B_Series_Section_250

B_Series_Section_250
Manual Index
INSTALLATION AND OPERATION MANUAL
FRAME MOUNTED
END SUCTION CENTRIFUGAL PUMPS
Series: “B”
Section 250/550
IMPORTANT!
A Crane Co. Company
Read all instructions in this manual before operating pump.
As a result of Crane Pumps & Systems, Inc., constant product improvement program,
product changes may occur. As such Crane Pumps & Systems reserves the right to
change product without prior written notification.
420 Third Street
Piqua, Ohio 45356
Phone: (937) 778-8947
Fax: (937) 773-7157
www.cranepumps.com
83 West Drive, Bramton
Ontario, Canada L6T 2J6
Phone: (905) 457-6223
Fax: (905) 457-2650
Form No. 119977-Rev. E
SAFETY FIRST!
Please Read This Before Installing Or Operating Pump.
This information is provided for SAFETY and to PREVENT
EQUIPMENT PROBLEMS. To help recognize this information,
observe the following symbols:
WARNING ! Do not wear loose clothing that may
become entangled in moving parts.
WARNING ! Keep clear of suction and discharge
openings. DO NOT insert fingers in pump with power
connected.
IMPORTANT! Warns about hazards that can result
in personal injury orIndicates factors concerned with
assembly, installation, operation, or maintenance which
could result in damage to the machine or equipment if
ignored.
Always wear eye protection when working on pumps.
CAUTION! Warns about hazards that can or will cause minor
personal injury or property damage if ignored. Used with symbols
below.
Make sure lifting handles are securely fastened each
time before lifting. DO NOT operate pump without safety
devices in place. Always replace safety devices that
have been removed during service or repair. Secure the
pump in its operating position so it can not tip over, fall
or slide.
WARNING! Warns about hazards that can or will cause serious
personal injury, death, or major property damage if ignored. Used
with symbols below.
Hazardous fluids can
cause fire or explosions, burnes or death
could result.
Biohazard can cause
serious personal injury.
Rotating machinery
Amputation or severe
laceration can result.
Extremely hot - Severe
burnes can occur on contact.
DO NOT exceed manufacturers recommendation for
maximum performance, as this could cause the motor
to overheat.
Hazardous fluids can Hazardous pressure, eruptions or explosions could cause personal
injury or property damage.
WARNING ! To reduce risk of electrical shock, all wiring
and junction connections should be made per the NEC
or CEC and applicable state or province and local
codes. Requirements may vary depending on usage
and location.
Hazardous voltage can
shock, burn or cause death.
Only qualified personnel should install, operate and repair
pump. Any wiring of pumps should be performed by a qualified
electrician.
WARNING! Products returned must be cleaned,
sanitized, or decontaminated as necessary prior to
shipment, to insure that employees will not be exposed
to health hazards in handling said material. All Applicable
Laws And Regulations Shall Apply.
WARNING ! To reduce risk of electrical shock, pumps
and control panels must be properly grounded in
accordance with the National Electric Code (NEC) or
the Canadian Electrical Code (CEC) and all applicable
state, province, local codes and ordinances. Improper
grounding voids warranty.
Bronze/brass and bronze/brass fitted pumps may
contain lead levels higher than considered safe for
potable water systems. Lead is known to cause cancer
and birth defects or other reproductive harm. Various
government agencies have determined that leaded
copper alloys should not be used in potable water
applications. For non-leaded copper alloy materials of
construction, please contact factory.
WARNING! To reduce risk of electrical shock, always
disconnect the pump from the power source before
handling or servicing. Lock out power and tag.
WARNING! Operation against a closed
discharge valve will cause premature bearing
and seal failure on any pump, and on end
suction and self priming pump the heat build
may cause the generation of steam with resulting dangerous
pressures. It is recommended that a high case temperature
switch or pressure relief valve be installed on the pump body.
Crane Pumps & Systems, Inc. is not responsible for
losses, injury, or death resulting from a failure to observe
these safety precautions, misuse or abuse of pumps or
equipment.
CAUTION ! Pumps build up heat and pressure
during operation-allow time for pumps to cool
before handling or servicing.
WARNING ! Do not pump hazardous materials
(flammable, caustic, etc.) unless the pump is specifically
designed and designated to handle them.
Other brand and product names are trademarks or registered trademarks of their respective holders.
Weinman® is a registered trademark of Crane Pumps & Systems, Inc.
