LoveShaw CF25 tManual
-
Upload
pyramid-packaging-inc -
Category
Engineering
-
view
69 -
download
0
Transcript of LoveShaw CF25 tManual
Little David™ Case Sealer
CF25-T
Case Erector
Version: I Valid from August, 2017 P/N: CF25-T-OM
Operator’s Manual
i
Little David™ CASE ERECTOR
CF25-T Operation
Copyright ¤ Loveshaw
Loveshaw, Inc. 2206 Easton Turnpike, PO. Box 83
South Canaan, PA 18459 Tel: 1-800-962-2633 • 570-937-4921
Fax: 570-937-4016 o es a co
Loveshaw Europe Unit 1 Newton Park
West Portway Industrial Estate Andover, Hampshire SP10 3SH
ENGLAND Tel: 264-357511 Fax: 264-355964
ii
The information contained in this manual is correct and accurate at the time of its publication. LOVESHAW reserves the right to change or alter any information or technical specifications at any time and without notice.
©2016 LOVESHAW. All rights reserved Printed in the United States of America
iii
CONTENTS Introduction ........................................................................................................... 1
Operating Safety .................................................................................................... 2
Instructions .................................................................................................................. 2
Warnings ...................................................................................................................... 3
Cautions ....................................................................................................................... 3
Safety Devices Functional Testing ............................................................................ 4
Overview ................................................................................................................ 6
Case Sealer Sections .................................................................................................... 6
Machine Specifications ............................................................................................... 7
Installation ............................................................................................................. 9
Section 1: Placing the Machine .................................................................................. 9
Section 2: Important Considerations ...................................................................... 10
Theory of Operation ............................................................................................ 11
Operating Procedures ......................................................................................... 13
Set Up Procedure ...................................................................................................... 13
Loading the Hopper ................................................................................................. 18
Start-Up Procedure ................................................................................................... 18
Sequence of Operation ............................................................................................. 19
Shut-Down Procedure .............................................................................................. 20
Maintenance ........................................................................................................ 21
Servicing Chain on Main Drive Assembly ............................................................. 21
CF25-T Preventative Maintenance Schedule ........................................................ 23
Spare Parts ................................................................................................................. 25
Troubleshooting .................................................................................................. 27
Preliminary Checks ................................................................................................... 27
Using Test Mode to Troubleshoot Machine ......................................................... 27
Checking Solenoid Valves ........................................................................................ 27
Checking PLC Inputs and Outputs ........................................................................ 28
Tape Cartridge and Taping Issues .......................................................................... 28
iv
Warranty ............................................................................................................ 32 Assembly Drawings and Schematics ................................................................ 33 Electrical Drawings and Schematics ................................................................ 56
Global Drawings .......................................................................................................... 56 120 Volt Specific Drawings ........................................................................................ 57 240 Volt, CE Compliant Specific Drawings ............................................................ 65 240 Volt, Non CE Compliant Specific Drawings .................................................. 74
Available Special Options ................................................................................. 82 Optional Sensor Part Numbers ................................................................................. 82
1
INTRODUCTION
hank you for purchasing the Little David™ case erector, the CF25-T. The CF25-T is an automatic case erector and bottom sealer. The CF25-T is a robust built 24/7 case erector constructed of quality materials, bearings, pneumatic and electrical components. All employees who will be required to operate and maintain the case erector must read this manual to ensure
safe operation as well as proper set-up and maintenance throughout the life of the machine. After reading this manual, you will know how to perform the following functions:
x How to install the machine.
x How to operate the machine safely.
x Troubleshooting and replacing of worn or defective parts.
Throughout this manual there are several illustrations designed to help you perform the variety of tasks described.
Chapter
1
T
2
OPERATING SAFETY
his manual contains operator information for Little David Application Equipment. It is directed toward the person who operates and maintains the machine. Read through the manual completely before operating the machine. Thereafter, refer to it as necessary.
Take special note of all warnings, cautions, and maintenance instructions. Like any other piece of equipment, the Little David Case Erector functions best when maintained and used correctly.
Observe the warnings and cautions below when using the Little David CF25-T case sealer. Within this manual, on page 5, all safety labels are depicted with location and part numbers. If a safety, label is missing or not legible it must be replaced immediately. Failure to follow safety labels can lead to injury or damage to the machine.
Instructions
Instructions are requirements to system operations.
Instruction: An electrical receptacle must be located near the machine. The line cord connection to the receptacle is the disconnect means for the machine. The receptacle must be located in an area that is easily accessible to all personnel.
Chapter
2
T
3
Warnings
Warnings help prevent potential bodily injury.
Warning: This machine is equipped with moving parts. Do not place hands in the machine when parts are moving. Always use a roller-type exit conveyor, and always remove boxes after they clear the exit end of the machine.
Warning: Always disconnect all sources of energy to the machine before performing maintenance. Sources of energy include but are not limited to electrical and pneumatic. Refer to your company’s lock out tag out procedures.
Warning: Never bypass or remove safety guards from the machine or tape cartridge.
Warning: Never override safety devices such as Emergency Stop switches.
Warning: Never adjust the machine or tape cartridges when the machine is operating.
Warning: Never place hands or body inside confines of the machine unless all power sources are locked out.
Warning: Never wear jewelry, loose clothing, such as ties, scarves etc. and long hair must be pulled back when operating this machine.
Warning: Never pull a jammed box out of the machine while it is in operation.
Warning: Use caution when near cartridge knife or when threading tape. The knife is very sharp, automatically operated and linked to the wipe-down rollers.
Warning: Do not attempt to open or work on the electrical box, junction boxes, or other electrical components without first disconnecting power to the machine. Shock hazard exists if the power is not disconnected.
Cautions
Cautions help prevent potential machine damage.
Caution: Provide and use proper electrical power.
Caution: Do not operate, maintain, or otherwise use this machine, except as described in this manual.
4
Safety Devices Functional Testing It is necessary to test the functionality of the safety devices at regular time intervals. The safety emergency stop function must be tested daily before each and every shift of operation. The procedure for testing the emergency stop function is as follows:
1. Connect the machine to the main electrical power source. 2. De-press the emergency stop pushbutton on the main electrical enclosure. 3. Press the start pushbutton on the main enclosure. If the machine does not start proceed to
the next step. If the machine does start unplug it from the main electrical power source and report it to your supervisor. This machine cannot be used until a qualified technician corrects the issue.
4. Reset the estop pushbutton to its extended state. Push the start pushbutton the machine should start. With the machine running de-press the emergency stop pushbutton, the machine should now stop. This confirms that the emergency stop function is working correctly.
5. Test all E-Stops on the machine separately. The overload motor relay must be tested every three months to confirm its operation. This test can only be performed by a qualify technician since it requires the enclosure door to be opened.
1. Connect the machine to the main electrical power source. 2. Insure that the emergency stop pushbutton is fully extended. 3. De-press the machine start pushbutton. The machine drive motor should start at this time. 4. Open the main electrical enclosure. Use extreme caution not to contact any live conductors. 5. Locate the overload relay and de-press the red test button on the front of the unit. The
machine should stop. If the machine does not stop the overloads relay is defective and needs to be changed out. If the machine stops the overload relay passes the functionality test.
6. Install the main enclosure cover and secure all (4) screws. Never operate a machine that does not pass the safety functional testing! Report it to management and have the machine taken out of service until the deficiency is corrected.
CC
E C
E
CEC
E
E
LOVESHAW
E
C
E
EC
E
E
EE
E
C EC
C
E `
C
C
E
E
E
DO
O
T SC
ALE
R
T
E
E
C
E
EE
E E
CE
E
E
E
EE
C
E
E
EC
E
E
E
EC
E
E
E
E
C
E
E
E
EE
E
E C
E
E
E
EE
E
E
E
C
C
E
E
C
ta
er
E
EE
CE
EE
E
SLSL SL
SL SL SL
SL
6
OVERVIEW
Case Sealer Sections
This manual covers several parts of the machine. The following diagram identifies the some key sections of the machine.
Chapter
3
Vertical Feed Assembly
Box Opening Assembly
Hopper Assembly
Flap Folder Assembly
Sled Assembly
Main Drive Assembly
Machine Guard Assembly Assembly
Cartridge
7
Machine Specifications
Machine dimensions:
x Height: 75.75”
x Length : 75.13”
x Width: 43.25”
x Standard Discharge Height: 23”
x Weight: 1100 lb. uncrated
Electrical Requirements:
x Standard Voltage: 120/1/60 with 15 amp dedicated service.
Operating speed:
x Cases per Minute: 10 for standard machines (up to 15 cpm options available)
Air Requirement:
x 14 SCFM @ 85 psi – Maximum throughput based on maximum box range.
Machine box capacity:
x Length: 6” to 16”
x Width: 6” to 14”
x Height: 4” to 12”
8
Machine Options:
x Spare Parts Kit
x Special Electronics
x Custom Color
x Casters
x Low Tape Alarm
x Low Hopper Alarm
x Box Jam Alarm
x Leg Extensions
x High Speed (12, 14, & 15)
9
INSTALLATION
lways check for any signs that the machine may have been damaged before fully removing it from the shipping skid. If machine arrives damaged contact Loveshaw immediately to help in filing a claim with the shipping company.
Exercise care when handling this machine, a sudden jolt or jar may cause serious damage.
Do not remove the shipping skid until machine has been moved to a point of installation. The skid is designed for easy and safe handling of your machine.
Section 1: Placing the Machine
The case former is fully assembled and ready for operation.
Step One: Carefully remove the machine from the shipping skid. Remove all fasteners and brackets holding the machine to the skid.
Step Two: Transfer the machine from the shipping skid to the factory floor by lifting it with a fork lift. Approach the machine from the side and carefully position the forks under the frame. Locate the forks in the center on the machine, so that they lift on the main frame flanges. Take care that the forks do not lift on any sub-assemblies as they may be damaged by the force. Take care removing the machine from the skid as it weighs 1,100 pounds!
Step Three: Use jack screws (1/2-13unc x 3” lg) in each leg to level the machine.
Step Four: Connect compressed air and electricity to the machine. Connect air supply to an air source with a minimum line pressure of 85 psi.
Chapter
4
A
10
Step Five: Before starting the machine, load a new roll of tape on the cartridge and thread the tape according to the arrows on the unit.
Step Six: For proper start-up procedure, see the start-up procedure section of this manual.
Section 2: Important Considerations • A great deal of trouble may be caused if the current is supplied by lines which are not
heavy enough. If this occurs, the controls cannot operate at their full capacity and overheating may result. A similar condition will exist if poor electrical connections are made. It is, therefore, worthwhile to make sure that everything is electrically correct.
• Electrical polarity must be supplied to the machine exactly as shown on the electrical diagram. Power must be supplied to the L1 side of the circuit, and the L2 side will be neutral.
• The compressed air supplied to the machine should be clean and dry, as the filter is only meant to remove minor particles or slight amounts of moisture in the air line. Dirt or moisture can cause erratic operation or failure of control valves.
11
THEORY OF OPERATION
he Machine E-Stop circuit is reset and the machine is started. All the cylinders go to their home position and the machine is ready to operate.
Selector switch SS1 is set to Automatic mode which will allow the machine to operate continuously.
With boxes loaded in the hopper and limit switches LS1 (Vertical blank trolley home) and LS4 (Blanks in hopper ready) the vacuum cups cylinder will extend into the hopper to contact a blank. Solenoid valve, SV5 will be energized.
The vacuum generator connected to the vertical trolley vacuum cups will be enabled. This allows the vacuum cups to attach to the side wall of the box to be erected. Solenoid valve SV9 is energized.
SV5 will be de-energized pulling the blank out of the hopper.
Solenoid SV6 is energized and the vertical trolley will travel downwards towards the box opening area of the machine until finally reaching cylinder proximity switch Prox1. As the trolley is moving downward it will first trigger cylinder proximity switch Prox4. This will signal the vacuum cylinder to extend again to get the blank into positon to be opened. Solenoid valve SV5 will be energized.
Chapter
5
T
12
With the vertical trolley in position at Prox1, the box opening arm is rotated into positon, contacting the opposite side of the blank with a vacuum cup. Solenoid valve SV2 is energized and cylinder proximity switch Prox6 is triggered.
When Prox6 is triggered vacuum is applied to the cup on the box opening arm. Solenoid SV8 is energized.
With the blank being held on both sides with vacuum cups, the opening arm is rotated back to its home position making cylinder proximity switch Prox5. Solenoid valve SV2 is de-energized.
With the box open the minor flap folders rotate upwards closing he flaps. Solenoid SV4 is energized.
With the minor flaps folded, both of the vacuum generators are turned off. The open box is only being supported by the minor flap folders. Solenoid valves SV8 and SV9 are de-energized.
The vacuum trolley moves up back to the hopper to get the next blank to be opened. At the same time the box pusher is waiting for a signal from photoelectric sensor PE2. When PE2 is triggered it verifies the lugs are in position to receive the erected box. Solenoid valve SV7 is energized. Then the box pusher cylinder extended proximity switch is made SV7 is de-energized and the pusher goes back to its home position.
The open box is transferred by lugs that push the box by its rear panel. The major flaps are plowed upwards and tape is applied to the bottom of the box as it exits the machine.
The cycle repeats.
13
OPERATING PROCEDURES
Set Up Procedure
Determine the length, width and height (with flaps up) of box in inches (see diagram).
Important: Use scales and yellow pointers. Due to changes in design for continual improvement, the set-ups depicted in the steps below might not be exact, but similarities should exist.
Chapter
6
14
1) Hopper, Near Side – Set equal to width.
2.A) Hopper, Far Side – Use the blank (flat box) to set position. Leave 1/4” of extra room.
Pointer and Scale
Lock-handle
¼” Gap
Lock-handle
15
2.B) 3rd Vacuum Cup – Adjust to widest position possible without cup hitting vertical box guide. Tighten lock knobs securely.
3) Vertical Trolley Stop – Set equal to width. Tighten securely.
Lock-knob
3rd Cup
Pointer and Scale
Lock-handle
16
4) Box Opening Arm – set equal to width (arm in open position). Adjust vacuum cup to land in center of major panel.
5) Flap Folder – Set to length.
Pointer and Scale
Lock Handle
Crank Handle
Pointer and Scale
Vacuum Cup
Vacuum Knob
17
6) Lug Drive – Set to width.
7) Sled Height – set to erected box with top flaps up.
8) Run one box in step (manual) mode to verify settings
Pointer and Scale
Crank Handle
Pointer and Scale
Lock-knob
18
Loading the Hopper 1) Make sure the hopper is correctly set up based on the outside dimensions of the erected box.
a. The blanks must be loaded with the major panel toward the operator side when facing the vacuum cups. If the blanks are not loaded this way the box will jam in the forming section.
2) Lift the hopper gate handle and push it all the way back.
3) The easiest way to load the machine is to place full bundles in the hopper without removing the straps. The hopper will hold approximately 7 bundles of 25 blanks.
4) When the hopper is fully loaded, cut all the straps off the bundles and remove them.
