1973 OPEL GT-R clutch

tiANUAL TRANSMISSION78.35
1’ Case, Transmission
2Gasket, Trans. Case to Clutch Housing
3 Cap, Ventilator
4 Gear, W/Bushings,
ReverSe Idler
5 Shaft, Reverse Idler Gear
6 Cluster Gear, Countershaft
7Washer, Trans. Counter Gear Thrust
8Roller. Trans. Counter Gear Bearing
9 Countershaft. Cluster Gear
10 Gear, Main Drive
11Spacer Ring, Trans. Counter Gear Bearing Roller
12 Bearing, Trans. Main Shaft Pilot
13 Ring, Trans. Main Drive Gear Ball Bearing Lock
14 Seal Ring, Main Drive Gear to Clutch
15 Shaft, Main
16 Ring, Trans. Main Shaft Snap Front
17 Needle Bearing, 1st Speed Gear on Main Shaft
18 Sliding Gear, 1st and 2nd Speed
19 Guide Unit, 1st and 2nd Speeding Sliding Gear
20 Gear. 3rd Speed
2
1Gear, 1 st Speed
22 Gear, 2nd Speed
23 Sleeve, Trans. Gear Shifter
24 Carrier, Trans. Gear Shifter Sleeve
25 Snap Ring, Trans. Gear Shifter Sleeve
26 Cone, Trans. 3rd and 4th Speed Syncronizer
27 Cone, Trans. 1st and 2nd Speed Syncronizer
28 Spring, Syncronizer (1st and 2nd Speed)
29 Spring, Syncronizer
30 Shoe, 1st and 2nd Speed Shifter
31 Shoe, 3rd and 4th Speed Shifter
32 Bearing, Trans. Main Shaft R.R.
33 Snap Ring, Trans. Main Shaft Ball Bearings
34 Washer, Main Shaft Between Inner Ball Bearing
and 1st Speed Gear
3j36
37
ii40
41
42
43
44
45
46
47
48
49
50
51
52
53
54Bearing, Trans. Main Shaft Needle
- Right
Gear, Speedometer Drive
Washer, Speedo Drive Gear
Ring, Speedo Drive Gear Snap
Retainer,
R.R. Bearing
Oil Seal, Trans. R.R.
Gasket, R.R. Bearing Retainer
Bushing. Trans. Main Shaft
- R.R.
Clip, Speedo Gear
Guide, Speedo Drive
Gear, Speedo Driven
Seal, Speedo
- Shaft Sleeve
Bracket, Speedo and Guide on Trans.
Seal Ring, Speedo Drive Guide
Cover, Trans. Case
Gasket, Trans. Case Cover
Shifter Shaft, 1st and 2nd Speed
Shifter Shaft, 3rd and 4th Speed
Shaft, Reverse Speed Shifter
Intermediate Lever, 1st and 2nd Speed
Shifter
55
Lever, Reverse Shifter Intermediate
56Lever, Intermediate 3rd. 4th and Reverse
57Seal, Shifter Shaft Oil in Trans.
58Cam. on Shifter Shaft
59Shifter Shaft, Intermediate Lever Reverse
60
Shaft, W/Lever and Bolt, in Trans.
61
Fork (Yoke), Reverse Speed Shifter
62Yoke, Trans. Shifter (1st and Reverse)
63Fork (Yoke), Trans. 2nd and 3rd Speed
64
Spring, Trans. Gearshift Interlock Thrust
65
Detent Spring, Reverse Speed Gearshift
66Interlock
Plug, Gearshift Interlock Detent