3/2005, 5/06, 9/06
2
Alteration Rights Reserved
A - GENERAL INFORMATION
B - INSTALLATION
TO THE PURCHASER:
Congratulations! You are the owner of one of the finest
pumps on the market today. These pumps are products
engineered and manufactured of high quality components.
With years of pump building experience along with a continuing quality assurance program combine to produce a
pump which will stand up to the toughest applications.
1. FOUNDATION
The pump foundation should be sufficiently substantial
to form a level, rigid support for the combined weight
of the pump and driver and maintain alignment of the
installed unit. Foundation bolts, of the proper size, should
be imbedded in the concrete. A pipe sleeve, about 2½”
diameters larger than the bolt, should be used to allow for
final positioning of the bolts. See Figure 1.
Check local codes and requirements before installation.
Servicing should be performed by knowledgeable pump
service contractors or authorized service stations.
2. MOUNTING:
Pumps and drivers that are received from the factory
with both machines mounted on a common base plate,
were accurately aligned before shipment. All baseplates
are flexible to some extent and, therefore, must not be
relied upon to maintain the factory alignment. Preliminary
alignment is necessary after the complete unit has been
leveled on the foundation, and again, after the unit is
piped, and rechecked periodically as outlined in the
following paragraphs.
RECEIVING:
Upon receiving the pump, it should be inspected for damage or shortages. If damage has occurred, file a claim
immediately with the company that delivered the pump.
If the manual is removed from the crating, do not lose or
misplace.
STORAGE:
Short Term - Pumps are manufactured for efficient
performance following long inoperative periods in storage.
For best results, pumps can be retained in storage, as
factory assembled, in a dry atmosphere with constant
temperatures for up to six (6) months.
Position unit on foundation and level the base plate,
using rectangular metal blocks and shims, or wedges
having a small taper as shown in Figure 2. A gap of 3/4”
to 1½” should be allowed between the base plate and
foundation for grouting.
Adjust the metal supports or wedges until the shafts of
the pump and driver are level. Check the coupling faces,
as well as the suction and discharge flanges of the pump
for horizontal or vertical position by means of a level.
Correct the positions, if necessary, by adjusting the
supports or wedges under the base plate, as required.
Long Term - Any length of time exceeding six (6) months,
but not more than twenty four (24) months. The units
should be stored in a temperature controlled area, a roofed
over walled enclosure that provides protection from the
elements (rain, snow, wind blown dust, etc..), and whose
temperature can be maintained between +40 deg. F and
+120 deg. F. Pump should be stored in its original shipping
container and before initial start up, rotate impeller by hand
to assure seal and impeller rotate freely.
SERVICE CENTERS:
For the location of the nearest Weinman Service Center,
check your Weinman representative or Crane Pumps &
Systems, Inc., Service Department in Piqua, Ohio, telephone
(937) 778-8947 or Crane Pumps & Systems Canada, Inc.,
Bramton, Ontario, (905) 457-6223.
Figure 2. Adjusting Wedges for Mounting
Figure 1. Foundation Bolt
Location and Anchorage
3
NOTE: A flexible coupling should not be used to
compensate for misalignment of the pump and driver
shafts. The purpose of the flexible coupling is to
compensate for temperature changes and to permit end
movement of the shafts without interference with each
other, while transmitting power from the driver to the pump.
ANGULAR
MISALIGNMENT
CAUTION! - Remove and lock out power to
driver.
3. FIELD ALIGNMENT
The faces of the coupling halves should be spaced far
enough apart so that they cannot strike each other when
the driver rotor is moved toward the pump. The necessary
tools for checking the alignment of a flexible coupling are a
straight edge and a taper gauge or a set of feeler gauges.
NOTE: In most cases where extreme accuracy is
necessary, a dial indicator may be used to align coupling.
Angular alignment check is made by inserting a taper
gauge or feelers between the coupling faces at 90-degree
intervals around the coupling. The unit will be in angular
alignment when the coupling faces are exactly the same
distance apart at all points. (See Figure 3).
PARALLEL
MISALIGNMENT
Parallel alignment check is made by placing a straight
edge across both coupling rims at the top, bottom and
at both sides. The unit will be in parallel alignment when
the straight edge rests evenly on the coupling rim at all
positions. Allowance may be necessary for temperature
changes and for coupling halves that are not of the same
outside diameter. Care must be taken to have the straight
edge parallel to the axis of the shafts. Correction for
Angular and Parallel Misalignment is made by adjusting
the shims under the driver. After each change, it is
necessary to recheck the alignment of the coupling halves,
as adjustment in one direction may disturb adjustments
already made in another direction.