5) Lift the gate handle and push the gate forward to provide light pressure on the blanks.
6) Blanks should be vertical and not leaning in any direction.
a. The hopper can be reloaded without stopping the machine.
7) Support the blanks with one hand and slide the gate back with the other.
8) Take the last 5 or so blanks in the hopper and lean them toward the vacuum cups to support the remaining blanks.
9) Load full bundles in the hopper
Start-Up Procedure 1) Close all guard doors and make sure all personnel are clear from machinery.
2) Turn on main air disconnect and electrical power.
3) Check that hopper is filled with blanks, and that tape cartridge is filled with tape.
4) Check that machine has been properly set-up to run the blanks that are loaded in hopper.
5) Re-set the emergency stop push button and turn selector switch to run position.
6) Depress machine start push button. Machine will begin to process boxes.
7) While in run mode the machine will continue to make boxes unless the downstream photo-eye is blocked or the hopper empties.
19
Sequence of Operation 1) Initial condition of machine: hopper filled with blanks (boxes that are flat, as received).
Emergency stop push button re-set, electrical and compressed air power turned on, machine mode selector switch turned on to run position, safety guards closed.
2) Depress the start push button.
3) The pneumatic soft-start valve will open allowing air to fill the system. The valve meters the flow of air so that components will move slowly to their home position without slamming. When the pressure in the machine equals the supply pressure the valve "latches in". This process should take between 3 to 4 seconds. If it does not latch in adjust the valve according to the instructions found in the trouble shooting section. After a count a 5 seconds, the plc will automatically start a cycle.
4) If not already in position, the hopper drive system will ratchet the gate forward, pushing the blanks until the limit switch is made. The (3) vacuum cups of the vertical case feeder will extend to contact the first blank in the hopper.
5) The vacuum system turns on causing the cups to securely grip the blank. The vacuum trolley pulls the blank downward into the forming area.
6) When the trolley reaches the bottom, vacuum is switched from the 3rd (outer) cup to the cup on
the box-opening arm. Simultaneously, the arm swings in to grip the major panel of the box. Immediately, the arm reverses direction and returns to the home position, causing the box to open.
7) As the box is held open by vacuum, the minor flap folders swing up and push the flaps up. After a short time, vacuum is automatically turned off and the box rests on the flap folders. The vacuum trolley rises to the home position, ready to extract the next blank.
8) When the lug-drive photo-eye is tripped by the passing chain-lug, the box transfer arm pushes the box forward into the lug drive system. As it does the major flaps come in contact with the folding bars causing the flaps to fold upward. Once the box is fully pushed into the lug drive, the transfer arm returns to its home position and the minor flap folders retract.
9) The lugs pick up the box just in front of the idler sprockets and move the box through the remainder of the folding bars and over the tape cartridge. The finished box is ejected onto either the standard dead plate or a customer supplied conveyor.
20
Shut-Down Procedure Control Stop:
1) Turn selector switch to test position. Wait until machine finishes processing box.
2) Depress emergency stop push button.
Emergency Stop:
1) Depress emergency stop push button.
2) Remove any unmade or jammed boxes before restarting machine.
21
MAINTENANCE
Safety: NEVER perform any maintenance on the CF25-T without first following your company’s LOCK OUT / TAG OUT procedures.
Servicing Chain on Main Drive Assembly The CF25-T has a dual spring chain tensioner on either side of the main drive assembly. For the convenience of servicing the chain, the tensioned sprocket mounts were designed with a clearance hole, which aligns with a threaded hole on the main drive.
NOTE: A 5/16-18 x 3” bolt will be required. This is not provided with the CF25-T.
1. Locate the clearance hole on the side of the main drive that you wish to service. Insert 5/16-18 x 3” bolt and begin to thread it into the hole. (See Figures 1 and 2 below.)
2. Tighten the bolt to release the desired amount of tension from the chain.
3. Leave bolt tightened in place while the chain is serviced.
4. Once the chain has been serviced and returned to its proper position, unthread the bolt to apply full tension to the chain.
5. Be certain to fully remove the main drive before running the machine.
Chapter
7
22
Figure 1. Inserting bolt into clearance hole.
Figure 2. Tightening bolt to compress tensioner springs.
Clearance Hole
5/16-18 x 3” Bolt
Threaded Hole
23
CF25-T Preventative Maintenance Schedule
Follow the PM chart below according to the specified time intervals to maintain and enhance machine functionality and longevity.
Frequency: Weekly Monthly
Pneumatic Components
1. Inspect air filter and drain. 2. Inspect and clear the vacuum
generator and the (3) in-line vacuum filters.
3. Make sure flow controls are set properly and locked.
4. Inspect the vacuum cups for damage. (If a cup is damaged, vacuum will be reduced in the remaining cups.)
5. Make sure vacuum lines are free from debris.
6. Make sure the regulator is set to 80 psi.
1. Inspect components and air lines for leaks.
2. Inspect cylinders for wear, damage, or excessive noise.
Mechanical Components
1. Make sure all nuts and bolts are on tight.
2. Check chain tension on motor chain and lug drive. ( Lug chains are automatically tensioned by spring loaded idlers. If excessive slack is present, chains should be replaced along with the sprockets and tensioning springs.)
3. Check all bearings and bushings for wear.
4. Check chain lugs for alignment. The face of the lug plates should be parallel. If necessary, adjsust by loosening the B-LOC bushing found under the left side chain guard. See the following page for detailed instructions on the B-LOC.
1. Check all sprockets and chains for wear.
2. Make sure the set screws in the sprockets are tight.
3. Check sprocket and chain alignment of the chain-lug system.
Note: Both the gear reducer and the right angle gear boxes are filled by the manufacturer with permanent lubrication and no maintenance is required.
Photo Eyes 1. Clean Face
INSTALLATION AND REMOVAL INSTRUCTIONS FORB-LOC® KEYLESS BUSHING SERIES B109
B-LOC® Keyless Bushings provide a high capacity, zero-backlashshaft/hub or coupling connection by means of a mechanical interference ! t. Please follow these INSTALLATION AND REMOVAL INSTRUCTIONS carefully to ensure proper performance of this B-LOC® unit.
!"WARNING !When installing or removing B-LOC® products, always adhere to the following safety standards:1. Be sure that all power switches are locked out before installing or removing
B-LOC® products.2. Eye protection is required when installing or removing B-LOC® products
- please wear safety glasses and protective clothing.
LOCKING SCREW SIZES AND SPECIFIED TIGHTENING TORQUE Ma
Figure 1
1/4" or 6 mm 38 M 4 3 5/16" or 8 mm to 3/4" or 19 mm 42.5 M 4 3 7/8" or 20 mm to 1-3/8" or 35 mm 87 M 5 4
Figure 2
Tightening Torque
Ma(in-lbs)
Hex Key Size (mm)
Screw Size
Size
INSTALLATION(Refer to Figure 1)
B-LOC® Mini Series B109 Keyless Bushings are supplied lightly oiled and ready for installation. They are self-centering and ! t straight-thru hub bores. Note that the extended " ange on Series B109 units results in an axially ! xed hub position during assembly. When reinstalling a used unit, make sure that all slits are aligned. The frictional torque capacity of these devices is based on a coef! cient of friction of 0.12 for lightly oiled screw, taper, shaft and bore contact areas.
Therefore, it is important not to use Molybdenum Disul! de (e.g., Molykote, Never-Seeze or similar lubricants) in any Keyless Bushing installation.
1. Make sure that locking screw, taper, shaft and bore contact areas are clean and lightly oiled and that all collar slits are aligned.
2. Loosen all locking screws by a minimum of four (4) turns and transfer at least three (3) screws into push-off threads in order to keep Parts 1 and 2 separated during assembly (see Figure 2).
3. After inserting Keyless Bushing into hub bore, relocate locking screw(s) used for separating Parts 1 and 2.
4. Hand tighten locking screws and con! rm that collar Item 1 is parallel and in full contact with face of part to be attached to shaft.
5. Use torque wrench and set it approximately 5% higher than speci! ed tightening torque Ma. Tighten locking screws in either a clockwise or counterclockwise sequence (it is not necessary to tighten in a diametrically opposite pattern), using only 1/4 (i.e., 90°) turns for several passes until 1/4 turns can no longer be achieved.
6. Continue to apply overtorque for 1 to 2 more passes. This is required to compensate for a system-related relaxation of locking screws since tightening of a given screw will always relax adjacent screws. Without overtorquing, an in! nite number of passes would be needed to reach speci! ed tightening torque.
7. Reset torque wrench to speci! ed torque (Ma) and check all locking screws. No screw should turn at this point, otherwise repeat Step 6 for 1 or 2 more passes. It is not necessary to re-check tightening torque after equipment has been in operation.
NOTE: The torque capacity of these units can be increased by approximately 25% by thoroughly cleaning the shaft and Keyless Bushing bore of any lubricant. In applications subject to extreme corrosion, the slits in all collars should be sealed with a suitable caulking compound or equivalent. Likewise, push-off threads should be protected from corrosion.
INSTALLATION OF B-LOC® KEYLESSBUSHING OVER SHAFT KEYWAYS
The Keyless Bushing should be positioned so that slits in Keyless Bushing collars that contact the shaft are located approximately opposite the keyway. In addition, a locking screw should be centered directly over the keyway.
When tightening locking screws, it is important to follow the installation procedure outlined above, which speci! es equal 1/4 turns of each locking screw. Failure to follow these instructions could result in excessive tightening of the screw over the keyway, possibly causing permanent deformation of the Keyless Bushing collars. Even after 1/4 turns can no longer be achieved, it is important to continue to use equal turning angles for every screw until the speci! ed tightening torque is reached.
REMOVAL(Refer to Figure 2)
Prior to initiating the following removal procedure, check to ensure that no torque or thrust loads are acting on the Keyless Bushing, shaft or
any mounted components.
IMPORTANT! Make sure ends of locking screws used for removal are ground " at and are slightly chamfered to prevent damage to screw and collar threads during push-off.
1. Check to ensure that axial movement of collars - necessary for release of connection - is not restricted. Likewise, ensure that push-off threads are in good condition.
2. Relax all locking screws by approx. four (4) complete turns and transfer screws to all push-off threads located in " ange of collar Item 1.
3. Release connection by evenly tightening all push-off screws (not exceeding 1/4 turns) in a d i ame t r i ca l l y oppos i t e sequence.
©2010 Fenner Drives B-PR-018 6/23/2010
For technical assistance, please call 1-717-665-2421
www.fennerdrives.com
25
Spare Parts
See the following page for a complete list of recommended spare parts.
www.loveshaw.com
RECOMMENDED SPARE PARTS KIT FOR MODEL CF25
PART # QTY DESCRIPTION NOTES.REPKIT-CAC60 1 .CAC60 REPAIR KIT 2" TAPE .REPKIT-CAC61 1 .CAC61 REPAIR KIT 3" TAPE N401-329 1 CYLINDER, BOX TRANSFER N400-220 1 FLOW CONTROL, 1/4 NPT X 3/8 TUBE SHK-007 1 SHOCK ABSORBER SHK-007-N 1 JAM NUT N401-298 1 CYLINDER, FLAP FOLDER SPH-1460 1 ROD END BEARING N400-183 1 FLOW CONTROL, 1/8 NPT X 1/4 TUBE SPR-1065L 1 TORSION SPRING, HOPPER SPR-1065R 1 TORSION SPRING, HOPPER N591 1 FLOW CONTROL, 1/4 NPT X 1/4 TUBE .VC-1001 4 VACUUM CUP WITH NIPPLE HC-1046 1 KNURLED KNOB SPR-1059 2 EXTENSION SPRING HC-1045 1 RATCHET HANDLE N401-362 1 CYLINDER, VERTICAL FEEDER STANDARD (10 CPM)N401-363 1 CYLINDER, VERTICAL FEEDER HIGH SPEED (>10 CPM N402-133 2 SOL VAVLE N402-142 1 AIR PILOTED VALVE N669 1 AIR FILTER AIR A125SB-10-R 1 FUSE A125SB-3-R 1 FUSE A125SB-2/10-312 1 FUSE
27
TROUBLESHOOTING
Preliminary Checks Check that electrical or air power has not been disconnected. Check for leaking or disconnected airlines. Check electrical fuses for continuity.
Using Test Mode to Troubleshoot Machine
x Close all guard doors and make sure the emergency stop push button is not depressed.
x Turn the selector switch to the step position and depress the machine’s start push button. The machine’s emergency stop circuit will energize, the lug drive will start to run and the machine is ready to start a cycle.
x The case erector can be stepped through each machine function by pushing the step push button.
x For example, when the machine is originally started in the test mode by pushing the step push button, the vertical trolley vacuum cup assembly will extend toward the hopper.
x By continually pushing the step button the machine will completely step through an entire machine cycle (refer to machine sequence of operation chart).
x By using the step mode to troubleshoot, it can be determined at which step the machine does not operate. By using this method you will eliminate excessive down time.
Checking Solenoid Valves The solenoid valves are equipped with manual pushbutton overrides.
Chapter
8
28
x With the machine in the test mode, depress and hold an override button to determine if the valve is able to actuate the pneumatic device that it’s connected to.
x Also check that the valve is receiving electrical power. There are indicator lights built into the coils of the valves to aide in trouble shooting.
Checking PLC Inputs and Outputs Properly checking inputs will require two people, one to trigger the device, and one to monitor the plc. The plc has indicator lights on its front panel for each input and output. Refer to the electrical schematics for plc/device information.
x To check the plc inputs, the machine must be “e” stopped. By manually moving the machine components, the various switches can be triggered one at a time, and the corresponding plc input can be verified.
x To properly check the outputs, the machine must be in the test mode of operation. By stepping the machine through its sequence of operation, the plc’s outputs can be verified.
Tape Cartridge and Taping Issues Refer to the tape cartridge section of this manual for all information referring to taping of the erected box.
PROBLEM POSSIBLE CAUSE CORRECTIVE ACTION
Vertical trolley vacuum cups will not extend toward hopper.
1) Box backup sensor PE1 is blocked, or malfunctioning.
2) LS1 is not functioning properly. 3) Trolley stop is loose. 4) Low tape roll detected (option). 5) Low hopper detected (option). 6) Check PLC outputs 8 & 9. They
should NOT be lit. 7) Check PLC inputs 1, 2, 6, 8, 10, &
11 and output 3. They should be lit.
8) Solenoid 5 is malfunctioning.
1) Remove obstruction from sensor, or replace PE1 sensor.
2) Troubleshoot or replace LS1. 3) Secure the trolley stop. 4) Refill tape cartridge. 5) Refill hopper. 6) Check suggested PLC inputs
and outputs. 7) Check air lines supplying
solenoid 5; replace solenoid 5.
Vertical trolley vacuum cups will not pick blank from hopper.
1) Check PLC output 7. It should be lit.
2) Solenoid 9 is malfunctioning. 3) Vacuum cups are damaged. 4) Vacuum generator is not
functioning properly. 5) Vacuum hoses are clogged or
damaged.
