Gardner Bender CP800 User manual
1
Gardner
Bender
Powered Cable Pullers
CP800, CP8000, CP8000D
CP8003, CP8006
Instruction
Sheet
IMPORTANT: RECEIVING INSTRUCTIONS
Visually inspect all components for shipping damage.
If any shipping damage is found, notify carrier at once.
Shipping damage is NOT covered by warranty. The
carrier is responsible for all repair or replacement
costs resulting from damage in shipment.
Do not use broken or damaged cable puller component parts.
Damaged parts can cause structural weakness resulting in failures
at loads below rated capacity.
CATALOG
NUMBER DESCRIPTION
CP8006 Brutus™ Power Puller – with 600’ rope; for
exposed or concealed conduit (Wt: 495 lbs.).
Includes metal case with casters (Cat. #CM16).
CATALOG
NUMBER DESCRIPTION
CP8003 Brutus™ Power Puller – with 300’ rope; for
exposed or concealed conduit (Wt: 440 lbs.).
Includes metal case with casters (Cat. #CM16).
CATALOG
NUMBER DESCRIPTION
CP8000 Brutus™ Power Puller – for exposed or
concealed conduit (Wt: 235 lbs.).
Includes metal case with casters (Cat. #CM16).
CATALOG
NUMBER DESCRIPTION
CP8000D Brutus™ Power Puller – for exposed conduit
(Wt: 355 lbs.). Includes metal case with casters
(Cat. #CM16).
2
!
!
DANGER
IMPORTANT - USER SAFETY AND PROTECTION: In setting up systems, take care to select the
proper components and design to insure appropriate integration with your operations and
existing equipment. Observe all safety measures to avoid the risk of personal injury and
property damage from your application or system.
GB ELECTRICAL CANNOT BE RESPONSIBLE FOR DAMAGE OR INJURY CAUSED BY
UNSAFE USE, MAINTENANCE OR APPLICATION OF ITS PRODUCTS. Please contact GB
Electrical for guidance when you are in doubt as to the proper safety precautions to be taken
in designing and setting up your particular application.
INTRODUCTION
GB Electrical produces three different models of cable pullers. Each version uses the CP800 power
head assembly. Differences between models are based on the accessories included with each model
or the length of rope provided with the cable puller. Since the same CP800 power head is part of
each model, the instructions and safety information apply to all uses of GB powered cable pullers.
Cable pulling encounters a wide variety of situations and materials. Because of that variety, it is not
possible to provide instruction that applies to each unique situation. Principles presented here provide
as much general assistance as possible. Assembly instructions are specific. Follow them precisely to
ensure safe, reliable and effective cable puller installations.
All instructions are important, but safety is paramount during pulling. Safety alert symbols are located
throughout this manual, and a separate section is included to identify specific safety concepts.
Before operating the GB cable puller, read and understand this entire manual. If you do not
understand any area or subject, contact GB Electrical, Inc. at 1-414-352-4160 or 1-800-624-4320.
Ask for Technical Services.
SAFETY ALERT SYMBOLS
The symbol to the left is used in conjunction with a danger, warning or caution
statement. It alerts operators, supervisors and all personnel that safety
precautions are required during specific situations and under specific conditions.
Failure to comply with safety data could result in serious injury or death.
This symbol indicates a high probability that death, severe injury or
major property damage could result.
This symbol indicates serious but less probability that death,
severe bodily injury or major property damage could result.
This is a less serious alert but still demands attention to detail. It
indicates a hazard that may cause minor injuries.
15
21 22 23
24 25
Conduit frame adaptor chained to conduit
extension in pull box-- pulling vertically
from underground.
Use boom extension to obtain
extra cable length for splicing
Conduit frame adaptor and power head
assembly chained to conduit (over
extension) pulling down from box on ceiling.
Pulling from 90° connector to obtain
leads long enough to complete
connection in junction box
Conduit frame adaptor and power head
assembly chained separately to conduit,
pulling from a ceiling pull box for
additional cable.
CP1002
CP505 HS8512
CP601
CP505 (3)
CP701
S8512 CP703
CP505 (2)
CP708
CP601
CP505 (3)
CP503
S8512
CP600
CP702
CP707
CP503
Refer to Contents Chart on page 16 for puller set components.
