hydraulic systems

Transcription

hydraulic systems

HYDRAULIC SYSTEMS
5
MC Transom Assys. and Hydraulic Systems (0606)
1
Table of Contents
Hydraulic Systems – Power Trim.............................5A
Hydraulic Systems – Power Steering.......................5B
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HYDRAULIC SYSTEMS –
POWER TRIM
5A
MC Transom Assys. and Hydraulic Systems (0606)
3
Table of Contents
Oildyne Power Trim System ............................................................................. 5
Trim Cylinders ............................................................................................... 5
Power Trim Cylinder Maximum Extension Dimension for Trim Limit
Adjustment .................................................................................................... 6
Maintaining Power Trim Pump Oil Level........................................................... 8
Current Replacement Pressure Relief Valve ................................................ 8
Series V Oildyne Power Trim Pump Adaptors .............................................. 9
Series I/II/III Power Trim Pump Identification (High Pressure/Low Flow) ....... 10
Series I/II – Prestolite Trim Pump ............................................................... 10
Series III – Prestolite Trim Pump (Without Control Valve) 93247A4........... 10
Service Replacement Trim Pump For Series I/II/III Trim Systems.............. 11
Oildyne High Pressure, Low Flow Power Trim Pump Kits .......................... 11
Series IV Power Trim Pump Identification ...................................................... 12
Prestolite Low Pressure/High Flow (Plastic Reservoir Without Control Valve)
.................................................................................................................... 12
Oildyne (with Eaton Motor).......................................................................... 12
Series V Power Trim Pump Identification ....................................................... 13
Oildyne (with Eaton Motor).......................................................................... 13
Oildyne (with Later Motor)........................................................................... 13
Power Trim Pump - 2004 Changes ................................................................ 14
New Fuse Assembly ................................................................................... 14
New Trim Pump Harness ............................................................................ 14
Control Harness to Trim Pump Adapter Harnesses.................................... 14
Power Trim Quick Connects ....................................................................... 15
Trim Pump Reservoir Cap........................................................................... 15
93247A7 Low Flow/High Pressure Trim Pump Replacement Kit ................... 16
Hydraulic Trim Pump Removal ................................................................... 16
Hydraulic Trim Pump Installation ................................................................ 18
Final Check ................................................................................................. 21
Oildyne Power Trim – Series IV 1983–1985................................................... 22
Special Information ......................................................................................... 23
Trail-Out Valve Removal ............................................................................. 23
Power Trim Cylinders ..................................................................................... 24
Alpha One Generation II Power Trim Cylinder (0D341151 and Above)...... 24
Bravo Trim Cylinder (Series V) ................................................................... 26
Oildyne Power Trim Electrical System Series V 1986 and up ........................ 28
With 3-Button Trim/Trailer Panel................................................................. 29
With Trim In Handle and Trailer Switch Separate ....................................... 30
Power Trim Systems / Oildyne Series V “UP” Circuit (1986 and Up) ............. 32
Oildyne Hydraulic “Up-Circuit”..................................................................... 33
Oildyne Series V “DOWN” Circuit (1986 and Up) ........................................... 34
Oildyne Hydraulic “Down-Circuit” ................................................................ 35
Oildyne Series V “Shock Absorber” System (1986 and Up) ........................... 36
Oildyne Shock Absorber System ................................................................ 37
Bravo Three Drive Unit Trim “In” Limit Devices .............................................. 38
Trim “In” Limit Blocks .................................................................................. 39
Trim “In” Limit Spacers (Internal - Trim Ram) ............................................. 39
Trim “In” Limit Pin/Spacer (Drive Shaft Housing Mounted) ......................... 40
Bravo Drive Shaft Housing Replacement ....................................................... 41
Bravo Drive Shaft Housings Affected.......................................................... 41
Description .................................................................................................. 41
Bravo One and Two .................................................................................... 41
Bravo Three ................................................................................................ 42
HYDRAULIC SYSTEMS – POWER TRIM
2 SECTION 5A
4
Air Bleeding Power Trim System ....................................................................43
Bleeding OUT/UP Trim Circuit.....................................................................43
Bleeding IN/DOWN Trim Circuit ..................................................................44
Testing Power Trim Pump ..............................................................................45
Test Gauge..................................................................................................45
Internal Restriction Test...............................................................................46
OUT/UP Pressure Test ...............................................................................46
IN/DOWN Pressure Test .............................................................................48
Trim Pump Hydraulic System..........................................................................49
Trim Cylinder Internal Leak Test .....................................................................50
Trim Cylinder Shock Piston Test.....................................................................51
Motor and Electrical Bench Tests ...................................................................52
110 Amp Fuse Test (Pump in Boat) ............................................................52
110 Amp Fuse Test (Pump Out of Boat) .....................................................54
20 Amp Fuse Test .......................................................................................55
Trim Pump Motor Test (In Boat) ..................................................................56
Trim Pump Motor Test (Out of Boat) ...........................................................58
Solenoid Test (Pump In Boat) .....................................................................60
Solenoid Test (Pump Out of Boat)...............................................................62
SECTION 5A
3
5
Notes:
Oildyne Power Trim System
Trim Cylinders
Four Different Versions - DO NOT Intermix
Original On M/C I and Bravo Drive 98703 or 98704 casting number on trim
cylinder
Machined outer tube for an additional 3_ tuck-in 98703--1 or 98704--1 casting
number on trim cylinder.
