BLACKMER TXV2.5B, TXV3B, TXV2.5A, TXV3A, TXV2A Installation, Operation And Maintenance Instructions

BLACKMER TRUCK PUMPS

INSTALLATION OPERATION AND MAINTENANCE INSTRUCTIONS

MODELS: TXV2.5B, 3B

and Discontinued TXV2(A)(B), 2½(A), 3(A) Models

Numbers in parentheses following individual parts
indicate reference numbers on Blackmer Parts Lists
202-A01, 202-A02 and 202-A03.

Blackmer pump manuals and parts lists may be
obtained from Blackmer’s website (www.blackmer.com)
or by contacting Blackmer Customer Service.

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.

TABLE OF CONTENTS Page PUMP DATA

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

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

INSTALLATION

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

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

Truck Mounting ...................................................... 3

Pump Drive ............................................................ 3

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

To Change Pump Rotation .................................... 4

OPERATION

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

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

Pump Speed .......................................................... 5

Reverse Rotation ................................................... 5

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

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

Relief Valve Setting and Adjustment...................... 6

MAINTENANCE

Strainers ................................................................ 7

Lubrication ............................................................. 7

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

Pump Disassembly ................................................ 8

Pump Assembly ..................................................... 8

TROUBLE SHOOTING ...................................... 10

Blackmer Truck 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 truck 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.

960296

INSTRUCTIONS NO. 202-A00

Section

Effective

Replaces

202
Jan 2014
July 2007

NOTICE:

NOTICE:

Indicates special instructions which are very

important and must be followed.

SAFETY DATA

Hazardous pressure

can cause personal

injury or property

damage

Hazardous pressure

can cause personal

injury or property

damage

Hazardous

machinery can

cause serious

personal injury.

Failure to set the vehicle emergency
brake and chock wheels before
performing service can cause severe
personal injury or property damage.

Failure to relieve system pressure prior
to performing pump service or
maintenance can cause personal injury
or property damage.

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

Hazardous or toxic

fluids can cause

serious injury.

Do not operate

without guard

in place

Disconnecting fluid or pressure
containment components during pump
operation can cause serious personal
injury, death or major property damage

If pumping hazardous or toxic fluids,
system must be flushed prior to
performing service

Operation without guards in place can
cause serious personal injury, major
property damage, or death.

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

Maximum Operating
Temperature *

Maximum 640 RPM
Maximum Viscosity *

Maximum Differential
Pressure
Maximum Working
Pressure

* Maximum operating limits are dependent on the materials of
construction. See Blackmer Material Specs 202-091.

TXV Models

240 – 375°F

(115 – 190°C)

20,000 – 50,000 SSU

(4,250 – 10,500 cSt)

125 psi (8.6 Bar)

175 psi (12.1 Bar)

INITIAL PUMP START UP INFORMATION

Model No.: ___________________________________
Serial No.: ___________________________________
Date of Installation: ___________________________
Pressure Gauge Reading: ______________________
Vacuum Gauge Reading: _______________________
Flow Rate: ___________________________________

INSTALLATION

NOTICE:

Blackmer truck pumps must only be installed in systems
designed by qualified engineering personnel. System
design must conform with all applicable regulations and
codes and provide warning of all system hazards.

PRE-INSTALLATION CLEANING

NOTICE:

New pumps contain 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 piping MUST be cleaned and
flushed prior to pump installation and operation.

LOCATION AND PIPING

An improperly designed piping system or unit installation
WILL significantly reduce pump performance and life. The
following are piping system guidelines for pump installation.

1. To minimize intake losses, locate the pump as close as
possible to the source of supply.

2. Piping MUST be properly supported to prevent any piping
loads from being placed on the pump.

3. Intake piping and fittings MUST be at least as large in
diameter as the pump intake connection.

4. Minimize the number of intake line fittings (valves, elbows,
etc.) and piping turns or bends.

5. Install vacuum and pressure gauges in the ¼" NPT ports
located on the pump cylinder near the intake and
discharge flanges to check pump at start-up

6. Install a strainer in the in let line to protect the pump from
foreign matter. Place the intake strainer to allow frequent
cleaning.

