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INCORPORATED
INCORPORATED
Ser vice
Manual Marine
Power Take-of
e-offf
ake-of
March, 2001
A. Twin Disc, Incorporated warrants all assembled products and parts (except component products or parts on which written
warranties are issued by the respective manufacturers thereof and are furnished to the original customer, as to which Twin Disc,
Incorporated makes no warranty and assumes no liability) against defective materials or workmanship. For products and parts
other than Rockford power take-offs, such warranty shall extend for a period of twenty-four (24) months from the date of original
shipment by Twin Disc, Incorporated to theoriginal customer, but not to exceed twelve (12) months of service or two thousand (2,000)
hours of service, whichever occurs first. For Rockford power take-offs products and parts, such warranty shall extend for a period of fifteen
(15) months from the date of original shipment by Twin Disc, Incorporated to the original customer, but not to exceed twelve (12) months
of service or one thousand five hundred (1,500) hours of service, whichever occurs first.This is the only warranty made by Twin
Disc, Incorporated and is in lieu of any and all other warranties, express or implied, including the warranties
of merchantability and fitness for a particular purpose and no other warranties are implied or intended to be
given by Twin Disc, Incorporated.
The original customer does not rely upon any tests or inspections by Twin Disc, Incorporated or on Twin Disc,
Incorporated*s application engineering.
B. In consideration of the Limited Twin Disc General Warranty (hereafter called warranty) and price Twin Disc,
Incorporated charges (which reflects Twin Disc, Incorporated *s limited liability), the exclusive remedy
provided by Twin Disc, Incorporated whether arising out of warranty within the applicable warranty period
as specified, or otherwise (including tort liability), shall at the sole option of Twin Disc, Incorporated be either
the repair or replacement of any Twin Disc, Incorporated part or product found by Twin Disc, Incorporated
to be defective (or equivalent credit). Under no circumstances, including a failure of the exclusive remedy,
shall Twin Disc, Incorporated be liable for economic loss, consequential, punitive or incidental damages. The
above warranty and remedy are subject to the following terms and conditions:
1. Complete parts or products upon request must be returned transportation prepaid and also the claims submitted to Twin
Disc, Incorporated within sixty (60) days after completion of the in-warranty repair.
2. The warranty is void if, in the opinion of Twin Disc, Incorporated, the failure of the part or product resulted from abuse,
neglect, improper maintenance or accident.
3. The warranty is void if any modifications are made to any product or part without the prior written consent of Twin Disc,
Incorporated.
4. The warranty is void unless the product or part is properly transported, stored and cared for from the date of shipment
to the date placed in service.
5. The warranty is void unless the product or part is properly installed and maintained within the rated capacity of the product
or part with installations properly engineered and in accordance with the practices, methods and instructions approved
or provided by Twin Disc, Incorporated.
6. The warranty is void unless all required replacement parts or products are of Twin Disc origin or are Twin Disc authorized
replacement parts, and otherwise identical with components of the original equipment. Replacement parts or products
not of Twin Disc origin are not warranted by Twin Disc, Incorporated.
C. As consideration for this warranty, the original customer and subsequent purchaser agree to indemnify and hold Twin Disc,
Incorporated harmless from and against all and any loss, liability, damages or expenses for injury to persons or property, including
without limitation, the original customer *s and subsequent purchaser *s employees and property, due to their acts or omissions
or the acts or omissions of their agents, and employees in the installation, transportation, maintenance, use and operation of said
equipment.
D. Only a Twin Disc, Incorporated authorized factory representative shall have authority to assume any cost or expense in the
service, repair or replacement of any part or product within the warranty period, except when such cost or expense is authorized
in advance in writing by Twin Disc, Incorporated.
E. Twin Disc, Incorporated reserves the right to improve the product through changes in design or materials without being obligated
to incorporate such changes in products of prior manufacture. The original customer and subsequent purchasers will not use any
such changes as evidence of insufficiency or inadequacy of prior designs or materials.
F. If failure occurs within the warranty period, and constitutes a breach of warranty, repair or replacement parts will be furnished
on a no-charge basis and these parts will be covered by the remainder of the unexpired warranty which remains in effect on the
complete unit.
*Note The Above constitutes the basic Twin Disc, Incorporated General Limited Warranty and may be supplemented by additional published warranty
terms dependent upon the product involved. Supplementary warranty terms are available upon request.
Table of Contents
Introduction ............................................................9
General Information ............................................................................. 9
Replacement Parts ............................................................................. 10
Preventative Maintenance/Troubleshooting .................................... 11
Safety ................................................................................................... 12
Sources of Service Information ........................................................ 13
Warranty .............................................................................................. 14
Operation ..............................................................33
General ................................................................................................ 33
Power Take-off Clutch Engagement Procedure .............................. 33
Clutch Adjustment .............................................................................. 33
Disassembly .........................................................37
General ................................................................................................ 37
Disassembly of Clutched Power Take-off ........................................ 38
Disassembly of Valve ......................................................................... 39
Assembly ..............................................................53
General ................................................................................................ 53
Assembly of Clutched Power Take-off ............................................. 54
Assembly of Valve .............................................................................. 59
Valve for MG516, MG5170, MG5202, MG5301DC with Mechanical
Transmission Control Valve ......................................................... 60
Valve for MG516, MG5170DC, MG5202DC, MG5205DC, MG5301DC,
MG6650-00-SC, MG6848-00-SC with Electric Transmission Con-
trol Valve with Mechanical Backup .............................................. 61
Installation ............................................................67
Clutchable Power Take-off ................................................................ 68
Live Power Take-off ............................................................................ 80
Introduction
General Information
This publication provides the information necessary for the operation and
maintenance of the Twin Disc, Incorporated equipment specified on the cover
of this manual. Specific engineering details and performance characteristics
can be obtained from the Product Service Department of Twin Disc,
Incorporated, Racine, Wisconsin, USA.
