Blackmer Provane pvs10a Manual

BLACKMER POWER PUMPS 965830 Page 1/16

INSTRUCTIONS NO. 111-G00

INSTALLATION OPERATION AND MAINTENANCE INSTRUCTIONS

ProVane®Models: PVS10A, 15A, 20A, 30A, 40A, 50A

Section

Effective

Replaces

111

Oct 2008

Dec 2007

Patent Protected by U.S. Patents 6030191, 7134855 & 7316551 B2 and Related Foreign Patents.

TABLE OF CONTENTS Page

General Safety Data................................................1-2

PUMP DATA

Initial Pump Start Up Information................................2

Technical Data ...........................................................2

INSTALLATION

Pre-Installation Cleaning ............................................3

Location and Piping....................................................3

Mounting ....................................................................4

Coupling Alignment....................................................4

Pump Rotation............................................................4

To Reverse Pump Flow..............................................4

Check Valves .............................................................4

OPERATION

Pre-Start Up Check List..............................................5

Start Up Procedures...................................................5

Running the Pump in Reverse....................................5

Flushing the Pump .....................................................6

Optional Pump Relief Valve........................................6

Optional Pump Relief Valve Setting and Adjustment..7

MAINTENANCE

Torque Table.................................................................8

Lubrication.....................................................................8

Strainers........................................................................8

Vane Replacement........................................................8

Pump Disassembly .......................................................9

Parts Replacement........................................................9

Pump Assembly..........................................................10

Liner Intake & Discharge Identification........................11

TROUBLE SHOOTING ......................................................13

ONLY Pump models listed below are covered in this Manual

Single Liner Models Material Parts List

PVS10A, 15A Stainless Steel 111-G01

PVS20A, 30A Stainless Steel 111-G02

PVS40A, 50A Stainless Steel 111-G03

Blackmer manuals and parts lists may be obtained from

Blackmer's website (www.blackmer.com) or by contacting

Blackmer Customer Service.

Numbers in parentheses following individual parts indicate

reference numbers on Blackmer Part Lists.

SAFETY DATA

This is a SAFETY ALERT SYMBOL.

When you see this symbol on the product, or in the manual,

look for one of the following signal words and be alert to the

potential for personal injury, death or major property damage

Warns of hazards that WILL cause serious personal injury,

death or major property damage.

Warns of hazards that CAN cause serious personal injury,

death or major property damage.

Warns of hazards that CAN cause personal injury

or property damage.

NOTICE:

Indicates special instructions which are very

important and must be followed.

NOTICE:

Blackmer Pumps MUST only be installed in systems, which

have been designed by qualified engineering personnel. The

system MUST conform to all applicable local and national

regulations and safety standards.

This manual is intended to assist in the installation and

operation of the Blackmer ProVane pumps, and MUST be

kept with the pump.

Pump service shall be performed by qualified technicians

ONLY. Service shall conform to all applicable local and

national regulations and safety standards.

Thoroughly review this manual, all instructions and hazard

warnings, BEFORE performing any work on the pump.

Maintain ALL system and pump operation and hazard

warning decals.

111-G00 Page 2/16

SAFETY DATA

Hazardous

machinery can

cause serious

personal injury.

Failure to disconnect and lockout

electrical power or engine drive before

attempting maintenance can cause

severe personal injury or death

Hazardous voltage.

Can shock, burn or

cause death.

Failure to disconnect and lockout

electrical power before attempting

maintenance can cause shock, burns or

death

Hazardous or toxic

fluids can cause

serious injury.

If pumping hazardous or toxic fluids,

system must be flushed and

decontaminated, inside and out, prior to

performing service or maintenance

Hazardous pressure

can cause personal

injury or property

damage

Disconnecting fluid or pressure

containment components during pump

operation can cause serious personal

injury, death or major property damage

Do not operate

without guard

in place

Operation without guards in place can

cause serious personal injury, major

property damage, or death.

Hazardous pressure

can cause personal

injury or property

damage

Failure to relieve system pressure prior

to performing pump service or

maintenance can cause personal injury

or property damage.

PUMP DATA

PUMP IDENTIFICATION

A pump Identification tag, containing the pump serial number, I.D. number, and model designation, is attached to each pump. It is

recommended that the data from this tag be recorded and filed for future reference. If replacement parts are needed, or if

information pertaining to the pump is required, this data must be furnished to a Blackmer representative.

TECHNICAL DATA INITIAL PUMP START UP INFORMATION

Pump Size 10, 15, 20, 30, 40, 50

Maximum Pump Speed 1750 RPM

Flow Rate at Max. Pump Speed 10-50 GPM (38-189 LPM)

Maximum Operating Temperature 240°F (116°C)

Maximum Viscosity 5, 000 SSU (1100 cP)

Maximum Differential Pressure 125 psi (8.6 Bar)

Maximum Working Pressure 350 psi (24.1 Bar)

Model No.: ______________________________________

Serial No.: ______________________________________

ID No.: _________________________________________

Date of Installation: ______________________________

Inlet Gauge Reading: _____________________________

Discharge Gauge Reading: ________________________

Flow Rate: ______________________________________

Technical Data is for standard materials of construction.