1) Check suggested PLC inputs and outputs.
2) Check air lines to solenoid 9; replace solenoid 9.
3) Inspect, clean, or replace vacuum cups.
4) Inspect, repair, or replace vacuum generator.
29
5) Replace inline filter cartridges in vacuum system with clean, new cartridges; check vacuum hoses for clogs; replace hoses/fittings.
Vertical trolley will not lower toward forming section of machine.
1) Check PLC output 4. It should be lit.
2) Solenoid 6 is malfunctioning. 3) Air flow controls are not
functioning properly. 4) There is a mechanical bind or jam.
1) Check suggested PLC inputs and outputs.
2) Check air lines to solenoid 6; replace solenoid 6.
3) Troubleshoot air flow controls. 4) Remove or repair cause of bind
or jam.
Box opening arm does not swing inward towards blank.
1) Check PROX 3 on bottom of vertical cylinder. It should be lit.
2) Check PLC input 4. It should be lit.
3) Solenoid 2 is malfunctioning. 4) Check PLC output 0. It should be
lit. 5) Air flow controls are
malfunctioning. 6) There is a mechanical bind or jam.
1) Check suggested PROX/PLC inputs and outputs.
2) Check air lines to solenoid 2; replace solenoid 2.
3) Troubleshoot air flow controls. 4) Remove or repair cause of bind
or jam.
Box opening arm vacuum cup will not grip the blank.
1) Check PLC output 6 & 7 ( it should be lit.
2) Solenoid 8 and 9 are malfunctioning.
3) Vacuum cup is damaged. 4) Vacuum generator is not
functioning properly. 5) Vacuum hoses are clogged or
damaged. 6) Check PROX 6 on rotary actuator.
It should be lit.
1) Check suggested PROX/PLC inputs and outputs.
2) Check air lines to solenoids 6 & 7; replace solenoids 6 & 7.
3) Inspect, repair, or replace vacuum generator.
4) Replace inline filter cartridges in vacuum system with clean, new cartridges; check vacuum hoses for clogs; replace hoses/fittings.
Box opening arm does not return to open position (home position).
1) Check PLC output 0. It should NOT be lit.
2) Solenoid 2 is malfunctioning. 3) Air flow controls are
malfunctioning. 4) There is a mechanical bind or jam.
1) Check suggested PLC inputs and outputs.
2) Check air lines to solenoid 2; replace solenoid 2.
3) Troubleshoot air flow controls. 4) Remove or repair cause of bind
or jam.
Minor flap folders do not operate.
1) Check PLC output 2. It should be lit.
2) Solenoid 4 is malfunctioning. 3) Check PROX 5. It should be lit. 4) Check PLC input 6. It should be
lit. 5) There is a mechanical bind or jam. 6) The air flow controls are
1) Check suggested PROX/PLC inputs and outputs.
2) Check air lines to solenoid 4; replace solenoid 4.
3) Troubleshoot air flow controls. 4) Remove or repair cause of bind
or jam.
30
malfunctioning.
Vertical trolley will not rise toward the hopper (home position).
1) Check PROX 1 at rear of transfer cylinder. It should be lit.
2) Check PLC input 2. It should be lit.
3) Solenoid 6 is malfunctioning. 4) Check PLC output 8. It should
NOT be lit. 5) The air flow controls are
malfunctioning. 6) There is a mechanical bind or jam.
1) Check suggested PROX/PLC inputs and outputs.
2) Check air lines to solenoid 6; replace solenoid 6.
3) Troubleshoot air flow controls. 4) Remove or repair cause of bind
or jam.
Box transfer arm will not push box into lug drive system.
1) Check PROX 4 near base of vertical cylinder. It should blink once as the trolley rises.
2) Check PLC input 5 & 14. They should blink once as the trolley rises.
3) Check PLC output 5. It should be lit.
4) Solenoid 7 is malfunctioning. 5) Lug detector PE2 is blocked or
malfunctioning.
1) Check suggested PROX/PLC inputs and outputs.
2) Check air lines to solenoid 7; replace solenoid 7.
3) Remove obstruction from sensor, or replace PE2 sensor.
Machine shuts off on its own.
1) Safety gates are not securely closed. 2) Check PLC input 10. It should be
lit. 3) Motor over-current relay is
triggering. 4) There is a mechanical malfunction
in the lug drive system.
1) Ensure safety gates are properly closed with safety switches engaged.
2) Check PLC inputs and outputs. 3) Check if motor is drawing too
much current or malfunctioning.
4) Inspect lug drive system for damages, failures, etc.
Blanks jam while being stripped from hopper.
1) Pressure on front of blank is too tight or too loose.
2) The gap between the stripper plates are not spaced properly.
3) The hopper guide clearance is not correct.
1) If pressure on the front of the blank is too tight, adjust LS1 towards blanks, and slow the ratcheting action of the hopper cylinder by throttling the flow controls.
2) If pressure on the front of the blank is too loose, adjust LS1 away from the blanks.
3) Set the gap between the stripper plates to 1.5 times the width of the blank.
4) Set the hopper guide clearance to ¼”.
Box not square after taping.
1) Chain lugs are not square to each other.
2) See mechanical section to adjust lugs to be square.
31
Major flaps (bottom) not straight or are overlapped.
1) Main drives are not properly set. 1) Adjust main drives by 1/8” increments.
Box deformed by lugs (back panel 1 pushed in) or squeezers (sides of box have score lines).
1) Sled height is set too low. 2) Main drive is adjusted too narrow.
1) Adjust sled by 1/8” increments. 2) Adjust main drive by 1/8”
increments.
Box does not open or transition into lug drive smoothly.
1) Trolley stop setting is not accurately adjusted.
2) Top sled is not properly adjusted. 3) Box opening arm is not properly
inspected.
1) Adjust trolley stop, or sled, or box opening arm according to instructions in this manual.
Cylinders move slowly or erratically at start-up.
1) Damaged lines or loose fittings are leaking air.
2) Slow start valve is not properly adjusted.
1) Check for air leaks. 2) Adjust start valve. a. Set regulator to 80 psi. b. Open slow start metering valve
by turning adjuster out with a 3mm hex key. (Screw is found underneath the valve body.)
c. Test setting by starting machine and timing how fast valve latches in. correct setting is about 3 seconds.
d. Readjust accordingly.
32
WARRANTY
For a detailed, up-to-date warranty, contact our customer service or view it on our website.
Chapter
9
33
ASSEMBLY DRAWINGS AND
SCHEMATICS
Chapter
10
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
RT.
296
, SO
UTH
CAN
AAN
, PA.
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2�
+ --
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCAL
E PR
INT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
3/1/
2010
richm
4/12
/201
0
.CF2
5T
MAC
HIN
E O
VER
VIEW
, CF2
5-T
.CF2
5T.id
w
ALAR
M L
IGH
T (O
PTIO
NAL
)
BOX
OPE
NIN
G A
SSEM
BLY
BOX
OPE
NIN
GAD
JUST
MEN
T H
AND
LE
MAI
N (L
UG
) DR
IVE
ASSE
MBL
Y
MAI
N (L
UG
) DR
IVE
ADJU
STM
ENT
HAN
DLE
DR
IVE
MO
TOR
AND
RED
UC
ER
TOP
SLED
ASS
EMBL
Y
TAPE
CAR
TRID
GE
OPE
RAT
OR
STA
TIO
N
BLAN
K PU
SHER
ASS
EMBL
Y(H
OPP
ER G
ATE)
SOLE
NO
ID V
AVLE
STA
CK
AIR
PR
EP U
NIT
(SH
UT-
OFF
, FIL
TER
/REG
ULA
TOR
AND
SO
FT S
TAR
T/ D
UM
P VA
LVE)
VAC
UU
M G
ENER
ATO
R
ELEC
TRIC
AL E
NC
LOSU
RE
VER
TIC
AL F
EED
ER A
SSEM
BLY
VER
TIC
AL F
EED
ER A
SSEM
BLY
HO
PPER
FR
AME
ASSE
MBL
Y
HO
PPER
DR
IVE
ASSE
MBL
Y
BOX
TRAN
SFER
ASS
EMBL
Y
ANVI
L TA
BLE
ASSE
MBL
Y
FLAP
FO
LDER
ASS
EMBL
Y
GU
ARD
ING
OM
ITTE
D T
OSH
OW
INTE
RN
AL A
SSEM
BLIE
S
FRAM
E AS
SEM
BLY
FRAM
E AS
SEM
BLY
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
RT.
296
, SO
UTH
CAN
AAN
, PA.
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2�
+ --
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCAL
E PR
INT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
9/24
/200
7
2/1/
2010
.FR
ACF2
5
FRAM
E AS
SY C
F25-
T
.FR
ACF2
5.id
w
Parts
Lis
tD
ESC
RIP
TIO
NPA
RT
NU
MBE
RQ
TYIT
EMFR
AME,
REA
RC
F20-
0317
-61
1U
PRIG
HT
REA
R, R
IGH
TC
F20-
0318
-61
2U
PRIG
HT,
REA
R L
EFT
CF2
0-03
19-6
13
FRAM
E, S
IDE
LEFT
CF2
0-03
20-6
14
FRAM
E, S
IDE
RIG
HT
CF2
0-03
21-6
15
CEN
TER
CH
ANN
ELC
F20-
0322
-61
6BR
ACE,
TO
P R
EAR
CF2
0-03
24-6
17
BRAC
E, T
OP
SID
E LE
FTC
F20-
0325
-61
8BR
ACE,
TO
P SI
DE
RIG
HT
CF2
0-03
26-6
19
BRAC
E - C
ENTE
R (H
OPP
ER)
CF2
0-03
27-6
310
UPR
IGH
T FR
ON
T, R
IGH
TC
F20-
0328
-61
11U
PRIG
HT,
FR
ON
T LE
FTC
F20-
0330
-61
12FR
ON
T FR
AME
CF2
0-03
31-6
113
BRAC
E, T
OP
FRO
NT
CF2
0-03
32-6
114
MID
DLE
BR
ACE
CF2
0-03
36-5
115
GU
ARD
MO
UN
TC
F20-
0338
-51
16G
UAR
D M
OU
NT
CF2
0-03
41-5
117
SCAL
E, B
OX
OPE
NIN
GC
F20-
0430
-31
18EX
TEN
SIO
N, D
ISC
HAR
GE
CF2
0-04
35-5
119
CH
ANN
EL, C
ENTE
RC
F20-
0512
-61
20M
OU
NTI
NG
PO
ST, T
RO
LLEY
STO
PC
F20-
0537
-51
21C
HAN
NEL
, CAR
TRID
GE
SUPP
OR
T, L
EFT
CF2
0-05
59L-
51
22C
HAN
NEL
, CAR
TRID
GE
SUPP
OR
T, R
IGH
TC
F20-
0559
R-5
123
BRAC
KET,
OPE
RAT
OR
STA
TIO
NC
F50-
0150
-41
24**
* PAR
TS B
ELO
W A
RE
OPT
ION
AL **
*
BRAC
KET,
STA
CK
LIG
HT
CF2
0-05
53-4
125
BRAC
KET,
PR
OX,
LO
W H
OPP
ERC
F20-
0554
-41
26BR
ACKE
T, C
ASTE
R, L
.H.
CF2
0-05
56L-
52
27BR
ACKE
T, C
ASTE
R, R
.H.
CF2
0-05
56R
-52
28BR
ACKE
T, L
OW
TAP
E AL
ARM
C62
2910
A1
29C
ASTE
R, S
WIV
EL20
1763
230
CAS
TER
, RIG
ID20
1763
/R2
31
REV
ISIO
N H
ISTO
RY
REV
DES
CR
IPTI
ON
DAT
EBY
AR
ELEA
SED
9/24
/200
7R
M
4
18
30
28
12
17
25 14
21
16
15
11
10
9
2
7
1
19
28
27
30
30
29
6 3
20
30
27
8
26
5
13
(8)
24
22
23
! !
" "
# #
$ $
%%
&&
'(')
*
+,-./0
12%)
*
+3%,
/
24*2
5*+
%663
07*
+
LOVESHAW
""89
.*%1
'0/.'65
:;.10
<'4
.2%/
%%/;.6
%:
=%'
*3(%)
'0)*
3%/
2*1
.</)*
11..0
'4*3
,(1*./0'*
+>
(/24
=*'
3(2:? :??
:???@.
.:8A8
@..:8
!A@..:8
8AB
C BBCC C
:? :??
:???@.
.!:8DD
@..:#
DD
@..:!
DD
B BB
C CC
E3%2
'(0/1....!F9$
B C
%/-)*
1...!
F"!
B CC
=%2
4:
E(/(14
!"A
2%+
.E()*
6)0'.+%'
*
+3%,
/.+%'
*
!"#$"%#&'()*#+,-$%
=%'
G)
1':.1
':
1'+
6%3'.H
1'%(/)*
11.>./0.E(/(14
'4(1.+3%,
(/-.%/+.1<&I
*2'.=%'
'*3.'4*3
*0/.(1
.'4*
.*?2
)<1(7*
.6306*
3'J
.0E.
)07*
14%,
.%/+.(1
.'0.&*.'3
*%'*
+.&J.J0
<.%1.20/E(+*/
'(%)
.6363
(*'%
3J
(/E0
3=%'
(0/:.'
4(1.+3%,
(/-.03.1<&I
*2'.=%'
'*3.'4*
30E.14
%))./0'.&*
3*6
30+<2*+
.0'4
*3.'4%/
.E03.J0<3.0,/.<1*
.03.'0.&*.+(12)0
1*+.'0.0'4
*3,('40<'.'4
*.*?
63*1
1*+.,
3(''
*/.20/1*
/'.0E.)0
7*14
%,.%/+.,
()).&*
3*'
<3/*+
.'0.)07*
14%,
.<60
/.3*K
<*1
':
!F!!F"8!L
.!>9
/F%
!F!!F"8!L
/F%
:=+%2
E"A
=%(/.+3(7*.%1
1J;.2
E"A
:=+%2
E"A:MNO
/F%
PQRSTU
6RUPV.)MVP
+*1
23(6'(0/
6%3'./<=&*
3K'J
('*=
2E"
A.+3(7*.%1
1J;.&
%1*
:=+%2
E"AW
&%1*
!!
2E"
A.+3(7*.%1
1J;.)
*E'
:=+%2
E"AW
)*E'
!"
2E"
A.+3(7*.%1
1J;.3
(-4'
:=+%2
E"AW
3(-4'
!#
)025.,%1
4*3
.=9
E),=-6
X$
4421.=9.?.!9
.E4
4=-8!96
!8X
A
3*7
(1(0/.4(1'0
3J
3*7
+*1
23(6'(0/
+%'
*&J
%3*)
*%1*
+!F!!F"8!L
3'3
#
"
!
$A
A
$
! !