7C- 361973 OPEL SERVICE MANUAL
CONTENTS
Subject
DESCRIPTION AND OPERATION:
Description of the Opel Three-Speed Automatic,Transmission....................................................................
Principles of Operation....................................................
ComponentOperation
andLocation............................
Mechanical Operation......................................................
Hydraulic Control Units and Valves............................H,y&aulic Operation..........................................................
DIAGNOSIS:
Sequence for Trouble Diagnosis..................................
Checking
Procedures........................................................
ExternalOil
Leaks..............................................................
Trouble
DiagnosisChart..................................................
Hydraulic Pressure
Checks............................................
MAINTENANCE AND ADJUSTMENTS:
Detent Cable Adjustment..............................................
ServicingSelector
Lever..................................................
MAJOR REPAIR:
Transmission Removal and Installation
AllModels........................................................................
Removalof
OilPan............................................................
RemovalofValveBody....................................................
Removalof
ServoPiston................................................
Removalof
Selector
LeverandShaft........................
RemovalofModulatorAssembly..................................
RemovalofDetentValveAssembly............................
RemovalofExtensionHousing......................................
Removal of Speedometer Drive Gear, Governor
Body and Governor Hub..............................................
Removal of Converter Housing, Oil Pump, Reverse
and Second Clutch Assembly..................................
Removal of Third Clutch Assembly, Planetary
Carrier Assembly, Reaction Sun Gear and Drum
Assembly and Low Bank............................................
Disassembly, Inspection and Reassembly of
Converter Housing, Oil Pump and Reverse Clutch
Disassembly, Inspection and Reassembly of
SecondClutch
................................................................
Disassembly, Inspection and Reassembly of
ThirdClutch....................................................................
Disassembly, Inspection and Reassembly of
Planetary Carrier
............................................................Page No.7c- 377c- 387c- 447c- 487c- 487c- 64
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7C- 81IC- 817c- 827c- 877c- 917c- 937c- 947c- 99.7c- 99
7c-1007c-loo
7&l 01
7c-102
7c-102
7c-103
7c-103
7c-104
7c-105
7c-111
7c-114
7c-118

AUTOMATIC TRANSMISSION7c- 37
Disassembly, Inspection and Reassembly of
ReactionSunGearandDrum....................................
Disassembly, Inspection and Reassembly of
Governor Body................................................................
Disassembly, Inspection and Reassembly of
GovernorHub..................................................................
Disassembly, Inspection and Reassembly of
ExtensionHousing........................................................
Disassembly, Inspection and Reassembly of
Servo Piston....................................................................
Disassembly, Inspection and Reassembly of
ValveBody........................................................................
Disassembly, Inspection and Reassembly of
Case....................................................................................
InspectingandTestingConverter................................
InstallationofSelectorLeverandShaft....................
InstallationofLowBand................................................
Installation of Reaction Sun Gear and Drum..........
Installation of Output Shaft and Planetary
Carrier................................................................................
Installation of Second and Third Clutch Assemblies
IntoCase..........................................................................
InstallationofReverseClutch......................................
DeterminingSelectiveWasherSize............................
Installation of Converter Housing, Oil Pump and
Clutch Assembly............................................................
Installation of Governor Assembly..............................
InstallationofExtensionHousing................................
InstallationofSpeedometerDrivenGear..................
Installation of Detent Valve, Modulator Valve
and Modulator Assembly............................................
Installation and Adjustment of Servo........................
InstallationofValveBody..............................................
InstallationofOilPanandGasket..............................
Torque Converter..............................................................
SPECIFICATIONS:
GeneralSpecifications......................................................
7c.
7c-
,l
‘118
197c-1207c-1207c-1207C-121
7C-124
7C-125
7C-125
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7c-134
7c-134DESCRIPTION AND OPERATION
DESCRIPTIONThe Opel Three-Speed Automatic is a fully auto-matic unit utilizing a torque converter and a Ravig-neaux planetary gear set, with three multiple disc
clutches and a single band to provide three forward
speeds and reverse. See Figure 7C-71. Automatic
upshifts and downshifts are controlled by road speed,
engine vacuum and an accelerator pedal connection
to the transmission.

