Title: CASE 1526 Uni-Loader Service Repair Manual Instant Download
1SERVICE MANUAL UNI-LOADERS 1500 SERIES
SERVICE MANUAL UNI-LOADERS
1500 SERIES
9-71536
9-71536
1 Trim along dashedlne 2. Slide into pocket on
Binder Spine.
- Trim along dashed line.
- Slide into pocket on Binder Spine.
TYPES-4
SERVICE MANUAL UNI-LOADERS
SERVICE MANUAL UNI-LOADERS
I I
1500 SERIES
1500 SERIES
I I I I I I
9-71536
9-71536
- Trim along dashed line.
- Slide into pocket on Binder Spine.
- Trim along dashed line.
- Slide into pocket on Binder Spine.
TYPE 1-4
TYPE 1 -4
21500 SERIES UNI-LOADERS TABLE OF CÃ’NTENTS
SECTION SECTION NO. GENERAL Maintenance and
Lubrication ...... ..............................
................. 13
FORM NO.
S-71S35
ENGINE Air Cleaner ... ............
..................................................
..... 24
9-71535
NOTE Manuals for the Wisconsin engines are
supplied by the Wisconsin Motor Division of the
Continental Motors Corporation.
FUEL SYSTEMS Electric Fuel Pump
..........................................
............... .... 34
715M
NOTE For carburetor information, refer to the
service manual for the Wisconsin engine.
LP Gas Fuel System ...............................
............................... 37
971535
HYDRAULIÖS Hydraulic System .....................
........................................ ...
41 Hydraulic System ..............................
..................... ..... 41, Supp. 1
9-71535 9-71M6
NOTE Supplement 1 for Section 41 incorporates
changes and improvements made to the machine aher
printing of Section 41. Following are the major
areas of change
- Updated pressure checks and troubleshooting
procedures. - Updated specifications and hydraulic diagrams. c.
- d.
- e.
3-spool control valve with new plunger-type
relief valve. Variable speed control valve with
new thermal relief alve. New TRW hydraulic pump.
POWER TRAIN Power Train . ...............
..................................................
... 61
BRAKES Brakes . ....................
......................................
............... 72
9-72095
ELECTRICAL Electrical System .....................
............................................ 82
9-71535
MOUNTED EOUIPMENT Loader . .. ..
................ .......... ......................
..................... 92 Loader .
..................................................
............... 92, Supp. 1
9-71535 9-71536
NOTE Supplement 1 for Section 92 incorporates
changes and improvements made to the machine aher
printing of Section 92.
Rollover Protection Structure ...................
................................ 9019
71535
9-71M6 June 1981
CASE CORPORATION
eprinted
3Section
MAINTENANCE AND LUBRICATION
CASE CORPORATION
Burl. Form 9-71535 Dec. 1973
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5MAINTENANCE CHART
INTERVAL SERVICE PLUID/LUBRICANT INSTRUCTIONS
Run-ln After First 20 Hours Change engine oil and clean engtne oil filter. Check valve clearance. See chart, page 4. See engine manual. See engine manual.
Run-ln After First 60 Hours Change engine oil and clean engine oil filter. See chart, page 4. See engine manual.
Every 10 Hours Or Daily Check engine oil level. See engine manual.
Every 120 Hours Change engine otl and clean engine oil ftlter. Check valve clearance. See chart, page 4. See engine manual.
Every 240 Hours Check generator drive belt tension. Clean fuel filter. See engine manual. See englne manual.
Every 600 Hours Clean and test fuel injection. Lubricate starter motor. Check generator operation. Engine oil. See englne manual. See engine manual.
Every 1000 Hours Clean starter motor. Lubricate flywheel ring gear. See engtne manual. See engine manual.
As Required Clean engine cooling fins. See engtne manual.
Every 10 Hours Or Daily Check engine oil level. See engine manual.
Every 50 Hours Change engine olL Lubricate distributor. See chart, page 4. 3to 5 drops engineoil. See engine manual.
Every 100 Hours Change englne oil filter. See engine manual.
As Required Clean fuel sediment bowL Clean engtne cooling fins. See engine manual.
At Engine Or tarter Overhaul Lubricate starter. 2 lithium-soap base grease. See engine manual.
S
2
6Inspect filter after It 1s clean and dry. Place
a light Inside filter and lnspect for holes,
tears, and dented or bent metal cover- Ing, If
metal covering ia dented or bent, in- spect
ftlter paper for holea or rub spots in that
area. If holes or rub spots are noted, discard
filter and Install new filter element.