Special Tools
Engineering drawings are included for the fabrication of special tools that
should be used during disassembly and assembly of a unit. Repair of this
equipment should not be attempted without special tools. Twin Disc does
not manufacture these tools for general use.
Replacement Parts
Parts Lists
Ordering Parts
Renewal parts and service parts kits may be obtained from any authorized
Twin Disc distributor or service dealer.
Parts Shipment
Furnish the complete shipping information and postal address. All parts
shipments made from the factory will be FOB factory location, USA. State
specifically whether the parts are to be shipped by freight, express, etc. If
shipping instructions are not specified, the equipment will be shipped the
best way, considering time and expense. Twin Disc, Incorporated will not be
responsible for any charges incurred by this procedure.
Twin Disc, Incorporated having stipulated the bill of material number on the
unit’s nameplate absolves itself of any responsibility resulting from any
external, internal or installation changes made in the field without the express
written approval of Twin Disc. All returned parts, new or old, emanating from
any of the above stated changes will not be accepted for credit. Furthermore,
any equipment which has been subjected to such changes will not be covered
by a Twin Disc warranty.
Preventative Maintenance/Troubleshooting
Most Twin Disc products have provisions for attaching lifting bolts. The holes
provided are always of adequate size and number to safely lift the Twin Disc
product.
These lifting points must not be used to lift the complete power unit.
Lifting excessive loads at these points could cause failure at the lift
point (or points) and result in damage or personal injury.
Safety
General
Individual product service bulletins are issued to provide the field with
immediate notice of new service information.
For the latest service information on Twin Disc products, contact any Twin
Disc distributor, or contact the Product Service Department, Twin Disc,
Incorporated, Racine, Wisconsin 53405-3698, USA or by e-mail at
service@twindisc.com.
Warranty
Equipment for which this manual was written has a limited warranty. For
details of the warranty, refer to the warranty statement at the front of this
manual.
General
The Twin Disc high torque capacity power take-off unit is designed to mount
directly to a Twin Disc marine transmission and is available in two output
shaft sizes. Size 32-4 is rated at 592 N-m (437 Ft-lbs) of torque, and size 38-
4 is rated at 1187 N-m (875 Ft-lbs) of torque. These are available as live or
clutchable power take-offs, and are designed for driving SAE J-744 configured
hydraulic pumps. Twin Disc assembly drawings provide dimensional
information. They are designed to fit various models of marine transmissions
as described below. Note that they are not compatible with marine
transmissions that were built before the noted beginning serial number without
significant modification to the marine transmission.
These power take-offs are compatible with the model transmissions with serial
numbers equal to or greater than those shown in Table 1. Consult the factory
for other applicable transmission models.
The power take-off is designed to drive hydraulic pumps meeting SAE J-744
with flange size 127, and shaft size 32-4 or 38-4. Adapter kits are available to
drive smaller sized pumps. The following is an explanation of the number
designation for pumps meeting the SAE J-744 criteria. The flange size
designation is comprised of two numbers such as 127-4. The first number is
the approximate pilot diameter in millimeters. The second number is the quantity
of bolt holes for attaching the pump. The power take-off is capable of fitting
either the two bolt or four bolt designed pumps. The shaft size is also comprised
of two numbers such as 32-4. The first number is the approximate major
diameter of the shaft in millimeters. The second number is an arbitrary
designation for the shaft design. The 4 means a 30 degree involute spline.
The following adapter groups are available for use with smaller pumps.
Adapter
PTO Type From Size To Size
Number
Clu tche d X B24 0 3D 1 27 -4 fla ng e 32 -4 sha ft 1 01 -2 fla ng e 22 -4 sha ft
Clu tche d XB2 40 3 E 1 27 -4 fla ng e 32 -4 sha ft 8 2 -2 fla n g e 16 -4 sha ft
L ive XB2 4 03 F 1 27 -4 fla ng e 32 -4 sha ft 1 01 -2 fla ng e 22 -4 sha ft
L ive XB2 40 3 G 1 27 -4 fla ng e 32 -4 sha ft 8 2 -2 fla n g e 16 -4 sha ft
Description
Specifications
The clutched power take-off assembly has a metal tag with the bill of material
number stamped, identifying the configuration as built and shipped by Twin
Disc. The differences between the various available versions are only in the
mounting and engaging arrangements for the model of marine transmission
that the power take-off is being used on.
The bill of material of the live power take-off assembly is only identified on the
original paperwork, and the differences are in the means to adapt to the
applicable transmission model.
1. Steel separator plates must be flat within 0.010 inch. Small areas of
local heat are acceptable if the plate is within the flatness tolerance.
2. Friction plates should be flat, and the new thickness is 0.107 to 0.115
inch. Any plate that is less than 0.100 inch total thickness should be
replaced.
Note: All threads and bearing face to be lubricated with light oil
film prior to assembly.