Consult Blackmer Material Specs for optional materials of

construction

111-G00 Page 3/16

INSTALLATION

NOTICE:

Blackmer pumps must only be installed in systems

design must conform to all applicable regulations and

codes and provide warning of all system hazards.

NOTICE:

This pump shall be installed in accordance with all

applicable local, state and national regulations.

Hazardous voltage.

Can shock, burn or

cause death.

Install ground and wire to local and

National Electrical Code requirements.

Install an all-leg disconnect switch near

the unit motor.

Disconnect and lockout electrical power

before installation or service

Electrical supply MUST match motor nameplate

specifications.

Motors equipped with thermal protection automatically

disconnect motor electrical circuit when overload exists.

Motor can start unexpectedly and without warning.

Hazardous pressure

can cause personal

injury or property

damage

An external bypass valve and/or internal

relief valve MUST be installed in the

system to protect the pump from

excessive pressure.

Hazardous pressure

can cause personal

injury or property

damage

Incorrect bypass valve or internal relief

valve settings can cause pump

component failure, personal injury, and

property damage.

NOTICE:

Blackmer ProVane pumps may or may not be fitted with

an internal relief valve. If an internal relief valve is not

supplied, an external bypass valve MUST be used.

PRE-INSTALLATION CLEANING

NOTICE:

This pump contains some residual test fluid and rust

inhibitor. If necessary, flush pump prior to use.

Foreign matter entering the pump WILL cause extensive

damage. The supply tank and intake piping MUST be

cleaned and flushed prior to pump installation and operation.

LOCATION AND PIPING

Pump life and performance can be significantly reduced when

installed in an improperly designed system. Before starting

the layout and installation of the piping system, review the

following suggestions:

1. Locate the pump as near as possible to the source of

supply to avoid excessive inlet pipe friction.

2. The inlet line should be at least as large as the intake

port on the pump. It should slope downward to the pump,

and should not contain any upward loops. Eliminate

restrictions such as sharp bends; globe valves,

unnecessary elbows, and undersized strainers.

3. Install a system bypass valve that returns excess flow to

the supply tank or pump inlet piping as appropriate for

the pumping system. Insure that the bypass valve

pressure setting is appropriate for the pump and system

component working pressures.

4. It is recommended a strainer be installed in the inlet line

to protect the pump from foreign matter. The strainer

should be located at least 24" (0.6m) from the pump, and

have a net open area of at least four times the area of

the intake piping. Strainers must be cleaned regularly to

avoid pump starvation.

5. The intake system must be free of all leaks.

6. When pumping liquids at elevated temperature,

provisions should be made to compensate for expansion

and contraction of the pipes, especially when long pipe

lines are necessary. Steel pipe expands approximately

3/4” (1.9 cm) per 100 feet (30.49 m) per 100°F (37.8°C)

rise in temperature.

7. Expansion joints, placed at least 36" (0.9m) from the

pump, will compensate for expansion and contraction of

the pipes. Contact the flexible connector/hose

manufacturer for required maintenance/care and design

assistance in their use.

8. ALL piping and fittings MUST be properly supported to

prevent any piping loads from being placed on the pump.

9. Install pressure gauges in the NPT ports provided in the

pump casing (if equipped) to check pump at start up.

10. Check alignment of pipes to pump to avoid strains which

might later cause misalignment. See Figure 1. Unbolt

flanges or break union joints. Pipes must not spring

away or drop down. After pump has been in operation

for a week or two, completely recheck alignment.

Figure 1

111-G00 Page 4/16

INSTALLATION

PUMP MOUNTING

A solid foundation reduces noise and vibration, and will

improve pump performance. On permanent installations it is

recommended the pumping unit be secured by anchor bolts

as shown in Figure 2. This arrangement allows for slight

shifting of position to accommodate alignment with the

mounting holes in the base plate.

Figure 2 - Pipe Type Anchor Bolt Box

For new foundations, it is suggested that the anchor bolts be

set in concrete. When pumps are to be located on existing

concrete floors, holes should be drilled into the concrete to

hold the anchor bolts.

When installing units built on channel or structural steel type

bases, use care to avoid twisting the base out of shape when

anchor bolts are tightened. Place shims as needed under the

edges of the base prior to tightening of the anchor bolts to

prevent distortion.

COUPLING ALIGNMENT

The pump must be directly coupled to a gear reducer and/or

driver with a flexible coupling. Verify coupling alignment

after installation of new or rebuilt pumps. Both angular

and parallel coupling alignment MUST be maintained

between the pump, gear, motor, etc. in accordance with

manufacturer’s instructions. See Figure 3.

1. Parallel alignment: The use of a laser alignment tool or

dial indicator is preferred. If a laser alignment tool or dial

indicator is not available, use a straight edge. Turn both

shafts by hand, checking the reading through one

complete revolution. Maximum offset should be less

than .005" (.127 mm).

2. Angular alignment: Insert a feeler gauge between the

coupling halves. Check the spacing at 90° increments

around the coupling (four checkpoints). Maximum

variation should not exceed .005" (.127 mm). Some

laser alignment tools will check angular alignment as

well.