" "
# #
$ $
% %
& &
' '
( (
))
**
++
,,
-.-/
0
,12345
6+)/
0
,7)1
4
+80+
90,
)::7
5;0
,
LOVESHAW
""<&
30)6
-543-:9
=>365
?-8
3+)4
))4>3:
)=
@)-
07.)/
-5/0
7)4+06
3?4/0
66335
-807
1.60345-0
,A
.4+8
@0-
7.+=B =BB
=BBBC3
3=<%<
C33=<
!%C33=<
<%D
E DDEE E
=B =BB
=BBBC3
3!=<FF
C33=#
FF
C33=!
FF
D DD
E EE
G7)+
-.5463333!H&$
D E
)42/0
6333!
H"!
D EE
@)+
8=
G.4.68
!"%
+),
3G./0
:/5-3,)-
0
,7)1
43,)-
0
!"#$"%#&'()*#+,-$%
@)-
I/
6-=36
-=
6-,
:)7-3J
6-).4/0
663A3453G.4.68
-8.63,7)1
.423)4,36?
*K0+
-3@)-
-073-807
0543.6
3-8030B
+/?
6.;0
3:75:0
7-L
35G3
/5;0
68)1
3)4,3.6
3-53*03-7
0)-0
,3*L3L5
?3)63+54G.,0
4-.)/
3:7:
7.0-)
7L
.4G5
7@)-
.54=3-8.63,7)1
.4235736?*K
0+-3@)-
-073-807
5G368
)//345-3*0
70:
75,?
+0,35-8
073-8)
43G573L5?7
35143?60
3573-53*03,.6+
/560
,3-5
35-8
071.-85?-
3-80
30B:
706
60,31
7.--0
43+5460
4-35G3/5
;068
)13)4,31.//3*0
70-
?740,
3-53/5;0
68)1
3?:5
4370M?06
-=
!H!!
H"<!
'
3
"H'
4H)
!H!!
H"<!
'
4H)
=@,)+
G"%N
*)60
+G"
%3,7.;03)6
6L>3*
)60
=@,)+
G"%N
*)60
=OPQ
4H)
RSTU
VW
:TWRX
3/OXR
,06
+7.:-.54
:)7-34?@
*07
M-L
.-0@
G/)4
203*0
)7.42>3"
E*5/-
>3#H$Y
"<<(
$$&
!4?-3:/
)-0>3/83-87,
+G%
<E<!
#%/E$
""
,7.;0368
)G-E857.Z5
4-)/
+G%
<E<!
""E$
!#
6:75
+90
-6:
9E<!
#'!
$6:
75+90
-6:
9E<!
"<!
%*0
)7.42>3G
/)420,
*72E"<<
$"
&*0
)7.423)66
0@*/
L+G%
<E<"
%<E$
$'
70,
?+07
>3"<A!
70,
E!<<
!+0
!(
@5-5
7>3!H#38:
/,!&
*E"<
##)N
/06
![
*7)+
90->3,7.;036?
::57-
+G"
<E<$
["E#
$!<
*0)7
.423*7)+
90->3857.Z54-)
/368
)G-6
+G"
<E<$
[<E%
!!!
/0),
36+701
>3.,/0
7:G
GE<<
%&E&
!!"
@5?4
-.423:/)
-0>32
0)7*5
B+G"
<E<$
("E$
"!#
*7)+
90->3,7.;036?
::57->3G75
4-
+G"
<E<$
(&E$
"!$
*7)+
90->3/0)
,6+
701
3*0)
7.42
+G"
<E<$
[$E$
!!%
*7)+
90->3,7.;036?
::57->370)
7+G"
<E<$
[!E$
"!&
6:75
+90
-/,
#6*"
E"<"
&"
!'/0
),36+7
01>38
)4,/0
:GGE<<
#$E&
!!(
4?-3:/
)-0>3783-8
7,
+G%
<E<!
#%7E$
"![
88+63@!<
3B3#<
G88@
.<#<
:((
!""<
*0)@
>3@5-5
736?::
57-
+G"
<E<%
<!E$
!"!
G/)-
31)6
807
3@!<
GG1@.:
!(""
88+63@!<
3B3"%
G88@
.<"%
:((
$"#
/5+9
31)6
807
3@!<
G/1@.:
("$
88+63@!<
3B3"<
G88@
.<"<
:((
("%
:/)-
0>3*0)
7.42>3;
07-.+)/
368)
G-6
+G"
<E<%
'#E$
""&
*)60
>370,
?+07
+G"
<E<$
('E$
!"'
883#H(E!&3\3!3/2
=G8
86K
!<<:
<($
"(80B
34?-3@!<
G8G4
@.:
!&"[
883@
(3B3%<
36=6=
G88@8<%
<6!<
!&#<
/5+9
31)6
807
3@(
G/1@8:
!"#!
88+63@(3B3"%
G88@8<"
%:!<
!"#"
/5+9
31)6
807
3@&
G/1@2:
(##
/5+931)6
807
3!H$
G/16,
:(
#$88+63!H$E"<
3\3#H$3/2
G8860
<'%:
<((
#%!Y36:/
.-3+5//
)7>3"
E:.0+0
"<""
<#"
#&G/
)-31
)6807
3@&
GG1@2:
(#'
88+63@&3B3"%
G88@2<"
%:!<
(#(
+7)4
938)4
,/0
>3@).43,7.;0
8+E!<%
!!
#[G/
)-380)
,>3%
H!&E!(
3B3#H$Y
GG868
<'%6
<%$
$<J$
<375//
073+8).4
8+!<
"!!
$!J#
%3+8).4
J#%3)4
6.N+
8).4
&'$"
20)
73*5B3783)4
2/0
>3/8
2*E!<
<</
!$#
20)
73*5B3783)4
2/0
>378
2*E!<
<<7
!$$
70;
.6.5438.6-5
7L
70;
,06
+7.:-.54
,)-
0*L
)70/
0)60
,!H!!
H"<!
'7-7
[
"( (
"# "" "'
"!
"%
"$"%
$<
$
%
"[!
"""<
#["<
""!
"["%
""!!
!"[
#<"
"<
!$'
!"'
!$#<
#&![
!<#&
!('
!&'
"#<
"[!
!%
#"#!
!$!##!#"
#$#%#'###(
&"&
!<
$#
$$
!!!
"[
"%
"""<
"""[
"[
#
!'
$!
$"
! !
" "
# #
$ $
%%
&&
''
((
)*)+
,
(-./01
2'%+
,
(3%-
0
'4,'
5,(
%663
17,
(
LOVESHAW
""89/,%2
)10/)65
:;/21
<)4
/'%0
%%0;/6
%:
=%)
,3*%+
)1+,
3%0
',2
/<0+,
22//1
)4,3
-*2,/01),
(>
*0'4
=,)
3*':? :??
:???@/
/:8A8
@//:8
!A@//:8
8AB
C BBCC C
:? :??
:???@/
/!:8DD
@//:#
DD
@//:!
DD
B BB
C CC
E3%'
)*102////!F9$
B C
%0.+,
2///!
F"!
B CC
=%'
4:
E*0*24
!"A
'%(
/E*+,
6+1)/(%)
,
(3%-
0/(%)
,
!"#$"%#&'()*#+,-$%
=%)
G+
2):/2
):
2)(
6%3)/H
2)%*0+,
22/>/01/E*0*24
)4*2/(3%-
*0./%0(/2<&I
,')/=%)
),3/)4,3
,10/*2
/)4,/,?
'+<
2*7,
/6316,
3)J
/1E/
+17,
24%-
/%0(/*2
/)1/&,/)3
,%),
(/&J/J1
</%2/'10E*(,0
)*%+
/6363
*,)%
3J
*0E1
3=%)
*10:/)
4*2/(3%-
*0./13/2<&I
,')/=%)
),3/)4,3
1E/24
%++/01)/&,
3,6
31(<',(
/1)4
,3/)4%0
/E13/J1<3/1-0/<2,
/13/)1/&,/(*2'+1
2,(/)1/1)4
,3-*)41<)/)4
,/,?
63,2
2,(/-
3*)),
0/'102,
0)/1E/+1
7,24
%-/%0(/-
*++/&,
3,)
<30,(
/)1/+17,
24%-
/<61
0/3,K
<,2
):
!F!8F"8!
L
/">L
0F%
!F!!F"8!L
0F%
:=(%'
E"AM
+,E)
'E"
A/(3*7,/%2
2J;/+
,E)
:=(%'
E"AM
+,E)
:NOP
0F%
QRST
UV
6SVQW
/+NWQ
(,2
'3*6)*10
6%3)/0<=&,
3K)J
*),=
&+1'5;/%0'413
'EA
8C8"
X#C#
!!
&+1'5;/*(
+,3
'E"
8C8$
YAC#
!"
263*0.;/'
1=63
,22*10
263C!8A
""
#24
1<+(
,3/&1+)
;/!F"Z/?
/#Z/+
.:
264C!#A
Y"
$.<*(,/2)
3*6;/+
<./'4%*0
'E"
8C8$
YLCA
"A
2631'5,
)26
5C!$
"!
9&,
%3*0.;/E
+%0.,(
&3.C"88
$!
L26
31'5,
);/*(
+,3
265C8!
"!!
X24
1<+(
,3/&1+)
;/#F$/?/#F$
264C!$8
!!
Y24
*=/-
%24,3
264C!$8
""
!8&3
%'5,
);/+<./641)1
,J,
'E"
8C8$
X$C$
!!!
2)3*6;/2
K<,,
[,3
'E"
8C8A
89C$
!!"
&1?/.<*(,;/+<./(3*7,2
'E"
8C8A
#8C$
!!#
61*0),
3'E"
8C8A
A!C#
!!$
+1'5/-%2
4,3
/=X
E+-=46
$!A
+1'5/-%2
4,3
/=9
E+-=.6
"!9
44'2/=9/?/!9
/E4
4=.8!
96!8
"!L
24'2/=A/?/8:X/?/"8
/+.:
E24=E8
"86!
8$
!X24
'2/=A/?/8:X/\/$8
/+.:
E24=E8
$86!
8!
!Y44'2/=X/?/"A
E44=48"
A6!8
$"8
E+%)
/4,%
(/'%6
/2'3,-
/=A/?/#8
/+.:
EE4=E8
#86!
8A
"!24
'2/=A/?/8:X/?/!"
/+.:
E24=E8
!"6!
8!
""2)
%0(1EE
;/'4%*0/.<%3
('E"
8C8A
8X%C#
$"#
%(I<
2)%&
+,/&<24
*0.
))C!88
"!
"$=%*0/)<&,
;/+<./(3*7,
'E"
8C8$
Y9C9
!"A
.31==,)
264C!$$
L"
"9&3
%'5,
);/&1?/I%
=/6,
'E"
8C8A
L!C#
!"L
+1'5/-%2
4,3
/=A
E+-=E6
""X
4,?
/21':/&
<))
:/4(:/2
'3,-
E&4=E8
!"6!
89
"Y64
1)1
C,J,
%"!Y
C%&C!8
"#8
.<%3
(;/+<./(3*7,;/+,E
)/2*(,
'E"
8C8A
#X+CA
!#!
2K<,,
[,3/2)3
*6;/0
%331-/&1?
'E"
8C8A
Y!C$
!#"
.<*(,/2)
3*6;/+
<./(3*7,
'E"
8C89
!"CA
!##
+<./'4%*0/%22
,=&+
J;/'E"
AC)
:'4%'
E"AC+
!#$
24%E
);/7,3
)*'%+
/(3*7,;/%(I:/2*(,
'E"
8C8A
L8C$
!#A
"/6*,'
,/24
%E)/'1++
%3;/#F$Z
"8""8!
"#9
2),6
/%6"
8#EE
4=E8
$A6!
8A
#L
3,7
*2*10/4*2)1
3J
3,7
(,2
'3*6)*10
(%)
,&J
%3,+
,%2,
(!F!8
F"8!
L3)3
#!
"Y "#
Y!8XL!8"#
!!A"8
#8
!! !9 !L
#$
"$ 9 #9 #A #9
"8 !A !#
#$
!XA
!$""
!Y#8
"X"Y
"L
!X $
A##
"!
"A
!" #L
#"
'E"
8C8A
Y!C$/10+J
/<2,
(/10/
0%3
31-/&1?/16)
*10:/4
%3(-%3
,/-*++/7%
3J/&%
2,(/10/
'10E*.<3%)
*10:
"9 ,?6+
1(,(
/+<./7*,-
E13/+1-/&1?/16)
*10/]:+&
1'E"
A^<2,
/6%3
)H>//'E"
8C89
$9C$
! !
" "
# #
$ $
%%
&&
''
((
)*)+
,
(-./01
2'%+
,
(3%-
0
'4,'
5,(
%663
17,
(
LOVESHAW
""89/,%2
)10/)65
:;/21
<)4
/'%0
%%0;/6
%:
=%)
,3*%+
)1+,
3%0
',2
/<0+,
22//1
)4,3
-*2,/01),
(>
*0'4
=,)
3*':? :??
:???@/
/:8A8
@//:8
!A@//:8
8AB
C BBCC C
:? :??
:???@/
/!:8DD
@//:#
DD
@//:!
DD
B BB
C CC
E3%'
)*102////!F9$
B C
%0.+,
2///!
F"!
B CC
=%'
4:
E*0*24
!"A
'%(
/E*+,
6+1)/(%)
,
(3%-
0/(%)
,
!"#$"%#&'()*#+,-$%
=%)
G+
2):/2
):
2)(
6%3)/H
2)%*0+,
22/>/01/E*0*24
)4*2/(3%-
*0./%0(/2<&I
,')/=%)
),3/)4,3
,10/*2
/)4,/,?
'+<
2*7,
/6316,
3)J
/1E/
+17,
24%-
/%0(/*2
/)1/&,/)3
,%),
(/&J/J1
</%2/'10E*(,0
)*%+
/6363
*,)%
3J
*0E1
3=%)
*10:/)
4*2/(3%-
*0./13/2<&I
,')/=%)
),3/)4,3
1E/24
%++/01)/&,
3,6
31(<',(
/1)4
,3/)4%0
/E13/J1<3/1-0/<2,
/13/)1/&,/(*2'+1
2,(/)1/1)4
,3-*)41<)/)4
,/,?
63,2
2,(/-
3*)),
0/'102,
0)/1E/+1
7,24
%-/%0(/-
*++/&,
3,)
<30,(
/)1/+17,
24%-
/<61
0/3,K
<,2
):
!F!8F"8!
L
//
/
/
/
:=(%'
E"AM
3*.4)
'E"
A/(3*7,/%2
2J;/3
*.4)
:=(%'
E"AM
3*.4):NOP
QRST
UV
6SVQW
/+NWQ
(,2
'3*6)*10
6%3)/0<=&,
3K)J
*),=
&+1'5;/%0'413
'EA
8C8"X#
C#!
!&+
1'5;/*(
+,3
'E"
8C8$YA
C#!
"26
3*0.;/'
1=63
,22*10
263C!8A
""
#24
1<+(
,3/&1+)
;/!F"Z/?