Outer tube 3/4” longer to achieve 6_additional tilt 14034--1 or 14035--1
casting number on trim cylinder.
Trim cylinder used on the Alpha One, Gen II drive 815935-1 or 815954-1
casting number on the trim cylinder.
SECTION 5A
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Power Trim Cylinder Maximum Extension Dimension for
Trim Limit Adjustment
a) 21-3/4 in. Max. (554mm)
Earlier R/MR/Alpha One Models
b) 20-3/4 in. Max. (520mm)
Alpha One Generation II Models
c) c - 21-3/4 in. Max. (554mm)
Bravo Models
NOTE: There is a spacer available for the trim cylinders that will limit the
upward travel of the drive unit to keep it from hitting the swim platform.
Blackhawk trim cylinders use 2 trim limit spacers.
6
SECTION 5A
7
Notes:
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Spanner Wrench Tool Part No. 91-821709
a) Special Tool 91-821709
b) Trim Cylinder
c) Trim Cylinder End Cap
SECTION 5A
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8
Notes:
Maintaining Power Trim Pump Oil Level
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a) Vent Screw
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Avoid pump damage - vent reservoir pressure.
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Check the oil level with the stern drive unit in the full down position.
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If Quicksilver Power Trim and Steering fluid is not available, SAE 10W______________
30 or 10W-40 engine oil can be used in the system.
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Remove the fill cap, the raise and lower the drive unit 6 to 10 times to
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purge air from the system. Check the oil level visually.
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If there is a vent screw, it must be backed out 2 full turns. If there is no
vent screw, remove the fill neck seal to vent the pump.
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Maintain the oil level between the “Max” and “Min” marks on the side of
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the reservoir. Fill to the bottom lip on the fill neck.
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______________ Current Replacement Pressure Relief Valve
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______________ a) Replacement Pressure Relief Valve
______________ b) Color Coded Area
UP Pressure Relief Valve - BLUE Colored
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DOWN Pressure Relief Valve - GREEN Colored
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THERMAL Relief Valve - GOLD Colored
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______________ NOTE: Original factory installed pressure relief valves will be a natural steel
finish - they will NOT be color coded.
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8
SECTION 5A
9
IMPORTANT: A difference exists between the factory installed and the
replacement pressure relief valves. Once the jam nut is loosened on a
factory installed relief valve, the valve is out of adjustment.
When installing a replacement pressure relief valve, DO NOT loosen or
attempt to remove the hex “jam” nut. This valve is preset at the factory
for proper pressure relief.
Do not use a wrench on the upper colored fitting. Use a wrench on the
lower hex-fitting to tighten the relief valve.
Series V Oildyne Power Trim Pump Adaptors
a)
b)
c)
d)
Down Pressure Relief Valve
Up Pressure Relief Valve
Thermal Relief Valve
Adaptor Fitting - Used with Old Adaptor
SECTION 5A
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Notes:
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Series I/II/III Power Trim Pump Identification
(High Pressure/Low Flow)
Series I/II – Prestolite Trim Pump
a) Metal or Plastic Reservoir
b) Control Valve
Series III – Prestolite Trim Pump (Without Control Valve)
93247A4
10 SECTION 5A
11
Notes:
Service Replacement Trim Pump For Series I/II/III Trim
Systems
a) The Oildyne Pump is Identified with the Production Part Number 93247A6
and Low Flow Branded on the Plastic Housing
The Prestolite trim pump has become no longer available (NLA) and is being
replaced with an Oildyne floor mounted trim pump. This pump has the same
pressures as the Prestolite style pump which was a high pressure low flow
type pump. Refer to Service Bulletin 91-14 for additional information.