The permissible amount of coupling misalignment will vary
with the type of pump and driver, but should be limited to
approximately .002 inches per inch of shaft diameter when
final adjustment is made. When the units are lined up cold,
it is necessary to make allowance for the vertical rise of
the driver caused by heating when in operation. When the
preliminary alignment has been completed the foundation,
bolts should be tightened evenly, but not too firmly.
PERFECT
ALIGMENT
WARNING - Coupling guards must be used to
avoid serious injury to operating personnel.
4. GROUTING
Grouting compensates for unevenness in the foundation
and prevents vibration and shifting after mounting is
complete. Build a form around the base plate to contain
the grout, and sprinkle area with water to obtain a good
bond. The base should be completely filled with a good
quality, non-shrinking grout. The usual mixture for grouting
is one part Portland cement and two parts sand with
sufficient water to flow freely. It is also desirable to grout
the leveling pieces, shims or wedges in place. Foundation
bolts should be fully tightened when grout has hardened,
usually about 48 hours after pouring.
Figure 3
4
C - OPERATION
5. PIPING
The pump suction and discharge connections are not
intended to indicate the required suction and discharge
pipe sizes. The pipe diameter must be selected according
to the requirements of the pumping system and
recommended friction losses for the liquid being pumped.
1. PRIMING
CAUTION: Before starting the pump, the casing and
suction line must be filled with liquid, and air-vented
through the vent pipe plugs. The pump must not be run
until it is completely filled with liquid, because of danger of
injuring some of the parts of the pump which depend upon
liquid for lubrication. The discharge gate vale should be
closed during priming. Be sure the mechanical seal and
power frame are supplied with the proper lubrication.
See LUBRICATION.
Usually, it is advisable to increase the size of both the
suction and discharge pipes at the pump nozzles to have
minimum acceptable friction loss, suction pipe should
never be smaller in diameter than the pump suction
nozzle. When suction pipe is of larger diameter than the
pump suction nozzle, an eccentric reducer is required to
eliminate possible air or vapor pockets at the pump suction
inlet.
PRIMING BY SUCTION PRESSURE
When operating with suction pressure (flooded suction),
remove the pipe plug at the top of the casing and when
pump is filled with liquid, replace plug.
Both suction and discharge pipes must be supported
independently near the pump, so that when piping is
connected to the pump, no strain will be transmitted to the
pump. Piping should be arranged with as few bends as
possible, and, preferably, with long radius elbow whenever
possible.
PRIMlNG WITH FOOT VALVE AND STRAINER
A foot valve and strainer may be installed on the lower end of
the suction pipe to keep pump filled with liquid. Incorporate
filler pipe in discharge pipe between pump and check valve.
Remove pipe plug at top of casing, then fill suction pipe and
pump with liquid. When pump is full of liquid, replace plug
and close filler pipe.
SUCTION PIPING
A horizontal suction line must have a gradual rise to the
pump. Any high point in the suction pipe can become filled
with air and prevent proper operation of the pump and may
cause loss of prime. The pipe and fittings must be free of
all air leaks.
CAUTION: When a foot valve and strainer are installed on
the suction pipe, a spring loaded type check valve MUST be
installed next to the pump in the discharge piping to prevent
pump rupture from water hammer shock.
Any valves or fittings should located at a distance equal
to 5 to 10 times the diameter of the suction pipe from the
pump suction nozzle. If an elbow must be installed at the
pump suction, it should be installed in a vertical position
to reduce unequal flow into the pump, which may cause
cavitation in the pump.
Priming by means of primer pump or ejector, attached to
the pump, will also remove air from suction pipe and pump
casing. When pump is filled with liquid, start motor and
slowly open discharge gate valve.
NOTE: A gate valve in the suction piping should not be
used as a throttling device, as this may cause the liquid to
overheat during operation.
2. STARTING THE PUMP
On initial start up, the gate valve in the discharge piping
should be closed and slowly opened after pump is up to
speed and pressure developed. DO NOT operate pump for
any appreciable length of time against a closed discharge
valve, as this may heat trapped liquid excessively and
damage the pump or seal.
6. WIRING
For electric motor drives, connect power supply to conform
with national and local codes. Line voltage and wire capacity
must match the ratings stamped on the motor nameplate.
7. ROTATION
Before starting the pump, check the required direction
of rotation of the pump. The proper direction is indicated
by a direction arrow on the pump casing. Separate the
coupling halves, then start motor to see that it rotates in
the direction required by the pump. If it does not, reverse
any two main leads of the 3-phase wiring to the motor.