3. Replace the coupling guards after setting alignment.

Figure 3 – Alignment Check

PUMP ROTATION

A right-hand pump rotates clockwise with the intake on the

right side, when viewed from the driven end. See Figure 4.

A left-hand pump rotates counterclockwise with the intake on

the left side, when viewed from the driven end. See Figure 5.

TO REVERSE PUMP FLOW

To reverse the FLOW direction, some disassembly and

reassembly is required. See Flow Direction Options in the

Maintenance section of this manual.

If the rotation of the electric motor driving the pump is

incorrect; see the motor manufacturer’s instructions to change

the rotation of the electric motor to match it to the rotation of

the pump.

CHECK VALVES

The use of check valves or foot valves in the supply tank is

not recommended with self-priming, positive displacement

pumps.

If the possibility of liquid backflow exists when the pump is off,

a check valve in the system is recommended because the

pump can motor in the reverse rotation and create undue

stress on all attached components. Never start a pump when

it is rotating in the reverse rotation as the added starting

torque can damage the pump and related equipment. If a

check valve is used, install it at the pump discharge.

111-G00 Page 5/16

OPERATION

Do not operate

without guard

in place

Operation without guards in place can

cause serious personal injury, major

property damage, or death.

Hazardous pressure

can cause personal

injury or property

damage

Disconnecting fluid or pressure

containment components during pump

operation can cause serious personal

injury, death or major property damage

Hazardous pressure

can cause personal

injury or property

damage

Failure to relieve system pressure prior

to performing pump service or

maintenance can cause personal injury

or property damage.

Hazardous pressure

can cause personal

injury or property

damage

Pumps operating against a closed valve

can cause system failure, personal

injury and property damage

Hazardous pressure

can cause personal

injury or property

damage

An external bypass valve and/or an

internal relief valve MUST be installed in

the system to protect the pump from

excessive pressure.

Hazardous pressure

can cause personal

injury or property

damage

Incorrect bypass valve or internal relief

valve settings can cause pump

component failure, personal injury, and

property damage.

PRE-START UP CHECK LIST

1. Check the alignment of the pipes to the pump. Pipes

must be supported so that they do not spring away or

drop down when pump flanges or union joints are

disconnected.

2. Verify proper coupling alignment.

3. Check the entire pumping system to verify that the proper

inlet and discharge valves are fully open, and that the

drain valves and other auxiliary valves are closed.

4. Install inlet and discharge pressure gauges on the pump

in the threaded connections provided. These can be

used to check actual suction and discharge conditions

after pump start-up.

5. Check the wiring of the motor, and briefly turn on the

power to make sure that the pump rotates in the direction

of the rotation arrow.

START UP PROCEDURES

NOTICE:

Consult the "General Pump Troubleshooting" section of

this manual if difficulties during start up are experienced.

1. Start the motor. Priming should occur within one minute.

2. Check the suction and discharge pressure gauges to see

if the pump is operating within the expected conditions.

3. Check for leakage from the piping and equipment.

4. Check for overheating of the pump, reducer (if equipped),

and motor.

5. If possible, check the flow rate.

6. Check the pressure setting of the system bypass valve

by slowly restricting a valve in the discharge line and

reading the pressure gauge. This pressure should be 20

psi (1.4 bar) higher than the intended operating pressure.

RUNNING THE PUMP IN REVERSE

NOTICE:

When pumps are operated in reverse, a separate

pressure relief valve must be installed to protect the

pump from excessive pressure.

NOTICE:

Pump should be operated in reverse rotation for no more

than 10 minutes and only when a separate pressure relief

valve is installed to protect the pump from excessive

pressure.

It may be desirable to run the pump in reverse rotation for

system maintenance. The pump will operate satisfactorily in

reverse rotation for a LIMITED time, at a reduced

performance level.

111-G00 Page 6/16

OPERATION

FLUSHING THE PUMP

NOTICE:

If flushing fluid is to be left in the pump for an extended

time, it must be a lubricating, non-corrosive fluid. If a

corrosive or non-lubricating fluid is used, it must be

flushed from the pump immediately.

1. To flush the pump, run the pump with the discharge valve

open and the intake valve closed. Bleed air into the

pump through the intake gauge plug hole or through a

larger auxiliary fitting in the intake piping. Pump air for 30

second intervals to clean out most of the pumpage.

2. Run a system compatible flushing fluid through the pump

for one minute to clear out the remainder of the original

pumpage. The valve in the discharge line should be

restricted to build up 10 psi (0.7 bar) to force flushing

liquid through the bearing seal chamber.

3. To remove the flushing fluid, follow step 1 above.

4. After flushing the pump some residual fluid will remain in

the pump and piping.

5. Properly dispose of all waste fluids in accordance with

the appropriate codes and regulations.

OPTIONAL PUMP RELIEF VALVE:

Hazardous pressure

can cause personal

injury or property

damage

An external bypass valve and/or an

internal relief valve MUST be installed in

the system to protect the pump from

excessive pressure.

Hazardous pressure

can cause personal

injury or property

damage.

Incorrect bypass valve or internal relief

valve settings can cause pump

component failure, personal injury, and

property damage.

1. Blackmer ProVane pumps may or may not be fitted with

an internal relief valve. If an internal relief valve is not

supplied, an external bypass valve must be used.