AUTOMATIC TRANSMISSION7c- 39
TURBINESTATOR
(DRIVEN MEMBER)fREACTION
MEMBER)CON;ERTER
COVERP;MP
(DRIVING MEMBER)
7c.3Figure
7C-3 Torque Converter Assembly
energy of the oil to the turbine. See Figure
7C-1. The
driven member, or turbine is splined to the transmis-
sion input shaft to transmit turbine torque to the
transmission gear train.
When the engine is idling, the converter pump is
being driven slowly. The energy of the oil leaving the
pump is very low, therefore there is very little torque
imparted to the turbine. For this reason, the engine
can idle and the car will have little or no tendancy
to “Creep.”
As the throttle is opened and pump speed increases,
the force of the oil leaving the pump increases and
the resultant torque is absorbed by the turbine.
After the oil has imparted its force to the turbine
member, oil leaving the turbine follows the contour
of the turbine blades so that it leaves the turbine
spinning counterclockwise. Since the turbine mem-
ber has absorbed the energy required to reverse the
direction of the oil, the turbine now has greater forceor torque than is being delivered by the engine, and
the process of torque multiplication has begun.TURBINE
PUMPTURBINE
PUMP7c4Figure
7C-4 Oil Flow Without Stator
If the counterclockwise spinning oil were allowed to
return directly to the converter pump, the oil would
strike the inner section of the pump blades in a direc-
tion that would hinder its rotation, cancelling out
any gains in torque that have been obtained. To pre-
vent this, a stator assembly is added, and is located
between the converter pump and turbine. See Figure7c-5.
The stator redirects the oil returning to the pump
member of the converter and changes its direction of
rotation to that of the pump. Since the direction of
the oil leaving the stator is not opposing the rotationof the pump, the energy or torque of the engine is
added to the oil as it passes through the
the entire cycle repeats. See Figure
7C-6.pump and
The force of the returning oil from the turbine tends
to rotate the stator in a counterclockwise direction,
the stator is mounted on a one-way or roller clutch
which allows it to turn clockwise but not counter-
clockwise. Therefore, at low turbine speeds, the re-
turning oil from the turbine striking the stator blades
in a counterclockwise direction causes the roller
clutch to “lockup,” and prevent the stator from turn-
ing.
As the turbine speed increases, the direction of the
oil leaving the turbine changes and flows against thestator blades in a clockwise direction. Since the sta-tar would now be hindering the smooth flow of re-
turning oil to the pump, the roller clutch releases,
and the stator rotates freely on its shaft. With this
condition, the stator becomes ineffective and no fur-
ther multiplication of engine torque is produced
within the converter. At this point the converter acts

7C- 401973 OPEL SERVICE MANUAL
ENERGIZING SPRINGS
UTER RACE (CAM)
ROLLER CLUTCHSTATOR
LOCKS UPSTATOR
COUNTER CLOCKWISE FORCES ON CAM, LOCKOVERRUNS
ROLLERS TO INNER RACE
CLOCKWISE FORCES ON CAM CAUSESTATOR ASSEMBLYx.5
ROLLERS TO OVERRUN INNER RACE
Figure 7C-5 Roller Clutch And Stator Assembly
as a fluid coupling, since both the converter pump
and turbine are turning at the same speed, or at a 1:l
ratio.
The torque converter and input shaft actually form
a simple transmission in themselves, however, since
the requirements of an automobile transmission are
greater, some means of providing additional torque,
neutral and reverse, are required. For this reason a
gear set is added behind the torque converter.
Planetary Gears
Planetary gears are used in automatic transmissions
as the basic means of multiplying the twisting force
or torque from the engine. They are so named be-
cause of their physical arrangement and are used
because they permit constant mesh operation, cannot
clash, operate in a minimum of space and distribute
the load over several gears. The simplest planetary
gear set consists of a center or sun gear, internal or
ring gear and a planetary gears called planetary pin-
ions. See Figure
7C-9. The sun gear meshes with theplanetary pinions which rotate freely on their shafts
attached to the planetary carrier. The ring gear
sur-rounds the assembly and meshes with the planetary
pinions. Power flow through the planetary gear set
is accomplished by applying power to one member,
holding another member thus making it a reaction
member and obtaining the transmitted power from
the third member, which can result in any of the
following conditions:
1. Increase torque with a proportional decrease in
output speed.
2. Increase speed with a proportional decrease of
output torque.
3. Reverse direction of rotation.
4. Act as a direct connection for direct drive.
The gear set used in the Opel Three Speed Automatic
transmission is known as a Ravigneaux planetary