Table 3. U.S. Standard Fine and Coarse Thread Capscrews, Bolts, and Nuts
1/4 6-8 8 - 11 10 - 12 14 - 16
5/16 13 - 17 18 - 23 20 - 24 27 - 32
3/8 25 - 29 34 - 39 35 - 41 48 - 55
7/16 37 - 43 51 - 58 55 - 65 75 - 88
Thread Property Class 8.8 Property Class 10.9 Property C lass 12.9
Size lb - ft Nm lb -ft Nm lb - ft Nm
M6 6.5 - 7.5 9 - 10 9 - 10 12 - 14 10 - 12 14 - 16
M8 16 - 18 21 - 25 23 - 26 31 - 35 25 - 29 34 - 40
M10 32 - 36 43 - 49 44 - 51 60 - 68 51 - 59 70 - 80
M16 132 - 151 179 - 205 189 - 217 256 - 294 219 - 253 298 - 342
M20 257 - 295 348 - 400 364 - 418 493 - 567 429 - 493 581 - 669
M24 445 - 511 603 - 693 626 - 720 848 - 976 737 - 848 1000 - 1150
M30 714 - 820 987 - 1113 1235 - 1421 1674 - 1926 1475 - 1697 2000 - 2301
1/4-18 34 25 21.5 16
3/8-18 36.5 27 23 17
1/2-14 68 50 40.5 30
3/4-14 73 54 46 34
Table 6. Straight Threaded Tube Fittings, Hose Fittings, and O-ring Plugs
No m in al No m in al
Nm lb -f t Nm lb -ft
T h read T h read
+ or - 5 % + or - 5 % + or - 5 % + or - 5 %
Diam e ter Diam e ter
7/16 16 12 M14X1.5 47 35
1/2 20 15 M16X1.5 58 43
M27X2.0 IN
3/4 40.5 30 85 63
ALUM
1 1/4 88 65 - - -
1 5/16 108 80 - - -
1 3/8 108 80 - - -
Refer to Bill of Materials for actual part number when ordering parts
Figure 4. PTO Valve for MG516, MG5170, MG5202, with mechanical transmission control
23
Description and Specifications
24
Marine Power Take-off Service Manual
Figure 6. PTO Valve for MG5301DC with Mechanical Transmission Control Valve
25
Description and Specifications
26
Marine Power Take-off Service Manual
Figure 11. Live Power Take-off, All MG516, MG5170DC, MG5202DC, MG5202DC,
and MG5301DC with Manual Transmission Control Valve Only
Operation
General
Clutch Adjustment
There are no clutch adjustments necessary for the power take-off. Make
sure that the engagement linkage is adjusted such that full travel of the
engaging lever results in the valve being in the detent position. See the
Installation section.
General
See the Installation section for proper adjustment of the shift lever of the
clutchable power take-off control valve. There are no adjustments on the
live power take-off.
Disassembly
General
Refer to the Bill of Material that is identified on the nameplate for the correct
part numbers of the power take off assembly. If this is unknown, it may be
obtained from your Twin Disc Authorized Distributor. A cross sectional
drawing is shown in the Description and Specification section of this manual.
Refer to this as a guide during disassembly of the power take-off.
3. Disconnect two hoses from power take off housing. Remove the four
MA947B nuts from the studs, and remove the power take-off housing
from the marine transmission.
4. Place the power take off assembly face down, using appropriate blocks
to support the power take-off on the front housing face and not the
shaft.
5. Remove the eight (8) MA996D capscrews (M12x30) from the rear
cover. The bearing outer race should remain in the cover.
7. Lift the 1717826 ring out of the housing. The inner race of the tapered
roller bearing will provide a lifting means. Remove the A2915CF snap
ring from the ring to remove the tapered roller bearing. This should
be a slip fit.
8. Lift the shaft and ball bearing out of the bore, using care to not damage
the seal rings on the spring inner diameter.
10. Remove seven (7) release spring washers and needle thrust bearing
and races.
Disassembly of Valve
Note: All of the valves for the power take-off clutches are
similar in construction, but part numbers vary. Refer to
the appropriate valve drawing for specifics and Figure
4 as a guide in Description and Specifications.
Steel ball is under pressure from the spring. Care must be taken when
removing the cover and orifice plate to prevent loss of steel ball.
1. Remove the four 5/16-18 x 1.25 inch capscrews and remove the
orifice cover, orifice plate, gaskets, check ball and spring.
Figure 15. Cover, Gaskets, Orifice Plate, Check Ball and Spring
4. Mark the lever and the stem to indicate the position the lever was
installed on the stem. Loosen the screw clamping the shift lever to
the stem and remove the lever. It may be necessary to splay the
lever to be able to remove it. DO NOT apply any impact force to the
lever, as the stem, lever, or bearing might get damaged.
5. Mark the stop and the stem to indicate the position the stop was
installed on the stem. Drive the rollpin out of the stop with a drift
punch, and remove the stop.
Steel ball is under pressure from the spring. Care must be taken when
removing the cover and orifice plate to prevent loss of steel ball.
5. Remove rate-of-rise piston. Note that shims are located between the
piston and springs.
Figure 18. Rate of rise piston (left) and Regulator Springs (right)
8. Remove external retaining ring from the lever end of the stem.
9. Loosen the clamping screw and nut and remove the control lever
from the stem. It may be necessary to splay the lever to be able to
remove it. DO NOT apply any impact force to the lever, as the stem
or dog-point setscrew might get damaged.