7. Intake and discharge piping MUST be free of all leaks.

TRUCK MOUNTING

The pump will operate satisfactorily in any position. Consult
Blackmer factory for vertical shaft mounts. The pump can be
bolted to the truck frame or on a saddle hung below the
frame, and MUST be adequately supported. Mounting the
pump with the cylinder feet down, or with the intake port up, is
recommended for thorough draining of the pump.

PUMP DRIVE

The pump may be driven by a power take-off through
universal joints. When using universal joints, a splined slip
joint, properly lubricated, must be used on the connecting
jackshaft to prevent end thrust on the pump shaft.

It is very important to install a proper drive line to avoid
excessive wear, vibration and noise see Fig. 2 and Table 1.

A drive shaft guard between the pto and
pump must be provided to prevent
personal injury, property damage, or

Do not operate

without guard

in place

Note: A Drive Shaft Guard Between the Pump and

1º through 5º 6º through 10º 11º through 15º

Very Good Good Fair

General guidelines to follow for proper pump drive:

1. DO NOT use Square slip joints.

2. Use the least number of jackshafts as is practical.

3. Use an even number of universal joints.

4. The pump shaft and power take-off shaft must be parallel
in all respects. Use an angular level measuring device to
ensure the PTO and pump shaft are parallel to each
other. If necessary, the pump can be shimmed to correct
any misalignment. The PTO shaft coming off at the
transmission does not need to be perfectly horizontal as
long as the pump is shimmed to have its shaft parallel in
all respects to the PTO shaft.

5. The yokes of the universals at both ends of the jackshaft
must be parallel and in phase.

6. The maximum angle between the jackshaft and the pump
shaft is 15 degrees. Refer to Table 1.

Failure to follow any of these guidelines may result in a gallop
or uneven turning of the pump rotor, which will in turn cause a
surging vibration to the liquid stream and piping system.
Contact the supplier of the drive line components for specific
design assistance.

death.

PTO Must Be Provided (Not Shown)

Figure 2 Pump Drive

Angle of Drive Shaft

Table 1

202-A00 page 3/12

INSTALLATION

Hydraulic Drive

The pump may also be driven hydraulically. Hydraulic motors
need to be well supported with their shafts parallel to the
pump shaft in all respects. Blackmer provides an optional
close-coupled hydraulic motor adapter. The adapter provides
for straight alignment of a hydraulic motor drive through a
solid coupling connected to a straight key shaft. This coupling
connection requires grease lubrication every three months at

minimum. Refer to the "Lubrication" section of this manual.

Figure 3 Hydraulic Drive

PUMP ROTATION

NOTICE:

Confirm correct pump rotation by checking the pump
rotation arrows respective to pump driver rotation.

TO CHANGE PUMP ROTATION

The TXV pump models are equipped with a double ended
rotor and shaft, enabling them to be driven from either shaft
end. To change rotation, rotate the pump 180 degrees so that
the opposite shaft becomes the driven shaft. On TXV pump
models, the outboard bearing cover (27) MUST be mounted
over the non-driven shaft end.

Operation without shaft protector can
cause serious personal injury, major
property damage, or death.

Do not operate

without guard

in place

202-A00 page 4/12

OPERATION

Pumps operating against a closed
valve can cause system failure,

Hazardous pressure

can cause personal

injury or property

damage

personal injury and property damage

Disconnecting fluid or pressure
containment components during pump
operation can cause serious personal

Hazardous pressure

can cause personal

injury or property

damage

injury, death or major property damage

If pumping hazardous or toxic fluids,
system must be flushed prior to

Hazardous or toxic

fluids can cause

serious injury.

performing service

Failure to relieve system pressure prior
to performing pump service or
maintenance can cause personal injury

Hazardous pressure

can cause personal

injury or property

damage

or 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 the pump flanges or union joints are
disconnected.

2. Install vacuum and pressure gauges in the ¼" NPT ports
located on the pump cylinder near the intake and
discharge flanges. These can be used to check the actual
suction and discharge conditions after pump start-up.

3. Inspect complete piping system to ensure that no piping
loads are being placed on the pump.

4. Secure appropriate hose connections.

START UP PROCEDURES

NOTICE:

Consult the "General Pump Troubleshooting" section of
this manual if difficulties during start up are experienced.

