/130 Ø35 M20 200 Nm 148 lbf ft

W+50/600 Ø55 180-250 M12x40 80 Nm 59 lbf ft 280-315 M16x40 180 Nm 132 lbf ft

W+50/600 Ø55 M32 500Nm 370 lbf ft

Ws+20/15 Ø25 90-160 M8x25 30 Nm 22 lbf ft ----- ----- ----- -----

Ws+30/30 Ø25 90-160 M8x25 30 Nm 22 lbf ft ----- ----- ----- ----- Ws+20/15 Ø25 M14 70 Nm 52 lbf ft

Ws+44/50 Ø35 132-180 M8x30 30 Nm 22 lbf ft ----- ----- ----- ----- Ws+30/30 Ø25 M14 70 Nm 52 lbf ft

Ws+44/50 Ø35 M20 200 Nm 148 lbf ft

Pump type mounting Size

W+10/8 Clamp M6

W+22/20 Clamp M10 55 Nm 41 lbf ft

W+30/80 Clamp M10 55 Nm 41 lbf ft

W+35/35 Clamp M10 55 Nm 41 lbf ft

W+35/55 Clamp M10 55 Nm 41 lbf ft

W+50/8 Clamp M10 55 Nm 41 lbf ft

W+55/35 Clamp M10 55 Nm 41 lbf ft

W+30/120 Clamp M10 55 Nm 41 lbf ft

W+55/60 Clamp M10 55 Nm 41 lbf ft

W+60/110 Clamp M10 55 Nm 41 lbf ft

W+70/40 Clamp M10 55 Nm 41 lbf ft

W+80/80 Clamp M10 55 Nm 41 lbf ft

W+25/210 screws M10x30 55 Nm 41 lbf ft

W+65/350 screws M8x25 30 Nm 22 lbf ft

W+110/130 screws M10x35 55 Nm 41 lbf ft

W+50/600 screws M16x40 180 Nm 132 lbf ft

Ws+20/15 Clamp M10 55 Nm 41 lbf ft

Ws+30/30 Clamp M10 55 Nm 41 lbf ft

Ws+44/50 Clamp M10 55 Nm 41 lbf ft

Required torques for the stub shaft screws

required torques

Required torques for cap nuts

Make sure that the key-groove of the motor shaft is

to be seen through the hole in the stub shaft

required torques required torques

Required torques for house clamp

required torques

No torque

requirements

SPX Flow Technology
611 Sugar Creek Road
Delavan, WI 531

15

Phone: 1-800-252-5200

For more information about our worldwide locations, approvals, certifi cations, and local representatives, please visit www.spxft.com.

SPX reserves the right to incorporate our latest design and material changes without notice or obligation. Design features, materials
of construction and dimensional data, as described in this bulletin, are provided for your information only and should not be relied
upon unless confi rmed in writing. Certifi ed drawings are available upon request.

453342 ISS 07.2010 Copyright © 2008 SPX Corporation

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