14
12 13 14
15 16 17
18 19 20
Conduit frame adapter resting on floor
and on back of box -- pulling up
Conduit frame adapter chained to
exposed conduit -- pulling down
Downward pull -- conduit frame adapter
chained to conduit extension
Upward pull -- conduit frame adapter
chained to conduit extension
Conduit frame adapter chained to conduit
-- pulling up
Resting conduit frame adaptor on floor
over conduit and pulling up
Resting conduit frame adaptor on floor
and blocks over conduit and pulling up
Pulling additional cable from junction box
(1) down to junction box (2) using cable
sheave with hook and power head
assembly chained to pole.
Power head assembly chained to 6”
conduit with two 90° bends pulling from
underground conduit using cable
sheave with hook
3
DANGER
DANGER
DANGER
CP800 Power Head with Bracket
• 120 VAC 50/60 HZ rectified to D. C.
• 15 AMP - Start Up
• 5 AMPS @ No Load
• 5.5 AMPS per 1,000 lbs.
• Max. 20 AMPS @ 8,000 lbs.
• Permanent Magnet Motor
• Weight 65 lbs.
• Maximum Pulling Capacity - 8,000 lbs.
• Capstan - 12 R.P.M.
• On-Off Toggle Switch
• 3-Prong Grounded Power Cord
• Non-Reversing Capstan
• Load Meter
The powered cable puller CP800 and its accessories are designed specifically
for pulling electrical cable through conduit or across cable trays. GB does not
recommend pulling any other objects or materials. Using this unit for any other
pulling or lifting activity could result in serious injury or death.
Operate the Cable Puller only in well lighted areas.
All pull set-ups must be approved by qualified supervisors. Follow all safety
precautions and wear appropriate safety clothing.
Keep the pull rope away from the operator’s feet. Coil the tailing rope in an area
where the operator cannot become entangled.
Never stand directly under a vertical pull. Do not stand directly in front of a pull
rope under tension. The operator must stand at an angle to the capstan. Keep all
other personnel away from the cable puller.
Inspect all cable puller components prior to pulling cable. Never use worn or
damaged parts or accessories.
Never use general purpose rope. Use only GB double braided polyester, 3/4”
diameter rope. All rope must have a working load of 8,000 lbs. minimum.
Rope that breaks under tension may recoil, causing serious injuries and property
damage.
After each pull, inspect the rope for abrasion and cuts in the strands. Do not use
damaged rope for pulling cable.
SPECIFICATIONS
Power Cable Puller CP800
Figure 1
SAFETY PRECAUTIONS
Do not allow pull rope to wrap around the legs, arms or torso of anyone. A quick
release of the rope will cause severe injuries.
Cable puller models CP800, CP8003, CP8006 and CP8000D plus accessory
items are rated at 8,000 lbs. maximum pulling force. Attempts to exceed 8,000
lbs. could result in severe injury, death and major property damage.
CP806
CP10
CP802
4
Always choose a strong, durable rope
with limited elasticity and long service life.
When selecting and using a rope it is
essential to choose the proper size and
type for each job need. The material,
tensile strength and recommended
working load are critical factors.
Polyester ropes such as Tuff Pull™ and
Super Tuff Pull™ are preferred for cable
pulling because of their low elasticity, high
strength and endurance as compared to
other types of rope.
•Working load rating represents the
maximum pulling load to which the rope
should be subjected. It increases with rope
diameter and is calculated for rope in good
condition with appropriate splices under
normal service. Note that working load
guidelines are void under conditions of rapid
or sudden load changes.
•Tensile strength is the average breaking
point of new, unused rope. While it gives
some indication of the rope’s ability to
withstand sudden or shock loads, tensile
strength decreases over time as the rope is
used and should
not
be relied upon as an
indication of working strength.
All synthetic rope under load will recoil if it, or a fitting
(chain, hook, bolt, etc.) fails. The snap-back action will
propel the rope – and any still-attached metal fittings –
at high speed. Serious injury to persons or property in
the vicinity is possible.
Always check all fittings, splices, connectors,
etc. before using rope.
Do not allow anyone to stand directly in line with
rope under tension!
Avoid using rope that shows signs of wear, such as
frayed ends, broken yarns or pulled strands. Open the
strands of braided rope and look for powdered fiber, a
sign of internal wear. When fibers show wear, the rope
should be respliced or downgraded. A heavily-used
rope will often become compacted or hard, a sign of
reduced strength. If in doubt, destroy the used rope
and replace it.
Do Not Overload the Rope
Reverse the rope, end-for-end, between uses. Also,
alternate the lay of the rope around capstan and
sheaves from job to job.