12. Remove the cover assembly with gasket from the valve body.
13. Remove the O-ring and oil seal from the cover assembly.
14. Remove the two electrical switches from the sides of the valve body
and the two steel balls from each of the switch bores in the valve
body.
15. Remove the detent setscrew, spring, and steel ball from the valve
body.
16. Remove the dog-point setscrew. Note that the setscrew is retained
with MA908 threadlocker.
20. Remove the roll pin (retains the shuttle ball seat) with a needle-nose
pliers.
21. Thread a M8x1.25 screw (one of the cover screws works well) into
the seat and remove it from the valve body.
Cleaning
Note: Replace all oil seals, gaskets, O-rings piston rings, seal
rings, snap rings, etc., as a part of any maintenance or
overhaul procedure. Replace shims that are damaged
or destroyed in disassembly.
Examine all parts carefully for grit, dirt and abrasives and reclean them if
necessary.
Clean all oil passages by working a piece of wire back and forth through the
passages and then flushing them with cleaning solvent.
Flush all hoses, tubing, coolers etc., particularly if the unit is being
disassembled because of an internal failure.
De-burr the housing and cover with a stone or file if necessary in the vicinity
of all pusher screw locations.
Cleaning Bearings
Do not remove grease in which new bearings are packed. Thoroughly wash
bearings that have been in service. Soak bearings in solvent if they are
particularly dirty or filled with hardened grease.
Dirt and grit in bearings are often responsible for bearing failure; consequently,
it is important to keep bearings clean. Do not remove grease from new
bearings. Keep the wrapper on new bearings until they are installed. Do not
expose clean bearings if they are not to be assembled at once. Wrap them
with a clean lint-free cloth or paper to keep out dust.
For previously sealed joints, scrape surfaces to remove old gasket material
or sealant.
Test for clean surfaces by applying a few drops of cool water to the surfaces.
Parts are sufficiently clean if water covers the surface in a film. If the water
puddles or forms beads, use fresh solvent and reclean.
Inspection
Inspect bores for wear, grooves, scratches and dirt. Remove burrs and
scratches with crocus cloth or soft stone. Replace deeply grooved or
scratched parts. Do not remove excess material by sanding. This will change
the designed fit of bearings, races, or seal rings.
Inspect machined surfaces for burrs, scratches, nicks and foreign matter. If
you cannot remove the defect with crocus cloth or a soft stone, replace the
part.
Inspect studs for damaged threads and looseness. Replace defective studs.
Inspect dowel pins for wear or damage. Replace defective dowels. This
applies where a matched set of parts is not involved.
Inspect dowel pin holes for wear due to movement between mating parts. If
a dowel pin hole is worn, re-bore and sleeve the hole when possible.
Otherwise, replace the parts. This applies where a matched set of parts is
not involved.
Valve Seats
Inspect valve seats for burrs, nicks and scratches. If you cannot remove
these defects with a crocus cloth, replace the part. Check to see that the
valve is seating properly after reworking the valve seat.
Bearings
Inspect bearings for roughness of rotation. Replace the bearing if the rotation
is rough.
Inspect bearings for corrosion, and for indication of wear of balls or rollers.
Inspect for scored, scratched, cracked, pitted or chipped races. If you find
one of these defects, replace the bearing.
Inspect bearing bores and shafts for grooved, burred, or galled conditions
that would indicate the bearing has been turning in its housing or on its
shaft. If you cannot repair the damage with a crocus cloth, replace the part.
Inspect bushings for size and out-of-roundness. Inspect for scores, burrs,
sharp edges, and evidence of overheating. Remove scores with a crocus
cloth. If the bushing is out-of-round, deeply scored, or excessively worn,
replace it.
Inspect thrust washers for distortion, scores, burrs and wear. Rework or
replace any defective thrust washers or spacers.
Gears
Inspect gears for scuffed, nicked, burred or broken teeth. If you cannot remove
the defect with a soft stone, replace the gear.
Inspect gear teeth for wear that may have destroyed the original tooth shape.
If you find this condition, replace the gear.
Inspect thrust faces of gears for scores, scratches and burrs. If you cannot
remove these defects with a soft stone, replace the gear.
Splined Parts
Inspect splined parts for stripped, twisted, chipped or burred splines. Remove
burrs with a soft stone. Replace the part if other defects are found.
Springs
Inspect springs for broken or distorted coils. Replace the spring if either of
these defects is found.
Flexible Hoses
Inspect all flexible hoses for cracks and sponginess. Replace damaged hoses.
Clutch Plates
Inspect the seal ring bores for evidence of the seal ring spinning within the
bore. If any groove exists that is deep enough to feel with a fingernail,
replace the parts as necessary to restore a correct fit of the seal ring.
Inspect the seal surfaces for grooving, scratches, or burrs. Remove any
damage by polishing, being careful to not introduce any lead that could result
in oil being pumped out past the seal. In some instances seal surfaces can
be reconditioned or renewed with the use of a “Speedi-Sleeve”.
Assembly
General
1. Press the M1989 tapered roller bearing cone assembly on the 1017826
ring, and install theA2915CF external retaining snap ring. See Figure
25 left.
2. Press the M2898 ball bearing onto the 1017827 shaft. See Figure 25
right.
Figure 25. Bearing with Snap Ring (left) and Ball Bearing On Shaft
(right)
3. Press the M1989 tapered roller bearing cup into the 1017823 cover.
See Figure 26 left.
4. Install the A2916FW o ring in the groove of the 1017823 cover. See
Figure 26 right.
