4501

Manual Index

DEMING

®

INSTALLATION, OPERATION & MAINTENANCE MANUAL

Vertical Sump & Industrial Pumps

Series: 4501

4511

4521

IMPORTANT!

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 notifi cation.

A Crane Co. Company

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. 120012-Rev. F

CONTENTS

SAFETY FIRST ................................................................................3

Receiving

Storage

B. INSTALLATION ................................................................................4 - 5

C. ..................................................................................5

GENERAL REPAIRS

D. FOR INSPECTION AND REPAIR OF LIQUID END .........................5

E. FOR INSPECTION AND REPLACEMENT OF

F. TO REMOVE TOP COLUMN ADAPTER .........................................6

H. INSTALLING NEW BEARING BUSHINGS ......................................6

I. REASSEMBLY OF COLUMN PIPE ..................................................6

J. ASSEMBLY OF LIQUID END ...........................................................6

K. TO INSPECT OR REPLACE THRUST BEARING AND SEAL .........6 - 7

L. COLUMN PIPE DOWEL AND SHAFT

GUIDE BEARING ASSEMBLY .........................................................7 - 9

O. Fig. 4501 - 4511 - 4521 ....................................................................9

CROSS-SECTION & PARTS LIST ...................................................10 - 11

WARRANTY & RETURNED GOODS ..............................................15

Other brand and product names are trademarks or registered trademarks of their respective holders.

Deming® is a registered trademark of Crane Pumps & Systems, Inc.

2

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:

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.

CAUTION! Warns about hazards that can or will cause minor personal injury or property damage if ignored. Used with symbols below.

WARNING! Warns about hazards that can or will cause serious personal injury, death, or major property damage if ignored. Used with symbols below.

Hazardous fl uids can cause fi re or explosions, burnes or death could result.

Extremely hot - Severe burnes can occur on contact.

Biohazard can cause serious personal injury.

Hazardous fl uids can Hazardous pressure, eruptions or explosions could cause personal injury or property damage.

Rotating machinery

Amputation or severe laceration can result.

Hazardous voltage can shock, burn or cause death.

pump. Any wiring of pumps should be performed by a qualifi ed electrician.

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.

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.

CAUTION ! Never operate a pump with a plug-in type power cord without a ground fault circuit interrupter.

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

(fl ammable, caustic, etc.) unless the pump is specifi cally designed and designated to handle them.

CAUTION ! Do not block or restrict discharge hose, as discharge hose may whip under pressure.

WARNING ! Do not wear loose clothing that may become entangled in moving parts.

WARNING ! Keep clear of suction and discharge openings. DO NOT insert fi ngers in pump with power connected.

Always wear eye protection when working on pumps.

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.

DO NOT exceed manufacturers recommendation for maximum performance, as this could cause the motor to overheat.

DO NOT remove cord and strain relief. DO NOT connect conduit to pump.

WARNING ! Cable should be protected at all times to avoid punctures, cut, bruises and abrasions. Inspect frequently. Never handle connected power cords with wet hands.

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.

WARNING! Submersible Pumps are not approved for use in swimming pools, recreational water installations decorative fountains or any installation where human contact with the pumped fl uid is common.

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.

Bronze/brass and bronze/brass fi tted 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.

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.

3

A - GENERAL INFORMATION

TO THE PURCHASER:

Congratulations! You are the owner of one of the fi nest 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.

Check local codes and requirements before installation.

Servicing should be performed by knowledgeable pump service contractors or authorized service stations.

b.) Slide a locking collar onto the top end of the rod and push rod through fl oat switch arm. Guide the bottom end of the rod through the bottom guide bracket (527) on the pump casing (1) and lock a collar on the end of the rod by tightening the collar set screw.

c.) Lock the collar on the rod below the fl oat about

4” above the bottom guide bracket, then lock the collar above the fl oat at the desired starting (or stopping) level in the sump.

d.) After setting the pump in the pit, push the fl oat switch arm down to its lowest position. Lift the fl oat rod about 1/2” and fasten the top collar on rod with collar resting on switch arm. Lock the last collar 1/2” below the switch arm.