Repeated hauling of a line over a capstan in a
counterclockwise direction changes the twist of each
strand, causing hockles or backturning that cannot be
removed. Repeated clockwise hauling stiffens the rope
and causes it to kink easily.
Rough surfaces and sharp edges can severely damage
rope. Do not pull rope over sharp bends or angles.
Make sure chocks, capstans, sheaves and pulleys are
free of burrs and rust and rotate freely.
Keep the rope surface clean. Do not drag it over rough
ground; dirt and grit will work into and cut inner fibers.
Line of Pull
Avoid damaging storage and use conditions that can
weaken rope:
• Store rope in a clean, dry area. Keep coils off
dirt or concrete floors. Instead, store it in well-
ventilated racks.
• Keep rope away from chemical contact or fumes.
Solvents, acids and alkalis can damage rope,
especially natural fibers.
• Avoid exposing rope to excessive heat (in
excess of 140° F) in either use or storage. Heat
weakens rope, even after it has cooled. Also, avoid
friction heating caused by slippage around winches
or sheaves.
Observe Recommended Practices for Safe
Handling and Proper Care of Pulling Rope.
Handle loads slowly and smoothly to avoid sudden
strains or shock loads, which can exceed the rope’s
breaking strength. Such “dynamic loading” occurs
when a load is picked up, stopped, moved or swung,
and may subject the rope to two or three times its
normal working load. The affect is greater on low-
elongation types of rope and on shorter lengths of
rope, although high-elongation ropes can recoil
dangerously if broken.
Vary Rope Application to Distribute Wear Evenly
Avoid Abrasive Conditions
IMPORTANT! Store Rope Properly
If a Rope Breaks Under Tension,
it Can Recoil Causing Serious Injury!
Inspect Rope Thoroughly Before Use
Strength
Elasticity
Super Tuff™
and Tuff Pull™
PolyPro
Nylon
Super Tuff™
and Tuff Pull™
PolyPro
Nylon
Select the Right Rope
for the Job.
Danger Zone
13
3 4 5
6 7 8
910 11
Puller suspended using horizontal pull Puller suspended using vertical pull Vertical - pulling up
Underground pulling
Conduit frame adapter with sheave
chained to exposed conduit
Power head assembly being attached to
conduit frame adapter using two lock pins.
Pulling up cable with conduit frame
adapter chained to exposed conduit --
mounted flush
Conduit frame adapter chained to conduit
(over the extension resting on floor)
pulling down
Coupling slipped into conduit. Coupling
clamp locked to coupling with two
thumb screws
12
The Power Head capstan rotates in one direction only and
is non-reversing; it will not reverse under load or when the
power is off. To make your pulls easier, it is recommended
that you fully wrap the capstan with rope.
Figure 16
Do not stand directly in line with rope under tension. The
operator must be positioned far enough to one side that
injury will not occur if rope or other components should
break.
Before actually using your puller, review the following 26
pictures showing the versatility of and suggested
applications for the GB Electrical Powered Cable Puller.
These same pictures are also on the inside cover of the
metal storage case for ready reference in the field.
If the Power Head is used in other than its normal installed
position (See figure 16) the rope must be wound on the
capstan in the opposite direction.
Rope:
The use of a 3/4” diameter double braid 100% polyester
rope is recommended – such as GB’s 300’ reel of 3/4”
diameter polyester rope (RST7530 -- white rope with a
red streamer). For assistance in pay out of the rope, use
a CP1002 Rope Reel Stand.
1
2
Different positions
Pulling horizontally
The chains are also used for mounting the CP800 and CP601 to another object.
5
OPERATION
Cable Puller Components
I. CP800 Power Head
The power head consists of an electric DC motor rectified for AC current. The motor is mated to a
3-stage planetary gear drive system. Attached to the motor are the on/off switch, load meter and power cord.
At the gear drive output end is a capstan for rope. The entire power head assembly is bolted to a steel
bracket assembly. Maximum pulling capacity is 8,000 lbs. Power source requires 120VAC, 50/60 HZ and a
20 AMP circuit.
Avoid motor overheating during cable pulls. For pulls in excess of
4,000 lbs., stop motor, tie off rope, and let motor cool for five to seven
minutes. Use load meter to constantly monitor pulls. Sudden spikes or
jumps in pull forces indicate increased friction. The load meter is
calibrated in 1,000 lb. increments. Color coding provides a quick
reference of what pull range is being shown. Green 0 - 4,000 lbs;
Yellow 4,000 - 8,000 lbs; Red 8,000 - 10,000 lbs.