NOTE Inspect new fllter element for defects In
the same manner. Do not accept a defective
filter. The filter must be replaced after It has
been cleaned six times or once a year, which ever
occurs first.
Filter service consists of replacing the filter
element when the red band on the
restriction indicator remains In view. In
addition to replacing the ftlter element, wipe
out the filter housing with a damp, ltnt free
cloth and clean the pre-cleaner.
CRANKCASE CONNECT I 0N
F ALTER ELEMENT
U I NG NUT
ELENE NT SERV I t E IND I CATOR
EXHAUST AS P IRATOR
PR EC LEANER
Figure 3 - Exploded View of Air Cleaner
7Section
24
AIR CLEANER
Burl. Form 9-71535
Dec. 1973
CASE CORPORATION
8STANDARD AIR
CLEANER
Service lnfervml The service interval is self
determined, taking into consideration working
conditions. It is only natural that the filter
element be serviced more often when the
machine is operated in a dusty or sandy
atmosphere. In addition to element service,
the dust cup should be cleaned daily or
more often as conditions warrant.
F i Its r El e rz's ent Serv ice The preferred
method of cleaning the filter is by washing.
Washing the filter results In restoring the
filter to an almost new con- dition and longer
intervals between servicing. It 1s recommended
that a apare filter be available to allow
sufficient drying time for the serviced filter
and to reduce machine down- time.
Figure 1 - Inspecting The Element
nozzle. Set filter astde to dry. Do not use
compressed air to dry.
Use of compressed air to clean the filter is
permissible but not recommended as it does not
remove carbon and soot. When using compressed
air, use no more than 100 psi at nozzle and keep
nozzle a reasonable dis- tance away from filter.
Wash the filter in Case Filter Element
Cleaner (Part No. A40910) according to
instructions
on container. Rinse thoroughly. water pressure
over 40 psi at DU ST C U P
Do not use
BA FFLE
PREC LEANER
\/ I NG NUT
C LAH P F I LTER
WASHER
VAC UATOR VA LVE N0 UNT I NO C LAM P
B0 DY
10 - 24
L0 CKIAS HER Figure 2 - Exploded View of Alr
Cleaner
9AII
INTERVAL SERVICE FLUID/LUBRICANT INSTRUCTIONS
Run-M Every 2 Hours Cheek wheel bolt torque un- til stable. (85-100 ft. lbs.)
Run-In After First 15 Hours Replace hydraulic oil filter. Section 41.
Every 10 Hours Or Daily Grease the loader pivot polnts. Clean the air cleaner dust cup. See chart, page 4.
Every 20 Hours Hours Grease variable speed pulleys. (Three strokes each fitting). See chart, page 4.
Every 25 Hours Severe Service Check and ad)ust drive chains. Section 61.
Every 50 Hours Normal Service Cheek and adjust drive chains. Section 61.
Every 60 Hours Check battery electrolyte level. Check hydraulic oil level. Check tire pressure. Distilled water. Section 82. Section 41.
Every 120 Hours Grease drive shaft universals. Check gear box oil level. See chart, page 4. Section 61.
Every 500 Hours Replace or clean electric fuel pump filter. Change hydraulic oil. Replace hydraulic oll fllter. Case TCH Fluid. Section 34. Section 41. Section 41.
Every 1000 Houra Clean hydraulic reservoir breather and filler cap. Drain water from fuel tanks. Section 41.
Every 2000 Hours Or Yearly Change gear box off. Replace fuel filter element (LP gas machines only). See chart, page 4. Section 61.
As Required Clean or replace air cleaner element. Replace hydraulic filter. Check wheel bolt torque (85-l00 ft. lbs. ) Adjust clutches when lever travel exceeds 6" from neutral. Section 24. Section 41. Section 61.
3
10ITEM CAPACITIES CAPACITIES RE COMMENDATIONS
ITEM U. S. METRIC RE COMMENDATIONS
Model 1526 Engine crankcase 6- l/4 qts. 6 liters Use engine oil meeting the following specifications (Normal conditions) CA Commercial Class A DG) (MIL-L-2104A, Supp. l) (Extreme conditions) CB Commercial Class B Above 6 8 F. ..... SAE 30 (20 C) 6 8 F. to -14 F.... SAE 20/20W (20 C to -10 C) MOTT For continuous full load duty, use SAE 30 oil.