1. Ensure that appropriate valves are open in the inlet and
discharge lines.

2. Start the pump. Priming should occur within one minute.

3. Check the vacuum and pressure gauges to ensure the
system is operating within expected parameters. Record
the gauge readings in the "Initial Start Up Information"
section of this manual for future reference.

4. Inspect piping, fittings, and associated system equipment
for leaks, noise, vibration and overheating.

5. Check the flow rate to ensure the pump is operating within
the expected parameters.

6. Check the pressure setting of the relief valve by
momentarily closing a valve in the discharge line and
reading the pressure gauge. This pressure needs to be 15

-20 psi (1.0 - 1.4 Bar) higher than the maximum system
operating pressure or the external bypass valve setting (if
equipped). DO NOT operate the pump against a closed
discharge valve for more than 15 seconds. If
adjustments need to be made, refer to the "Relief Valve
Setting and Adjustment" section of this manual.

PUMP SPEED

PTO and hydraulically driven units MUST contain speed
control devices to prevent pump speeds above the maximum
RPM specifications, regardless of the truck engine unloading
speeds. If fluid delivery is less than expected, see the
"General Pump Troubleshooting" section

REVERSE ROTATION

NOTICE:

When pumps are operated in reverse a separate pressure
relief valve must be 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. When operating the pump in reverse, a
separate bypass valve MUST be installed to protect the pump
from excessive pressure.

202-A00 page 5/12

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, non-lubricating fluid is used, it must be
flushed from the pump immediately.

To flush the pump, use the following procedure:

1. Allow the pump to evacuate as much fluid as possible.

2. Run cleaning fluid through the pump intake. The
cleaning fluid should be compatible with the pump O-rings
and vane material. When handling "sticky" fluids that
solidify within the pump (i.e., waxes, adhesives, resins,
asphalts, etc.), use a fluid that will prevent solidification of
the fluid being transferred and facilitate flushing.

3. Operate the pump against a closed discharge for 15
seconds to allow the cleaning fluid to recirculate through
the internal relief valve.

NOTICE:

After flushing the pump some residual fluid will remain in
the pump and piping.

NOTICE:

Properly dispose of all waste fluids in accordance w ith
the appropriate codes and regulations.

RELIEF VALVE

NOTICE:

The pump internal relief valve is designed to protect the
pump from excessive pressure and must not be used as
a system pressure control valve.

Pumping volatile liquids under suction lift may cause
cavitation. DO NOT partially close the discharge valve. This
WILL result in internal relief valve chatter. For these
applications, install an external bypass valve, and any
necessary piping, back to the storage tank. Use a bypass
system when operating for extended periods (more than 1
minute) against a closed discharge valve.

NOTICE:

Where regulations require, holes in R/V cap (1) and
capscrew with h ole (5C) are used by the weights and
measures officials to apply a security seal or tag.

RELIEF VALVE SETTING AND ADJUSTMENT

Relief valve cap is exposed to pumpage
and will contain some fluid

Hazardous or toxic

fluids can cause

serious injury.

The relief valve pressure setting is marked on a metal tag
attached to the valve cover. Generally, the relief valve should
be set at least 15 - 20 psi (1.0 - 1.4 Bar) higher than the
operating pressure, or the external bypass valve setting (if
equipped).

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, loosen the locknut, and turn the adjusting
screw inward, or clockwise. Retighten the locknut and
replace the valve cap.

2. To DECREASE the pressure setting, remove the relief
valve cap, loosen the locknut, and turn the adjusting
screw outward, or counterclockwise. Retighten the locknut
and replace the valve cap.

Refer to the individual Blackmer pump parts lists for spring
pressure ranges. The pumps are supplied from the factory
with the relief valve adjusted to the mid-point of the spring
range, unless specified differently.

Hazardous Machinery

can cause severe

personal injury or death

Hazardous pressure can

cause personal injury or

property damage

Failure to disengage POT before
adjusting pump relief valve can cause
severe personal injury or death

Incorrect settings of the pressure
relief valve can cause pump
component failure, personal injury,
and property damage.

202-A00 page 6/12

Hazardous pressure
can cause personal

injury or property

damage

Hazardous pressure
can cause personal

injury or property

damage

Failure to set the vehicle emergency
brake and chock wheels before
performing service can cause severe
personal injury or property damage.

Failure to relieve system pressure prior
to performing pump service or
maintenance can cause personal injury
or property damage.