NOTE: See fl oat assembly on page 10

This pump is designed for pumping raw or treated sewage, light sludge, slurries, industrial wastes and similar liquids containing solids. Standard pumps are assembled, adjusted and lubricated at the factory before shipment.

Motor and fl exible shaft coupling are normally shipped unmounted and are to be installed on the pump at job site.

2. Carefully lower the assembled unit into the pit. The support plate (23) should be approximately level and must rest evenly at all points before it is bolted to the

RECEIVING:

Upon receiving the pump, it should be inspected for damage or shortages. If damage has occurred, fi le 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 effi cient 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.

B - INSTALLATION

Standard pumps are completely assembled, carefully adjusted and lubricated at the factory before shipment.

3. Turn pump shaft by hand to make sure that it rotates freely after installation - but before turning on the power. If there is a bind in the rotation, make 4 checks and possible adjustments as follows:

A. Adjust the position of the impeller by loosening

(342) lock screw, loosen or tighten (66) adjusting nut to position the shaft and impeller above their lowest position by from 1/3 to 1/2 turn of the

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 Deming Service Center, check your Deming representative or Crane Pumps &

Systems Service Department in Piqua, Ohio, telephone

(937) 778-8947 or Crane Pumps & Systems Canada, Inc.,

Bramton, Ontario, (905) 457-6223.

B. If “A” does not correct binding, loosen top lock nuts

(294) of both the discharge pipe and the grease pipe (if furnished) by two or three turns. Then gradually tighten discharge pipe top lock nut while checking shaft until the maximum shaft freedom of rotation is attained.

C. If “B” does not free shaft, raise the pump out of the pit and lower the bottom lock nuts of the discharge and lubrication pipes. Then reset the pump, bolting it to its foundation and continue to tighten the top lock nut of the discharge pipe up to 1 or 2 turns until freedom of rotation is attained.

D. Tighten the lubrication pipe top lock nut to just bear on the pump plate, raise the pump out of the sump, tighten the bottom lock nuts of the discharge and lubrication pipes and reset the pump.

E. Recheck the freedom of shaft rotation.

F. Disengage motor half coupling (42) from pump half coupling.

4. Eliminate weight or strain of the piping connected to the pump before connecting this piping to the pump.

Recheck freedom of rotation (Section 3) after connecting system piping to pump discharge. A check valve and gate valve should be installed at the pump discharge to prevent back wash and pump back

spin.

assembled and partially adjusted before installing the pump. Insert plate and slide a locking collar (530) on the bottom of the rod,

5. Be certain to connect power lines to motor leads as shown on motor wiring diagram for the line voltage

(530).

4

6. Be sure starter or fl oat switch overload protection device is proper for the voltage used and the motor

horsepower.

7. Start motor, and test for proper rotation. The shaft should rotate clockwise when looking down on the motor. (For left hand pumps the shaft should rotate counter-clockwise.) If rotation is wrong, reverse any two line leads to the motor if 3 phase power is used.

If single phase is used, consult motor manufacturer or his representative. After correct rotation is obtained, connect the drive coupling. (If the pump shaft should be rotated in the wrong direction, the shaft couplings might unscrew and cause a bent shaft or broken impeller or casing.)

2. Unscrew the top pipe nut (294) and loosen the bottom pipe nut (294). The discharge pipe can now be removed from the pump either by unscrewing the pipe or removing bolts and nuts at the pipe fl ange.

3. Next, unscrew the nuts (247) holding the strainer

4.

(316) and suction cover (9) to the pump casing (1).

(Note: Pump sizes 3M, 4M, 5M and 5MS have two-piece strainers.) Place suction head gasket (73) in a bucket of water to keep it pliable.

Unscrew the impeller nut (24) by turning it counter-clockwise while holding the drive coupling

(42) with a strap wrench.

8. Before starting pump close gate valve. Start pump and slowly open gate valve until desired capacity is

obtained.