Mode1 1530 Engine crankcase Without filter change 3-1/2 qts. 3,3 liters Use engine oil meeting the following specifications SD Service Class D (MS) 120 F. to 40 F. ........ SAE 30 (49 C to 4 C) 40 F. to 15 F. .... SAE 20-20W (4 C to -9 C) 15 F. tO 0 F. ....... SAE 10W (-9 Cto-18 C) Below 0 F. ...... SAE 5W - 20W (18 C)
With filter change 4 qts. 3,8 liters Use engine oil meeting the following specifications SD Service Class D (MS) 120 F. to 40 F. ........ SAE 30 (49 C to 4 C) 40 F. to 15 F. .... SAE 20-20W (4 C to -9 C) 15 F. tO 0 F. ....... SAE 10W (-9 Cto-18 C) Below 0 F. ...... SAE 5W - 20W (18 C)
Model 1537 Engine crankcase Without filter change 4-1/2 qts. 4,3 liters Use engine oil meeting the following specifications SD Service Class D (MS) 120 F. to 40 F. ........ SAE 30 (49 C to 4 C) 40 F. to 15 F. .... SAE 20-20W (4 C to -9 C) 15 F. tO 0 F. ....... SAE 10W (-9 Cto-18 C) Below 0 F. ...... SAE 5W - 20W (18 C)
With filter change 5 qts. 4,7 liters Use engine oil meeting the following specifications SD Service Class D (MS) 120 F. to 40 F. ........ SAE 30 (49 C to 4 C) 40 F. to 15 F. .... SAE 20-20W (4 C to -9 C) 15 F. tO 0 F. ....... SAE 10W (-9 Cto-18 C) Below 0 F. ...... SAE 5W - 20W (18 C)
Gear box (all machines) l -1/2 pts. 0,7 liters Multipurpose gear lubricant SAE 90 EP --Case Part No. B53983 API - GL-4 with low foaming additive.
Hydraulic reservoir refill capacity 14 gal. 53 liters Case TCH fluid.
Hydraulic system capacity (approx.) l9 gal. 72 liters Case TCH fluid.
Fuel tanks (combined) 1526 1537 1530 l7 gal. 12 gal. 64 liters 45 liters
Grease fittings As required. As required. Above 32 F. (0 C) use Multipurpose or No. 2 lithium-soap base grease. Below 32 F. (0 C) use Multipurpose or No. 1 lithium-soap base grease.
mOn Automatic transmission oil Type A Suffix A
may be used as an alternate oil for Case TCH
Fluid. 4
11Section
34
ELECTRIC
FUEL PUMP
Burl. Porm 9-71535 Dec. 1973
CASE CORPORATION
12ELECTRIC FUEL RUM W 3. Remove the fuel pump
moqnting nuts and loekwashers. Remove fuel pump.
NOTE Servicing and parts replacement is limited
to the parts shown in Figure 1. If an electrical
component fails, the pump must be replaced. The
electric fuel pump is designed with a solenoid
which, when energized, causes the movement of a
hollow plunger In a cylindrical bore, The
plunger stroke 1s controlled by a set of
interrupter type contact points in the pump
electrical circuit. The contact points function
In a sealed section containing an inert gas
for long point ltte. Upon energlzatlon of the
solenoid, the plunger is forced down In the
cylinder against the plunger spring which ts
seated on a closed check valve In the bottom of
the bore. A check valve in the plunger opens
permittingpassage of the trapped fuel through
the plunger.
Diuaooem aiy Refer to F1gure 1.
1. Use a wrench to turn bottom cover from
bayonet pins. Twist cover by hand to re- ' move
from pump body.
2. Remove filter, magnet and cover gasket.
- Remove retainer spring using a thin nose
pliers to spread and remove the ends of the
retainer from plunger tube. - Remove washer, o-ring, cup valve, plun- ger
spring and plunger.
On the opening of the contacts the solenoid is de
-energized the plunger spring returns the
plunger to the top of the bore at a fixed rate to
provide the required pressure. During the upward
movement of the plunger, the check valve in the
plunger is closed to move the fuel ahead of it
into the fuel system and the check valve in the
bottom of the bore is open to per- mit passage of
fuel into the cylinder for the next cycle. A
pulsatlon dampener in the top of the pump
provides steady operation and even pressure.
The pump also incorporates a pres- sure relief
system to assure an Immediate return to zero fuel
pressure when the ignit- ion 1s turned off.
1. Wash the filter In cleaning solvent and blow
out dirt and cleaning solvent with compressed
air. Check cover gasket and replace if
deteriorated. Clean the cover.
2, Clean the remainder olthe removed parts in
cleaning solvent. If the plunger does not wash
clean or I there are any rough spots, gently
clean the surface with crocus cloth. Shake
plunger and listen for click to mdicate valve
action. If valve is not free, replace plunger
assembly.
RAtfTfOM The buffer spring and valve
must not be removed from plunger.