MAINTENANCE

Hazardous pressure

can cause personal

injury or property

damage

Hazardous or toxic

fluids can cause

serious injury.

Disconnecting fluid or pressure
containment components during pump
operation can cause serious personal
injury, death or major property damage

If pumping hazardous or toxic fluids,
system must be flushed prior to
performing service

Failure to disconnect and lockout
electrical power or engine drive before
attempting maintenance can cause

Hazardous

machinery can

cause serious

personal injury.

severe personal injury or death

NOTICE:

Maintenance shall be performed by qualified technicians only, following

the appropriate procedures and warnings as presented in this man ual.

STRAINERS

Strainers must be cleaned regularly to avoid pump starvation.
Schedule will depend upon the application and conditions.

LUBRICATION

NOTICE:

To avoid possible entanglement in moving parts do not
lubricate pump bearings, hydraulic adapter coupling or
any other parts while the pump is running.

NOTICE:

If pumps are repainted in the field, ensure that th e grease
relief fittings (76A) are functioning properly after
painting. Do NOT paint them closed. Remove any
excess paint from the fittings.

Lubricate the ball bearings, and hydraulic motor couplings (if
equipped), every three months at a minimum. TXV pump
model bearings MUST be replaced after each 1000 hours of
service if fluid temperature is greater than 250°F (120°C).

Recommended Grease:

Exxon® - Polyrez,
Mobil® - MOBIL Poly 372,

or equivalent Polyurea grease.

Operation without guards in place can
cause serious personal injury, major
property damage, or death.

Do not operate

without guard

in place

Greasing Procedure:

1. Remove the grease relief fittings (76A) from the bearing
covers (27A) or hydraulic motor adapter (135).

2. Apply grease with a hand gun until grease begins to
escape from the grease relief fitting port. (76)

3. Replace the grease relief fittings (76A).

DO NOT overgrease pump bearings. While it is normal for
some grease to escape from the grease tell-tale hole after
lubrication, excessive grease on pumps equipped with
mechanical seals can cause seal failure.

202-A00 page 7/12

MAINTENANCE

VANE REPLACEMENT

NOTICE:

Maintenance shall be performed by qualified technicians
only, following the appropriate procedures and warnings
as presented in manual.

1. Remove the head assembly from the outboard (non-
driven) side of the pump according to steps 2 - 6 in the
"Pump Disassembly" section of this manual.

2. Turn the shaft by hand until a vane comes to the top (12
o'clock) position of the rotor. Remove the vane.

3. Install a new vane, ensuring that the rounded edge is UP,
and the relief grooves are facing towards the direction of
rotation. See Figure 4.

4. Repeat steps 2 and 3 until all vanes have been replaced.

5. Reassemble the pump according to steps 2 - 7 and 12 ­17 of the "Pump Assembly." section of this manual.

6. Slide the head off the shaft. The head O-ring (72), bearing
(24), and mechanical seal (153) or lip seal (152) will come
off with the head. Remove and discard the head O-ring.

a. Pull the bearing (24) from the housing in the head.
b. To remove the lip seal assembly (152), insert two

head capscrews (21) into the seal housing (152B) and
pull the lip seal assembly out. Use care not to damage
the lip seal. To remove the lip seal (152A), remove the
retaining ring (152D) from the housing, and gently pry
the lip seal from the housing. Remove and discard the
housing O-ring(s) (152C, 152E).

c. To remove the mechanical seal (153), use two screw

drivers to gently push the backside of the seal jacket
to push the seal from the head (see Figure 5). Use
care when placing the screwdrivers to prevent damage
to the seal faces. Remove and discard mechanical
seal O-rings.

Figure 5

2-inch models have four (4) vanes.

Figure 4

PUMP DISASSEMBLY

NOTICE:

Follow all hazard warnings and instructions provided in
the “Maintenance” section of this manual.

1. 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 lip seal or
mechanical seal when the inboard head assembly is
removed.

2. Remove the inboard bearing cover capscrews (28) and
slide the inboard bearing cover (27A) and gasket (26) off
the shaft. Discard the bearing cover gasket. On 2 and 3­inch models, the dirt shield (123A) will come off with the
bearing cover.

3. Remove the outboard bearing cover capscrews (28) and
slide the outboard bearing cover (27A) and gasket (26) off
the shaft. Discard the bearing cover gasket.