Figure 26. Install Bearing Cup (left) and Install O-ring (right)
5. Install the B1048AK internal snap ring into the splined bore of the
1017826 ring. See Figure 27 left.
6. Place the rear cover with the rear face down, and apply a coat of oil to
the bearing cone, and place the 1017826 ring assembly into the rear
cover. See Figure 27 right.
Figure 27. Installing Snap Ring (left) and Installing Ring With Bearing
(right)
7. Install the two M1904E sealing rings into the grooves of the shaft and
carefully hook the ends. Lubricate the seal rings, and insert the shaft
and bearing into the bore of the 1017826 ring. See Figure 28 left.
8. Soak the friction plates in oil for at least one hour prior to installing
them into the power take-off. Insert the 1017822 backplate, followed
by an A4480Q friction plate, and an A4481A steel plate. Install an
additional seven friction plates, and six steel plates, alternating such
that there is a steel plate between each friction plate. A friction plate
will be the last plate installed. See Figure 28 right.
Figure 28. Installing Seal Rings (left) and Install Clutch Plates (right)
10. Install the seven B1783N belleville spring washers as shown in Figure
13. The first spring must be installed with the convex end against the
shoulder of the shaft, and the the next spring with the concave end
first so that the two contact each other only at the outer diameter.
Alternately, install the remaining springs such that the springs are not
parallel to each other, and the maximum overall spring length results.
See Figure 29 left.
11. Install the 202265B race (thick), followed by the M2087P needle
bearing, and the M2086CY race (thin), coating each with a film of
assembly lube. See Figure 29 right.
Figure 29. Belleville Springs installed (left) and Installing Bearing and
Races (right)
12. Install the M1904C piston seal ring on the 1017825A piston, and install
the piston into the ring. See Figure 30 left.
13. Make sure the seal rings and o-ring in cover are lubricated, and install
the 1017824 housing over the clutch assembly, aligning the housing
such that the drain hole of the housing is opposite the external hose
ports on the rear cover. The use of M12 alignment studs is
recommended. See Figure 30 right.
Figure 30. Install Piston Seal Ring (left) and Installing Housing (right)
14. Install the eight MA996D capscrews (M12 x 30 class 10.9), and torque
to 83 lb-ft (112 Nm) with the threads lubricated with a light oil film.
See Figure 31.
Assembly of Valve
Note that all of the valves for the power take off clutches are similar in
construction, but part numbers vary. Refer to the appropriate valve drawing
in the Description and Specifications section for specifics, and refer to Figure
4 and the illustration below as a guide.
2. Install the O-ring into the counterbore in the valve cover. Coat the O-
ring and the stem with light assembly grease.
3. Install the valve stem into the valve cover. Use caution to prevent
damage to the O-ring and bearing.
4. Install the cover gasket and valve stem and cover assembly onto the
valve body.
6. Install the stop and rollpin, lining up the marks made at disassembly.
Use small punch to line up the rollpin hole in the stop with the
corresponding hole in the stem. Continue to hold the holes in alignment
as the rollpin is driven into place. Support the stop while driving in the
roll pin to prevent damage to the stem and valve.
7. Install the shift lever onto the stem, lining up the marks made at
disassembly. Torque the screw to 15 Nm (11 lb-ft.).
9. Install the spring and check ball, orifice plate gasket. Install the orifice
plate with the chamfered side of the hole (check ball seat) toward the
check ball. Install the cover gasket, cover, and four of 5/16-18 x 1.00
inch capscrews, and torque to 20 Nm (15 lb-ft.).
1. Install the steel shuttle ball into its bore in the valve body.
4. Install the roll pin to retain the shuttle ball seat. Drive the roll pin in
until it is flush with the gasket surface of the valve body.
5. Install the stem into the valve body, aligning the slot in the stem with
the threaded hole in the valve body for the dog-point setscrew. Be
sure the slot in the stem is aligned with the setscrew hole in the valve
body to prevent damage to the stem and valve body.
10. Install the thrust washer over the end of the stem.
11. Press the oil seal into the cover assembly until flush with the adjacent
cover surface.
12. Install the O-ring into the counterbore in the cover assembly.
13. Apply grease to the stem, O-ring, and oil seal lip.
14. Install cover assembly and gasket onto valve body. Be sure to align
the oil drain hole in the gasket with the hole in the valve body.
18. Install lever onto the stem. It may be necessary to splay the lever to
be able to install it. DO NOT apply any impact force to the lever, as
the stem or dog-point setscrew may be damaged. Torque the lever’s
attaching screw to 9.5 Nm (7lb-ft).
20. Install the steel balls and electrical switches into the bores in the sides
of the valve body. Note that the small diameter ball is inboard of the
large diameter ball at each switch location.
21. Install the pressure regulating piston into valve body with spring pocket
out.
22. Install pressure regulating springs into valve body and into piston
spring pocket.
23. Install the shims that were removed into the bore of the rate-of-rise
piston. Install the rate-of-rise piston over the springs and into valve
body.
24. Install neutral pressure regulating spring into the pocket of valve body.
26. Install orifice plate and steel ball (against spring) onto valve body.
27. Install orifice plate cover and gasket onto valve body. Install four of
M8 x 25 socket head capscrews and torque to 23 Nm (17 lb-ft).
29. Set upper valve body half over lower valve body half. Insert the M10
x 150 attaching screws through valve body halves to keep parts in
alignment until installation onto the transmission. When installing the
valve onto the transmission, torque the screws to 54 Nm (40 lb-ft.).