The filter syatem 1s contained in the lower
portion of the pump and consists of a fllter and
magnet.
3. Slosh the pump assembly in cleaning sol-
vent. Blow out the tube with compressed air. To
do a complete job, swab the inside o1 the tube
with a cloth wrapped around a stick.
1. Disconnect the tnlet and outlet fuel lines
at the fuel pump. Secure inlet ltne as high as
possible to prevent fuel tank drainage.
mmiJTtOm n not tamper with seal at center of
mounting bracket at side of pump as it retains
the dry gas which surrounds the electrical
system in the upper portion of the pump.
2. Disconnect the wire at the connector in the
fuel pump lead.
2
13 PUMP BODY PLUNGER TUB RETAINER
SPRING WASHER 0-RNG CUP VALVEASSEAABLY
PUMP BODY
WASHER RETAINER SPRING
FILTER
PLUNGER ASSEMBLY
MAG NET GASKET
SPRI NG
CUPVALVE ASS BLY
BOTTOM COVER
CUPVALVS ASSEMBLY
OHMMETER FUEL PUMP 7021 29
Figure 1 - Exploded View of Electric Fuel Pump
145. Prior to installing the pump, check the
resistance of the pump winding. Connect the fuel
pump to a 12 volt battery (neg- ative lead to
pump body) for two seconds. Connect ohmmeter to
fuel pump. The ohmmeter should indicate 4.
87 to 12 ohms. If infinite (no needle movement),
reconnect pump to battery for two sec- conds and
recheck resistance. If still infinite, replace
pump.
- Install the plunger assembly in the tube with
the buffer spring end flrst. Check by slowly
raising and lowering plunger in tube. Plunger
should move freely without a tendency to stick. A
click will be heard each time the plunger
approaches the top of the tube. If a click cannot
be heard, the Interrupter assembly is not
functioning properly. Replace pump. - Install plunger spring, cup valve, o-ring
- and washer.
- Compress sprlng and Install the retainer spring
wtth ends of retainer tnside holes of tube, inset
A. - Place cover gasket and magnet in bottom cover.
Then Install filter and cover. Twtst cover by
hand to hold In posttton on pump housing. Use
wrench to securely tighten cover.
- Position pump on mounting studs and secure
In place with nuts and lock- washers. Make
sure mounting surface is clean and paint-free
as the pump 1s grounded at this point. - Connect fuel ltnes and wire.
- Dpen fuel shutoff valve.
- Bleed the fuel syatem.
4
15Section
37
L. P. GAS FUEL SYSTEM
Burl. Porm 9-71535 Dec. 1973
CASE CORPORATION
16k.. W F U Ok. HYHTE M NOTE For additional
Information contact an authorized Wisconsin
Engine dealer. Idle Adjustments General Refer to
Figure 1. The major components of the L.P. fuel
system are the fuel cylinder, fuel filter
(with lock-off), converter and carburetor (wlth
vacuum operated lock-off switch). The car-
buretor is deprived of fuel until the ignition
switch is turned on and the englne is cranked for
starting. If the engine stops for any reason, the
carburetor is again deprived of fuel.
1. Seat idle mixture acrew and back off
four turns.
cnuziote Seat screw lightly to prevent damage
to the screw and seat.
- Start engine and turn throttle stop screw so
englne idles slightly faster than normal. - Turn idle mixture screw in until engine begins
to stall, then back off screw until engine runs
smoothly.
Liquid fuel flows from the fuel cylinder, under
pressure thru the fuel filter to the
converter. Two changes occur at the con-
verter (l) the converter acts as a heat
exchanger and vaporizes the fuel and (2) reg-
ulates the pressure of the fuel vapor delivered
to the carburetor. The carburetor receives fuel
from the converter relative to the quantity of
alr entering the carburetor.
NOTE If vacuum gauge is available, adjust to
obtain highest manifold vacuum. 4. Back off
throttle stop screw to obtain desired idle
speed.
If available, use Propane HD 5 m place of
commercial propane. Propane HD 5 was de-
veloped especially for internal combustion
engines. Pressure in a fuel cylinder 80 full
will be approximately 100 psi at 70 F. An
increase In temperature wtll increase pressure
whtle lower temperatures will reduce pressure.
Valve AMjuutrzs ent The power valve should rarely
require adjustment. If adjustment is
necessary, po- sition the mark on the adjusting
screw between 2 and 3 on the power valve dial,
Figure 1.
If an exhaust analyzer 1s available a more
accurate adjustment can be made. Run engine at
full throttle and adjust power valve to obtain an
air/fuel ratio of 14 to 1.