The coupling halves can be reconnected and the pump
primed for starting.
The following important items should be checked as pump
is started and placed in operation.
a. Pump and driver securely bolted
b. Coupling properly aligned
c. Piping complete
d. Correct pump rotation
e. Pump shaft turns freely
f. Discharge valve closed
g. Suction valve open (if used)
h. Coupling Guard installed
i. Pump fully primed
j. Pump and driver properly lubricated
Only after these items have been checked should the
pump be started.
5
3. PUMP ADJUSTMENT
Open discharge valve as soon as operating speed has
been reached. As soon as the pump and driver have
reached the normal operating temperature, the unit
should be shut down for final coupling alignment. This
should be done by following the instructions found in Part
3. If correction is necessary, it may be accomplished by
the addition or removal of shims from under the motor
mounting feet.
2. DISASSEMBLY OF FRAME ASSEMBLY
a. Remove cap screw (026), washer (270), key (032)
and impeller (002) from the end of shaft (006)
b. Remove seal assembly (089) and sleeve (014)
c. Remove pump half coupling, key (046), bearing cap
(041) and snap ring (202)
d. Rotate the shaft and bearings out of the frame
counterclockwise.
D. MAINTENANCE
e. Using a bearing puller or arbor press, remove
bearings (016) and (018) from the shaft (006)
1. LUBRICATION
The pump and its component parts that require lubrication
have been lubricated at the factory. Subsequent lubrication
depends on operating conditions. Periodic inspection of
bearing lubrication is necessary and additional grease
should be added as required.
f. Clean and carefully inspect all parts for wear or
damaged such as shafts, sleeves, bearings, lip
seals, mechanical seal or gaskets. Replace any part
which is excessively worn or damaged.
3. REASSEMBLY
CAUTION: DO NOT over grease bearings
a. Press bearings onto the shaft using an arbor press to
firmly seat the inner race of the bearing against the
shaft shoulders. For outboard bearing install snap
ring (082)
The following lubricants are recommended:
Grease lubricated ball bearings: Shell Dolium R, Chevron
SRI #2 or equivalent -40° thru 250°F.
Driver: See Manufacturers recommendations for proper
lubrication.
b. Slide bearing and shaft assembly through the rear of
the frame, until the outboard bearing bottoms in the
frame, insert snap ring (202)
E - REPAIR
CAUTION - Use extreme care to prevent the shaft
from hitting the seal stationary member. Damage
can result
WARNING - If pumping any fluid that
could cause bodily injury (hot water,
caustic, etc.), always use eye protection
and wear protective clothing over all
exposed body areas.
c. Slide seal rotating member over shaft until lapped
seal faces mate. (Do Not touch seal faces with
hands or other objects).
REMOVE AND LOCK-OUT POWER TO THE
DRIVER WHILE PERFORMING THESE TASKS
Be sure that no one can accidentally restore power while
the pump is being serviced.
d. Slide key (032) and impeller (002) onto shaft and
secure with washer (270) and cap screw (026)
e. Replace wear rings (025)
1. DISASSEMBLY - The following procedure is for the
complete disassembly of the pump. If the repair does
not require complete disassembly use only the steps
that apply. These instructions apply to the series of
pumps in general and may vary slightly on some units.
f. Mount the frame assembly to casing (001) using cap
screws (212). Be sure the impeller turns freely.
g. Align pump and motor according to Section B.
Reassemble flexible shaft coupling.
Due to the “back pull out” construction of these pumps, the
frame and rotating assembly may be removed from the
unit without removing the casing from the piping, or the
driver from the base plate providing a spacer coupling is
employed.
NOTE: Model number, pump serial number and part item
number are always required to secure correct replacement
parts. Refer to the pump serial plate and illustrations in this
booklet.
a. Close valves in discharge and suction piping
b. Remove coupling guard and shaft coupling per
manufacturer’s instructions
c. Remove cap screws from frame foot and casing cap
screws (212)
d. Remove frame assembly from casing.
6
F - LOCATING TROUBLE
5. Pump Takes Too Much Power
a. Speed too high - Compare Pump and motor
nameplates
b. Head lower than rating - pumps too much liquid.
