Toro 23135 Service Manual
INDECO Hydraulic Breaker
MES150 Service and Maintenance
Manual
PPM2000150
$35.00
IMPORTANT SAFETY NOTICE
Most accidents involving service and maintenance are caused by failure to
observe basic safety rules or precautions. Accidents can often be avoided by
recognizing potentially hazardous situations before an accident occurs.
It is necessary to read and understand all safety precautions before performing
service and maintenance to any INDECO attachment. Safety precautions are
outline in this manual where they exist and failure to follow these precautions
could cause serious bodily injury or death.
INDECO can not anticipate every possible situation that could involve a potential
hazard. Therefore the warnings in this guide are not to be considered all
inclusive. If a tool or repair procedure is not specifically recommended by
INDECO, you must satisfy yourself that it is safe for you and other people who
could be involved. You should not modify or change the configuration of INDECO
attachments without the expressed written authorization of the manufacturer.
Improper maintenance of any attachment can be dangerous and could result in
bodily injury or death.
Do not perform any maintenance on INDECO attachments until you have read
and understand the procedures as described in the Service and Maintenance
Manual.
If you have any questions or these procedures contact INDECO’s Product
Support Department at (203) 377-7791.
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Daily, Weekly, 500 Hours, 1000 Hours……………………………………………..…
Breaker Lubrication……………………………………………………………………...
Lower Bushing and Insert Inspection……………………………………………….…
Tool Selection……………………………………………………………………………
Tool Breakage Analysis…………………………………………………………………
s………………………………………………………………….…
Tool Replacement…………………………………………………………………….…
27
Accumulator Indicators……………………………………………………………….…
Accumulator Rebuilding. ………………………………………………………………
Nitrogen Recharge………………………………………………………………………
34
Cylinder Removal and Disassembly…………………………………………………..
Disassembly of Chuck Housing...…………………………………………….………..
Table of Contents
Safety Information…………………………………………...………………….….
Preface………………………………………………………………………………..
I. Breaker Installation…………………………………..………….……….……
II. General Breaker Usage……………………………………...……………….. 10
2
5
6
III. Common Causes of Breaker Damage …………...………………..…..…..
14
IV. Routine Maintenance ………………………………………...…………….… 17
17
17
17
V. Breaker Tools…………………………………………………………..…….... 20
20
21
Description of Typical Stress…………………………………………………………..
Methods to Reduce Stress Effects and Increase Tool Life…………………………
Typical Tool Failure
21
21
23
25
VI. Accumulator Removal and Rebuilding ..........…………………………….
Safety Instructions .................................................................................……….… 27
Warnings…………………………………………………………………………………
Potential Hazards……………………………………………………………………….
Emergency Action…………………………………………………………………….…
27
27
27
29
30
41
VII. Disassembly of the Breaker ....................................................…………………..
Removing Breaker Side Plates ................................................………………….… 34
Breaker Head Removal and Disassembly................................................…….….. 35
37
38
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47
Checklist for Accurate Breaker Problem Diagnosis……………..…………………...
Troubleshooting………………………………………………………..………………...
……………………..…………………………………..…..
……………………………………………………………………….…
52
53
VIII. Assembling the Breaker .........……..................................................……..……....
Chuck Housing Assembly ..................................................................……..……... 39
Cylinder Assembly .............................................................................………..…… 40
Breaker Head Assembly ...........................................…........................……….….. 43
Breaker Side Plate Assembly ...................................….....................………….…. 45
Assembly of Pressure and Return Links ...................….............................……..... 46
IX. Trouble Shooting and Problem Diagnosis …………………………....…
Low Working Pressure on Test Gauges …………………………..……………... 49
Return (Back) Pressure on Test Gauges is Above the Specifications……..……...
Breaker Does Not Hammer……………………………………………………...…….. 49
Breaker Lacks Power
Carrier Oil is Over Heating…………………………………………………….....
Oil Leaks
39
47
49
49
50
51
51
APPENDIX A - Breaker Technical and Torque Specifications ............….
APPENDIX B – Breaker Regulation Chip………………...............……..….....
APPENDIX C - Breaker Parts Explosions……………...............……..…........ 54
APPENDIX D - (left intentionally blank)………………...............……..…........ 55
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PREFACE
The perfect match of hydraulic breaker to carrier is essential in order to guarantee the correct
working conditions. However, in order to obtain maximum efficiency, it is strongly recommended
that regular and appropriate maintenance be performed.