4. If equipped with locknuts and lockwashers (24A, 24B):
a. Bend up the engaged lockwasher tang and rotate the

locknut counterclockwise to remove it from the shaft.

b. Slide the lockwasher off the shaft. Inspect the

lockwasher for damage and replace as required.

c. Repeat steps a and b on the opposite shaft end.

5. Remove the head capscrews (21) and carefully pry the
head (20) away from the cylinder.

7. Pull the rotor and shaft (13) from the cylinder (12). While
one hand is pulling the shaft, the other hand should be
cupped underneath the rotor to prevent the vanes (14)
and push rods (77) from falling out. Carefully set the
rotor and shaft, vanes and push rods aside for future vane
replacement and reassembly.

8. Remove the remaining components from the outboard
side of the pump, as instructed in steps 6 and 7 above.

PUMP ASSEMBLY

Before reassembling the pump, inspect all component
parts for wear or damage, and replace as requi red. Wash
out the bearing/seal recess of the head and remove any
burrs or nicks from the rotor and shaft.

1. Reassemble the OUTBOARD side of the pump first:
a. For a CLOCKWISE rotation pump, position the pump

cylinder with the INTAKE port to the left.

b. For a COUNTERCLOCKWISE rotation pump, position

the pump cylinder with the INTAKE port to the right.

2. Install a new head O-ring (72) in the groove in the head.
Lightly grease the outside circumference of the O-ring to
facilitate head installation. Start in on one side of the
groove, stretching ahead with the fingers, see Figure 6.

Figure 6

202-A00 page 8/12

MAINTENANCE

3. Install the head (20) on the outboard side of the cylinder.
Install and uniformly tighten four head capscrews (21) 90°
apart, torquing to 25 lbs. ft (34 Nm).

4. MECHANICAL SEAL (If equipped)

Apply a small amount of motor oil in the head recess.
Push the mechanical seal assembly (153) into the recess
of the head with seal jacket drive tangs inward. The pin in
the stationary seat must be between the lugs in the back
of the head recess.

5. LIP SEAL ASSEMBLY (if equipped)

The lip seal assembly (152) consists of a metal housing
with elastomer(s) around its outer diameter(s), and a
PTFE lip seal in its inner diameter. TXV “A” models are
equipped with spacer washers. Refer to Figures 7 and 8.

Figure 7 Lip Seal – TXV “B” Models

d. Insert the retaining ring (152D) into the groove in the

housing.

e. Install new housing O-ring(s) (152C and 152E) in the

groove(s) of the housing. Lightly grease the housing
O-ring(s) and push the lip seal and housing assembly
into the head recess with the lip seal inward. The lips
of the lip seal will face the rotor when the housing is
installed. Make sure the housing is bottomed out in the
back of the head (20).

6. Hand pack the ball bearing (24) with grease. Refer to the
"Lubrication" section for the recommended grease.

7. Install the bearing into the head recess. The bearing balls
should face outward, with the grease shield inward.
Ensure the bearing is fully and squarely seated against
the lip seal housing or mechanical seal. Install two 3/8"
(10 mm) washers and two bearing cover capscrews (28)
to clamp the bearing and compress the lip seal housing
for proper bearing locknut adjustment (see Figure 9). The
washers and capscrews will be removed after the locknuts
are adjusted.

Figure 8 Lip Seal – Discontinued TXV “A” Models

a. Apply a small amount of light motor oil on the inner

diameter of the lip seal housing (152B) to facilitate lip
seal (152A) installation.

Note: When installing the lip seal, be careful not to
damage the lip seal O-ring.

b. On TXV “B” model pumps, push the lip seal (152A)

squarely into the housing (152B) with the pin in the lip
seal aligned with the hole in the back of the housing.
The lip seal should seat flush or slightly recessed in
the housing, around its entire diameter.

c. On TXV “A” model pumps, insert the spacer washers

(152F) into the housing, then push the lip seal (152A)
squarely into the housing (152B) with flat side of the lip
seal against the spacer washers. The lip seal should
seat flush or slightly recessed in the housing, around
its entire diameter. Note: If necessary, the spacer
washers can also be located after the lip seal, as
shown in Figure 8, to re-position the lip seal on the
pump shaft.