9. Pump should operate smoothly, If pump vibrates, there may be a severe distortion of the pump as a result of excessive installation strains on pump support plate or discharge pipe, or because of damage in shipment.

5. To remove the impeller from the shaft, make three special cap screws as follows:

Fig 4501 - 3/8” x 16 NC with threads cut 1¾” long;

Fig. 4511 and Fig. 4521 - 1/2” x 13 NC with thread cut

2” long. Screw these cap screws into the three tapped holes in the impellers shroud. The cap screws will tighten against the bottom bearing housing (33) thus forcing the impeller (2) and impeller washer (270) off the shaft (6). Lift the impeller key (32) from its seat in the shaft.

C - LUBRICATION

1. Pump bearings are properly fi lled with grease at the factory before shipment. Periods of subsequent lubrication depend somewhat on local conditions, hours of operation, load, speed, temperature, etc.

As a guide we recommend that the thrust bearing (18) be greased every two or three months and, for grease lubricated pumps, the shaft bearing bushings (39) every eight hours of operation. If liquid being pumped contains abrasives, lubricate shaft bearings (39) every four to six hours of operation.

E - FOR INSPECTION AND

REPLACEMENT OF BEARING

BUSHINGS

1. Dismantle liquid end as described in Section B.

2. Disconnect grease pipes (242) starting at the pump support plate (23).

2. A sodium base grease #2 or #3 consistency should be used for thrust bearing (18) and a water resistant grease such as “Lubri-plate 142” for the shaft bearing

3. Unscrew nuts (342) holding the casing (1) and bottom bearing housing (33) to the bottom column pipe (101).

The casing and bottom bearing housing can now be removed from the column pipe.

3. Motor bearings normally require a sodium base grease #2 or #3 consistency. Follow motor manufacturer’s recommendation as to grease and frequency of lubrication.

GENERAL REPAIRS

D - FOR INSPECTION AND REPAIR

OF LIQUID END

1. Close discharge gate valve and disconnect pipe at pump support plate, also remove electric wires from the motor. Unscrew foundation bolts in the support plate (23) then lift pump and support plate as a unit from the pit to the fl oor.

4. If it is necessary to replace the choker ring (257) and bottom bearing bushings (39), carefully note their position in the bearing housing, then, with a piece of tubing or round bar of the proper size, push the bearing bushing and choker ring out of the fl anged end of the housing.

5. To remove the intermediate bearing housing (33) and bearing bushings (39), unscrew fl ange bolts and nuts

(285) and slide bottom column pipe (101) off over shaft (6) then slide bearing housing (33) with bearing bushings (39) off the shaft. Note position of bearing bushings in housing then push the bearing bushings out of the housing as described in #4 above.

5

F - TO REMOVE TOP COLUMN

ADAPTER

If pump liquid end and column pipe has been dismantled as described in Section B and C, then proceed as follows:

Unscrew top column bolts and nuts (256) and slide top column pipe (101A) off the shaft, then, top column adapter (170).

Note: If pump motor end has been dismantled as described in Section K, then proceed as follows:

Remove bolts and nuts (277) holding motor support (19) to support plate (23), then, remove bolts and nuts (258).

Lift present top column adapter (170) from top column pipe fl ange and install new adapter in the top pipe fl ange.

Reposition motor support on support plate and replace bolts and nuts (258) and bolts and nuts (277). Complete assembly as described in Section K.

I - REASSEMBLY OF COLUMN PIPE

1. Slide the intermediate bearing housing (39) over the shaft and push against fl ange of the top column pipe (101A). Turn bearing housing so that grease port in housing lines up with hole in column pipe.

Place bolts (285) through holes in fl ange.

2. Slide bottom column pipe (101) onto shaft with grease hole in line with hole in the top column pipe.

Replace nuts (288) and tighten securely. Be sure the hole for grease pipe is in proper position.

3. Next, place bottom bearing housing (33) over the end of the shaft and slide against fl ange of bottom column pipe (101). Align bolt holes with those of

G - REPLACING TOP COLUMN

ADAPTER

1. Slide top column adapter (170) over the shaft, then the top column pipe (101A). Line up the holes in the top column pipe fl ange and top column adapter fl ange with those in the bottom of the motor support

(19) and replace bolts and nuts (258). Tighten

securely. sure the hole for grease pipe (335) is in proper position.