2. The pump’s internal relief valve is designed to protect

only the pump from excessive pressure and must not be

used as a system pressure control valve.

3. Internal bypassing of liquid elevates liquid temperature.

Internal relief valve should only be used for brief periods

and for differential pressures below 125 psi. For

extended periods, an external bypass returned to source

must be used.

4. The pump relief valve cap must be on the inlet side of the

pump. If pump relief valve is installed improperly, it will

not operate and a component failure may result. See

Figures 4 and 5.

Fig 4 Right Hand Orientation

Fig 5 Left Hand Orientation

111-G00 Page 7/16

OPERATION

OPTIONAL RELIEF VALVE SETTING AND

ADJUSTMENT

The relief valve pressure setting/range is marked on a metal

tag attached to the valve cover. The relief valve should be

set at 20 PSI (0.7-1.4 Bar) higher than the operating pressure

or system pressure control valve, but no higher than the

maximum working pressure of the pump.

Hazardous pressure

can cause personal

injury or property

damage

Incorrect settings of the pressure relief

valve can cause pump component

failure, personal injury, and property

damage.

Hazardous or toxic

fluids can cause

serious injury.

Relief valve cap is exposed to pumpage

and will contain some fluid.

DO NOT remove the R/V cap OR adjust the relief valve

pressure setting while the pump is in operation.

1. To INCREASE the pressure setting, remove the relief

valve cap (1) and O-ring (88). Loosen the locknut (3).

Turn the adjusting screw (2) inward, or clockwise.

Inspect R/V cap O-rings and replace as required.

Reattach R/V cap O-ring and RV cap.

2. To DECREASE the pressure setting, remove the relief

valve cap (1) and O-ring (88). Loosen the locknut (3).

Turn the adjusting screw (2) outward, or

counterclockwise. Inspect R/V cap O-rings and replace

as required. Reattach R/V cap O-ring and RV cap.

Refer to the individual Blackmer pump parts lists for various

spring pressure ranges. Unless specified otherwise, pumps

are supplied from the factory with the relief valve adjusted to

the mid-point of the spring range.

MAINTENANCE:

Hazardous

machinery can

cause serious

personal injury.

Failure to disconnect and lockout

electrical power or engine drive before

attempting maintenance can cause

severe personal injury or death

Hazardous pressure

can cause personal

injury or property

damage

Disconnecting fluid or pressure

containment components during pump

operation can cause serious personal

injury, death or major property damage

Hazardous voltage.

Can shock, burn or

cause death.

Failure to disconnect and lockout

electrical power before attempting

maintenance can cause shock, burns or

death

Hazardous or toxic

fluids can cause

serious injury.

If pumping hazardous or toxic fluids,

system must be flushed and

decontaminated, inside and out, prior to

performing service or maintenance

Hazardous pressure

can cause personal

injury or property

damage

Failure to relieve system pressure prior

to performing pump service or

maintenance can cause personal injury

or property damage.

NOTICE:

Maintenance shall be performed by qualified

technicians only. Follow the appropriate procedures

and warnings as presented in this manual.

111-G00 Page 8/16

MAINTENANCE:

Torque Table 1

Pump Size 10, 15 20, 30,

40, 50

Ft-Lbs 16.2 30.0

Head / Casing/ Seal

Cover Cap Screws N-m 22 40.5

Ft/Lbs 4.50 38.00

Rotor Capscrews N/m 6.10 51.53

Ft-Lbs 3.4 13.1

Bearing Adjuster

Set Screw (189) N-m 4.7 17.8

Ft-Lbs 3.1 3.1

Ball Bearing Set

Screws (24C) N-m 4.2 4.2

Suggested Tool List

Allen Wrenches: 5/32”,1/4”, 2mm - 4mm

Combination Wrenches: 10mm - 12mm, 23mm

Pliers: Standard & Long Nose

Spanner Wrench

Strap Wrench

Ball Peen Hammer: 8oz.

Ratchet & Socket Set: 10mm - 12mm, 23mm

Mallet: shot loaded rubber

Self indicating torque tool: PN 165811

SCHEDULED MAINTENANCE

LUBRICATION

The Blackmer ProVane pumps are equipped with ball

bearings that require no additional lubrication.

STRAINERS

Strainers must be cleaned regularly to avoid pump starvation.

Schedule will depend upon the application and conditions.

VANE REPLACEMENT

NOTICE:

Maintenance shall be performed by qualified technicians

following the appropriate procedures and warnings as

presented in this manual.

See the table on page 1 of this manual to determine your

pump model.

Figure 6 – Vane Replacement

1. Flush the pump per instructions in this manual. Drain and

relieve pressure from the pump and system as required.

2. Remove the head cap screws (21). Gently remove the

head from the casing. The head O-ring should come off

with the head assembly.

3. Turn the shaft by hand until a worn vane comes to the top

(12 o'clock) position of the rotor. Remove the vane.

4. Install a new vane, ensuring that the rounded edge is UP,

and the relief grooves are facing towards the direction of

rotation. See Figure 6.

5. Repeat steps 3 and 4 until all vanes have been replaced.

This method of vane installation ensures the push rods do

not fall out of their rotor slots.