Figure 9 Clamping the Bearing

8. Turn the pump cylinder around and begin assembly on the
opposite, inboard end.

9. Inspect the vanes (14) and push rods (77) for wear and
damage, and replace as follows:

a. Partially install the non-driven end of the rotor and

shaft (13) into the open side of the pump cylinder.

b. Leave part of the rotor outside of the cylinder so that

the bottom vanes can be installed and held in place as
the push rods are installed in the push rod holes of the
rotor. Insert the new vanes into the rotor slots with the
rounded edges outward, and the vane relief grooves
facing TOWARDS the direction of rotation. Refer to
Figure 4.

c. After the bottom vanes (14) and push rods (77) are

installed, insert the rotor and shaft (13) fully into the
cylinder (12).

d. Install the remaining vanes into the top positions of the

rotor. If equipped with a mechanical seal (153),

rotate the shaft by hand to engage the drive tangs
of the seal jacket in the rotor slots.

10. Install the inboard head (20), mechanical seal or lip seal,
and bearing as instructed in steps 2 through 7. Apply a
thin coating of motor oil on the inboard shaft to aid
installation.

202-A00 page 9/12

MAINTENANCE

11. Rotate the shaft by hand to engage the mechanical seal
drive tangs (if equipped), and to test for binding or tight
spots. If the rotor does not turn freely, lightly tap the rims
of the heads with a soft faced mallet until the correct
position is found. Install all of the remaining head
capscrews for each head and uniformly torque to 25 lbs. ft
(34 Nm).

12. LOCKNUT INSTALLATION (if equipped)
The bearing locknuts (24A) and lockwashers (24B) MUST

be installed and adjusted properly. Overtightening
locknuts can cause bearing failure or a broken lockwasher
tang. Loose locknuts will allow the rotor to shift against
the heads, causing wear. See Figure 10.

a. On both ends of the pump shaft, Install a lockwasher

(24B) with the tangs facing outward, followed by a
locknut (24A) with the tapered end inward. Ensure the
inner tang "A" of the lockwasher is located in the slot
in the shaft threads, bending it slightly, if necessary.

b. Tighten both locknuts (24A) to ensure that the

bearings (24) are bottomed in the head recess. DO
NOT overtighten and bend or shear the lockwasher

inner tang.
c. Loosen both locknuts one complete turn.
d. Tighten one locknut until a slight rotor drag is felt when

turning the shaft by hand.
e. Back off the nut the width of one lockwasher tang "B".

Secure the nut by bending the closest aligned

lockwasher tang into the slot in the locknut. The pump

should turn freely when rotated by hand.
f. Tighten the opposite locknut by hand until it is snug

against the bearing. Then, using a spanner wrench,

tighten the nut the width of one lockwasher tang.

Tighten just past the desired tang, then back off the

nut to align the tang with the locknut slot. Secure the

nut by bending the aligned lockwasher tang into the

slot in the locknut. The pump should continue to turn

freely when rotated by hand.
g. To check adjustment, grasp the nut and washer with

fingers and rotate back and forth. If this cannot be

done, one or both locknuts are too tight and should be

alternately loosened one stop at a time (.001") (25

microns). Begin by loosening the locknut adjusted last.
h. After adjustment is complete, remove the bearing

cover capscrews and 3/8" washers from both ends of

the pump.

13. Inspect the grease seal (104) for wear or damage and
replace as required. Grease the outside diameter of the
grease seal and push it into the bearing cover (27 or 27A)
with the lip of the seal inward. The lip will face outward
when the bearing cover is installed on the head

14. Attach a new bearing cover gasket (26) and the bearing
cover to the head. Install and torque the bearing cover
capscrews (28) to 15 lbs. ft (20 Nm).

15. Follow steps 14 and 15 to install the grease seal and
bearing cover (27 or 27A) on the opposite side of the
pump. On TXV pump models, the outboard bearing cover
(27) is also a shaft protector and must be installed on the
non-driven shaft end.

16. On 2 and 2.5-inch pump models, push the dirt shield
(123A) over the inboard shaft and firmly against the
bearing cover (27).

Operation without shaft protector can
cause serious personal injury, major
property damage, or death.

Do not operate
without guard in

place.