H - INSTALLING NEW BEARING

BUSHINGS

1. Bearing bushings (39) are furnished in sections, two sections required per housing. Place the intermediate bearing housing (33) in a vise, fl anged end up. Select a bearing bushing (39) and note that one end shows a grease groove while the other end is plain (except for graphitor and rubber bearings).

J - ASSEMBLY OF LIQUID END

1. Position casing (1) against bottom bearing housing fl ange with discharge in proper position and replace nuts (341). Tighten securely.

2. Replace key (32) in shaft and place impeller (2) on the shaft with keyway over the key. Place a wood block over impeller vanes and tap on wood to seat impeller on shaft taper. Replace impeller washer

(270) on the shaft, then the impeller nut (24). Tighten

DO NOT USE IMPELLER NUT TO DRAW

IMPELLER ONTO SHAFT. NUT IS A LOCKING

DEVICE ONLY!

3. Position casing gasket (73) on motor support (19) and replace motor support (19) and strainer (316) on studs (246). Replace stud nuts (247) and tighten.

2. Position bearing bushing (39) in the cavity of the intermediate bearing housing (33) with grease groove down, and carefully press bearing into position as shown. Also press choker ring (257) into position, (on bottom bearing housing only). Turn the intermediate bearing housing over and carefully press other half of bearing bushing into position in the same manner.

4. Reassemble grease pipes (335) and force fresh grease into the bearing busings (39). Also assemble the discharge pipe (161) and tighten nuts (294), tightening the one below the support plate fi rst. Be careful that a strain is not placed on the pump shaft due to improper adjustment of the grease pipe and discharge pipe lock nuts (294).

DO NOT COVER GREASE PORT IN SIDE OF

BEARING HOUSING.

5. Turn pump shaft (6) by hand several times to make sure that shaft turns freely. Then follow installation

instructions.

Note: Other design construction will require same modifi cation of above depending upon the particular construction.

K - TO INSPECT OR REPLACE

THRUST BEARING AND SEAL

1. Disconnect power lines from the motor, then remove motor cap screws (219) and lift motor and motor half of coupling (42) from the motor support (19).

Remove the coupling spider and lower half of coupling (44) from the pump shaft (6). Shaft key (44) will come off at this time.

6

thrust bearing and loosely pack the bearing housing

2. Remove set screw (342) from adjusting nut (66), then, unscrew the adjusting nut (66) from the shaft by turning it counter-clockwise. Remove bearing housing bolts and nuts (332) and grease cup (242). Lift the entire assembly consisting of the bearing adapter

(170), gib key (244), bearing housing (33), perfect seal (169), thrust bearing (18), snap ring (202), and the shaft perfect seal (169) from the motor support

(19).

6. Place bearing housing (33) in a vise with fl ange resting on vise jaws. Place bearing adapter assembly over bearing housing (33) and press down on top of adapter to seat thrust bearing (18) in its seat. Lay a piece of wood across the top of the bearing adapter and tap wood to completely seat bearing and perfect

seal.

7. Guide the bearing housing and bearing adapter assembly over the shaft. Line up the bolt holes with those in motor support (19) and replace bolts and nuts

(332), grease cup (242), and gib key (244). Screw the adjusting nut (66) onto the pump shaft and tighten until shaft just turns free by hand. Turn the adjusting nut two additional fl ats of the hex nut and replace set screw (342). Be sure the set screw is seated in the

8. Turn shaft several times by hand to be certain that it turns freely and doesn’t bind. Replace the bottom half of coupling (44) and shaft key (44) on the shaft

(6). Replace the motor on the motor support (19) engaging the upper and lower halves of coupling (44).

Replace cap screws (219) holding motor.