The Oildyne trim pump has internal valving that eliminates the need for an
external reverse lock. However, the reverse lock may be required for shift
cable attachment.
Oildyne High Pressure, Low Flow Power Trim Pump Kits
Mercury Part
Number
Description
854285
Down Pressure Relief Valve
854286
Up Pressure Relief Valve
854287
854288
Pump Adapter
SECTION 5A
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Series IV Power Trim Pump Identification
Prestolite Low Pressure/High Flow (Plastic Reservoir
Without Control Valve)
a) Manual Release Valve
b) Vent
c) Fill Plug
Oildyne (with Eaton Motor)
Older Production with Manual Release Valve
a) Square Eaton Motor
b) Manual Release Valve
c) Adaptor
12 SECTION 5A
13
Notes:
Series V Power Trim Pump Identification
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Oildyne (with Eaton Motor)
Newer Production without Manual Release valve
a) Manual Release Valve Has Been Removed from This Location
b) Square Eaton Motor
c) Adapter
Oildyne (with Later Motor)
SECTION 5A
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Power Trim Pump - 2004 Changes
New Fuse Assembly
Glass fuse assembly replaced with a "flat
blade" style fuse.
Current Three-Blade Round Connector
New Three-Pin Packard Connector
New Trim Pump Harness
Control Harness to Trim Pump Adapter Harnesses
14 SECTION 5A
15
Trim Pump UP Pressure
Fitting at the Adapter
Old Design
Trim Hose UP Pressure and Quick Connect Fitting
22-865410
22-865411
22-865412
22-865413
Quick Connect Fitting
Trim Pump DOWN Pressure
Fitting at the Adapter
New Design
Trim Hose DOWN Pressure
Power Trim Quick Connects
Trim Pump Reservoir Cap
Current reservoir cap vents (left photo) are large enough to allow sloshing oil to pass from the reservoir to
the exterior. New design cap (right photo) has a baffle which allows air to vent but reduces the ability for
oil to migrate out. A rubber seal gasket is also installed.
SECTION 5A
15
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Notes:
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93247A7 Low Flow/High Pressure Trim
Pump Replacement Kit
NOTE: The following information is contained in the instruction sheet that
comes with 93247A7 Kit. The appearance and format is different with this
manual.
For MerCruiser 120/140/165/888/225S/225/255TR/255TRS
THIS REPLACEMENT PUMP CONTAINS THE REVERSE LOCK VALVE
WITHIN THE PUMP BODY. THE EXISTING REVERSE LOCK VALVE ON
ENGINE SHIFT BRACKET MUST BE RETAINED FOR SHIFT CABLE
ATTACHMENT POINT.
NOTE: This kit can be installed on models equipped with Hydraulic Sender
Indicator Assembly by removing Hydraulic Sender Unit as sender will not be
usable with this kit.
Hydraulic Trim Pump Removal
1. Disconnect low pressure line between reverse lock valve and hydraulic
pump and discard. If Trim Sender Indicator Assembly is present, discard
line attached to valve and line attached to hydraulic pump.
2. Disconnect Trim Sender Assembly and any remaining attaching hardware
as it will not be usable with new hydraulic pump. Disconnect gray hydraulic
hose (down) from valve.
IMPORTANT: Reverse Lock valve must be reattached to the shift bracket
to allow shift cables to operate properly.
3. Remove reverse lock switch on reverse lock valve if installed and discard,
reattach hardware to valve.
a)
b)
c)
d)
Reverse Lock Valve
Reverse Lock Switch (Discard)
Low Pressure Line
Gray Hydraulic Hose (Down)
16 SECTION 5A
17
4. Remove control harness from pump and lay aside.
Notes:
WARNING
Disconnect engine positive (+) (red) and negative (-) (black) battery
cables from battery terminals before performing the following steps.
5. Disconnect black (-) negative ground cable to hydraulic pump and lay
aside.
6. Disconnect red (+) positive cable to hydraulic pump and lay aside.
a) Negative Battery Lead (-)
b) Positive Battery Lead (+)
7. Disconnect all hydraulic lines from old hydraulic pump. Remove opposite
ends of lines from gimbal housing hydraulic manifold and discard lines.
a) Hydraulic Lines
SECTION 5A
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Hydraulic Trim Pump Installation
IMPORTANT: Both hoses in this kit are black. It will be necessary to
mark the down hose with a piece of tape or equivalent after it is installed
and in the proper position.