Check system requirements
c. Liquid specific gravity or viscosity greater than
expected. Requires large motor.
d. Pump and driver misalignment - Check casing for
pipe strain. Support piping and realign unit
e. Wrong direction of rotation
f. Electrical defects - Check power supply and
motor
g. Impeller oversized for system requirements
1. No Liquid Delivered
a. Pump not primed - See Priming
b. Speed too low - Check motor speed and
nameplate
c. Discharge head too high
d. Impeller completely plugged
e. Wrong direction of rotation - Check wiring
f. NPSHA may be too low, pump cavitates - Check
total NPSHR
g. Suction or discharge valves closed
2. Not Enough Liquid Delivered
a. Air leaks in suction piping
b. Speed to low - Check motor speed
c. Discharge head higher than anticipated.
Check discharge valve/system requirements
d. Impeller partially plugged
e. Wrong direction of rotation
f. NPSHA may be too low, pump cavitates
g. Air entrainment
h. Flow meter improperly calibrated
6. Excessive Pump Vibration
a. Cavitation at pump suction due to insufficient
NPSHA. Alter installation to reduce NPSHR
b. Impeller out of balance - Check mechanical
(static) balance
c. Pump and motor misalignment
d. Obstruction in pump impeller
e. Pump shaft bent
f. Worn pump bearings
g. Impeller imbalance due to wear or corrosion
h. Motor imbalance
i. Base plate loose on foundation or insufficient
strength to support the load
3. Not Enough Pressure
a. Speed too low - Check motor speed
b. Air or gas in liquid
c. Incorrect impeller diameter - Check system
requirements
d. Obstruction in pump or piping
e. Specific gravity lower than specified - May
require larger pump impeller
f. Defective pressure gauge
7. Pump and/or Motor Noise
a. Pump and motor misalignment
b. Pump cavitation
c. Base plate loose or not grouted
d. Pump bearings worn
e. Motor bearings worn or fan rubs housing
4. Pump Works For A While Then Quits
a. Obstruction in pump or piping
b. Air or gas in liquid
c. Incomplete priming - See Priming
d. Air leak through seal when operating with high
vacuum or high suction lift.
7
ITEM No.
001
002
006
*014
*016
*018
019
025
*026
*030
032
*038
041
ITEM No.
DESCRIPTION
Casing
Impeller
Shaft
Shaft Sleeve
Bearing (inboard)
Bearing (outboard)
Frame
Wear ring, Casing
Impeller capscrew
Impeller washer gasket
Impeller Key
Sleeve gasket
Bearing Cap
DESCRIPTION
202
Snap ring (Frame)
203
Name Plate (Not shown)
207
Grease Fitting
208
Pipe Plug
212
Cap screw
214
Drive screw (Not shown)
216
Pipe Plug (Casing)
219
Cap screw
242
Grease Fitting
*270
Impeller Washer
*272
O-ring, Impeller Washer
273
Casing Foot
Frame Foot
046
Coupling key
274
071
Adapter
277
Cap screw
Casing gasket
701
Set screw
*073
082
Snap ring (shaft)
089
Mechanical Seal
(*) Recommended Spare Parts
8
ITEM No.
001
002
006
*014
*016
*018
019
025
*026
*030
032
*038
041
046
071
*073
ITEM No.
DESCRIPTION
Casing
Impeller
Shaft
Shaft Sleeve
Bearing (inboard)
Bearing (outboard)
Frame
Wear ring, Casing
Impeller capscrew
Impeller washer gasket
Impeller Key
Sleeve gasket
Bearing Cap
DESCRIPTION
202
Snap ring (Frame)
203
Name Plate (Not shown)
207
Grease Fitting
208
Pipe Plug
212
Cap screw
214
Drive screw (Not shown)
216
Pipe Plug (Casing)
219
Cap screw
242
Grease Fitting
*270
Impeller Washer
*272
O-ring, Impeller Washer
273
Casing Foot
Coupling key
274
Frame Foot
Adapter
277
Cap screw
Casing gasket
701
Set screw
082
Snap ring (shaft)
089
Mechanical Seal
(*) Recommended Spare Parts
9
Limited 24 Month Warranty
Crane Pumps & Systems warrants that products of our manufacture will be free of defects in material and workmanship
under normal use and service for twenty-four (24) months after manufacture date, when installed and maintained
in accordance with our instructions.This warranty gives you specific legal rights, and there may also be other rights
which vary from state to state. In the event the product is covered by the Federal Consumer Product Warranties Law
(1) the duration of any implied warranties associated with the product by virtue of said law is limited to the same
duration as stated herein, (2) this warranty is a LIMITED WARRANTY, and (3) no claims of any nature whatsoever
shall be made against us, until the ultimate consumer, his successor, or assigns, notifies us in writing of the defect,
and delivers the product and/or defective part(s) freight prepaid to our factory or nearest authorized service station.