Fuel pressure at the carburetor is 1. 25 psi at
idle apeed and 1.75 psi at full throttle.
2
17C ONNE CTE 0 TO CAR 8UR ETOR L0CK- 0 FF SP I
TCH GROUND TO ENGINE
VACUUN LI NE
INTAKE HAN I F0L0
FROH FUEL CYL I NOER
-
-
CONVER TER
FUEL F I LTER V I TH L0CK- 0 FF
IOLE H I XTURE SCREU
CAR BURETOR U ITH L0CK- 0 FF SP I TCH
POWER VALVE
C 0hNE CT E0 TO I GN I T I0N SP I Tt H I TERN I
NAL
CONNE CTE 0 TO FUEL F I LTER L0CK- 0 FF
C OhNECTEO TO t ARBURETOR L0CK-0 FF SP ITCH
GROUND TO ENG I NE
CONVERTER
VACUUN LI NE CONNECTE 0 TO FUEL F I LTER LOCK- 0
FF
CAR BURETOR V I TH LOCK-OFF SWITCH
FRON FUE L CY L I NOER
"
THROTTLE STOP SCREW
CONNECTEO TO I G NI T I 0N SP ITCH I TERH I NAL
I
' FUEL F I LTER . U I TH L0CK- 0 FF
IDLE H I XTURE SCREEN
POUER VALVE
Figure l - Fuel Systems
3
18TROU_at_âE SHOOTING CHART
PBOBLEM Engine Wtll Not Start POSSIBLE CAUSE Defect in Ignition system. Fuel cylinder empty. Fuel shut-off valve closed. Excess flow valve closed. Restricted fuel filter. Defective lock-off switch. Defective lock-off switch diaphragm. Defective lock-off solenoid. Broken wire in lock-off circuit. REMEDY Check out ignition system. Refill cylinder. Dpen valve. Close fuel shut-off valve and listen for cllck. Then open valve slowly. Service filter. Replace switch. Replace diaphragm. Replace solenoid. Repair as required.
Frost on Fuel Ftlter Fuel shut-off valve opened too fast. Restricted fuel filter. Open valve siowly. See NOTE. Service filter.
Frost on Ltne Between Carburetor And Converter Fuel not vaporizing. Allow engine to warm up thoroughly.
Frost at Connections 1. Eeak or restrtctlon at fronted area. 1. Check for leaka or restriction. USE A SOAP SOLUTION TO CHECKFORLEAKS.
Frost at Converter, Engine Running 1. Engine and converter not warmed up. 1. Allow engine to warm up thoroughly.
Frost at Converter, Englne Stopped 1. Fuel not shut off at ftlter. 1. Check lock-off circuit.
Frost on Fuel Cylinder 1. Broken dip tube in cylinder. 1. Replace cylinder.
NOTE If carburetor, fuel line and converter are
frosted, close fuel shut-off valve and allow
excess fuel to dissipate. Then slowly open fuel
shut-off valve 1/4 of fully open. Start engine
and run at idle speed until the engine has
warmed up. Open valve completely before putting
machine to work.
19Section
HYDRAULIC SYSTEM
Burl. Form 9-71535 Dec. 1973
CASE CORPORATION
20TAMLE C0MT_at_P_at_Tfl SPE CIFICA TIONS , ,, , ,
, , . . . ........ .. ..... ...............
3 U.S. AND ME TRIC TORQUE SPE CIFICATIONS
..................... ........ 5 HYDRAU LIC
SYSTEM ........ ..................................
.... 6 General .. .. ..........................
....... , .............. Basic Hydraulics
Diagram Tilt and Auxiliary Hydraulics Diagram
................................ 8 3 Spool Valve
... Lift Control Valve ...........................
.............. ..... 11 H YDRAU LIC RESERVOIR AND
F ILTE R SE RVIC E ....... ................... .
12 Checking Otl Level ............................
... ......... ..... 12 Oil Drain and nefill
.............................................
12 Filter.........................................
.............12 RE LIE F VA LVE PRESSURE CHE CKS
AND ADJUSTMENTS .....................14 3 Spool
Main Relief Valve ......... , .........., .......
............ 14 System Relief Valve ..............
................. ...... l4 Variable Speed Relief
Valve ..... .... ............ ...........14 TROU
BLE SHOOTING CHA RT ... ...........
...........................16 TESTING THE HYD RA
U LIC SYSTE M WITH A FLDWM ETE R
..................19-22 SE RVICING THE 3 SPOOL
VALVE ................................... 2224
SER VICING TH E LIFT AN D TILT CONTROL VALVES
..................... 2328 SE RVICING THE
VARIABLE SPE ED CONTROL VALVE ...................