AUTOMATIC TRANSMISSION7c- 43
LONG PINIONINPUT SUNGPLANETARY CARRIERFigure 7C-12 Third Gear
LONG PINION
ORT PINION
INPUT SUN
PLANETARY CARRIER7c.13Figure 7C-13 Reverse
Three Speed automatic transmission has three disc
clutches, a band and a sprag (overrunning) clutch.
Disc Clutch
A disc clutch serves to connect or disconnect a rotat-
ing member with another rotating member or a sta-
tionary member. A clutch of this type can have one
or mgre discs or plates depending on the desired
capacity.
A disc clutch consists of drive plates, driven plates,
a hub and a drum or housing (depending on whether
the rotating member is being clutched to another
rotating member or a stationary member). Themethod of apply in an automatic transmission is a
hydraulic piston.
One set of plates is lined with friction material and
the other plates are steel. Whether the plates are
designated as “drive” or “driven” plates depends on
the power flow through the clutch.
One set of plates is splined to the drum or housing.
With the piston in the released position, the hub with
its plates are free to rotate relative to the drum or
housing. When hydraulic pressure is applied behind
the piston, the piston forces the drive and drivenp!ates together, thus causing the hub to rotate with
the
drur.1 or remain stationary with the housing. See
Figure 7C- 12.
DRUM
FORCE APPLIED
FORCE APPLIEDr
7c-14
Figure
7C-14 Clutch Applied
CLUTCHAPPLY
\
PISTON
CLUTCH
RELEASE-SPRING
r
HUB
CLUTCH DISCS
RELEASED
CLUTCH HUBFigure
7C-15 Clutch Released

causes the sprags to wedge and prevent rotation in
one direction, and to allow free rotation in the oppo-
site direction.7C. 441973 OPEL SERVICE MANUAL
The clutch is released by exhausting the oil from
behind the piston. The release springs push the pis-
ton to the released position, thereby removing the
force from the plates. See Figure 7C-16.Band
A band is used to hold one planetary member sta-
tionary with relation to the other planetary mem-
bers.
!See Figure 7C-19. The band is connected to the
SPR
7C-16Figure
7C-16 Sprag Cage Assembly
Sprag C(utchA sprag clutch is an overrunning clutch which allows
rotation in one direction only and consists of an inner
race, an outer race and the sprag assembly.
The sprag assembly itself consists of sprags, retainer
rings and a spring. See Figure 7C- 16. The sprags are
mounted at intervals between the two concentric re-
taining rings. The spring is located between the rings
and surrounds the ‘narrow portion of the sprags.
One diagonal dimension of each sprag is greater than
the distance between the inner and outer race, while
the other diagonal is less. See Figure
7C-17. This
\ \I’b+ SPRAG
DISTANCE AFigure
7C-17 Sprag Operational Schematictransmissio; case (stationary anchor) and is ope-
rated by a servo piston. One band is used in the Opel
Three: Speed Automatic Transmission and holds the
reaction sun gear and drum stationary in first and
second gear.
BAND\- D7uM
PRESSURE
STATIONARY
PASSAGE
yPlSfON
1 y””SERVO BODY RELEASE SPRING
7c19
Figure
7C-19 Band Application
COMPONENT OPERATION AND LOCATIONThe power flow and principles of operation of the
Opel Three Speed Automatic Transmission power
train are most easily understood when each unit is
considered separately with a part by part build up of
the unit.
The torque converter is connected to the engine by
means of a flex plate which is bolted directly to the
engine crankshaft and to the converter cover. The
converter cover is welded to the converter pump
member which provides a direct connection of the
engine to the converter. The converter pump hub tits
into the transmission oil pump driving the oil pump
whenever the engine is operating. See Figure
7C-20.The input shaft is splined into the hub of the turbine,
delivering the converter’s output torque to the trans-
mission gear train. See Figure
7C-21.

AUTOMATIC TRANSMISSION7c- 45
Figure 7C-20 Converter. Converter Housing And oil Pump
INPUT SHAFT AND THIRD CLUTCH DRUM
Figure 7C-21 Input Shaft And 3rd Clutch Drum