6. Carefully install the head (23) into the casing. If equipped

with optional relief valve, to insure proper orientation see

Figures 4 and 5 in "Optional Pump Relief Valve" section.

Install and tighten four head cap screws (21). Torque per

Table 1 shown at the beginning of the maintenance

section.

111-G00 Page 9/16

MAINTENANCE:

PUMP DISASSEMBLY

NOTICE:

Maintenance shall be performed by qualified technicians

only. Follow the appropriate procedures and warnings

as presented in this manual.

NOTE: The numbers in parentheses following individual parts

indicate reference numbers on the Pump Parts List.

1. Flush the pump per instructions in this manual. Drain and

relieve pressure from the pump and system as required.

2. Starting on the inboard (driven) end of the pump, clean

the pump shaft thoroughly, making sure the shaft is free of

nicks and burrs. This will prevent damage to the

mechanical seal when removed.

3. Remove the head cap screws (21A). Gently remove the

head from the casing. The head O-ring should come off

with the head assembly.

4. Loosen the three set screws of the ball bearing 1-2 full

turns with a 2.5mm hex key wrench. Lightly tap the end of

the exposed shaft with a hard wood drift and a hammer

until the bearing shaft sleeve releases the shaft.

5. Remove the rotor and shaft (13) from the casing. While

one hand is pushing the shaft, the other hand should be

cupped underneath the rotor to prevent the vanes (14)

and pushrods (77) from falling out. As the rotor & shaft

are removed further, carefully support the shaft so it does

not drop and damage the sleeve bearing or finished

surfaces of the shaft or the rotating seal face as it is

removed. Carefully set the rotor and shaft aside for future

vane replacement and reassembly.

6. To remove the casing. Lay the pump on end with the

bearing housing facing upward and remove the 4 cap

screws (21A). Lift off the bearing housing and remove the

Inboard Head (20). Remove the casing O-ring (71) from

between the inboard head and the casing.

7. The mechanical seal & spring assembly should come out

with the shaft. The stationary seat and stationary seal ring

need to be removed from the seal cover (126).

a. To remove the seal cover remove the 4 cap-screws

(21A) holding it in place.

b. Slowly slide the seal cover away from the inboard head

until it can be removed. Remove and discard the seal

cover O-ring (51).

8. Carefully pry the stationary seal elements (153A) from the

seal cover (126). Be sure not to scratch the seal face or

damage the elastomer seal seat.

9. If necessary, remove the liner (41) from the casing (12) by

tapping around the outside diameter of the liner with a

hard wood drift and a hammer until it is driven from the

casing.

10. Remove the ball bearing adjuster (188) by loosening the

set screw (189) and turning it counter clockwise with a

strap wrench or spanner wrench.

11. If necessary for replacement, remove the ball bearing

(24C) from the bearing adjuster. Turn the bearing adjuster

so the threaded side is up. Using an appropriately sized

arbor press remove the bearing (24C) from the bearing

adjuster. Discard old bearing and replace with new one.

See step 2 of “Pump Assembly”

12. Only disassemble rotor & shaft if necessary for part

replacement. Disassemble the rotor (13B) and shaft

(13A) by removing the cap-screws (13C). See figure 7.

Figure 7 (PVS10/15 rotor shown)

PARTS REPLACEMENT

1. If any of the O-rings have been removed or disturbed

during disassembly, they need to be replaced with new

O-rings.

NOTE: PTFE O-rings should be heated in hot water to aid

installation.

2. Excessive or continuous leakage from around the seal

housing or in the bearing housing may be an indication of

a damaged mechanical seal. If a mechanical seal has

been leaking, it is recommended the entire seal be

replaced. Refer to "General Pump Troubleshooting" for

possible causes of seal leakage.

3. Inspect bearings for wear and replace as necessary.

111-G00 Page 10/16

MAINTENANCE:

PUMP ASSEMBLY

Before reassembling the pump, inspect all component

parts for wear or damage, and replace as required. Wash

out the bearing/seal recess of the head and remove any

burrs or nicks from the rotor and shaft.

Reassemble the BEARING Components first:

To aid in the installation of the sleeve bearing (24) the

creation and use of a tool similar to the one shown in Figure 8

may be useful.

Figure 8 – Sleeve Bearing Installation

Pump Model Bearing Bore

Dia. “C” Tool

Dim “A” Tool

Dim “B”

PVS10, 15 1.89 IN.

(48.2 mm) 2.76 IN.

(70 mm) 1.76 IN.

(44.75 mm)

PVS20, 30,

40, 50 2.68 IN.

(68 mm) 3.35 IN.

(85 mm) 2.55 IN.

(64.75 mm)

1. Inspect the sleeve bearing (24) for wear or damage and

replace as required. To replace sleeve bearing:

PVS10,15

a. Using an appropriately sized arbor press, remove

the old bearing (24) from the bearing housing (57).

b. To aid installation and prevent bearing damage.

Coat the bearing (24) with grease and place it on the

face of the bearing housing (57).

c. Using an arbor press, press the bearing (24) into the

housing (57) until it is flush with the face of the

bearing housing.