L - COLUMN PIPE DOWEL AND SHAFT

BEARING

The pump construction as shown in cross section on page

10 is a standard for a grease lubricated pump of suffi cient length to require an intermediate guide bearing. Pumps specifi cally designed for handling corrosive, abrasive, or odorous liquids will have materials of construction, design of guide bearings and lubrication modifi ed for the particular application concerned. The different designs and their application are as follows:

3. To remove bearing adapter (170), thrust bearing (18), and felt seal (169A) from the bearing housing (33), place a rod through the hole at the shaft sirvene seal (169) and bump gently on the bottom of the bearing adapter (170) moving around its diameter until it is released from the housing. This should be

FOR STANDARD DRAINAGE SERVICE

-NONCORROSIVE LIQUIDS WITHOUT

ABRASIVES OR VAPORS

4. To remove the thrust bearing (18) from the bearing adapter (170), remove the snap ring (202) holding the bearing, then, pull the bearing from the adapter.

The felt seal (169A) can also be pulled from the adapter. The shaft seal (169) should be pushed out of the bearing housing (33) with a rod or piece of wood. Note: When installing a new thrust bearing, we also recommend replacing the two seals (169).

5. Press new felt seal (169A) onto bearing adapter (170).

Next, press the thrust bearing (18) onto the bearing adapter with the wide space between the bearing races toward the top of the adapter, then replace snap ring (202). The sirvene seal (169) should be pressed into the bearing housing (33) with the “lip” visible, looking down into the housing. Apply fresh grease to

DESIGN 1 - TOP

Design 1 is the standard cast iron column top closure.

7

DESIGN 8 - INTERMEDIATE

Design 8 is the standard intermediate shaft guide bearing assembly with cast iron bushings and grease lubrication.

(Use with settings of over 6 feet).

DESIGN 10 - BOTTOM

Design 10 For Slightly Abrasive Water where grease or clear water are not available for lubrication, this design with rubber bushings is ideal as a bottom shaft guide bearing assembly.

DESIGN 6 - BOTTOM

Design 6 is the standard bottom shaft bearing assembly.

The choker ring resists lubricant fl ushing by the liquid pumped.

DESIGN 11

Design 11 includes bearings of the material selected, fi ve rings of packing under spring tension plus choker ring in bottom of the housing to form a seal to exclude abrasives from the bearings.

FOR SPECIAL PUMPING SERVICES

DESIGN 3 - TOP

Design 3 For Hot or Corrosive Vapors which can be contained by a stuffi ng box. Use instead of Design 1.

Design 3 also can be fi tted with inlet and outlet connections for pressurizing inside of the column with water, air or steam to keep abrasive or corrosive liquids out of the bearing assemblies.

For pressurized grease lubrications, specify bearing of

Bronze, Cast Iron or Meehanite

For pressurized liquid lubrication, specify bearings of

Babbit Graphite, Nickel Graphite or Carbelube.

8

N - LOCATING TROUBLE

1. No water delivered a. Wrong direction of rotation b. Strainer, impeller or pipes plugged c. Discharge head too high d. No water in pit

2. Not enough water delivered a. Strainer, impeller or pipes partly plugged b. Discharge head higher than expected c. Improper impeller adjustment d. Low water level in pit

1. Impeller worn or damaged

2. Casing worn f. Wrong direction of rotation

DESIGN 12

Design 12 is recommended for abrasive liquids and includes two rubber bearings separated by lantern ring for fl ush connection. Requires pressurized liquid lubrication.

Suitable clean liquid under pressure, is required to lubricate and fl ush the bearings.

3. Not enough pressure a. Air in water c. Impeller diameter too small d. Wrong direction of rotation

4. Pump takes too much power a. Speed too high for required head and capacity b. Head lower than rating; pumps to much water c. Liquid either viscous or heaver than water or both

M - MODIFICATIONS AVAILABLE

For abrasive liquids Design 8 and Design 6 are recommended as standard intermediate and bottom bearing assemblies with bushing materials and lubricants as follows:

For pressurized grease lubrication, use Meehanite or

1. Shaft bent

2. Impeller binds in casing e. Strain on pump caused by piping misalignment f. Liquid pumped leaves a deposite between the shaft and the bearings or between the impeller and the

casing.

g. Wrong electrical connections

For solenoid drip type or pressurized type oil lubrication, use babbitt bearing linings.