Every attempt has been made to insure accuracy of the information provided. However, the
manufacturer reserves the right to update this manual subject to the technological development
of the product and service. For the most current information, a review of the Product Support
Bulletins is recommended prior to any breaker repair.
For further information, please contact:
INDECO North America Product Support Department
120 Dodge Avenue
Stratford, CT 06615
Phone: (203) 377-7791
Fax: (203) 377-7697
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BREAKER INSTALLATION
I. Breaker Installation
Figure 01-01: Testing Excavator
Circuit Flow and Pressure
Figure 01-03: Flow Meter and Pressure
Gauge Connection
Note: During these test, be certain that the carrier’s hydraulic fluid is at operating temperature,
usually 130 F to 170 F. This will insure that the attachment will operate at optimum
performance. Also, if the carrier has any hydraulic problems, they should appear during testing
procedures.
BEFORE YOU HOOK UP THE HOSES TO THE ATTACHMENT:
Figure 01-02: Testing Tractor Loader
Backhoe Circuit Flow and Pressure
Figure 01-04: Testing Skidsteer Loaders
Circuit Flow and Pressure
1. Install attachment hydraulic circuit on the carrier.
2. Connect a flow meter (Figure 01-03) to the circuit’s pressure line into the meter’s inlet and
the return side into the meter outlet. Also, install a 600 psi gauge into the return circuit at the
flow meter. (This will allow for a starting point for the back pressure of the return circuit.
Refer to the Operators Manual for the specifications on the attachment you are installing.)
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3. Before engaging the circuit, be certain the pressure-regulating valve on the flow meter
(Figure 01-03) is in the fully open position.
4. Start the carrier unit and check for hydraulic leaks. Check and note the flow and back
pressure readings at the meter.
5. Increase engine RPM while a second person is monitoring the pressure and flow at the
meter. If the backpressure reading goes above specifications the cause must be
determined before proceeding. You may need to rework the return circuit to reduce the
backpressure to INDECO specifications. (Contact the Product Support department at (203)
377-7791 for assistance if required.)
6. Adjust the circuit’s flow to the required specification. (NOTE: It is better to be 5-10% under
the required GPM then to be over.)
7. Bring the pressure on the flow meter up to the high pressure reading for the attachment you
are installing. Check to assure that the correct GPM’s are maintained and adjust if needed.
8. Once the GPM’s, operating pressure and backpressure are within specification check the
attachment circuit relief. This setting must be at least 500 psi above the Attachments
operating pressure. (Be certain the GPM reading remains the same as in the above steps.)
9. Next, position the 4-position adjustment chip, (pos. 420), located under the link (pos. 401),
to the correct setting. The correct setting is determined by reviewing the attached graph,
(see Appendix B, Breaker Regulation Chip).
10. Install the breaker and connect a 0-3000 psi gauge inline with the hydraulic inlet port of the
attachment.
11. Before operating the breaker, verify that the tool and bushings have been properly
lubricated. Verify that the hose can move freely and are not rubbing against any other parts.
12. Place the breaker on a hard, compact surface and, with shut off (if so equipped) turn on, run
the breaker at low Rpm’s. Gradually increase rpm’s to the maximum. Operating pressure
and return (back) pressure must remain within specifications in order for the attachment to
operate at maximum efficiency (See Appendix A, Breaker Technical and Torque
Specifications - Page 96 for the correct specification). Run the breaker until the hydraulic oil
is at operating temperature and again note the pressure readings.
Note: The breaker should be fast during the initial stages. As the tool penetrates the material
the breaker should slow to a rhythm close to the minimum blows per minute.
13. If readings are not within this range please refer to the trouble shooting and problem
diagnosis section of this manual.
14. Record the readings taken during the installation procedures on the Attachment Delivery
Report (ADR) (Figure 01-05). This report must be on file with INDECO before any
warranty consideration can be given.
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The performance and reliability of any hydraulic attachment are directly related to the proper
operation, maintenance, installation and adjustment. For this reason it is imperative that
pressures and flows are verified each time an attachment is installed on a different carrier. The
customer should be advised of the correct operation and maintenance procedures. The ADR
should be used as a checklist for each delivery of an INDECO attachment. A small investment
of time to check these readings will save maintenance and repair costs and increase customer
satisfaction by offering trouble free, productive performance.