PVS20-50

a. To remove old bearing, pry bearing away from

housing at seam using appropriate small chisel or

similar prying tool. Use mallet and chisel to separate

seam inward and apart until bearing separates and

becomes loose. Although some damage may occur

to bearing housing ID, take care to minimize

damage. If damage does occur, lightly sand

damaged surface until all raised edges of damage

are removed.

b. To aid installation and prevent bearing damage, coat

the bearing (24) with grease and place it on the face

of the bearing housing (57).

c. Using an arbor press, press the bearing (24) into the

housing (57) until it is flush with the face of the

bearing housing

NOTE: Ensure the bearing does not become misaligned

during the pressing motion.

2. Inspect the ball bearing (24C) for wear or damage and

replace as required. To replace ball bearing:

a. Using an appropriately sized arbor press, remove

the old bearing (24C) from the bearing adjuster

(188). Discard the old bearing after removal.

b. To aid installation and prevent bearing damage, coat

the bearing with grease and place it on the face of

the bearing adjuster (188)

c. Using an arbor press, press outer race of the

bearing into the bearing adjuster until it is seated in

the bearing adjuster.

3. Screw the bearing adjuster (188) to the bearing housing

(57) until they are flush. Be sure that the setscrew (189)

is not interfering with the flush fit of the bearing adjuster

to the bearing housing.

4. Seal stationary assembly

Refer to the seal manufacturer’s instructions for detailed

removal and replacement instructions.

Mechanical seal type 51, 9

Installing the Stationary Seat

a. Apply a small amount of lubricant in the seal access of

the seal cover (126).

b. Install a new stationary seal-ring and stationary seat.

Clean the polished face with a clean tissue and

alcohol.

Cartridge seal: Follow manufacturer’s instructions

5. Install a new O-ring (51) into the seal cover (126A).

6. Lubricate the O-ring seal area on the bearing housing

(57) with a light coating of oil. Insert the seal cover (126)

into the bearing housing.

7. Secure the seal cover to the inboard head (20) by

installing the cap-screws (21A) Torque per table 1.

111-G00 Page 11/16

MAINTENANCE:

8. Install inboard head into bearing housing until it is fully

seated in bore.

a. For PVS10, 15. Place bearing feed hole in 12:00

position opposite the pump feet. See Figure 10

b. For PVS20, 30, 40, 50. Insert inboard head into

bearing housing with hole located on pin in bearing

housing. See Figure 11

9. Install a new O-ring (71) over the dowel of the Inboard

Head (20).

10. Reassemble the casing to the inboard head/bearing

housing. Install cap screws (21A) through the bearing

housing into the casing. Torque per Table 1.

Inboard Head Orientation

Figure 10

PVS10,15 Figure 11

PVS 20,30,40,50

LINER INTAKE & DISCHARGE IDENTIFICATION

FLOW DIRECTION AND ROTATION OPTIONS

For a CLOCKWISE rotation pump; install the liner in the

casing with the Inlet to the right. As viewed from the

driven end of the pump. See Figure 4

For a COUNTERCLOCKWISE rotation pump; install the

liner in the casing with the Inlet to the left. As viewed from

the driven end of the pump. See Figure 5

11. Assemble Rotor and Shaft (if disassembled).

a. Loosely assemble rotor (13B) on to shaft (13A)

securing with socket cap screws (13C).

DO NOT damage the OD surface finish of the rotor

and shaft.

b. Secure a piece of steel sized to fit the width and

length of a vane slot in a vise or other holding

device. Place the loosely assembled rotor and shaft

on to the piece of steel in one of the vane slots;

completely filling the entire vane slot.

c. Hold the assembly securely without damaging the

OD of the rotor or shaft.

d. Tighten the socket cap screws (13C). Torque per

Table 1.

Figure 12 – Rotor / Shaft Assembly Torque

12. Seal Rotating Assembly

Type 51

a. Apply a small amount of Flowserve Pac-Ease™ or

equivalent water based lubricant on the shaft

between the shaft end and the rotor.

b. Slide the seal rotating assembly (153B) over the

shaft with the rotating face away from the rotor until

contact is made with the large diameter of the shaft.

c. Align the rotating assembly with the seal jacket

polished face outward. Clean the polished face with

a clean tissue and alcohol.

Type 8,9

a. Apply a small amount of Flowserve Pac-Ease™ or

equivalent water based lubricant on the shaft

between the shaft end and the rotor.

b. Slide the seal rotating assembly (153B) over the

shaft with the rotating face away from the rotor until

contact is made with the large diameter of the shaft.

c. Tighten set screws on seal per manufacturer’s

directions.

d. Remove spacer clips per manufacturer’s directions.

e. Align the rotating assembly with the seal jacket

polished face outward. Clean the polished face with

a clean tissue and alcohol.

Cartridge Seal:

a. Remove bearing adjuster from bearing housing.

b. Insert cartridge seal through bearing adjuster

opening in bearing housing. Fasten to inboard head

and shaft per manufacturer’s directions.

111-G00 Page 12/16

MAINTENANCE:

13. PUSHROD INSTALLATION

Figure 13 – Pushrod Installation

14. Insert the vanes into the bottom three rotor slots with the

relief grooves facing in the direction of pump rotation,

and with the rounded edges outward. See Figures 6 &

15. Hold the three bottom vanes in place while inserting the

three push rods (77). NOTE: a small amount of grease

can be used to help hold the pushrods in the rotor during

assembly. See Figure 13

16. After the bottom vanes and push rods are installed,

carefully insert the driven end of rotor and shaft into the

casing.