For clear water lubrication controlled by solenoid valve, use graphite type bushings, or use Design

9 with graphite type bushing or 9R with rubber bushing substituted for the spring and stuffi ng box

packing.

For Gasoline, Acetone and other Dry liquids without abrasives use Design 8 assemblies with graphite type bushings for both intermediate and bottom bearing assemblies without supplementary lubrication.

O - Fig. 4501 - 4511 - 4521

Pump standard sectional assembly and standard parts list apply to pumps of standard construction. Deviations from this construction may result from the use of alternate shaft guide bearing construction or methods of lubrication as described on pages 7 thru 9.

Intermediate guide bearings (39) usually are used only if column length exceeds 5 feet.

For dry intermediate guide bearings above the maximum level of any liquid in the sump, use

Design 8 housing assembly with graphite type bushings if auxiliary lubrication is not desired.

Shaft (6) is furnished in two or more lengths coupled together if column length plus liquid end exceeds 10 feet.

Discharge pipe coupling (38) is replaced by a fl at faced

ASA fl ange on pipe sizes 3” and larger.

For Molten Sulphur use Meehanite bottom bearing bushings in Design 6 housing, or if the column is to be pressurized with steam for handling raw sulphur, use Design 3 stuffi ng box at the top with steam inlet and outlet connections and Design 9 at the bottom with gasketed and sealed column pipe.

Chair bracket mounted units must be realigned every other day during the fi rst week of operation, then once each week until alignment remains constant.

9

10

Item No.

* 169

* 169A

170

199

202

216

219

226

48

66

70

* 73

101

101A

105

161

241

242

244

* 24

32

33

* 39

* 39A

42

44

46

9

* 18

19

23

1

2

6A

6

Name Of Part

Casing

Impeller

Top Shaft

Bottom Shaft

Suction Cover

Ball Bearing

Motor Support

Base Plate

Impeller Nut

Impeller Key

Bearing Housing

Bearing Bushing

Top Bearing Bushing

Coupling Half - Driver

Coupling Half - Pump

Coupling Key

Coupling Bushing

Shaft Adjusting Nut

Shaft Coupling

Gasket

Column

Top Column Pipe

Discharge Elbow

Discharge Fitting

Seal - Lower

Seal - Top

Bearing Adapter

Top Closure

Snap Ring

Pipe Plug

Cap Screw

Cap Screw (Not Shown)

Gasket

Grease Fitting

Brg. Adapter Key

Item No.

350

351

521

527

529

530

532

543

295

307

316

332

335

* 336

341

342

549

557

559

265

267

268

270

277

285

288

294

246

247

* 250

* 254

256

257

258

260

Name Of Part

Stud

Hex Nut

Frame Gasket

Pipe Nut Gasket

Hex Nut

Choker Ring

Hex Nut

Cap Screw

Cap Screw

Cap Screw

Hex Nut

Impeller Washer

Cap Screw

Cap Screw

Hex Nut

Pipe Nut

Discharge Flange

Bearing Retainer

Strainer

Cap Screw

Lube Pipe Assembly

Gasket

Hex Nut

Set Screw

Stud

Hex Nut

Set Screw

Float Rod Bottom Guide

Float Rod

Float Rod Collars

Float

Cover Plate

Float Rod Guide Tube

Float Guide

Guide Pipe

11

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 specifi c 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, notifi es 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 specifi cations 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 fi eld performance. Any additional guarantees, in the nature of performance specifi cations must be in writing and such writing must be signed by our authorized representative. Due to inaccuracies in fi eld testing if a confl ict arises between the results of fi eld testing conducted by or for user, and laboratory tests corrected for fi eld 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 modifi cation 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 specifi c 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

Regulations Apply.