Some states do not allow limitations on how long an implied warranty lasts, so the above limitation may not apply.
THE SOLE AND EXCLUSIVE REMEDY FOR BREACH OF ANY AND ALL WARRANTIES WITH RESPECT TO ANY
PRODUCT SHALL BE TO REPLACE OR REPAIR AT OUR ELECTION, F.O.B. POINT OF MANUFACTURE OR
AUTHORIZED REPAIR STATION, SUCH PRODUCTS AND/OR PARTS AS PROVEN DEFECTIVE. THERE SHALL BE
NO FURTHER LIABILITY, WHETHER BASED ON WARRANTY, NEGLIGENCE OR OTHERWISE. Unless expressly
stated otherwise, guarantees in the nature of performance specifications furnished in addition to the foregoing material
and workmanship warranties on a product manufactured by us, if any, are subject to laboratory tests corrected for
field performance. Any additional guarantees, in the nature of performance specifications must be in writing and such
writing must be signed by our authorized representative. Due to inaccuracies in field testing if a conflict arises between
the results of field testing conducted by or for user, and laboratory tests corrected for field performance, the latter
shall control. RECOMMENDATIONS FOR SPECIAL APPLICATIONS OR THOSE RESULTING FROM SYSTEMS
ANALYSES AND EVALUATIONS WE CONDUCT WILL BE BASED ON OUR BEST AVAILABLE EXPERIENCE AND
PUBLISHED INDUSTRY INFORMATION. SUCH RECOMMENDATIONS DO NOT CONSTITUTE A WARRANTY OF
SATISFACTORY PERFORMANCE AND NO SUCH WARRANTY IS GIVEN.
This warranty shall not apply when damage is caused by (a) improper installation, (b) improper voltage (c) lightning
(d) excessive sand or other abrasive material (e) scale or corrosion build-up due to excessive chemical content. Any
modification of the original equipment will also void the warranty. We will not be responsible for loss, damage or labor
cost due to interruption of service caused by defective parts. Neither will we accept charges incurred by others without
our prior written approval.
This warranty is void if our inspection reveals the product was used in a manner inconsistent with normal industry practice
and\or our specific recommendations. The purchaser is responsible for communication of all necessary information
regarding the application and use of the product. UNDER NO CIRCUMSTANCES WILL WE BE RESPONSIBLE FOR
ANY OTHER DIRECT OR CONSEQUENTIAL DAMAGES, INCLUDING BUT NOT LIMITED TO TRAVEL EXPENSES,
RENTED EQUIPMENT, OUTSIDE CONTRACTOR FEES, UNAUTHORIZED REPAIR SHOP EXPENSES, LOST
PROFITS, LOST INCOME, LABOR CHARGES, DELAYS IN PRODUCTION, IDLE PRODUCTION, WHICH DAMAGES
ARE CAUSED BY ANY DEFECTS IN MATERIAL AND\OR WORKMANSHIP AND\OR DAMAGE OR DELAYS IN
SHIPMENT. THIS WARRANTY IS EXPRESSLY IN LIEU OF ANY OTHER EXPRESS OR IMPLIED WARRANTY,
INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
No rights extended under this warranty shall be assigned to any other person, whether by operation of law or otherwise,
without our prior written approval.
A Crane Co. Company
420 Third Street
Piqua, Ohio 45356
Phone: (937) 778-8947
Fax: (937) 773-7157
www.cranepumps.com
83 West Drive, Brampton
Ontario, Canada L6T 2J6
Phone: (905) 457-6223
Fax: (905) 457-2650
IMPORTANT!
WARRANTY REGISTRATION
Your product is covered by the enclosed Warranty.
To complete the Warranty Registration Form go to:
http://www.cranepumps.com/ProductRegistration/
If you have a claim under the provision of the warranty, contact your local
Crane Pumps & Systems, Inc. Distributor.
RETURNED GOODS
RETURN OF MERCHANDISE REQUIRES A “RETURNED GOODS AUTHORIZATION”.
CONTACT YOUR LOCAL CRANE PUMPS & SYSTEMS, INC. DISTRIBUTOR.
Products Returned Must Be Cleaned, Sanitized,
Or Decontaminated As Necessary Prior To Shipment,
To Insure That Employees Will Not Be Exposed To Health
Hazards In Handling Said Material. All Applicable Laws
And Regulations Shall Apply.
Notes
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