Immediately stop any cable pull during which the load meter registers in
the red zone. Do not operate puller when pull requires more than
8,000 lbs. of pulling force. Cable puller and accessories are rated for a
maximum of 8,000 lbs. pull force.
The CP800 power head assembly can be used alone or in conjunction with a variety of accessories. For
recommended set-ups, refer to the illustrations at the end of this instruction manual. Virtually every cable pull
has unique differences. Due to the differences, it is not possible to show every set-up. However, the principles
of cable pulling will be explained and each set-up must apply the principles correctly to avoid dangerous
situations.
Use only the mounting chains CP503 or CP504 to attach the power head
to accessories and fixed supports. Using any other chain could cause the
power head to stretch the chain, loosen or move. A loose or stretched
chain could cause injury, death or property damage.
Mounting the power head to another accessory is accomplished using two chains (CP503 or CP504) or
two CP505 eight-inch anchor pins. The pins are designed for mounting CP800 to the CP601 frame adaptor.
See figure 2.
DANGER
II. Power Head Installation
CP601
CP800
CP800
CP601
CP503
Figure 2
CP505
Fixed
Support
1. Secure the power head to a fixed support
that is capable of withstanding 8,000 lbs. of
pulling forces in the direction of the pull line
on the capstan. See figure 4.
2. Position the puller using a supporting
structure that directs the forces of the pull
parallel to or into the supporting structure.
Do not pull directly against the mounting
chains.
3. Mounting chains are limited to obstacles
from a minimum of 2” diameter to a
maximum of 10” diameter.
6
Tighten chains securely. The hand grips are slotted to accept a
screwdriver shank, wrench handle or flat steel bar. Make certain the chain
stays straight. Avoid side loading the adjusting screw pins. See figure 3.
CP503 Hand Grip Wrenching Slots - Tighten with screwdriver shank, adjustable wrench handle, a piece of flat
steel, or hex socket wrench (allen wrench).
Figure 3
Make sure that the links A are straight
during installation. Avoid side loading
conditions on the pins that connect the chain
to the adjusting screw. This can occur when
directly connecting the CP800 (without puller
frame) to a large column or I-beam.
Wrenching slots:
Tighten with screwdriver shank,
adjustable wrench handle, piece
of flat steel, or hex socket wrench
(allen wrench).
Figure 4
SCREW ADJUSTABLE FLAT
DRIVER WRENCH STEEL
Make sure that the links A are straight during installation. Avoid side
loading conditions on the pins that connect the chain to the adjusting
screw. This can occur when directly connecting the CP800 (without
puller frame) to a large column or I-beam.
Correct position
Incorrect position
Power Head
Frame
Adaptor
CP503
Chains
11
Basic Frame to Extension for
Elevated Use. See figure 13.
For elevated pulls, attach the basic frame to the
CP701 extension using 2 (CP503) 2-foot chains.
III. Extension Boom to Basic Puller Frame
Attach the CP631 Extension Boom to the
CP601 Conduit Frame Adapter along with the
S8512 Sheave using a CP622 ten-inch Lock
Pin. Insert (1) CP622 ten-inch Lock Pin thru
CP631 Boom and into the hole pattern of the
CP601 Conduit Frame Adapter to position
the angle of the CP631 Extension Boom.
See figure 12.
IV. Operating Instructions:
The Cable Puller frame is rated for a maximum pull of
8000 pounds.
DO NOT make pulls on the frame in
excess of 8000 pounds.
The CP800 Power Head comes equipped with a load
meter to monitor the actual pulling force. To further
assist monitoring of the load, the load meter is color
coded as follows:
0 to 4,000 lbs. Green Band - Most Average Pulls
4,000 to 8,000 lbs. Yellow Band - Heavy Pulls
To avoid overheating the motor
when making pulls in excess of
4,000 lbs., stop the motor every five
to seven minutes and let it cool or
provide external cooling (i.e. fan).
8,000 to 10,000 lbs. Red Band -
Do not operate power head in this
load range.
CP800 Power Head Electrical Specifications
120 V.A.C. 50/60 Hz
Amperes: 15 AMPS for 3500 lbs. Maximum Pulls
20 AMPS for 5000 lbs. Maximum Pulls
30 AMPS for 8000 lbs. Maximum Pulls
ON/OFF Toggle Switch
3-Prong Grounded Power Cord
Non-reversing Capstan
The Power Head is normally attached to the CP601
Conduit Adapter Frame by (2) CP505 Lock Pins.