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Figure 01-05: Sample Attachment Delivery Report (ADR)
II. General Breaker Usage
GENERAL BREAKER USAGE
This hydraulic demolition hammer, as a general rule, should be used with the same technique
as a jackhammer. Choose the appropriate tool in order to obtain maximum productivity. The
profile of the tool should be chosen according to the nature of the material, depending on the
type of job: quarry, earth moving, trench work, tunnels, demolition, etc.
a) Position the carrier so that the reach to the work is adequate. Ensure that the carrier is in a
stable position and is not placed on a crumbling or slipping surface during operation. (Figure
02-01) This guarantees a constant load on the hammer.
Figure 02-01: Position Carrier Correctly
b) Place the hammer tool perpendicular to the surface to be broken. (Figure 02-02) Always act
with the carrier arm, keeping the hammer perpendicular to the work and describing a slight
arc, closing the arm towards the operator. This method of operation will dramatically extend
the life of the tool and bushing.
Figure 02-02: Keep Tool Perpendicular to Working Surface
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c) Maintaining an even pressure from the carrier to the hammer, start the hammer. If the
downward pressure from the boom is too weak, you will hear metallic (rather than sharp)
strokes, because the hammer is not striking the tool correctly. If the downward pressure is
excessive, it will produce strong vibrations in the carrier and the tool, retaining axle,
bushings, etc. (Figure 02-03)
Figure 02-03: Maintain Even Working Pressure
d) If the hammer is in the correct position, and the hammer and case are vibrating (Figure 02-
04), the downward pressure from the carrier is insufficient. If exerting further pressure from
the carrier does not solve the problem, it may be that internal hydraulic leaks from the rams
or valves may not be allowing the carrier to exert the correct amount of pressure. In this
case, replace the carrier cylinder seals and/or check the control valve seals.
Figure 02-04: Insufficient Downward Pressure Results in Vibrations
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Figure 02
-
05:
Reposition Breaker
Every 30 Seconds
e) I f vibrations start to occur after the hammer has been operative for some time, this means
that the carrier downward pressure has not followed the tool penetration. You must maintain
a constant pressure from the carrier on the hammer, as the hammer is penetrating the work.
f) An INDECO hammer senses the strength and density of the surface being broken, and
adjusts hammer impact power accordingly. The operator will be able to hear the difference
in the blows when a rock is broken or not broken. The hammer rhythm will be fast and sharp
if the material is frail and flaky; slow and powerful if the rock is compact and uniform. Impact
speed will also be slower the deeper the hammer penetrates.
g) As soon as cracks start to appear in the material being worked on, and the tool starts to
appear from the bushing, stop the hammer at once. Do not raise the hammer from the
material until it has stopped completely.
h) If cracks in the material do not appear in 30 seconds, move to a new position along the
grain of the material (Figure 02-05), perhaps working on a smaller section or edge of the
material. Always look for advantageous weak points in the material (e.g. cracks, bumps,
veins) at which to start. This saves undue stress on the breaker.
i) In a quarry, or when breaking oversized rocks, position the material to be broken on a hard
base to minimize vibrations of the material.
j) In the case of horizontal or upside-down operations (e.g. tunnels), once every hour the
operator should lower the hammer to a vertical position (Figure 02-06), so that any particles
of rock which have collected in the hammer can fall out. (Operator can alternate hammering
up and down.) If this is not done, the hammer impact will be wasted on the rock particles,
and in addition will create thermal energy in the particles and hammer, causing overheating.
Prolonged overheating will cause the hammer materials to lose their original mechanical
resistance. In order to keep particles out of the hammer, an air hose may be installed in the
same way as would be done for underwater usage.
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Figure 02
-
06:
Lower Breaker Every Hour When Working Overhead
Figure 02
-
07:
Store
k) If the breaker is operating at temperatures below -15° Celsius, increase the nitrogen charge
pressure by 20% of the value recommended in normal
conditions. Disassemble the tool and store it in a place where the
temperature is above 0° Celsius. DO NOT heat up the tool with a
torch or other device before operation. Operate the tool slowly for
the first 15 feet of excavation in order to gradually warm up the
tool. Never leave the tool exposed to inclement weather, as this
will oxidize the bushing contact area.
l) The hydraulic oil feed viscosity must not be below 15 CST. The
maximum oil temperature during operation should not exceed
75° Celsius (160° Fahrenheit).
m) When the hammer is not in use, it must be kept in a vertical
position. (Figure 02-07) This will allow any water or condensation
to run off of the piston and prevent rusting which may cause seal
failure and leakage.
SUMMARY OF INSTRUCTIONS
a) Maintain even pressure on the hammer.
b) Follow the hammer during penetration of the material.