Installation
These PTO’s are designed for use with Twin Disc marine transmissions.
They are available in clutchable and live configurations. The marine
transmission is available with the power take-off installed at the factory, or
as a field installation kit. There are several versions of the power take-off
installation groups, however the only differences concern the mounting and
engaging interface with the various models of marine transmission. Refer to
the section that pertains to the appropriate model of marine transmission.
Preparation
The parts for this clutchable power take-off are the same for all marine
transmission models, and is shown in Figure 1. The installation dimensions
for the clutchable power take-off are also the same for all transmission models,
and are shown in Figure 2. Additional installation parts are necessary,
depending on the transmission model. The figures that identify these
additional parts are referred to in the following paragraphs. Note that the
part numbers shown are for reference only, and a current bill of material
should be used to order the proper parts.
Refer to Figure 3.
1. Remove the cover from rear of marine transmission at the input shaft
centerline. Remove and discard the o-ring. Remove two o-ring plugs
from the transmission manifold tower. Remove the pipe plug or o-ring
plug from the top of the manifold tower.
3. Press the two M1035B dowel pins in the end of the primary shaft of
the marine transmission, until 9 mm of the pin protrudes from the end
of the primary shaft.
4. Assemble the M1904L piston ring into the groove of the 1017834
adapter, and install the adapter over the dowel pins in the shaft. Fasten
the adapter to the shaft with two MA1062C capscrews (M12x70, Class
12.9) and torque the capscrews to 130 Nm (96 lb.ft). Note that all
threaded fasteners should be lightly lubricated prior to assembly.
5. Install the four MA1049B studs (M12x155) into the manifold. The
shorter length of threads must be installed into the manifold.
7. Install the power take-off assembly onto the manifold so that the drain
slot in the PTO housing aligns with the drain hole in the manifold.
Fasten with the four MA947B nuts and torque to 80 Nm (59 lb.ft).
9. Remove the protective plugs and install two MA1053K fittings (torque
to 37 Nm or 27 lb-ft) into the power take-off housing. Install the elbow
MA1053L (torque to 37 Nm or 27 lb-ft) at the top of the valve, and
fitting M2483BR into the end of the ditch plate (torque to 16 Nm or 12
lb-ft). Attach the MA923AL hose (15 in.) from the front (transmission
side) of the power take-off to the elbow at the top of the valve, and the
MA923AP hose (17.6 in.) from the rear of the power take-off to the
ditch plate fitting. Torque the hose ends to 16 Nm (12 lb-ft).
The PTO housing must not be strained by the support plate when it is
anchored. Any gap that remains between the surface of the support
bracket and the PTO housing must be shimmed to reduce the gap to
zero without straining the PTO housing.
11. Install and tighten four M12, class 8.8 capscrews through the support
bracket into the power take-off and torque to 80 Nm (59 lb.ft). Following
this procedure will prevent damaging deflection or strain when
attaching the support plate.
12. The driven pump should now be installed, using a gasket that will
seal on the pump mount face. Lube oil is supplied from the marine
transmission to lubricate the pump spline, and then flows to the sump
through the power take-off housing. Consequently, the pump face
will be in contact with marine transmission oil, but not pressurized.
Refer to Figure 5.
1. Remove the cover from the rear of the marine transmission at the
input shaft centerline. Remove and discard the o-ring.
2. Press the two M1035B dowel pins in the end of the primary shaft of
the marine transmission, until 9 mm of the pin protrudes from the end
of the primary shaft.
3. Assemble the M1904L piston ring into the groove of the 1017834
adapter, and install the adapter over the dowel pins in the shaft. Fasten
the adapter to the shaft with two MA1062C capscrews (M12x70, Class
12.9) and torque the capscrews to 130 Nm (96 lb.ft). Note that all
threaded fasteners should be lightly lubricated prior to assembly.
4. Install the four MA1049B studs (M12x155) into the manifold. The
shorter length of threads must be installed into the manifold.
6. Install the power take-off assembly onto the manifold so that the drain
slot in the PTO housing aligns with the drain hole in the manifold.
Fasten with the four MA947B nuts and torque to 80 Nm (59 lb.ft).
8. Remove the protective plugs and install four MA1053K fittings (torque
to 37 Nm or 27 lb-ft), two into the PTO housing, and two into the
1017973 ditch plate. Attach the MA923AL hose (hose A, 15 in.) from
the front of the power take-off to the starboard side fitting on the
1017973 ditch plate, and the MA923AP hose (hose B, 17.6 in.) from
the rear of the power take-off (near the pump mounting surface) to
the other ditch plate fitting. Torque the hose ends to 16 Nm (12 lb-ft).
The PTO housing must not be strained by the support plate when it is
anchored. Any gap that remains between the surface of the support
bracket and the PTO housing must be shimmed to reduce the gap to
zero without straining the PTO housing.
10. Install and tighten four M12, class 8.8 capscrews through the support
bracket into the power take-off and torque to 80 Nm (59 lb.ft). Following
this procedure will prevent damaging deflection or strain when
attaching the support plate.
11. The driven pump should now be installed, using a gasket that will
seal on the pump mount face. Lube oil is supplied from the marine
transmission to lubricate the pump spline, and then flows to the sump
through the power take-off housing. Consequently, the pump face
will be in contact with marine transmission oil, but not pressurized.
Refer to Figure 7.