Note: If Power Head is to be attached to a large
member, such as a utility pole, 2 (CP504) 6 foot chains
are required.
Figure 14
Figure 15
Do not make pulls directly away
from power head. See figure 15.
For correct pulling applications,
see illustrations on pages 12
through 15.
Figure 12
Figure 13
B
A
d. Conduit Couplers CP704, CP705, CP706, CP707 and CP708
1). Conduit couplers are used to secure a location for attaching the CP702 adjustable pipe
adaptor. Couplers are threaded onto rigid or I.M.C. conduit with the external flange facing
toward the conduit. See figure 11.
2). The flexible pipe adaptor is to be placed over the coupler until it bottoms against the flange.
Tighten adaptor thumb screws to secure it to the conduit coupler.
3). Two versions of flanges were manufactured. From 1976 to 1988, couplers were long
enough to be inserted into conduit A . A flange separated the larger and smaller sections.
See figure 11. From 1988 to 1996 couplers were manufactured without a threaded section
below the flange B .
10
To avoid injury and damage to equipment, place the coupling clamp over
conduit couplers CP704, CP705, CP706, CP707 or CP708. Do not
attach the coupling clamp to the outside of the conduit using chains or
similar devices.
2). The slots in the coupling frame are designed to engage the trunion studs on CP703 frame
adaptor. To use other angles or gain height, a CP505 8-inch lock pin may be installed
through holes in the frame adaptor. The coupling frame slots can rest under the pin instead
of the trunion studs. See figure 10.
The CP702 Coupling Clamp Frame may be used
two ways on the CP703 Adjustable Pipe Adaptor. It
may be mounted freely against the trunion studs on
the CP703 Adjustable Pipe Adaptor. Or...
It may be pinned securely to any of the location
holes of the CP703 Adjustable Pipe Adaptor, using a
(CP505) 8-inch Lock Pin.
Figure 10
1976-1988
Coupling Design 1988 - 1996
Coupling Design
Figure 11
NOTE: CP702 coupling clamp must always be used with CP703 frame adaptor.
NOTE: CP702 coupling clamp must always be used with CP705 frame adaptor.
CP704 2”
CP705 21⁄2”
CP706 3”
CP707 31⁄2”
4”
CP704 2”
CP705 21⁄2”
CP706 3”
CP707 31⁄2”
4”
7
Mounting the cable puller with the mounting chains requires that both
chains be fully tightened in order to have maximum holding power. Loose
chains could cause components to break under load. Broken
components will fly out of control and can cause severe injury, death or
major property damage.
III. Assembling Cable Puller Accessories
The following illustrations are requirements when using various accessories. Follow these procedures prior
to the pull set-ups shown in the diagrams on pages 12-15.
a. Conduit Frame Adaptor - CP601
1) All pull set-ups require the CP601 frame adaptor. The adaptor is used to mount the power head and
pulling sheaves. Some set-ups will also require the CP703 - Adjustable Pipe Adaptor.
2) Position the power head CP800 on the conduit frame adaptor (CP601). Position the power head on
the frame and secure using two 8-inch long pins (CP505). See figure 5.
DANGER
Figure 5
Be sure the mounting pins (CP505) pass through the power head frame
and the CP601 frame. Insert retaining clips in the end of each pin.
3) The combination conduit frame adaptor and power head assembly can be mounted to exposed
conduit or attached to other accessory pieces.
4) For all cable pulls, a 10-inch sheave (S8512) or two sheaves must be installed to direct the pull rope
out of the conduit to the power head. The sheaves can be installed in any of the five holes along the
top of the CP601 frame. One CP505, 8-inch lock pin is required for each sheave.
Do not use exposed conduit as a mounting anchor to pull in opposing
directions. See figure 6. Resulting forces could cause conduit damage
and injuries to operators.
CP800
Power Head
CP505
Pins
CP601
Adaptor
5). The CP800 power head can be mounted to the CP601 frame in two ways. The position is
dependent on space constraints. See figure 7.
Capstan rotation is always clockwise (as viewed from end of capstan). If
power head is rotated, pull rope must always be wound from narrow end
toward wide end of capstan to prevent overlap.
Optional Mounting Position of CP800Normal Mounting Position of CP800
8
Figure 6
Rope Conduit
CP800 CP601
Figure 7: In this position, the capstan rotates in the opposite direction; therefore, the rope must be wound in
the opposite direction.