17. Install the rotor and shaft assembly (13) with the rotating

seal elements into the INBOARD Head from the sleeve

bearing end. Rotor may protrude slightly due to

mechanical seal spring force.

18. Install the new vanes by rotating the shaft until an empty

vane slot is in the 12 o’clock position, ensuring that the

rounded edge is UP, and the relief grooves are facing

towards the direction of rotation. See Figure 6.

Repeat until all vanes have been installed. This method

of vane installation ensures the push rods do not fall out

of their rotor slots.

Bearing Adjustment

19. Install a new head O-ring (72) on the dowel of the head.

20. Carefully install the head (23) into the casing. If

equipped with optional relief valve, to insure proper

orientation see fig 4, fig 5 in Optional Pump Relief Valve

section. Install and tighten four head cap screws (21A).

Torque per table 1.

21. If bearing adjuster was removed during seal assembly,

Screw the bearing adjuster (188) to the bearing housing

(57) until they are flush. Be sure that the setscrew (189)

is not interfering with the flush fit of the bearing adjuster

to the bearing housing.

22. Back off the bearing adjuster 1 full turn to allow for setting

of pump end clearance.

23. Secure the ball bearing (24C) to the shaft by uniformly

tightening the setscrews on the ball bearing. Bearing

MUST be tightened with allen wrench per Torque Table 1

or by using the special self indicating torque tool supplied

with the bearing.

NOTE: Pump shaft may not turn after ball bearing set

screws are tightened. If this happens, turn bearing

adjuster CLOCKWISE (viewed from driven end) until

pump shaft is able to be turned by hand.

24. Turn the bearing adjuster counterclockwise, as viewed

from the driven end of the pump, until the shaft is snug

and is no longer easily turned by hand. Mark a line

across the bearing adjuster and drive housing.

25. Turn the bearing adjuster clockwise, as viewed from the

driven end of the pump the distance prescribed per Table

2. Measurement to be taken on outside of drive housing.

Table 2

Pump size Distance on OD of Drive Housing

PV(S) 10,15 11/16” (17.46 mm)

PV(S) 20-100 3/4” (19.05 mm)

26. Tighten the bearing adjuster lock setscrew (189) and

torque per table 1.

27. Relief Valve Assembly

a. Insert the valve (9) into the relief valve body (6) with

the fluted end inward.

b. Install the relief valve spring (8) and spring guide (7)

against the valve.

c. Attach a new relief valve O-ring (10) and the valve

cover (4) on the relief valve body (6).

d. Screw the relief valve adjusting screw (1) with

locknut (3) into the valve cover (4) until it makes

contact with the spring guide (7).

e. After the relief valve has been adjusted, tighten the

locknut (3) and install the relief valve cap (1) and

O-ring (88).

NOTICE:

The relief valve setting MUST be tested and adjusted

before putting the pump into service. Refer to “Optional

Relief Valve Setting and Adjustment”.

28. Reinstall coupling, shaft key, and coupling guards.

Do not operate

without guard

in place

Operation without guards in place can

cause serious personal injury, major

property damage, or death.

29. Refer to “Pre-Start Up Check List” and “Start Up

Procedures” sections of this manual prior to restarting

pump operation.

PUSHROD

VANES

111-G00 Page 13/16

GENERAL PUMP TROUBLESHOOTING

NOTICE:

Maintenance shall be performed by qualified technicians only.

Follow the appropriate procedures and warnings as presented in this manual.

LEAKAGE

Location Probable Cause/Corrective Action

Between the head & casing Damaged head O-ring: Inspect and replace if necessary.

Burrs/dirt in head O-ring groove or casing: File and clean as necessary.

Around the shaft New Mechanical Seals: New seals may leak slightly at start up, but

should seal up shortly thereafter.

Damaged mechanical seals: Check for damaged O-rings or cracked,

scratched or worn seal faces

SHAFT BINDING

Probable Cause Corrective Action

Burrs, dirt or foreign particles on the heads or discs. During assembly, both heads and discs must be clean and smooth. File

any burrs or rough spots, and wipe the discs with a clean cloth and

alcohol to remove any dirt or foreign particles.

Improper bearing adjustment. Bearings must be adjusted properly to center the rotor and shaft

between the head & bearing housing. Refer to the "Pump assembly "

section of this manual.

Contaminated mechanical seal faces. Any trace of grease or dirt on the seal faces will prevent the faces from

mating properly, causing the rotor and shaft to bind or turn hard. Use a

tissue paper & alcohol to clean the seal faces. NOTE: Apply a light oil

or suitable lubricant to bronze seal faces only.

OTHER POSSIBLE CAUSES OF SHAFT BINDING:

• Foreign particles on rotor, liner or vanes.

• Damaged vanes or rotor.

• Bent push rods.

• Liquids that "set up" when inactive.

OVERHEATING

Probable Cause Corrective Action

Pump is in bypass (internal or external) mode too long or

the bypass loop is too short Adjust the bypass valve and/or internal relief valve so that the pump

does not operate in bypass mode so long.