1. Remove the cover from rear of marine transmission at the input shaft
centerline. Remove and discard the o-ring. Remove two o-ring plugs
from the transmission manifold tower. Remove the pipe plug or o-ring
plug from the top of the manifold tower.
3. Press the two M1035B dowel pins in the end of the primary shaft of
the marine transmission, until 9 mm of the pin protrudes from the end
of the primary shaft.
4. Assemble the M1904L piston ring into the groove of the 1017834
adapter, and install the adapter over the dowel pins in the shaft. Fasten
the adapter to the shaft with two MA1062C capscrews (M12x70, Class
12.9) and torque the capscrews to 130 Nm (96 lb.ft). Note that all
threaded fasteners should be lightly lubricated prior to assembly.
5. Install the four MA1049B studs (M12x155) into the manifold. The
shorter length of threads must be installed into the manifold.
7. Install the power take-off assembly onto the manifold so that the drain
slot in the PTO housing aligns with the drain hole in the manifold.
Fasten with the four MA947B nuts and torque to 80 Nm (59 lb.ft).
8. Assemble the 1018884 gasket, and 1018885 ditch plate onto the
manifold tower, using four of MA1052C capscrews (M10x40 class
12.9), and torque to 75 Nm (55 lb.ft). Install the 1018594A gasket,
and the 1017172F valve assembly onto the ditch plate with four
MA1052J capscrews (M10x120class 12.9) and torque to a special
reduced torque of 54 Nm (40 lb.ft) with threads lubricated.
9. Remove the protective plugs and install two MA1053K fittings (torque
to 37 Nm or 27 lb-ft) into the power take-off housing. Install the elbow
MA1053L (torque to 37 Nm or 27 lb-ft) at the top of the valve, and
fitting M2483BR into the end of the ditch plate (torque to 16 Nm or 12
lb-ft). Attach one MA923AP hose (hose A, 17.6 in.) from front of the
power take-off to the elbow at the top of the valve, and the other
MA923AP hose (hose B, 17.6 in.) from the rear of the power take-off
to the ditch plate fitting. Torque the hose ends to 16 Nm (12 lb-ft).
The PTO housing must not be strained by the support plate when it is
anchored. Any gap that remains between the surface of the support
bracket and the PTO housing must be shimmed to reduce the gap to
zero without straining the PTO housing.
11. Install and tighten four M12, class 8.8 capscrews through the support
bracket into the power take-off and torque to 80 Nm (59 lb.ft). Following
this procedure will prevent damaging deflection or strain when
attaching the support plate.
12. The driven pump should now be installed, using a gasket that will
seal on the pump mount face. Lube oil is supplied from the marine
transmission to lubricate the pump spline, and then flows to the sump
through the power take-off housing. Consequently, the pump face
will be in contact with marine transmission oil, but not pressurized.
Refer to figure 9.
1. Remove the cover from the rear of the marine transmission at the
input shaft centerline. Remove and discard the o-ring.
2. Remove the existing transmission control valve, ditch plate and gasket
from the manifold. Discard the ditch plate and gasket.
3. Assemble the B3404 gasket, and the 1018482 ditch plate onto the
manifold using two MA1062P capscrews (M12x130 class 12.9), and
torque to 130 Nm (96 lb.ft). Note that all threaded fasteners should
be lightly lubricated prior to assembly.
6. Press the two M1035B dowel pins in the end of the primary shaft of
the marine transmission, until 9 mm of the pin protrudes from the end
of the primary shaft.
7. Assemble the M1904L piston ring into the groove of the 1017834
adapter, and install the adapter over the dowel pins in the shaft. Fasten
the adapter to the shaft with two MA1062R capscrews (M12x70, Class
12.9) and torque the capscrews to 130 Nm (96 lb.ft). Note that all
threaded fasteners should be lightly lubricated prior to assembly.
8. Install the four MA1049B studs (M12x155) into the manifold. The
shorter length of threads must be installed into the manifold.
10. Install the power take-off assembly onto the manifold so that the drain
slot in the PTO housing aligns with the drain hole in the manifold.
Fasten with the four MA947B nuts and torque to 80 Nm (59 lb.ft).
11. Assemble the 1017974 gasket, and 1018914 ditch plate onto the
manifold tower, using four MA1062Q capscrews (M12x45 class 12.9),
and torque to 130 Nm (96 lb.ft). Install the 1018594A gasket, and the
1017172K valve assembly onto the ditch plate with four MA1052J
capscrews (M10x120class 12.9) and torque to a special reduced
torque of 54 Nm (40 lb.ft) with the threads lubricated.
12. Remove the protective plugs and install two MA1053K fittings (torque
to 37 Nm or 27 lb-ft), one into power take-off housing at the rear
location, and one into ditch plate at the rear location. Install two
MA1053L elbows (torque to 37 Nm or 27 lb-ft), one into power take-
off housing at the front location, and one into the ditch plate at the
starboard side location. Attach the MA923AL hose (15 in.) from the
elbow at the front of the power take-off to the elbow at the right of the
ditch plate, and the MA923AP hose (17.6 in.) from the rear of the
power take-off to the fitting at the rear of the ditch plate. Torque the
hose ends to 16 Nm (12 lb-ft).
The PTO housing must not be strained by the support plate when it is
anchored. Any gap that remains between the surface of the support
bracket and the PTO housing must be shimmed to reduce the gap to
zero without straining the PTO housing.