/#Z/+
.:
264C!#A
Y"
$.<*(,/2)
3*6;/+
<./'4%*0
'E"
8C8$YL
CA"
A26
31'5,
)"8
#!L$
C!"
!9
2631'5,
);/*(
+,3
265C8!
"!!
L&,
%3*0.;/E
+%0.,(
&3.C"88
$!
X24
1<+(
,3/&1+)
;/#F$/?/#F$
264C!$8
!!
Y24
*=/-
%24,3
264C!$8
""
!82)
3*6;/2
K<,,
[,3
'E"
8C8A89
C$!
!!&1
?/.<*(,;/+<./(3*7,2
'E"
8C8A#8
C$!
!"44'2/=X/?/"A
E44=48"
A6!8
$!#
24'2/=A/?/8:X/?/"8
/+.:
E24=E8
"86!
8A
!$+1
'5/-%2
4,3
/=X
E+-=46
A!A
E+%)
/4,%
(/'%6
/2'3,-
/=A/?/#8
/+.:
EE4=E8
#86!
8A
!92)
%0(1EE
;/'4%*0/.<%3
('E"
8C8A8X
%C#
$!L
=%*0/)<&,
;/+<./(3*7,
'E"
8C8$Y9
C9!
!X24
%E);/7,3
)*'%+
/(3*7,/E*?,
(/2*(,
'E"
8C8A9Y
C$!
!Y"/6*,'
,/24
%E)/'1++
%3;/#
F$Z
"8""8!
""8
26%'
,3;/7
,3)*'%+
/24%E
)26
4C!$A
9!
"!E+
%)/-
%24,3
264C!"#
"!
""44'2/=X/?/!9
E44=48!
96!8
!"#
4,?
/21':/&
<))
:/4(:/2
'3,-
E&4=E8
!"6!
8$
"$.<%3
(;/+
<./(3*7,
'E"
8C8A#X
CA!
"A.<*(,/2)
3*6;/+
<./(3*7,
'E"
8C89!"
CA!
"9+<
./'4%*0/%22
,=&+
J;/'E"
AC)
:'4%'
E"AC+!
!"L
.<*(,/2)
3*6/26%
',3
'E"
8C89L9
C$!
"X2K
<,,
[,3/2)3
*6;/0
%331-/&1?
'E"
8C8AY!
C$!
"Y2)
,6/%6"
8#EE
4=E8
$A6!
8A
#8
3,7
*2*10/4*2)1
3J
3,7
(,2
'3*6)*10
(%)
,&J
%3,+
,%2,
(!F!8
F"8!
L3)3
"$
"A
!# !A !"
!L
!X
$!
#L !8 Y
9""!A"# "L "8 !Y "8
#8!!
"Y
"!# !A
'E"
8C8A
Y!C$/10+J
/<2,
(/10/
0%3
31-/&1?/16)
*10:/4
%3(-%3
,/-*++/7%
3J/&%
2,(/10/
'10E*.<3%)
*10:
,?6+
1(,(
/+<./7*,-
"L
"!
A
!$
!8 X
"X"9
A
!9
DET
AIL
FIX
ED S
IDE
SCAL
E 1
: 1D
ETAI
L A
DJU
STAB
LE S
IDE
SCAL
E 1
: 1
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
an
C
ompa
nyR
T. 2
96, S
OU
TH C
ANAA
N, P
A.ITW
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2
!+ -
-
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCAL
E PR
INT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
2/8/
2010
richm
2/8/
2010
.MD
ACF2
5B
MAI
N D
RIV
E AS
SEM
BLY
.MD
ACF2
5.id
w
Parts
Lis
tD
ESC
RIP
TIO
NPA
RT
NU
MBE
RQ
TYIT
EMC
LAM
P C
OLL
AR, 3
/4"
2022
014
1SP
RO
CKE
T20
3174
-12
12
BALL
BEA
RIN
GBR
G-2
004
43
MO
UN
TIN
G P
LATE
, GEA
RBO
XC
F20-
0482
-42
4SH
AFT,
VER
TIC
AL D
RIV
E FI
XED
SID
EC
F20-
0569
-41
5
SHAF
T, V
ERTI
CAL
DR
IVE,
AD
J. S
IDE
CF2
0-05
70-4
16
PLAT
E, B
EAR
ING
, VER
TIC
AL
SHAF
TSC
F20-
0573
-42
7
FLAT
WAS
HER
M6
FFW
MG
P8
8H
HC
S M
6 X
25FH
HM
G02
5P10
89
HH
CS
M8
X 25
FHH
MH
025P
1024
10H
HC
S M
8 X
50
FHH
MH
050S
1016
11H
HC
S M
10 X
20
FHH
MI0
20P8
88
12H
HC
S M
10 X
25
FHH
MI0
25P8
88
13H
HC
S M
10 X
30
LG.
FHH
MI0
30P8
812
14H
HC
S 1/
4-20
x 3
/4 L
GFH
HSE
075P
088
15LO
CK
WAS
HER
M6
FLW
MG
P10
16LO
CK
WAS
HER
M8
FLW
MH
P25
17G
EAR
BO
X, L
HG
B-10
00L
118
GEA
R B
OX,
RH
GB-
1000
R1
19FL
AT W
ASH
ERSP
H-1
232
120
SPAC
ER, V
ERTI
CAL
SH
AFT
SPH
-145
61
21SP
RO
CKE
T, A
DJU
STAB
LESP
K-14
21
22AD
JUST
ABLE
BU
SHIN
GTT
-100
21
23
12 17 20
215 2 1
15 16 4
9 16 8 7
3
19
6 23
22 1 3
15
9 16 8
18
7
4
10 17
SHEE
T 2
OF
2
16
! !
" "
# #
$ $
% %
& &
' '
( (
))
**
++
,,
-.-/
0
,12345
6+)/
0
,7)1
4
+80+
90,
)::7
5;0
,
LOVESHAW
<=333333333333+>?
@<=A
7-B3"C&
D365E-8
3+)4
))4D3:)B
ITW
F)-
07.)/
-5/0
7)4+06
3E4/0
66335
-807
1.60345-0
,G
.4+8
F0-
7.+BH BHH
BHHHI3
3BJ%J
I33BJ
!%I33BJ
J%K
L KKLL L
BH BHH
BHHHI3
3!BJ??
I33B#
??
I33B!
??
K KK
L LL
M7)+
-.5463333!N&$
K L
)42/0
6333!
N"!
K LL
F)+
8B
M.4.68
!"%
+),
3M./0
:/5-3,)-
0
,7)1
43,)-
0
!"#$"%#&'()*#+,-$%
F)-
O/
6-B36
-B
6-,
:)7-3P
6-).4/0
663G3453M.4.68
-8.63,7)1
.423)4,36E
*Q0+
-3F)-
-073-807
0543.6
3-8030H
+/E
6.;0
3:75:0
7-R
35M3
/5;0
68)1
L.-13)4,3.6
3-53*03-7
0)-0
,3*R3R5
E3)63+54M
.,04
-.)/
3:7:7
.0-)
7R
.4M5
7F)-
.54B3-8.63,7)1
.4235736E*Q
0+-3F)-
-073-807
5M368
)//345-3*0
70:
75,E
+0,35-8
073-8)
43M573R5E7
35143E60
3573-53*03,.6+
/560
,3-5
35-8
071.-85E-
3-80
30H:
706
60,31
7.--0
43+5460
4-35M3/5
;068
)1L.-
13)4,31
.//3*0
70-
E740,
3-53/5;0
68)1
L.-13E:5
4370S
E06
-BTUVW?
"N""
N"J!
J
3
TUVW?
33
#N!J
N"J!
!
3
B+8)
+M"
%
/E23+8).43)66
0F*/
RD+M"
%L-
B+8)+
M"%BUXY
:<TZ[
3/U[Z
,06
+7.:-
.54
:)7-34EF*0
7S-R
.-0F
P$J375//
073+8).4D3'
(\"J
!'&%
L:"
!+8)
.43/.49D3)--
)+8F04
-"J
$!$#
""
/E23:/)
-0D3/
0M-
+M"
JLJ%
%%/L#
!#
/E23:/)
-0D37
.28-
+M"
JLJ%
%%7L#
!$
:E68
073/E2D3/
8+M%
JLJ!
JJ/L#
!%
:E68
073/E2D37
8+M%
JLJ!
JJ7L#
!&
+8)
.436:)
+07
+M%
JLJ!
J"L#
"'
M8+63F%3H3!"
MM8FMJ
!":!
J$
(&L#"
34+34A]>V^34_Z
M4/4
6):
"C
68+6D3&L#"3H3JB'%
M686
)J'%
*J(
"!J
3L33
"#J
"3
C!"%
%)!%
!!
#J#
70;
.6.5438.6-5
7R
70;
,06
+7.:-.54
,)-
0*R
)70/
0)60
,"N""
N"J!
J7F
!
$
(
C '
!J
C
'
"
%
!J
(
#
&
"
'.(-$#($
!#)/0&#(1(-)(2)*#%"#",!
*,(-%4#/&*#+(,%5#6'.(
'789:+:3
! !
" "
# #
$ $
% %
& &
' '
( (
))
**
++
,,
-.-/
0
,12345
6+)/
0
,7)1
4
+80+
90,
)::7
5;0
,
LOVESHAW
<=333333333333+>?
@<=A
7-B3"C&
D365E-8
3+)4
))4D3:)B
ITW
F)-
07.)/
-5/0
7)4+06
3E4/0
66335
-807
1.60345-0
,G
.4+8
F0-
7.+BH BHH
BHHHI3
3BJ%J
I33BJ
!%I33BJ
J%K
L KKLL L
BH BHH
BHHHI3
3!BJ??
I33B#
??
I33B!
??
K KK
L LL
M7)+
-.5463333!N&$
K L
)42/0
6333!
N"!
K LL
F)+
8B
M.4.68
!"%
+),
3M./0
:/5-3,)-
0
,7)1
43,)-
0
!"#$"%#&'()*#+,-$%
F)-
O/
6-B36
-B
6-,
:)7-3P
6-).4/0
663G3453M.4.68
-8.63,7)1
.423)4,36E
*Q0+
-3F)-
-073-807
0543.6
3-8030H
+/E
6.;0
3:75:0
7-R
35M3
/5;0
68)1
L.-13)4,3.6
3-53*03-7
0)-0
,3*R3R5
E3)63+54M
.,04
-.)/
3:7:7
.0-)
7R
.4M5
7F)-
.54B3-8.63,7)1
.4235736E*Q
0+-3F)-
-073-807
5M368
)//345-3*0
70:
75,E
+0,35-8
073-8)
43M573R5E7
35143E60
3573-53*03,.6+
/560
,3-5
35-8
071.-85E-
3-80
30H:
706
60,31
7.--0
43+5460
4-35M3/5
;068
)1L.-
13)4,31
.//3*0
70-
E740,
3-53/5;0
68)1
L.-13E:5
4370S
E06
-BTUVW?
&N!N"J
!J
3
TUVW?
33
3
3
B+8)+
M"%L86
+ML"%
3/E23+8).43)66
0F*/
R8.2836:0
0,
B+8)+
M"%L86BUXY
:<TZ[
3/U[Z
,06
+7.:-
.54
:)7-34EF*0
7S-R
.-0F
P$J375//
073+8).4D3#
C\"J
!'&%
L:$
!+8)
.43/.49D3)--
)+8F04
-"J
$!$#
$"
/E23:/)
-0D3/
0M-
+M"
JLJ%
%%/L#
"#
/E23:/)
-0D37
.28-
+M"
JLJ%
%%7L#
"$
:E68
073/E2D3/
8+M%
JLJ!
JJ/L#
"%
:E68
073/E2D37
8+M%
JLJ!
JJ7L#
"&
+8)
.436:)
+07
+M%
JLJ!
J"L#
$'
M8+63F%3H3JB(3H3!"
3/2B
MM8FMJ
!":!
J(
(&L#"
34+34A]>V^34_Z
M4/4
6):
$C
68+6D3&L#"3H3JB'%
M686)
J'%*
J($
!J
70;
.6.5438.6-5
7R
70;
,06
+7.:-.54
,)-
0*R
)70/
0)60
,&N!N"J
!J7F
"
C &
$
(
:)7-35M
!J"'
:)7-35M
!
!
C " %
# ('
"
!J
:)7-35M
:)7-35M
!
!
'.(-$#($
!#)/0&#(1(-)(2)*#%"#",!*,
(-%4#/&*#+(,
%5#6'.(
'789:+:3.&
! !
" "
# #
$ $
% %
& &
' '
( (
))
**
++
,,
-.-/
0
,12345
6+)/
0
,7)1
4
+80+
90,
)::7
5;0
,
LOVESHAW
<=333333333333+>?
@<=A
7-B3"C&
D365E-8
3+)4
))4D3:
)BITW
F)-
07.)/
-5/0
7)4
+06
3E4/0
66335
-807
1.60345-0
,G
.4+8
F0-
7.+BH BHH
BHHHI3
3BJ%J
I33BJ
!%I33BJ
J%K
L KKLL L
BH BHH
BHHHI3
3!BJ??
I33B#
??
I33B!
??
K KK
L LL
M7)+
-.5463333!N&$
K L
)42/0
6333!
N"!
K LL
F)+
8B
M.4.68
!"%
+),
3M./0
:/5-3,)-
0
,7)1
43,)-
0
!"#$"%#&'()*#+,-$%
F)-
O/
6-B36
-B
6-,
:)7-3P
6-).4/0
663G3453M.4.68
-8.63,7)1
.423)4,36E*Q
0+-3F)-
-073-807
0543.6
3-8030H
+/E
6.;0
3:75:0
7-R
35M3
/5;0
68)1
L.-13)4,3.6
3-53*03-7
0)-0
,3*R3R5
E3)63+54M.,04
-.)/
3:7:7
.0-)
7R
.4M5
7F)-
.54B3-
8.63,7)1
.4235736E*Q
0+-3F)-
-073-807
5M368
)//345-3*0
70:
75,E+0,
35-8
073-8)4
3M573R5E735143E60
3573-53*03,.6+/5
60,3-535-8
071.-85E-3-8
030H
:706
60,31
7.--0
43+5460
4-35M3/5
;068
)1L.-
13)4,31
.//3*0
70-
E740,
3-53/5;0
68)1
L.-13E:5
4370S
E06
-BTUVW?
"N!"N"J!
J
3
TUVW?
33
!JN"(N"J!!
3
B;M)
+M"
%
;07-.+)/
3M00
,07
)660
F*/
RD3+M"
%
B;M)
+M"
%BUXY
:<TZ[
3/U[Z
,06
+7.:-.54
:)7-34EF*0
7S-R
.-0F
3B;+L!JJ
!#
!04
072R3+8).4
++LJJJ!
$3M-
B"
*7)+
90-D30407
2R3+8).4
++LJJJ"
!#
:)40/
3*7)+
90-
+M"
JLJ!