. 28-29 LOCK CHE CK VALVE ........ . .. .. ......
. . . ... ...... . ... ....... ...
.30 Disassembly ......... .............. .30 Ass
embly ...........................................
........31 HYDRAULICPUMP.... ... . ......
........ ............. ...32 Disassembly
..................................................
32 Assembly ......................................
..............34 CYLINDE RS ......................
...............................36 Specifications
............. ..................
..................36 GROUP 1 CYLINDERS
..............................................37 D
isassembly ..........................
........................37 Assembly
..................................................
.39 GROUP2CYLINDERS .. .....................
................... .39 Disassembly
................ ........ ...... . ......
............39 Assembly .... 41 7 SHEAR CYLINDER
..............................................42 8
"SHEARCYLINDER ..... ... . . ................ ..
....... ... 44 GRAPPLE CYLINDER.........
...................... ... .........46
2
21Hydraulic Pump Description ...........
.................. Spur gear, positive
displacement, driven by gear 1xx output
shaft Output Zdodel 1530 and 1537
.....................18 gpm B 1975 psi H full
throttle (2400 rpm) 68 1/mn _at_ 139 kg/cm Q full
throttle (2400 tr/mn) Model 1526 ...........
........Im gpm Q 1975 psi _at_ full throttle (2300
rpm) 64 1/mn Q 139 kg/cm Q full throttle (2300
tr/mn) System rellef valve setting
.......................... 19 7â 2 5 psi A full
throttle 139 a 1, 7 kg/cm full throttle 3
Spool Valve Description ..........................
.. Open center type with four parallel circuits,
two work ports per spool Relief valve setting
.......................... 1950 25 psi fill
throttle 137 z 1, 7 kg/om full throttle Spool
travel Neutral to pressure .......................
. ........1/4" In, 1/4" out Spool moves INTO
valve body........... Pressurizes port A (nearest
spool eye) Spool moves OUT of valve
lxdy.......... Pressurizes port B (nearest spool
cap) Weight ...............
........................ 32 pounds (15 kg) Lift
contml valve
Descrlptlon ............ . ............. Open
center type with Your parallel circuits and two
work ports. Detent in float position. Spool
travel Neutral to pressure. ...
............................1/4"tn,1/4"out
Neutral to noat
. 1/2"
Spoo1 moves INTO valve lxdy .
......pressurizes port A (nearest spool eye)
Spool moves OUT of valve 1xdy .........
pressurizes port B (nearest spool cap) Weight
........... ..... . ......................
17 pounds (7,7 kg) Tllt control valve
Description ....................
...... Open center type with for parallel circuits
and two work ports
Spool tra.vel Neutral to pressure ............
Spool moves INTO valve lxdy ..... Spool moves
OUT o1 valve 1xdy.... Welght. . . . . . . . . .
. . . . . . . . . . . . . .
.................. 1/4 in, 1/4" out .
Pressurizes port A (nearest spool eye) . P
ressurlzes port B (nearest spool
cap) ...............15 pounds (6, 8 kg)
hydraulic llnes ........................ Steel
tubing with brazed or flared fittings and wire
braid, hlgh pressure hose with crlmped, full Oow
fittings
33 micron throw away element 14 gallons (53
liters)
Filter ....................................... Res
ervoir capacity .................................
...
22System capacity .................................
.....19 gallons (72 liters) Hydraulic oil
............................Case TCH Fluid (see
lubricant chart in section 13 for alternate oil
Oil drain interval ...............................
........ every 1000 hours
Springs
Compressed Length 1-3/32" _at_ 300 1bs. 27,8 mzo _at_
136,1 kg 31/32" 100 z 10 lbs. 24,6 mm 45,4 4,5 kg
Free Length
System and 3 Spool relief valYes
1.281" ,005" 32,5 ,13 mm
Variable speed control relief valve
1-1/32" 26,2 mm
Hydraulic oil filter bypass valve
1,500 ,015" 38,1 ,4 mm
.875 3.8 lbs. 22,2 mm 2,1 kg See page 36. Foi
now, 14 psi
Cylinders Check valve (return line) setting
4
23U.B ISO M ATAU TOTO UE BWMOF ICATIOMR Torque
values for all situations unless special torque
is specified.
TorQue ft. lbs. 5-10 10-1 5 is-2o 15-20
Thread Size
Thread Size
Torque
m -kg 32-39 3 7-46
m -kg
ft. lbs.
