![background image](http://html1.mh-extra.com/html/jcb/js-200-series/js-200-series_service-manual_3627661062.webp)
10 - 5
Other Measurements
(continued)
d. Slew Brake
1.
The slew brake performance is measured at the
minimum slew position.
Mark the turntable bearing and lower ring.
Note:
The person must stand well out of the machines slew
radius on the front side, and also to confirm that no other
personnel are in the vicinity.
2.
Rotate the upper body and when the machine has
completed its full initial start rotation, indicate to the
operator when the two marks will coincide on the
next rotation. The operator then moves the lever to
neutral.
3.
After the swinging has stopped, measure the
distance between the two indicating marks.
e. Slew Lock Characteristics.
1.
The conditions for checking this is to load the bucket
with soil at the maximum working radius. Then drive
up a slope of 20° , then set the attachment to a 90°
position relative to the direction of travel.
2.
Confirm with an angle gauge that the machine is at
20° and mark the turntable bearing and lower ring.
3.
Stop the engine and remove the key. Measure the
distance the Upper Slew Body has moved relative
to the lower frame after 30 minutes.
f. Natural Internal Leakage, natural ram drop.
1.
The conditions for checking are that the dipper is fully
open with the bucket open.
2.
Using a marker pen, mark the wiper seal on the
bucket ram piston rod, then mark the wiper seal on
the dipper ram rod.
3.
Gently raise the dipper till the bucket is 2 m above
ground.
4.
Make a mark 100 mm from the wiper seal on the
boom ram rod.
5.
Switch the engine off and remove the key. Wait 10
minutes then measure the distance from the ground
to the bucket.
Measure the movement of each:-
Ram Rod
Boom
Dipper
Bucket
Section 3
Routine Maintenance
9803/6400
Section 3
10 - 5
Issue 2*
Performance Evaluation JS200/JS240
*
Summary of Contents for JS 200 Series
Page 57: ...9 1 Section 3 Routine Maintenance 9803 6400 Section 3 9 1 Issue 2 Component Location Diagram...
Page 113: ......
Page 137: ...5 3 Section C Electrics 9803 6400 Section C 5 3 Issue 2 Pump Control FLOW CHART...
Page 201: ...10 7 Section C Electrics 9803 6400 Section C 10 7 Issue 1 CAPs II Diagnostic system K C...
Page 215: ...Section E Section E Hydraulics 9803 6400 Issue 2 3 2 3 2 Schematics...
Page 217: ...Section E Section E 9803 6400 Issue 2 3 3 3 3 Hydraulics Schematics...
Page 218: ...3 5 Section E Hydraulics 9803 6400 Section E 3 5 Issue 1 Schematics Shuttle Block JS200 JS240...
Page 232: ...10 1 Section E Hydraulics 9803 6400 Section E 10 1 Issue 1 Hydraulic Pump JS200 JS240...
Page 233: ...10 2 Section E Hydraulics 9803 6400 Section E 10 2 Issue 1 Hydraulic Pump JS200 JS240...
Page 234: ...10 3 Section E Hydraulics 9803 6400 Section E 10 3 Issue 1 Hydraulic Pump JS200 JS240...
Page 263: ...30 2 Section E Hydraulics 9803 6400 Section E 30 2 Issue 1 Control Valve JS200 JS240...
Page 264: ...30 3 Section E Hydraulics 9803 6400 Section E 30 3 Issue 1 Control Valve JS200 JS240...
Page 265: ...30 4 Section E Hydraulics 9803 6400 Section E 30 4 Issue 1 Control Valve JS200 JS240...
Page 266: ...30 5 Section E Hydraulics 9803 6400 Section E 30 5 Issue 1 Control Valve JS200 JS240...
Page 267: ...30 6 Section E Hydraulics 9803 6400 Section E 30 6 Issue 1 Control Valve JS200 JS240...
Page 268: ...30 7 Section E Hydraulics 9803 6400 Section E 30 7 Issue 1 Control Valve JS200 JS240...
Page 327: ...51 12 Section E Hydraulics 9803 6400 Section E 51 12 Issue 1 Solenoid Valve 8 spool...
Page 328: ...55 1 Schematic Section E Hydraulics 9803 6400 Section E 55 1 Issue 1 Shuttle Valve...
Page 330: ...55 3 Schematic Section E Hydraulics 9803 6400 Section E 55 3 Issue 1 Cushion Valves...
Page 481: ...7 15 Section F Transmission 9803 6400 Section F 7 15 Issue 2 Motor...
Page 482: ...7 16 Section F Transmission 9803 6400 Section F 7 16 Issue 1 Motor...