17.RELIEF VALVE ASSEMBLY
a. Insert the valve (9) into the relief valve bore of the

cylinder 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 gasket (10) and the valve

cover (4) on the cylinder.

d. Screw the relief valve adjusting screw (2) into the

valve cover until it makes contact with the spring guide
(7).

NOTICE:

The relief valve setting MUST be tested and adjusted
more precisely before putting the pump into service.
Refer to "Relief Valve Setting and Adjustment"

e. Install the relief valve cap (1) and gasket (88) after the

relief valve has been precisely adjusted.

Figure 10 Locknut Adjustment

202-A00 page 10/12

TROUBLESHOOTING

NOTICE:

Maintenance shall be performed by qualified technicians only, following

the appropriate procedures and warnings as presented in this man ual.

SYMPTOM PROBABLE CAUSE

1. Pump not wetted.

2. Worn vanes.

3. Suction valve closed.

4. Air leaks in the suction line.

5. Strainer clogged.

Pump Not Priming

Reduced Capacity

Noise

6. Suction line or valves clogged or too restrictive.

7. Broken drive train.

8. Pump vapor-locked.

9. Pump speed too low for priming.

10. Relief valve partially open, worn or not seating properly.

11. Vanes installed incorrectly (see "Vane Replacement").

1. Pump speed too low.

2. Suction valves not fully open.

3. Air leaks in the suction line.

4. Excessive restriction in the suction line (i.e.: undersized piping, too many elbows &
fittings, clogged strainer, etc.).

5. Damaged or worn parts.

6. Excessive restriction in discharge line causing partial flow through the relief valve.

7. Relief Valve worn, set too low, or not seating properly.

8. Vanes installed incorrectly (see "Vane Replacement").

1. Excessive vacuum on the pump due to:
a. Undersized or restricted fittings in the suction line.
b. Pump speed too fast for the viscosity or volatility of the liquid.
c. Pump too far from fluid source.

2. Running the pump for extended periods with a closed discharge line.

3. Pump not securely mounted.

4. Improper drive line (see "Pump Drive").

5. Bearings worn or damaged.

6. Vibration from improperly anchored piping.

7. Bent shaft, or drive coupling misaligned.

8. Excessively worn rotor.

9. Malfunctioning valve in the system.

10. Relief valve setting too low.

11. Damaged vanes (see following category).

Damaged Vanes

Broken Shaft

Lip Seal / Mechanical
Seal Leakage

1. Foreign objects entering the pump.

2. Running the pump dry for extended periods of time.

3. Cavitation.

4. Viscosity too high for the vanes and /or the pump speed.

5. Incompatibility with the liquids pumped.

6. Excessive heat.

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

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

9. Hydraulic hammer - pressure spikes.

10. Vanes installed incorrectly (see"Vane Replacement").

1. Foreign objects entering the pump.

2. Viscosity too high for the pump speed.

3. Relief valve not opening.

4. Hydraulic hammer - pressure spikes.

5. Pump/driver misalignment.

6. Excessively worn vanes or vane slots.

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

1. O-rings not compatible with the liquids pumped.

2. O-rings nicked, cut or twisted.

3. Shaft at seal area damaged, worn or dirty.

4. Ball bearings overgreased.

5. Excessive cavitation.

6. Lip seal not seated properly.

7. Corrosion on lip seal housing.

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

202-A00 page 11/12

Sliding Vane Pumps: 5 to 2200 GPM

Refined Fuels, Liquefied Gases, Solvents,Process

®

System One

Centrifugal Pumps

10 to 7500 GPM; Process, Marine

HXL 6, 8 & 10”
Sliding Vane Pumps

130 to 2,220 GPM

Refineries
Terminals
Barges
Ships

Stainless Steel Sliding Vane Pumps

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

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

Magnetic Drive Pumps

Stainless Steel: 14 to 215 GPM

Reciprocating Gas Compressors

Liquefied Gas Transfer, Boosting, Vapor Recovery

Hand Operated Pumps

Dispensing, Transfer, In-line

Gear Reducers, Bypass Valves, Strainers

Accessories

Visit www.blackmer.com for complete information on all Blackmer products

Дистрибутор: "ОПВ Маркет" ЕООД
България, София 1528, ул."Поручик Неделчо Бончев" 3, eт.5
тел: 02/ 973 27 67, e-mail: oce_bg@opwmarket.com