1 /4 - 20 NC 1/4" 28 NP she" - is re 5/16 -
24 NF
0, 71,4 1, 42,1
3/4 10 NC 3/4 16 N F
235-285 270-330
2, 1-2, 8
7/8" - 9 NO 7/8" - 14 NF
360-440 395-490
50-61 55-68
2, 12, 8
3/8" - 16 NC 3/8" - 24 NF
25-3 5 30-40
3,5-4,8 4,1-5,5 6, 2-7, 6 6,9-8,3
l - 8 NC 1 - 12 N '
520-640 57W705
72-88 79-97 9 9-113 109-134 139- I7l l 54-188
7 16" - 14 NC 7/16 - 20 N F
4 5- 55 t0-60
1-1/8" - 7 NC l-1/8" - 12 NF
720-820 790-970
1/2 - 13 NC 1/2 - 20 N F 9/16 - 12 NC 9/16 -
18 N 5/8 - 11 NC 5/8" - 18 N F
6 5-85 80-100 100-120 110-130 135-16 5 160 -200
9,0-12,0 1l-14 i4-i z 15-18 19-23 22-28
1-1/4 - 7 NC 1-1/4 - 12 N F
1010-1240 11 l5-1365
1-3/8 - 6 NO 1-3/8 - 12 N F 1-1/2" - 6
NC 1-1/2 - 12 N F
13151610 1510-1850 1745-2135 1880-2420
181-222 2 08-255 241-295 259-334
Torque
Thread Size
Torque mkg 1,1-2, 1 2,1-2,6 2, 8-4,1 3,5-4,1
Thread Size
ft. 1 bs. 10-15 15-20
m -kg 47-58 52-63 75-91 82-100 112-137 124-152
ft. lbs.
1/4 - 20 NC 1/4 - 28 N
3/4" - 10 hC 3/4"- 16 NF
340-420 380-460
5/16" 18 h C 5/16 - 24 N F
20 -30 2 530
T/8" - 9NC 7/8"-l4NF
540-660 595-725
3/8 - 16 h C 3/8 - 24 h F
40-50 45-55
5,5-6, 9 6,2-7,6
1" - 8 NC 1" - 12 KF
810-990 900-1100
7JI6 - 14 NC 7 JI6 - 20 NF
60-80 70-90
8,3-11,0 9, 7-I2,U l 4- 17 l 5-18
l - I/8 - 7 NC 11/8 - 12 N F
1l50-i400 1295-1585
i59-193 179-219
i-1/4 - 7 NC I -1/4" - 12 NO 1-3/8" - 6
NC 1-3/8" - 12 NF 1-1/2" - 6 NC 1-1,/2 - 12 N F
I 640-2000 1800-2200 2140-2620 2450-3000 2845-3475
3200-3900
226-276 248-304 295-362 338-414 3 93-480 4425S8
1/2 - 13 hC 1/2 - 20 NF
100-120 110-130
9/16 - 12 NC 9/16 - 18 N F
13 5-165 15S-190
19-23 21-26
5/5" - 11 NC 5/8 - 18 N F
200-240 215-265
28-33 30-3 7
37 Piare Female Swivel Torque
Straight Thread O-Ring Torque
Dash Size 4 5 6 8 10 12 1 4 16 20 24
Tube O. D. 1/4 5/16" 3/8" 1/2 5/8" 3/4 7/8 1
1-l/4 I-1/2
Thread Size 7/16 - 20 1/2" - 20 9/16" - 18 3 Z4"
- 16 7/8" - 14 1-1/16 - 12 1 -3/16" - 12 1
-5/16 - 12 1-5/8" - 12 1 -7/8" - 12
m-kg 1,7-2,6 2,2-3,5 3,5-5,5 5,8-9,
2 8,0-12,7 11-18 14-22 16-26 23-36 35-55
ft. lbs. 6-1 2 8-16 10-25 15-42 25-58 40-80 60-100
7 5-117
ft. lbs. 12-19 16-25 2 5-40 42-67 58-92 80-128 100
-160 117-187 165-264 250-400
m-kg
0,8-1,7 1,1-2,2 1,4-3,5 2,1-5,8 3,5-8,0 5,5-11,0 8
,3-14,0 10-16 17-23 29-35
125-16 5 210-2 50
70W26
5
24the pump to maintain oil at the pump at
all tlmes.
Oil is drawn from the reservoir by the pump
and directed to the tilt and auxiliary hydraulics
control valve. Wlth the spools of the 3
spool valve In neutral oil then Oows to lift
control valve, variable speed control valve
and off manifold. When the oil reaches the oil
manifold part of the oil 1s diverted to the
clutches for lubrication and the re- mainder
thru the check valve to the suction s lde of the
pump.