Breaker in an Upright
Position
c) Always maintain a constant optimal pressure level.
d) Correct loading ensures hammer productivity and avoids damage to
its component.
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Figure 03
-
02:
Operate Breaker Free and
III. Common Causes of Breaker Damage
COMMON CAUSES OF BREAKER DAMAGE
a) The hammer must not be used as a ripper, nor should it be used as a lever. Under no
circumstances should the tool be used as a hook to lift weights. (Figure 03-01) This could
cause serious damage to the tool, the bushing and the housing.
Figure 03-01: Don’t Use Breaker as a Ripper, Lever or Crane
b) The hammer must operate perpendicular to the work. This ensures that: the tools are not
forcibly stressed; bending stress does not occur; and the specific pressures in the contact
areas are maintained. This will greatly extend the life of the tool and the bushings.
c) Check that the tool contact areas
(especially the chuck housing) are
well lubricated and smooth. A
properly lubricated tool will show
streaks of grease below the lower
bushing on the tool shank. Remove any
bumps or rough areas with a soft
grinding wheel and wire brush. The
point of a chisel tool can be resharpened in the same way. Tools
should be rotated 180° to evenly
distribute the wear.
d) The hammer must be free to operate
without any obstructions, chafing or
interference. (Figure 03-02) There
should also be no obstruction between
the hammer and the tool.
PPM2000000 Version: 102803 14
Clear of Obstructions
Figure 03
-
03:
Maintain Hard
e) When breaking large blocks of rock, any
protrusions should be broken off first, in order to
reduce the overall size of the block.
f) For secondary demolition, before starting the
hammer, adjust the material to be broken so that
it is on a hard, stable surface. (Figure 03-03)
g) A small pocket of rock dust can sometimes occur
in the ”well” formed by the tool. (Figure 03-04)
The hammer impact may be released on this,
therefore not breaking the rock. The tool will then
overheat and may deform. The solutions to this
are either to make another parallel hole nearby,
or to carry out small movements of the hammer
to disburse the rock dust. Do not continue in the
same spot. This will waste the hydraulic power
and damage the tool.
h) When using the hammers in these positions, the
tool should be removed every 8 hours, and the
internal faces of the bush cleaned with a wire
brush or lubricant cleaner. (Figure 03-05) If the
hammer is very full of rock particles, remove the
appropriate plug from the side of the chuck
housing, and blow out the hammer with
compressed air.
Stable Working Surface
Figure 03-04: Dust Pockets May Cause Tools To Become Deformed
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Figure 03-05: Remove Tool and Clean Breaker Every Eight Hours
h) Do not use the tool of the hammer to rotate the carrier. This causes superficial cuts on the
contact areas which could cause breakage under stress.
Figure 03-06: Do Not Rotate Carrier on the Breaker’s Tool
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IV. Routine Maintenance
ROUTINE MAINTENANCE
Daily
?? Grease breaker every 2 hours. If working in very dusty conditions, grease each hour.
?? Check cradle, side shocks and side bolts for loose, cracked or missing bolts.
?? Check tightness of tool retainers and locking bolts.
?? Examine hydraulic hoses for leaking or chaffing.
?? Visually inspect breaker for housing or side plate damage.
Weekly
?? Remove tool and wash out tool cavity with solvent.
?? Inspect upper and lower bushings, retaining axles and face of piston for cracks, uneven
wear or mushrooming.
?? Before inserting tool, re-apply grease to upper, lower bushings, and retaining axles.
?? Re-insert greased tool after rotating 180 degrees from original position and secure retaining
axles.
?? Measure length of tool. If too short, replace to prevent damage to breaker bushing and
housing (Maximum Wear is 50% of exposed portion of tool when new) .
500 HOURS
?? Check accumulator charge. Refer to INDECO specification for correct charge.
?? Measure wear of lower and upper bushing.
?? Rotate retaining axles 180 degree or replace if worn.
?? Verify carrier hydraulic flow and pressure to initial specifications.
1000 Hours
?? Complete weekly and 500 hour inspection procedures
?? Replace all rubber and polypack internal seals
?? Inspect piston for scouring, cracks or other related damage
?? Inspect spacer wh ile piston is out and replace if needed.
?? Inspect tie rods for stress in threaded area. Die penatrant magnaflux is recommend.
?? Replace rods as a complete set.
?? Check the breaker’s condition and replace all worn components.
?? Check all hydraulic tubes and hoses and replace if worn or damaged.
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