Figure 7
Incorrect Setup Correct Setup
9
b. Adjustable Pipe Adaptor CP703.
1) The adjustable pipe adaptor is used with the CP601 conduit frame adaptor. Install by inserting the
CP703 pipe adaptor into the conduit frame adaptor. The legs must be inserted until end hole is
aligned with the hole closest to the frame adaptor cross member. See figure 8.
To avoid damage to the CP703 pipe adaptor, do not mount to the frame
adaptor using the first hole. The two pieces require support by using the
entire length of the frame adaptor opening.
Figure 8
2) Use of the CP703 pipe adaptor also requires the S8512 10-inch sheave for the rope to travel
across. The sheave must be mounted with one CP505 8-inch pin as shown in figure 9. (See figure
12 for optional method.)
To avoid damage to equipment, do not mount sheaves to CP703 using
the holes along the curved frame. The holes on the curvature are used
as alternate locations to attach the frame to the conduit coupler
adaptor CP702 with CP505 pins.
Figure 9
c. Coupling clamp frame CP702
1) Coupling clamp frame CP702 is used to provide a connection between the conduit and the puller
frame. See figure 10.
ZRPS-0026 Rev. A 03/07
Model Quantity Included in Puller Sets
No. Description CP8006 CP8003 CP8000 CP8000D
CP800 Power Head Assembly 1 1 1 1
CP802 Base Mounting Bracket Included in CP800
CP10 Load Readout Meter & Switch Assembly * * * *
CP15 Foot Switch for Remote Operation * * * *
CP503 2” Chain Assembly 3 3 3 2
CP504 6” Chain Assembly * * * *
CP505 8” Lock Pins 5 5 5 3
CP601 Conduit Frame Adaptor 1 1 1 1
S8512 12” Sheave 2 2 2 1
CP622 10” Lock Pins 3 3 3 *
CP631 Boom Extension 1 1 1 *
CP701 Puller Base Extension 1 1 1 *
CP702 Coupling Clamp 1 1 1 *
CP703 Adjustable Pipe Adaptor 1 1 1 *
CP704 2” Conduit Coupling * * * *
CP705 2 1/2” Conduit Coupling * * * *
CP706 3” Conduit Coupling 1 1 1 *
CP707 3 1/2” Conduit Coupling 1 1 1 *
CP708 4” Conduit Coupling 1 1 1 *
CP709 6” Lock Pin 1 1 1 *
CP806 Capstan * * * *
CP1002 Rope Reel Stand * 1 *
HS8512 12” Cable Sheave with Hook 1 1 1 *
CM-16 Metal Case with CM44 Casters 1 1 1 1
RST7530 Double Braided Rope (3/4” x 300’ Spool) * 1 * *
RST7560 Double Braided Rope (3/4” x 600’ Spool) 1 * * *
Contents of Powered Cable Puller Sets
In order to guarantee maximum performance and safety, use only original GB rope.
* Optional accessories not included in puller sets – can be ordered individually.
WARRANTY: GB ELECTRICAL, INC. warrants its
products against defects in workmanship and
materials for 1 year from date of delivery to user.
Chain is not warranted. Warranty does not cover
ordinary wear and tear, abuse, misuse, overloading,
altered products or use of improper fluid.
WARRANTY RETURN PROCEDURE: When
question of warranty claim arises, send the unit to the
nearest GB Authorized Service Center for inspection,
transportation prepaid. Furnish evidence of purchase
date. If the claim comes under the terms of our
warranty the Authorized Service Center will REPAIR
OR REPLACE PARTS AFFECTED and return the unit
prepaid.
PARTS AND SERVICE: For quality workmanship and
genuine GB ELECTRICAL parts, select an Authorized
GB Service Center for your repair needs. Only
repairs performed by an Authorized Service Center
displaying the official GB Authorized sign are backed
with full factory warranty. Contact GB Electrical
(414) 352-4160 for the name of the nearest GB
Authorized Service Center.
REPAIR AND SERVICE INSTRUCTIONS: For repair service and parts contact your nearest GB ELECTRICAL
Service Center. The Service Center will provide complete and prompt service on all GB ELECTRICAL products.
GB Electrical, Inc.
An Applied Power Company
6101 N. Baker Road, Milwaukee, WI 53209
Phone: (414) 352-4160 FAX (414) 352-2377
This manual suits for next models
4
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