14. Install and tighten four M12, class 8.8 capscrews through the support
bracket into the power take-off and torque to 80 Nm (59 lb.ft). Following
this procedure will prevent damaging deflection or strain when
attaching the support plate.
15. The driven pump should now be installed, using a gasket that will
seal on the pump mount face. Lube oil is supplied from the marine
transmission to lubricate the pump spline, and then flows to the sump
through the power take-off housing. Consequently, the pump face
will be in contact with marine transmission oil, but not pressurized.
The installation dimensions for the live power take-off are the same for all
transmission models, and are shown in Figure 11. The parts for the live
power take-off assembly are also the same for all transmission models, and
are also shown in Figure 11. Mounting arrangements do vary, depending on
the marine transmission model. Additional installation parts may be
necessary, depending on the transmission model, and are identified in figures
that are referred to in the following paragraphs. Note that the part numbers
shown are for reference only, and a current bill of material should be used to
order the proper parts.
1. Remove the cover from the rear of the marine transmission at the
input shaft centerline. Remove and discard the o-ring.
2. Press the two M1035B dowel pins in the end of the primary shaft of
the marine transmission, until 9 mm of the pin protrudes from the end
of the primary shaft.
3. Assemble the M1904L piston ring into the groove of the 1017834
adapter, and install the adapter over the dowel pins in the shaft. Fasten
the adapter to the shaft with two MA1062R capscrews (M12x70, Class
12.9) and torque the capscrews to 130 Nm (96 lb.ft). Note that all
threaded fasteners should be lightly lubricated prior to assembly.
5. Install the 1015532 carrier onto the manifold so that the drain slot in
the carrier bore aligns with the drain hole in the manifold. Fasten with
four MA1062S capscrews (M12x90, Class 12.9) and torque to 130
Nm (96 lb.ft).
6. Assemble the internal snap ring into the splined adapter (A2669DG
snap ring with 1017835 adapter for SAE No. 32-4 spline, and A2669FV
snap ring with 1017836 adapter for SAE No. 38-4 spline) and install it
over the drive adapter.
7. The driven pump should now be installed, using a gasket that will
seal on the pump mount face. Lube oil is supplied from the marine
transmission to lubricate the pump spline, and then flows to the sump
through the power take-off housing. Consequently, the pump face
will be in contact with marine transmission oil, but not pressurized.
8. Note that when using a 4 bolt pump, the four MA1062S capscrews
from step 5 above must be replaced with studs of adequate length to
mount both the pump and the carrier. The studs should be screwed
into the manifold a minimum of 18 mm. Secure the pump and carrier
with nuts, and torque to the appropriate value as shown in the bolt
torque chart in the Description and Specification section. Be sure
that a gasket is installed between the pump face and its mounting
surface.
1. Remove the cover from the rear of the marine transmission at the
input shaft centerline. Remove and discard the o-ring.
2. Remove the existing control valve, ditch plate and gasket from the
manifold. Discard the ditch plate and gasket.
3. Assemble the the B3404 gasket, and 1018482 ditch plate onto the
manifold using two MA1062P capscrews (M12x130 class 12.9), and
torque to 130 Nm (96 lb.ft). Note that all threaded fasteners should
be lightly lubricated prior to assembly.
4. Install the 1018481 gasket, 1018874 ditch plate, 1018886 gasket and
1018480 ditch plate, using two of MA1062R capscrews (M12x70 class
12.9) and five of MA1062Q capscrews (M12x45 class 12.9) and torque
to 130 Nm (96 lb.ft).
6. Press the two M1035B dowel pins in the end of the primary shaft of
the marine transmission, until 9 mm of the pin protrudes from the end
of the primary shaft.
7. Assemble the M1904L piston ring into the groove of the 1017834
adapter, and install the adapter over the dowel pins in the shaft. Fasten
the adapter to the shaft with two MA1062R capscrews (M12x70, Class
12.9) and torque the capscrews to 130 Nm (96 lb.ft). Note that all
threaded fasteners should be lightly lubricated prior to assembly.
9. Install the 1015532 carrier onto the manifold so that the drain slot in
the carrier bore aligns with the drain hole in the manifold. Fasten with
four MA1062S capscrews (M12x90, Class 12.9) and torque to 130
Nm (96 lb.ft).
10. Assemble the internal snap ring into the splined adapter (A2669DG
snap ring with 1017835 adapter for SAE No. 32-4 spline, and A2669FV
snap ring with 1017836 adapter for SAE No. 38-4 spline) and install it
over the drive adapter.
11. The driven pump should now be installed, using a gasket that will
seal on the pump mount face. Lube oil is supplied from the marine
transmission to lubricate the pump spline, and then flows to the sump
through the power take-off housing. Consequently, the pump face
will be in contact with marine transmission oil, but not pressurized.
12. Note that when using a 4 bolt pump, the four MA1062S capscrews
from step 5 above must be replaced with studs of adequate length to
mount both the pump and the carrier. The studs should be threaded
into the manifold for a depth of 18mm on units with an iron manifold,
and 24 mm on units with an aluminum alloy manifold. Secure the
pump and carrier with nuts, and torque to the appropriate value as
shown in the bolt torque chart in the Description and Specification
section. Be sure that a gasket is installed between the pump face and
its mounting surface.
TWIN DISC, INCORPORATED RACINE, WISCONSIN 53403, U.S.A. 262-638-4000/262-638-4482 (FAX) WWW.TWINDISC.COM