A Crane Co. Company

START-UP REPORT

General Information

Pump Owner’s Name: __________________________________________________________

Address: ____________________________________________________________________

Location of Installation: _________________________________________________________

Contact Person: __________________________________Phone: _______________________

Purchased From: _____________________________________________________________

Nameplate Data

Pump Model #: ___________________ Serial #: _____________________________________

Part #: __________________________ Impeller Diameter: ____________________________

Voltage: _________ Phase: _____ Ø Hertz: ____________Horsepower: _______________

Full Load Amps: ___________________ Service Factor Amps: __________________________

Motor Manufacturer: ___________________________________________________________

Controls

Control panel manufacturer: _____________________________________________________

Model/Part number: ____________________________________________________________

Number of pumps operated by control panel: ________________________________________

Short circuit protection? YES___ NO___ Type: _________________________________

Number and size of short circuit device(s): ___________ Amp rating: ___________________

Overload Type: _____________ Size: ______________ Amp rating: ___________________

Do protection devices comply with pump and motor Amp rating? YES___ NO___

Are all electrical and panel entry connections tight? YES___ NO___

Is the interior of the panel dry? YES___ NO___

Liquid level Control Brand and Model: ______________________________________________

Pre-Startup

All Pumps

Type of equipment: NEW___ REBUILT___ USED___

Condition of equipment at Start-Up: DRY___ WET___ MUDDY___

Was Equipment Stored? YES___ NO___ Length of Storage: ______________________

Liquid being pumped: __________________ Liquid Temperature: _____________________

Supply Voltage/Phase/Frequency matches nameplate? YES___ NO___

Shaft turns freely? YES___ NO___

Direction of rotation verifi ed for 3Ø motors? YES___ NO___

Debris in piping or wet well? YES___ NO___

Debris removed in your presence? YES___ NO___

Pump case/wet well fi lled with liquid before startup? YES___ NO___

Is piping properly supported? YES___ NO___

Non-Submersible Pumps

Is base plate properly installed / grouted? YES___ NO___ N/A___

Coupling Alignment Verifi ed per I&O Manual? YES___ NO___ N/A___

Grease Cup/Oil Reservoir Level checked? YES___ NO___ N/A___

Submersible Pumps

Resistance of cable and pump motor (measured at pump control):

Red-Black:_______Ohms(Ω) Red-White:_______Ohms(Ω) White-Black:_______Ohms(Ω)

Resistance of Ground Circuit between Control Panel and outside of pump: __________Ohms(Ω)

MEG Ohms check of insulation:

Red to Ground: _________ White to Ground: __________ Black to Ground: ____________

Operational Checks

Is there noise or vibration present? YES___ NO___ Source of noise/vibration: ___________

Does check valve operate properly? YES___ NO___ N/A___

Is system free of leaks? YES___ NO___ Leaks at: ______________________________

Does system appear to operate at design fl ow rate? YES___ NO___

Nominal Voltage: _____________________ Phase: 1Ø 3Ø (select one)

Voltage Reading at panel connection, Pump OFF: L1, L2 _____ L2, L3 ____ L1, L3 _____

Voltage Reading at panel connection, Pump ON: L1, L2 ______ L2, L3 ____ L1, L3 _____

Amperage Draw, Pump ON: L1 ____________ L2 _____________ L3 _____________

Submersible Pumps

Are BAF and guide rails level / plumb? YES___ NO___

Is pump seated on discharge properly? YES___ NO___

Are level controls installed away from turbulence? YES___ NO___

Is level control operating properly? YES___ NO___

Is pump fully submerged during operation? YES___ NO___

Follow up/Corrective Action Required

YES___ NO___

Additional Comments:

____________________________________________________________________________

____________________________________________________________________________

____________________________________________________________________________

____________________________________________________________________________

____________________________________________________________________________

____________________________________________________________________________

____________________________________________________________________________

Startup performed by: _____________________ Date: ______________________________

Present at Start-Up

( ) Engineer: ____________________________ ( ) Operator: ________________________

( ) Contactor: ____________________________ ( ) Other: ___________________________

All parties should retain a copy of this report for future trouble shooting/reference

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

Notes

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