"#L#
"$
+/)
F:D3;07
-.+)/
3M00
,07
+M"
JLJ#
'!L$
!%
F5E4-D3;07
-.+/0
368)M
-6+M"
JLJ#
'"L$
!&
*7)+
90-D3;07
-.+)/
3+R/
.4,07
+M"
JLJ$
"$L$
!'
*7)+
90-D3+R/
.4,07
+M"
JLJ$
"%L%
!(
6:)+
07D3;
07-.+/0
3+/)
F:
+M"
JLJ$
'"L#
!C
+E:3*)
60D3#
3+E:6
+M"
JLJ$
(JL%
!!J
0407
2R3+8).43*7)+
90-
+M"
JLJ%
"$L#
!!!
*0)7
.423:/)
-0D3;
07-.+)/
3M00
,07
+M"
JLJ%
"%L$
!!"
*7)+
90-D3:.+93+R/
.4,07
+M"
JLJ%
"&L$
!!#
)7FD3;
07-.+)/
3+R/
.4,07
+M"
JLJ%
"'L$
!!$
*/5+9D3685+93F5E4-
+M"
JLJ%
"CL#
"!%
:.;5
-3*7
)+90
-D3-75//
0R36-5
:3+R/
.4,07
+M"
JLJ%
##L$
!!&
8)7
,36-5
:D3,52
+M"
JLJ%
#$L#
!!'
,52D3-
75//
0R36-5
:+M"
JLJ%
#%L#
!!(
6:)+
07D3,
52
+M"
JLJ%
#&L#
!!C
6:)+
07D3:
5.4-0
7+M"
JLJ%
$JL#
""J
:5.4-0
7D3;
07-.+)/
36-5
:+M"
JLJ%
$!L#
!"!
*/5+9D36E+-.543+E:
+M"
JLJ%
$#L$
"""
*/5+9D36E+-.543+E:D3)7F
+M"
JLJ%
'$L$
!"#
*7)+
90-D3+R/
.4,07
36E::
57-3*/
5+9
+M"
JLJ%
C"L$
!"$
7E**
073*EF:0
7M#
F*
!"%
M8+63F#3H3!J
MM8F,JJ
(:!J
#"&
M8+63F&3H3!"
MM8F2J!
":!J
$"'
M/)-
31)6
807
3F&
MM1F2:
&"(
M/)-
31)6
807
3F(
MM1F8:
&"C
M/)-
31)6
807
3!N$
MM16,
:"
#J80H
34E-3F%3
M8M4
FM:
$#!
80H
34E-3F&
M8M4
F2:
(#"
80H
34E-3F(
M8M4
F8:
&##
80H
34E-3#N(L!&
M8M4
6Q:
!#$
88+63F%3H3!"
3M8
8FMJ
!":!
J$
#%88+63F%3\3!&3
M88FMJ
!&:!
J!
#&88+63F&3H3!&
3M8
8F2J!
&:!J
(#'
88+63F&3H3"J
M88F2J"
J:!J
$#(
88+63F(3H3"J
M88F8J"
J:!J
!J#C
88+63F(3H3"%
M88F8J"
%:!J
"$J
88+63F!J3H3"J
M88F.J"J
:((
"$!
/5+931)6
807
3F%
M/1FM:
&$"
/5+931)6
807
3F&
M/1F2:
!&$#
/5+931)6
807
3F(
M/1F8:
!"$$
/5+931)6
807
3F!J
M/1F.:
"$%
/5+931)6
807
3#N(
M/16M
:!
$&F%34R/
543/5+9.4234E-3
M4/4
FM6
"$'
68+63F%3H3!&
M68FMJ
!&:!
J$
$(68
+63F%3H3"%
M68FMJ
"%:!
J$
$C68
+63F%3H3$%
M68FMJ
$%:!
J(
%J68
+63F%3H3'J
M68FMJ
'J:!
J"
%!68
+63F&3H3!&
M68F2J!
&:!J
$%"
68+63F&3H3"J
3M6
8F2J"
J:!J
"%#
7)-
+80-
38)4
,/0
8+L!J$%
!%$
8)4
,3945*
8+L!J$&
"%%
/.F.-361.-+83)66
R/,
M%J&
!%&
M/513+54-7
5/D3!N$34:-
3H3#N(3-E*0
4$JJL""
J"
%'2E.,0,
3+R/
.4,07
4$J!L""
(!
%(+R/
.4,07
D3-75//
0R36-5
:4$J!L##
$!
%C+R/
.4,07
D3;07
-.+)/
3-75//0R
D36-)
4,)7
,3
]]]]]8.2836:0
0,3F
)+8.406
3E60
34$J!L#&
#]]]]]
4$J!L#&
"!
&J
75,3+/0
;.6
4$'!
!&!
+/0
;.6D3+R/
.4,07
4%"$
!&"
M/513+54-7
5/D3!N(34:-
3H3!N$3-E*0
4%CJ
"&#
61.-+8
4&%!
"&$
8)4
,3;)/
;04&$"
!&%
*0)7
.42D3:
.//5
13*/5
+9
:*"JL6*L"
"&&
0/*5
1D3!
N$4:-
3H3#N(3:E68
/5+
:ML!(
"&'
:.:0
3),):
-07D3!N$3H3!N(
:ML"'
"&(
0/*5
1D3)
,):
-07D3!N(34:-
3H3!N$3-E*0
:67&#
&!
&C68
5+93)*
657*0
768
9LJJ
'"
'J68
5E/,
073*5/-
D3!N"^3,
.)3H3%N(^3/
2B
6:8L!$!%
!'!
0L+/.:D3!N$^
6:8L!$!'
!'"
0H-0
46.5436:7
.42
6:7L!J%C
"'#
/.40)
7368)M
-D3;07
-.+)/
-6"J
L""L!"
JJL$
"'$
*E68
.42D3;
07-.+)/
3+R/
.4,07
+M"
JLJ%
('L#
!'%
6/5-3+5;0
7+M"
JLJ&
'$L$
!'&
+5//)7
D3"J?
?3.,
6:8L!&$(
!''
70;
.6.5438.6-5
7R
70;
,06
+7.:-.54
,)-
0*R
)70/
0)60
,"N!"
N"J!
J7F
""
"#
&'
"'
!J
%"
%(
&#
#(
!#
#"&
$!$%
$'%!
%!
&!
&$%'
&(
!$
'J
'J
$
$C
#C
$$$$
## #C
#C
"C
(
$#
#"'"(
#'
&&
&&
##
$$
&(
%'
!'
'!
!(
&"
'"#$
$&!C
%# "(
!&$#
#"
!
$$
$C#!
$C
$"
$(
"J
$(
'#
#!
'$
!"
#&
!%
!%
$$
#C
&%#J
%%#%
$"
%C
&C
&J60
03:)
7-6
3/.6-
"%
$J"C
$##"
&J
&"
$#
$J
"C
'&
%J
%$
%&''
C
"!
CC
E C
E
CEC
E
E
LOVESHAW
E
C
E
EC
E
E
EE
E
C EC
C
E `
C
C
E
E
E
DO
O
T SC
ALE
R
T
E
E
C
E
EE
E E
CE
E
E
E E
E
CE
E
EC
E
E
EE
CE
E
E
E
CE
E
E E
EE
E
CE
E
EE
E
E
EE
es
C
t o
set c
s
EC
EE
EE
C
C
t o
set c
s a
a
ae
arts
st
EC
E
EC
CC
C
C
CC
E
C
CC
CC
C
C
C
C
EC
C
C
E
EE
CE
EE
E
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
RT.
296
, SO
UTH
CAN
AAN
, PA.
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2�
+ --
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCAL
E PR
INT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
2/23
/201
0
richm
.BXO
CF2
5
BOX
OPE
NIN
G A
SSEM
BLY,
CF2
5-T
.BXO
CF2
5.id
w
Parts
Lis
tD
ESC
RIP
TIO
NPA
RT
NU
MBE
RQ
TYIT
EMPI
LLO
W B
LOC
K, 5
/8"
BRG
-109
71
1AR
M (S
UC
TIO
N C
UPS
)C
F20-
0041
-41
280
/20
EXTR
USI
ON
CF2
0-01
01H
-41
3G
UID
E U
NIT
, SH
OR
TC
F20-
0103
-41
4BL
OC
K, R
OTA
RY
CF2
0-03
88-4
15
POST
, BO
X O
PEN
ING
CF2
0-04
06-5
16
PLAT
E, R
OTA
RY
ACTU
ATO
RC
F20-
0407
-41
7BR
ACKE
T, N
UT
CF2
0-04
08-4
18
LEAD
SC
REW
, BO
X O
PEN
ING
CF2
0-04
09-4
19
SPAC
ER, B
OX
OPE
NIN
G A
SSY
CF2
0-05
11-3
110
MO
UN
TIN
G P
LATE
, BO
X O
PEN
ING
ASS
YC
F20-
0528
-31
11BL
OC
K, S
UC
TIO
N C
UP,
AR
MC
F20-
0574
-41
12N
UT
PLAT
E, R
H T
HR
DC
F50-
0135
R-4
113
FLAT
WAS
HER
1/4
FFW
SDP
214
HEX
NU
T, M
8FH
FNM
HP
915
HH
CS
M6
X 20
FHH
MG
020P
104
16H
HC
S M
8 X
20FH
HM
H02
0P10
417
HH
CS
M8
X 25
FHH
MH
025P
105
18H
HC
S M
8 x
30FH
HM
H03
0S10
419
HH
CS
M8
X 40
FH
HM
H04
0P10
420
HH
CS
M8
X 45
FHH
MH
045P
104
21LO
CK
WAS
HER
M6
FLW
MG
P4
22LO
CK
WAS
HER
M8
FLW
MH
P20
23SH
CS
M8
X 65
FSH
MH
065P
102
24SS
CP
M6
X 8
FSSM
G00
8B10
325
HAN
D K
NO
BH
C-1
046
226
HAN
D C
RAN
K, F
OLD
ING
HAN
DLE
HC
-105
21
27R
OTA
RY
ACTU
ATO
RN
401-
294
128
FLO
W C
ON
TRO
L, 1
/4 N
PT X
1/4
TU
BEN
591
229
REE
D S
WIT
CH
N61
22
30EL
BOW
, 1/4
NPT
X 3
/8 P
USH
LOC
PF-1
81
313/
8 C
LOSE
NIP
PLE,
BR
ASS
PF-3
21
32VA
CU
UM
CU
PVC
-100
11
33
REV
ISIO
N H
ISTO
RY
REV
DES
CR
IPTI
ON
DAT
EBY
AR
ELEA
SED
2/23
/201
0R
M
3
23
17
11
23
17
29
20
13
4
7
218
231
9
15 23 10
28
30
3024
5
19
16 22
6
1823
33
32
312
14
26
18
23
23 15
27
12
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
an
C
ompa
nyR
T. 2
96, S
OU
TH C
ANAA
N, P
A.ITW
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2
!+ -
-
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCAL
E PR
INT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
2/10
/201
0
richm
3/10
/201
1
.FFA
CF2
5
FLAP
FO
LDER
ASS
EMBL
Y,C
F25-
T
.FFA
CF2
5.id
w
Parts
Lis
tD
ESC
RIP
TIO
NPA
RT
NU
MBE
RQ
TYIT
EMSC
ALE
40-0
261
1TH
RU
ST W
ASH
ERBS
G-1
122
42
FLAP
FO
LDER
FR
ON
TC
F20-
0028
-51
3FL
AP F
OLD
ER R
EAR
CF2
0-00
29-5
14
FLAP
FO
LDER
BR
ACKE
TC
F20-
0367
-52
5M
OU
NT,
FLA
P FO
LDER
CF2
0-03
75-5
16
CLA
MP,
FLA
P FO
LDER
CF2
0-03
76-3
27
POIN
TER
, FR
ON
T FL
AP F
OLD
ERC
F20-
0545
-31
8PI
VOT
BRAC
KET,
FLA
P FO
LDER
CF2
0-05
77-5
29
BRAC
KET,
CYL
IND
ER, F
LAP
FOLD
ERC
F20-
0578
-42
10PI
VOT
SHAF
T, F
LAP
FOLD
ERC
F20-
0581
-32
11R
UBB
ER B
UM
PER
F3M
B1
12BH
CS
10-3
2 X
1/2
FBH
SD05
0P05
413
FLAT
WAS
HER
M8
FFW
MH
P6
14FL
AT W
ASH
ER 1
/4FF
WSD
P4
15H
EX N
UT,
M8
FHFN
MH
P4
16H
HC
S M
5 X
12
FHH
MF0
1291
01
17H
HC
S M
6 X
20FH
HM
G02
0P10
418
HH
CS
M6
X 25
FHH
MG
025P
104
19H
HC
S M
8 X
30FH
HM
H03
0S10
420
HH
CS
M10
X 7
0FH
HM
I070
P88
321
LOC
K W
ASH
ER M
5FL
WM
FP2
22LO
CK
WAS
HER
M6
FLW
MG
P8
23LO
CK
WAS
HER
M8
FLW
MH
P4
24LO
CK
WAS
HER
M10
FLW
MIP
325
NYL
OC
K N
UT,
10-
24FN
LNSC
P2
26SH
OU
LDER
BO
LT 1
/4 x
1 L
G, 1
0-24
FSBS
C10
0B08
227
SHO
ULD
ER B
OLT
5/1
6 x
1/2
x 1/
4-20
TH
RD
FSBS
E050
B08
228
SHC
S M
5 X
0.8
X 12
LG
.FS
HM
F012
P10
129
SHC
S 10
-32
X 1/
2FS
HSD
050P
054
30R
ATC
HET
HAN
DLE
HC
-103
21
31SP
EED
CO
NTR
OL,
90
DEG
N40
0-18
34
32AI
R C
YLIN
DER
N40
1-35
82
33G
REA
SE F
ITTI
NG
, 1/4
-28U
NF
SPH
-136
82
34R
OD
EN
D B
EAR
ING
SPH
-146
02
35
REV
ISIO
N H
ISTO
RY
REV
DES
CR
IPTI
ON
DAT
EBY
AR
ELEA
SED
2/10
/201
0R
M
3
30
4
13
11
9
26
1722
8
27
2131
25
1
7
7
2521
9
13
30
11
5
23 185
29 22 12
1624
14
20
20
14
14
2416
23
18
32
33 10
10
19
23 15
2835
33
32
32
2
18
23
2
34
34
2
! !
" "
# #
$ $
% %
& &
' '
( (
))
**
++
,,
-.-/
0
,12345
6+)/
0
,7)1
4
+80+
90,
)::7
5;0
,
LOVESHAW
<=333333333333+>?
@<=A
7-B3"C&
D365E-8
3+)4
))4D3:)B
ITW
F)-
07.)/
-5/0
7)4+06
3E4/0
66335
-807
1.60345-0
,G
.4+8
F0-
7.+BH BHH
BHHHI3
3BJ%J
I33BJ
!%I33BJ
J%K
L KKLL L
BH BHH
BHHHI3
3!BJ??
I33B#
??
I33B!
??
K KK
L LL
M7)+
-.5463333!N&$
K L
)42/0
6333!