Two relief valves are tect the complete system.
required to pro- The main relief
valve (set at 1950 a 25 psi) In the 3 spool
valve protects only those circuits connected to
the work ports of that valve. The relief valve
identified as the system relief valve protects
the remainder of the system. The system relief
valve is required because as oil pressure
builds in the open center pas- sage in the 3
spool valve an equal pressure will be created in
the return passage from the maln relief valve
preventing the relief valve from opening, see
Pigure 1. When system pressure reaches 197 5
25 psi the system rellef valve opens, diverting
the off to the suction side of the pump.
The check valve assures an adequate oil supply
for clutch lubrication by creatipg a back
pressure of 10-14 psi. The oil in excess of that
required for clutch lubricatlon flows through
the check valve to the suction side of
PUMP PRESSURE STATIC OIL
OUTLET
I N LET
Figure 1 - Rellef Valve locked by Back Pressure
6
25RESERV01R CROSS TUBE
LIFT CONTROL VAL\/E
3 SPOOL VALVE
0tL NAN I F0L0
\/AR I ABLE SPEEO CONTROL \/ALVE
SYSTEM RELIEF VALVE
TO CLUTCHES
CHECK VAL\/E VARIABLE SPEED LOCK CHECK VALVE
FILTER
ROTARY COUPL ING
RESERUO I R AN0 SUCT I0h OIL
CLUTCH LUBRICAT ION AN0 RETURN OIL
PUNP PRESSURE
7 16437
VARtABLE SPEED PRESSURE 01L (CLOSE) VAR1ABLE
SPEED PRESSURE OtL (OPEN) Figure 2 - Hydraulic
Diagram, Oil Flow From Pump to Control Valves and
Reservoir
7
26LEFT OUT CYLINDER
RIG HT TILT CYLIf'JDER
ROLLBACK
DUMP QUICK DISCONNECT COUPLIL'JG S LOCATED ON
LOADER FRAME CROSSMEMBSR
QUICK DISCONNECT CO UPLING S LOCATED ON FRONT
SEAT PAf'JEL. CONNECT LOWER CO UPLING TO
ATTACHMENT INLET.
LEFT LIFT CYLINDER
RIG HT LIFT CYLINDER
.1
LIFT CO NTROL VALVE (RESTRICT Ok IN B PORT)
TILT AND AUXILAAY HYDRAULICS CONTROL
VALVE LOWEk RAISE
- r
PUMP PRESSURE OIL TO/F ROM CYLINDERS AND CONTROL
VALVE A PORTS OIL TO/FkOM CYLINDERS AND COfJTROL
VALVE B POR TS
igure o - iiyeratiiic anagram of Loader and
Auxiliary Hydraulics
8
27 Description
Vxlve
Passages 2 and 3 on both sides of the open center
passage direct oil to the work ports via the
check values at the inlet.
The mlve is an open center valve with parallel
circuits (passages). The passages are Illustrated
In Figure fi
The remaining passages, 4 and 5, return oil from
the cylinders to the outlet. The main relief
valve 1s also connected to the upper return
passage.
The open center passage 1, runs through the
center of the valve from the Inlet to the
outlet. The passage is charged with oil from the
pump.
The spools are three position spools and sprlng
centered.
PUMP PRESSURE I STATI C OI L
NLET
Figure 4 - OH Flow With Spools In Neutral
Oil Flow
or out of the valve approximately 1/4" In
each direction. Movement Into a power
position has three effects a. Open center
passage 1 1s blocked.
SPOOLSIN NEUTRAL
Refer to Figure 4. Wlth all the spools
In neutral, off flows thru open center to the
other contml valves which are connected In s
eries wlth the 3 spool valve. At the same time,
the spool lands hlock the work ports (passage 2
and 3) preventing cylinder move- ment.
b. The spool lands open a work port to a
cylinder. Wltb the open oenter passage blocked,
oil is diverted via the check valves to parallel
passages 2 and 3 and Oows to the
cylinder, causing the cylinder piston to move and
perform useful work.
SPOOL ACTUATED
Refer to Figure S. The spools move into
At the same time, the opposite work
c.
9
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29The check valves In the Inlet prevent the
possibility of reverse oil flow. If more than one
spool is actuated, the cylinder with the least
resistance will move first.
port and return passage 5 are con- nected and oil
displaced by the cylin- der plston dows from the
outlet to the series connected valves and to the
reservoir.
PUMP PRE SSUR STATIC OIL RETURN OIL
OUTLET
INLET
Figure 5 - Oil Flow With Spool Actuated
10
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