Route the external bypass line back to the supply tank.

OTHER POSSIBLE CAUSES OF OVERHEATING:

• Improper system bypass valve and/or internal relief

valve adjustment

• Plugged discharge line.

• Closed valve.

LOW DELIVERY RATE

Probable Cause Corrective Action

Bypass valve and/or internal relief valve setting too low,

causing the liquid to bypass. The bypass valve and/or internal relief valve setting should be 20 psi

(1.4 bar) higher than the differential pressure.

OTHER POSSIBLE CAUSES OF A LOW DELIVERY

RATE:

•Restriction in the suction line.

•Resistance in the discharge line.

•Air leaks in the suction line.

•Damaged or worn pump parts.

•Pump speed too low or too high.

•Bypass valve leaking.

•Bypass valve sticking open, or not properly seating.

•Dirty strainer.

•Liner installed backwards

•Pump running in reverse

111-G00 Page 14/16

GENERAL PUMP TROUBLESHOOTING

EXCESSIVE NOISE AND VIBRATION

Probable Cause Corrective Action

Cavitation or vaporization of the liquid resulting from

excessive vacuum on the pump due to starved suction. Check for:

•Inlet piping too long or too small in diameter.

•Strainer plugged or dirty.

•Undersized or restrictive fittings, such as globe valves or partially

closed valves.

•Excessive amount of elbows.

•Suction lift too great.

•Pump speed too high for the viscosity of the liquid being pumped.

Entrained air or vapors in the pump. Check pipe joints for leakage of air. Sometimes when recirculating

liquid in a tank, the returning liquid falling through the air carries air

down into the tank, which eventually gets back into the pump.

Pump speeds exceed the recommended maximum. Check the recommended RPM for your specific application.

Liner Installed Backwards The word “INTAKE”, which is cast on the liner MUST be towards the

intake side of the pump

Continual or long term bypassing of liquid through system

bypass valve. Check for restriction in the discharge line, or an improper bypass valve

adjustment

OTHER POSSIBLE CAUSES OF NOISE AND VIBRATION:

•Excessively worn vanes

•Bearing Worn or Damaged.

•Loose or improperly installed piping.

•Misalignment of pump and driver.

•Pump base not properly mounted.

POOR OR NO PRIMING

Probable Cause

•Air leaks in the suction line.

•Restriction in the suction line.

•Damaged or worn pump parts.

•Too much lift for the vapor pressure of the fluid.

•A dirty or clogged strainer.

•Worn vanes.

•Suction Valve Closed.

•Incorrect pump rotation

•Bypass Valve partially open, valve not seating properly.

DAMAGED VANES

Probable Cause

•Foreign objects entering the pump.

•Running the pump dry for extended periods of time.

•Cavitation.

•Viscosity too high for the vanes and /or the pump

speed.

•Incompatibility with the liquids pumped.

•Excessive heat.

•Worn or bent push rods, or worn push rod holes.

•Settled or solidified material in the pump at start-up.

•Hydraulic hammer - pressure spikes.

•Vanes installed incorrectly (see “Vane Replacement").

BROKEN SHAFT

Probable Cause

•Foreign objects entering the pump.

•Viscosity too high for the pump speed.

•Bypass valve not opening.

•Hydraulic hammer - pressure spikes.

•Pump/driver, driveline/drive shaft misalignment.

•Excessively worn vanes or vane slots.

•Settled or solidified material in the pump at start-up.

SEAL LEAKAGE

Probable Cause

•O-rings not compatible with the liquids pumped.

•O-rings nicked, cut or twisted.

•Shaft at seal area damaged, worn or dirty.

•Excessive cavitation.

•Mechanical seal faces cracked, scratched, pitted or dirty.

•Ball bearings worn.

MOTOR OVERLOAD

Probable Cause

•Horsepower of motor not sufficient for application

•Improper wire size / wiring and/or voltage to motor.

•Misalignment in pump drive system.

•Excessive viscosity, pressure or speed.

•Faulty or worn bearings.

•Rotor rubbing against head or liner.

•Dirty mechanical seal faces.

111-G00 Page 15/16

NOTES

Sliding Vane Pumps:5 to 2200 GPM

Refined Fuels, Liquefied Gases, Solvents,Process

Stainless Steel Sliding Vane Pumps

1 to 265 GPM: Acids, Brines, Sugars, Syrups,

Beer, Beet Juice, Cider, Flavor Extracts, etc.

System One

CentrifugalPumps

10 to 7500 GPM; Process, Marine

Magnetic Drive Pumps

Stainless Steel:14 to 215 GPM

Abaque Peristaltic Hose Pumps

0.1 to 210 GPM

High Lift, Solids, Abrasives

Reciprocating Gas Compressors

Liquefied Gas Transfer, Boosting, Vapor Recovery

Hand Operated Pumps

Dispensing, Transfer, In-line

Accessories

Gear Reducers, Bypass Valves, Strainers

Visitwww.blackmer.com for complete information on all Blackmer products

Distributed by: "DAIS GLOBAL " LTD; e-mail: o[email protected]; +359 2 973 27 67

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