N"!
K LL
F)+
8B
M.4.68
!"%
+),
3M./0
:/5-3,)-
0
,7)1
43,)-
0
!"#$"%#&'()*#+,-$%
F)-
O/
6-B36
-B
6-,
:)7-3P
6-).4/0
663G3453M.4.68
-8.63,7)1
.423)4,36E
*Q0+
-3F)-
-073-807
0543.6
3-8030H
+/E
6.;0
3:75:0
7-R
35M3
/5;0
68)1
L.-13)4,3.6
3-53*03-7
0)-0
,3*R3R5
E3)63+54M
.,04
-.)/
3:7:7
.0-)
7R
.4M5
7F)-
.54B3-8.63,7)1
.4235736E*Q
0+-3F)-
-073-807
5M368
)//345-3*0
70:
75,E
+0,35-8
073-8)
43M573R5E7
35143E60
3573-53*03,.6+
/560
,3-5
35-8
071.-85E-
3-80
30H:
706
60,31
7.--0
43+5460
4-35M3/5
;068
)1L.-
13)4,31
.//3*0
70-
E740,
3-53/5;0
68)1
L.-13E:5
4370S
E06
-BTUVW?
"N!J
N"J!
J
3
TUVW?
33
3
3
B)-)
+M"
%
)4;./3-)
*/03)6
60F*/
R
B)-)
+M"
%BUXY
:<TZ[
3/U[Z
.-0F
S-R
:)7-34EF*0
7,0
6+7.:-.54
#!
+M"
JLJ#
("L$
)4;./30H
-046.54
&!
+M"
JLJJ
!%L%
M5/,
.423*)7
6310/
,F04
-"!
"M/
1F8:
/5+931)6
807
3F(
"""
MM1F8:
M/)-
31)6
807
3F(
"#"
M88F8J"
%:!J
88+63F(3H3"%
"$"
M8M4
F8:
80H
34E-3F(
"&"
M/1F2:
/5+931)6
807
3F&
"'"
M88F2J!
&:!J
88+63F&3H3!&
3"(
$*&
""'#
"*/
5+9D3:70M
5/,
3:.;5-
"C&
8!$
C)+/)
F:
#!!
+M"
JLJ%
%'7L$
:/)-
0D3F
)Q573M/)
:3M5
/,07
D37.28-
#"!
+M"
JLJ%
%'/L$
:/)-
0D3F
)Q573M/
):3M5/,
07D3/
0M-
##(
MM8FMJ
#%:!
JM8
+63F%3H3#%
#$(
M4/4
FM6
F%34R/
543/5
+9.4234E-36B6B
%J!
+M"
JLJ$
#&L$
+04
-073:/)
-0%%
"+M"
JLJ$
#'L#
*7)+
90-D3+04
-073:/)
-0%'
!+M"
JLJ%
""7L$
*7)+
90-D3+04
-073:/)
-0D37
.28-
%(!
+M"
JLJ%
""/L$
*7)+
90-D3+04
-073:/)
-0D3/
0M-
%C!"
M88FMJ
!":!
J88+63F%3H3!"
3&J
$M/
1FM:
/5+931)6
807
3F%
&!$
M8M4
FM:
80H
34E-3F%3
70;
.6.5438.6-5
7R
70;
,06
+7.:-.54
,)-
0*R
)70/
0)60
,"N!J
N"J!
J7F
#!
#
"&
"'
%J
%(
%C
%C%C
%'
&J&!
&J
&!
%%
%C
%C
"$
"!
&
"#
"C
"(
"("C
#"
##
"C#$
"C
#$
"(
"(
##
##
#$
"("(
#$
""
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
an
C
ompa
nyR
T. 2
96, S
OU
TH C
ANAA
N, P
A.ITW
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2
!+ -
-
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCAL
E PR
INT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
2/2/
2010
richm
3/10
/201
1
.BTA
CF2
5
BOX
TRAN
SFER
ASS
EMBL
Y
.BTA
CF2
5.id
w
Parts
Lis
tD
ESC
RIP
TIO
NPA
RT
NU
MBE
RQ
TYIT
EMM
OU
NT,
LIN
EAR
SH
AFT
CF2
0-03
86-5
11
PLAT
E, C
YLIN
DER
MO
UN
TIN
GC
F20-
0489
-31
2AR
M, B
OX
TRAN
SFER
CF2
0-05
18-5
13
TEE
PLAT
E, B
OX
TRAN
SFER
CF2
0-05
31-4
14
FHC
S M
6 X
16
FFH
MG
016P
102
5H
HC
S M
5 X
20FH
HM
F020
P10
46
HH
CS
M8
X 20
FHH
MH
020P
108
77/
16-2
0 H
EX J
AM N
UT
FHJN
SMP
38
LOC
K W
ASH
ER M
5FL
WM
FP4
9LO
CK
WAS
HER
M8
FLW
MH
P8
10LO
CK
WAS
HER
M10
FLW
MIP
411
NYL
OC
K N
UT
M6
FNLN
MG
P2
12SH
CS
M10
x30
FSH
MI0
35P8
84
13ST
REE
T EL
BOW
, 1/8
NPT
H14
61
14FL
OW
CO
NTR
OL,
1/4
NPT
X 3
/8 T
UBE
N40
0-22
02
15C
YLIN
DER
, BO
X TR
ANSF
ERN
401-
329
116
REE
D S
WIT
CH
N61
72
17FL
OAT
ING
JO
INT
N62
91
18LI
NEA
R B
EAR
ING
PB25
-WB-
22
19PI
PE A
DAP
TER
, 1/4
X 1
/8PF
-27
220
SHO
CK
ABSO
RBE
RSH
K-00
72
21JA
M N
UT
SHK-
007-
N2
22LI
NEA
R S
HAF
T, B
OX
PUSH
ERTS
25-2
2-93
0-4
223
REV
ISIO
N H
ISTO
RY
REV
DES
CR
IPTI
ON
DAT
EBY
AR
ELEA
SED
2/2/
2010
RM
1
10
23
710
4
5
7
1520
14
16
17
2122
19
3
12
69
2
16
17
1113
21
20 158
188
8
22
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
RT.
296
, SO
UTH
CAN
AAN
, PA.
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2�
+ --
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCAL
E PR
INT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
2/23
/201
0
richm
3/18
/201
1
.SLA
CF2
5
SLED
ASS
EMBL
Y, C
F25
.SLA
CF2
5.id
w
Parts
Lis
tD
ESC
RIP
TIO
NPA
RT
NU
MBE
RQ
TYIT
EMSL
ED M
OU
NT
CF2
0-03
66-6
11
TOP
SLED
, PLA
STIC
CF2
0-03
77-6
12
BRAC
KET,
SLE
D B
ALAN
CE
CYL
IND
ERC
F20-
0509
-41
3PO
INTE
R, S
LED
CF2
0-05
10-4
14
RO
D, S
LED
LO
CK
CF2
0-05
19-4
15
BLO
CK,
SLE
D R
OD
SU
PPO
RT
CF2
0-05
20-3
16
ANG
LE, S
LED
CF2
0-05
21-4
17
ANG
LE, S
LED
, SH
OR
TC
F20-
0550
-41
8SU
PPO
RT,
SLE
DC
F20-
0562
L-4
19
SUPP
OR
T, S
LED
CF2
0-05
62R
-41
10FL
AT W
ASH
ER M
6FF
WM
GP
1011
HEX
NU
T M
6FH
FNM
GP
1012
HH
CS
M5
X 10
FHH
MF0
10P1
02
13H
HC
S M
6 X
16
FHH
MG
016P
1010
14H
HC
S M
8 X
20FH
HM
H02
0P10
415
HEX
JAM
NU
T, M
8FH
JNM
HP
116
LOC
K W
ASH
ER M
5FL
WM
FP4
17LO
CK
WAS
HER
M6
FLW
MG
P10
18LO
CK
WAS
HER
M8
FLW
MH
P4
19SH
CS
M5
X 12
FSH
MF0
12P1
02
20SH
CS
M5
X 40
FSH
MF0
40P1
08
21KN
OB
HC
-104
41
22BL
OC
KIN
G V
ALVE
(NO
T SH
OW
N)
N36
7-N
123
SPEE
D C
ON
TRO
L, 9
0 D
EGN
400-
183
124
AIR
CYL
IND
ERN
401-
292
125
CLE
VIS
N52
41
26LI
NEA
R B
EAR
ING
PB20
-SB-
22
27BR
EATH
ERPS
R65
91
28R
IVET
, C'S
UN
KSP
H-1
258
3029
LIN
EAR
SH
AFT,
SLE
DTS
20-2
2-55
5-4
230
REV
ISIO
N H
ISTO
RY
REV
DES
CR
IPTI
ON
DAT
EBY
AR
ELEA
SED
2/23
/201
0R
M
2528
26
2423
19 15
5
16
22
20
17
6
7
2
1
301915
27
21
21
27
13
10
9
4
1411
18
12
17
29
8
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
RT.
296
, SO
UTH
CAN
AAN
, PA.
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2�
+ --
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCA
LE P
RINT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
2/9/
2010
richm
10/2
7/20
11
.HFA
CF2
5
HO
PPER
FR
AME
ASSY
.HFA
CF2
5.id
w
Parts
Lis
tD
ESC
RIP
TIO
NPA
RT
NU
MBE
RQ
TYIT
EMSL
IDE
END
ING
CF2
0-01
17-4
21
ANG
LE, H
OPP
ER B
ED, L
EFT
CF2
0-04
17L-
51
2AN
GLE
, HO
PPER
BED
, RIG
HT
CF2
0-04
17R
-51
3LA
TCH
, HO
PPER
CF2
0-04
22-3
24
BRAC
KET,
SM
ALL,
HO
PPER
CF2
0-04
42-3
25
RAM
P, H
OPP
ERC
F20-
0443
-31
6ST
RIP
, HO
PPER
CF2
0-04
51-4
27
POIN
TER
CF2
0-05
51-3
18
SID
E R
AIL,
HO
PPER
,LEF
TC
F20-
0564
L-5
19
SID
E R
AIL,
HO
PPER
,RIG
HT
CF2
0-05
64R
-51
10SP
ACER
, HO
PPER
GU
IDE
RAI
LC
F20-
0565
-32
11VE
RTI
CAL
GU
IDE,
HO
PPER
, RIG
HT
CF2
0-05
66-5
112
VER
TIC
AL G
UID
E,H
OPP
ER, L
EFT
CF2
0-05
67-5
113
HU
B, H
OPP
ERSP
RIN
GC
F20-
0575
-32
14C
OLL
AR, H
OPP
ER L
OC
KC
F20-
0584
-32
15SP
ACER
, HO
PPER
CO
LLAR
CF2
0-05
85-3
216
BHC
S, M
6X
30FB
HM
G03
0P01
02
17FH
CS
M5
X 16
FFH
MF0
16P1
012
18FL
AT W
ASH
ER M
6FF
WM
GP
419
HEX
NU
T M
5FH
FNM
FP2
20H
EX N
UT,
M8
FHFN
MH
P4
21H
HC
S M
8 X
20FH
HM
H02
0P10
1422
HH
CS
M10
X25
FHH
MI0
25P8
84
23LO
CK
WAS
HER
M4
FLW
MEP
224
LOC
K W
ASH
ER M
6FL
WM
GP
225
LOC
K W
ASH
ER M
8FL
WM
HP
1426
LOC
K W
ASH
ER M
10FL
WM
IP4
27LO
CK
WAS
HER
5/1
6FL
WSE
P2
28M
5N
YLO
N L
OC
KIN
GN
UT
S.S.
FNLN
MFS
429
NYL
OC
K N
UT
M6
FNLN
MG
P2
30SH
CS
M4
X30
FSH
ME0
30P1
02
31SH
CS
M5
X10
FSH
MF0
10B1
02
32SH
CS
M5
X20
FSH
MF0
20P1
018
33SH
CS,
M5
X25
FSH
MF0
25B1
04
34SH
CS
M6
X16
FSH
MG
016P
102
35SH
CS
5/16
-18
X 1.
00FS
HSH
100B
052
36R
ATC
HET
HAN
DLE
HC
-105
72
37LI
MIT
SW
ITC
HLD
F512
-L1
38LI
NEA
R B
EAR
ING
,FLA
NG
ED, 2
5MM
PBF2
5-SB
-14
39SH
OU
LDER
BO
LT, 3
/8 D
IAX
3/4
LG.
SPH
-138
02
40TO
RSI
ON
SPR
ING
SPR
-106
5L1
41TO
RSI
ON
SPR
ING
SPR
-106
5R1
42LI
NEA
R S
HAF
TTS
25-1
1-10
85-4
243
REV
ISIO
N H
ISTO
RY
REV
DES
CR
IPTI
ON
DAT
EBY
AR
ELEA
SED
2/9/
2010
RM
2
31
1
4
5
5
4
6
7
7
9
8
10
30
19
3933
39
26 21
2222 26
1917
40
20
3628
13
12 11
4020
42
33
14
28
36
32
2723
43
39
33
22
26
38
2431
2535
18
18
1839 33
14
37 16
15
33
41
37
16
15
34
26 21
43
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
RT.
296
, SO
UTH
CAN
AAN
, PA.
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2�
+ --
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCAL
E PR
INT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
2/18
/201
0
richm
.HD
ACF2
5
HO
PPER
DR
IVE
ASSE
MBL
Y
.HD
ACF2
5.id
w
Parts
Lis
tD
ESC
RIP
TIO
NPA
RT
NU
MBE
RQ
TYIT
EMBU
SHIN
G, B
RO
NZE
BSG
-102
51
1G
UID
E, C
HAI
N U
HM
WC
F20-
0051
-41
2SH
AFT,
IDLE
RC
F20-
0053
-31
3SP
RO
CKE
T, ID
LER
CF2
0-00
54-4
14
GU
ARD
, CH
AIN
CF2
0-00
55-5
15
CLU
TCH
HO
USI
NG
CF2
0-00
60-4
16
WAS
HER
, CLU
TCH
CF2
0-00
62-3
27
PAD
, CH
AIN
CF2
0-00
64-4
38
CH
AIN
GU
IDE
MO
UN
TC
F20-
0358
-61
9SP
ACER
, CYL
IND
ERC
F20-
0360
-41
10H
OU
SIN
G, C
LUTC
H B
EAR
ING
CF2
0-05
61-4
111
SHAF
T, H
OPP
ER D
RIV
EC
F20-
0563
-41
12C
AM C
LUTC
HC
L-10
012
13FH
CS
M5
X 12
FFH
MF0
12P1
04
14FL
AT W
ASH
ER M
8FF
WM
HP
815
FLAT
WAS
HER
M10
FFW
MIP
216
FLAT
WAS
HER
3/8
FFW
SFP
217
HEX
NU
T, M
8FH
FNM
HP
818
HEX
NU
T M
10FH
FNM
IP2
19H
HC
S M
8 X
20FH
HM
H02
0P10
420
HH
CS
M8
X 35
FHH
MH
035P
106
21H
HC
S M
10 X
20
FHH
MI0
20P8
82
22H
HC
S 3/
8-16
X 1
FHH
SJ10
0P08
223
LOC
K W
ASH
ER M
5FL
WM
FP2
24LO
CK
WAS
HER
M6
FLW
MG
P2
25LO
CK
WAS
HER
M8
FLW
MH
P10
26LO
CK
WAS
HER
M10
FLW
MIP
227
SHC
S M
5 X
0.8
X 12
LG
.FS
HM
F012
P10
228
SOC
. HD
. CAP
SC
REW
M6
X 25
FS
HM
G02
5P10
229
BEAR
ING
BLO
CK
LD3S
B2-2
025
130
FLO
W C
ON
TRO
LN
400-
183
231
CYL
IND
ER, H
OPP
ER D
RIV
EN
401-
291
132
RO
D C
LEVI
SN
471
133
1" ID
SH
AFT
CO
LLAR
SC10
02
34R
ETAI
NIN
G R
ING
SPH
-107
11
35SH
OU
LDER
BO
LTSP
H-1
073
136
SPR
OC
KET,
DR
IVE
SPK-
0024
137
CH
AIN
, 204
0 (N
OT
SHO
WN
)20
4262
11 F
T.38
REV
ISIO
N H
ISTO
RY
REV
DES
CR
IPTI
ON
DAT
EBY
AR
ELEA
SED
2/18
/201
0R
M
22
37
27
19
18 26 8 15 21
9
2026
2
14
2317
20 15 5 26 18
34
4
1
34
3
17
23
36
32
31
33
2824
7
6
13
3512
16
137
2428 11
2529
30
10
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
RT.
296
, SO
UTH
CAN
AAN
, PA.
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2�
+ --
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCA
LE P
RINT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
2/22
/201
0
richm
3/9/
2011
.BPA
CF2
5
BLAN
K PU
SHER
ASS
EMBL
Y,C
F25-
T
.BPA
CF2
5.id
w
Parts
Lis
tD
ESC
RIP
TIO
NPA
RT
NU
MBE
RQ
TYIT
EMLI
NEA
R S
HAF
T,H
OPP
ERC
F20-
0373
A-4
21
GAT
E, H
OPP
ERC
F20-
0446
-61
2PI
N, H
OPP
ERG
ATE
CF2
0-04
48-3
13
LEVE
R, H
OPP
ERG
ATE
CF2
0-05
42-4
14
HH
CS
M6
X12
FHH
MG
012P
104
5H
HC
S M
8 X
20FH
HM
H02
0P10
16
HEX
JAM
NU
T 1/
4-20
FHJN
SEP
17
LOC
K W
ASH
ER M
6FL
WM
GP
48
LOC
K W
ASH
ER M
8FL
WM
HP
19
SHO
ULD
ERBO
LT 1
/4X
1/2
FSBS
C05
0B08
110
SHC
S M
6 X
12FS
HM
G01
2P10
811
LIN
EAR
BEA
RIN
GPB
20-S
B-2
212
RO
D E
YEBE
ARIN
GSP
H-1
361
113
SUPP
OR
T, L
INEA
R S
HAF
TSP
H-1
389
214
REV
ISIO
N H
ISTO
RY
REV
DES
CR
IPTI
ON
DAT
EBY
AR
ELEA
SED
2/22
/201
0R
M
6
9
1
1
37
10
13
4
12
12
14 8 5
5814
2
11(4
)
11(4
)
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
AA
BB
CC
DD
TITL
E
DW
G N
OSC
ALE
DR
AWN
CH
ECKE
D
APPR
OVE
D
LOVESHAW
RT.
296
, SO
UTH
CAN
AAN
, PA.
MAT
ERIA
L
TOLE
RAN
CES
UN
LESS
OTH
ERW
ISE
NO
TED
:
INC
H
MET
RIC.X .X
X.X
XX= .0
50=
.015
= .0
05+
- + +-- -.X .X
X.X
XX= 1
.0m
m=
.3m
m=
.1m
m
+ ++
- --
FRAC
TIO
NS
1/
64+ -
ANG
LES
1/2�
+ --
MAC
H.
FIN
ISH
125
CAD
FIL
E
PLO
T D
ATE
DR
AWN
DAT
E
DO N
OT
SCA
LE P
RINT
MAT
'L
ST. S
T.
STD
PAR
T #
STAI
NLE
SS :
NO
FIN
ISH
THIS
DR
AWIN
G A
ND
SU
BJEC
T M
ATTE
R T
HER
EON
IS T
HE
EXC
LUSI
VE P
RO
PER
TY O
F LO
VESH
AW-IT
W A
ND
IS T
O B
E TR
EATE
D B
Y YO
U A
S C
ON
FID
ENTI
AL P
RPR
IETA
RY
INFO
RM
ATIO
N. T
HIS
DR
AWIN
G O
R S
UBJ
ECT
MAT
TER
TH
ERO
F SH
ALL
NO
T BE
REP
RO
DU
CED
OTH
ER T
HAN
FO
R Y
OU
R O
WN
USE
OR
TO
BE
DIS
CLO
SED
TO
OTH
ERW
ITH
OU
T TH
E EX
PRES
SED
WR
ITTE
N C
ON
SEN
T O
F LO
VESH
AW-IT
W A
ND
WIL
L BE
RET
UR
NED
TO
LO
VESH
AW-IT
W U
PON
REQ
UES
T.ric
hm
2/22
/201
0
richm
3/18
/201
1
.MG
ACF2
5
MAC
HIN
E G
UAR
DIN
GAS
SEM
BLY,
CF2
5
.MG
ACF2
5.id
w
Parts
Lis
tD
ESC
RIP
TIO
NPA
RT
NU
MBE
RQ
TYIT
EMSA
FETY
GAT
E SW
ITC
HA1
95SG
-TM
12
1SW
ITC
H K
EYA1
95SG
-TM
1 KE
Y2
2PA
NEL
BR
ACKE
TC
F20-
0123
-310
3G
UAR
D S
TATI
ON
ARY
CF2
0-03
33-6
14
GU
ARD
, SID
E, U
PPER
CF2
0-03
40-5
15
GU
ARD
, VER
TIC
LE F
EED
ERC
F20-
0343
-61
6G
UAR
D S
PAC
ERC
F20-
0344
-38
7PA
NEL
, SLI
DIN
GC
F20-
0418
-42
8SI
DE
CH
ANN
EL, S
AFET
Y G
ATE
CF2
0-04
19-4
49
PLAT
E, K
EY M
OU
NTI
NG
CF2
0-04
39-3
210
SPAC
ER, S
AFET
YSW
ITC
HC
F20-
0440
-32
11TR
ACK,
SAF
ETY
GAT
EC
F20-
0474
-41
12G
UAR
D, F
RO
NT
PAN
ELC
F20-
0539
-51
13G
UAR
D, M
OTO
R, S
IDE
CF2
0-05
47-4
114
GU
ARD
, MO
TOR
, TO
PC
F20-
0548
-41
15R
UBB
ER B
UM
PER
F3M
B2
16BH
CS
M5
X10
FBH
MF0
10P1
08
17BH
CS
M5
X12
FBH
MF0
12P1
018
18BH
CS
M5
X16
FBH
MF0
16P1
09
19BH
CS
M5
X20
FBH
MF0
20P1
012
20FH
CS
M5
X 12
FFH
MF0
12P1
04
21FL
AT W
ASH
ER M
5FF
WM
FP6
22H
EX D
OM
EN
UT
M5
FHD
NM
FP4
23H
EX N
UT
M5
FHFN
MFP
2524
LOC
K W
ASH
ER M
5FL
WM
FP31
25SH
CS
M5
X60
FSH
M06
0B08
426
SHC
S M
5 X
12FS
HM
F012
P10
1927
SHC
S M
5 X
16FS
HM
F016
P10
228
SHC
S M
5 X
25FS
HM
F025
B10
429
U-H
AND
LEH
C-1
004
230
SAFE
TY G
ATE
SLID
ELD
12B-
2096
-42
31
REV
ISIO
N H
ISTO
RY
REV
DES
CR
IPTI
ON
DAT
EBY
AR
ELEA
SED
2/22
/201
0R
M
4
18
15
18
14
193
24
2528 16
12
31
27
24
25
111
2226
27
22
2
10
8
2129
30
9
923
20
20
2524
25
13
6
17
18
519
2524
3
8
7
! !
" "
# #
$ $
% %
& &
' '
( (
))
**
++
,,
-.-/
0
,12345
6+)/
0
,7)1
4
+80+
90,
)::7
5;0
,
LOVESHAW
<=333333333333+>?
@<=A
7-B3"C&
D365E-8
3+)4
))4D3:)B
ITW
F)-
07.)/
-5/0
7)4+06
3E4/0
66335
-807
1.60345-0
,G
.4+8
F0-
7.+BH BHH
BHHHI3
3BJ%J
I33BJ
!%I33BJ
J%K
L KKLL L
BH BHH
BHHHI3
3!BJ??
I33B#
??
I33B!
??
K KK
L LL
M7)+
-.5463333!N&$
K L
)42/0
6333!
N"!
K LL
F)+
8B
M.4.68
!"%
+),
3M./0
:/5-3,)-
0
,7)1
43,)-
0
!"#$"%#&'()*#+,-$%
F)-
O/
6-B36
-B
6-,
:)7-3P
6-).4/0
663G3453M.4.68
-8.63,7)1
.423)4,36E
*Q0+
-3F)-
-073-807
0543.6
3-8030H
+/E
6.;0
3:75:0
7-R
35M3
/5;0
68)1
L.-13)4,3.6
3-53*03-7
0)-0
,3*R3R5
E3)63+54M
.,04
-.)/
3:7:7
.0-)
7R
.4M5
7F)-
.54B3-8.63,7)1
.4235736E*Q
0+-3F)-
-073-807
5M368
)//345-3*0
70:
75,E
+0,35-8
073-8)
43M573R5E7
35143E60
3573-53*03,.6+
/560
,3-5
35-8
071.-85E-
3-80
30H:
706
60,31
7.--0
43+5460
4-35M3/5
;068
)1L.-
13)4,31
.//3*0
70-
E740,
3-53/5;0
68)1
L.-13E:5
4370S
E06
-BTUVW?
$NCN"J
!J
3
TUVW?
33
3
3
B:40E
+M"
%
:40E
F)-
.+3)66
0F*/
R+M"
%L-
B:40E
+M"
%BUXY
:<TZ[
3/U[Z
,06
+7.:-.54
:)7-34EF
*07
S-R
.-0F
FEMM
/07D3;
)+EEF3204
07)-
57
$J"J
!(!
!-0
0D3*7)
66D3!
N$34:-
8!J
$!
":/
E2D38
0H3!N$34:-
8!J
C)"
#FEMM
/07D3!
N$34:-
4$J
JL!&
($
0/*5
1D3!
N$34:-
3H3!N$3:E68
3/5+
4$J
JL"&
#%
+544
0+-5
7D36
-7).28-
D3!N$34:-
3H3!N$3-E*0
4$J
JL#
(&
M.--
.42D36
-7BD3!N$34:-
3H3#N(3-E*0
4$J
JL(
&'
;)/;
0365
/3%N"
4$J
"L!#
#L+0
((
F)4
.M5/,
4$J
"L!#
#LF
!C
;)/;
0D3).73:./5-0
,4$J
"L!$
"!
!J;)
+EEF3204
07)-
57
4%'
&!
!!0/
*51D3!
N$4:-
3H3#N(3:E68
/5+
:ML!(
%!"
SE.+93,.6+
5440+
-3:/
E2D3!
N$34:-
:ML""
!!#
:.:0
34.::/
0D3!N$3H3"3!N"
:ML"#
!!$
0/*5
1D3!
N(34:-
3H3!N$3:E68
3/5+
:ML"C
!!%
#N(3-0
0D3*7)6
6:M
L#%
!!&
70,
E+07
D3#N(3H3!N$34:-
D3*7)6
6:M
L#(
"!'
4.::/
0D3#N(34:-
3H3!L!N"\
:ML&%
!!(
M./-
07N702
E/)
-57D3!
N$34:-
4&#
C!
!C65
M-36-)
7-N,EF:3;)
/;0
4&$
!!
"J;)
/;0D3F
)4E)/
3/5+9L5E-
4&$
J!
"!*7
)+90
-4&(
!N*
#""
/E*7
.+)-
57D3!
N$34:-
4&(
!!
"#*7
)6636-
700
-30/
*51D3C
JD3!N$34:-
:ML!J
!"$
*7)6
634.::/
08!"
'!
"%M./-
07D36
E+-.543#N(\3-
E*0
4$J
JL"%
'"
"&
70;
.6.5438.6-5
7R
70;
,06
+7.:-.54
,)-
0*R
)70/
0)60
,$NCN"J
!J7F
!!
!"
!
!$
!"
!'!&
$ $
C#
%
$
!"
$
!#"
$
&'
&&
&
(
!'
$
%
$
$
!%
!J '
%
!"
!(
"&-5
357,07
370:
/)+0F
04-3M./-
0763M5
734$J
JL"%
'E60
3:)7
-3PG34$J
JL"%
'L7M
"#
!"
"#
!C
"!!C
""""
"J
"J""
"$
"%
56
ELECTRICAL DRAWINGS AND
SCHEMATICS
Global Drawings
The drawings and schematics in this section represent the electrical layouts common among all machines.
Chapter
11
57
PROGRAMMABLE LOGIC CONTROLLER
STANDARD PLC – AB MICRO830
OPTIONAL PLC – AB MICRO 850
NOTE: CHECK TITLE BLOCK ON PANEL ASSEMBLY BEFORE ORDERING REPLACEMENT PLC.
57
120 Volt Specific Drawings
The drawings and schematics in this section represent the electrical layouts related specifically to 120V rated machines.
65
240 Volt, CE Compliant Specific Drawings
The drawings and schematics in this section represent the electrical layouts related specifically to 240V rated machines that are CE compliant. Note: not all machines are CE compliant – determine the specifications of the machine in order to reference the proper drawings and schematics within this manual.
74
240 Volt, Non CE Compliant Specific Drawings
The drawings and schematics in this section represent the electrical layouts related specifically to 240V rated machines that are not CE compliant. Note: not all machines are CE compliant – determine the specifications of the machine in order to reference the proper drawings and schematics within this manual.
LADDER LOGIC
CF25T
Controller.Micro830.Micro830.START
Controller.Micro830.Micro830.CYCLE_SEQUENCER
Controller.Micro830.Micro830.OUTPUTS
Controller.Micro830.Micro830.HOPPER
Controller.Micro830.Micro830.STATUS
82
AVAILABLE SPECIAL OPTIONS
Optional Sensor Part Numbers
BOX JAM DETECTION SENSOR: P/N: A219‐PF‐13
LOW TAPE DETECTION SENSOR: P/N: 303527
LOW HOPPER DETECTION SENSOR: P/N: 302575
Chapter
12