1. Assure that all attaching connections are within reach of pump. Secure
pump and mounting bracket to boat using lag bolts and washers.
2. Install the longer end of one of the hoses into the left connection on pump.
This hose will be the “Up” hose. DO NOT cross-thread or overtighten
fitting. Torque to 70-150 lb. in. (7.9-16.9 N·m).
3. Install the remaining hose with the shorter end connected to the right
connection pump. DO NOT cross-thread or overtighten fitting. Torque
to 70-150 lb. in. (7.9-16.9 N·). Mark both ends of this hose with a piece
of tape to show that this is the down side hose.
a) “Up” Hydraulic Hose
b) “Down” Hydraulic Hose - Marked with Tape
4. Run the “Up” hose through the transom and install into the hydraulic
manifold using hole nearest to transom. DO NOT overtighten or crossthread fitting. Torque to 70-150 lb. in. (7.9-16.9 N·m).
18 SECTION 5A
19
5. Run the “Down” hose (marked with tape) through the transom, and install
into the remaining hole in the hydraulic manifold. DO NOT overtighten or
cross-thread fitting. Torque to 70-150 lb. in. (7.9-16.9 N·m).
a) “Down” Hydraulic Hose - Marked with Tape
b) “Up” Hydraulic Hose
c) Hydraulic Manifold
6. Reconnect trim harness connector to the pump.
a) Trim Limit Switch Wire (with Purple Sleeve) - to Purple/White Harness
Wire
b) Trim Limit Switch Wire (with Blue Sleeve) - to Blue/White Harness Wire
c) Wire Retainer and Sta-Strap
SECTION 5A
Notes:
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7. Connect trim wiring harness to pump.
a) Trim Wiring Harness Connection
IMPORTANT: Engine electrical system is negative (-) ground.
8. Connect red positive (+) cable and black negative (-) cable to trim pump
connections as shown.
a) Negative Battery Lead (-)
b) Positive Battery Lead (+)
9. Reconnect red positive (+) cable to battery positive terminal and black
negative (-) cable to negative battery terminal.
10. Make sure that all battery terminal connections are tight; then, spray
terminals with a battery connection sealant to help retard corrosion.
20 SECTION 5A
21
Final Check
Notes:
CAUTION
Fill cap on pump is vented. Be sure to remove the “Caplug” (fill neck
seal) from fill neck on new replacement pump. Failure to do this can
damage pump during operation.
IMPORTANT: Check oil level with stern drive unit in the full down
position.
IMPORTANT: Use Quicksilver Power Trim and Steering Fluid, or SAE
10W-30 or 10W-40 engine oil in trim system.
1. Unscrew fill cap and remove and discard caplug from fill neck. Replace fill
cap.
a) Caplug (Discard)
b) Fill Cap
2. Raise and lower drive unit (to the full position) 6 to 10 times to purge air
from the system. Check oil level visually, (with drive unit in the full down
position). Oil Level should be maintained at the bottom lip of the fill neck.
a) Fill Neck
SECTION 5A
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22
Oildyne Power Trim – Series IV 1983–1985
1) Manual Relief Valve
2) Reverse Lock and Trail Out Valve
22 SECTION 5A
23
Special Information
Notes:
Trail-Out Valve Removal
Early production Oildyne pumps were equipped with a trailout valve. This
valve was eliminated on later pumps. If this valve should fail on one of the
early production pumps, the valve can be removed and replaced with a 7/16 –
20 pipe plug.
a) Trail-Out Valve - Replaced with a 7/16–20 pipe plug
SECTION 5A
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Power Trim Cylinders
Alpha One Generation II Power Trim Cylinder (0D341151
and Above)
24 SECTION 5A
25
1) Piston Rod
2) 2Retaining Ring
3) Plain Washer
4) Rod Scraper
5) End Cap
6) Large O-ring
7) Small O-ring (2)
8) Continuity Spring
9) O-ring (Shock Piston)
10) Small O-ring
11) Shock Piston
12) Check Balls (3)
13) Spring Pins (3)
14) Springs (3)
15) Washer
16) Spacer
17) Bolt
18) O-ring (Floating Piston)
19) Floating Piston
20) Cylinder Tube
21) Screws (2)
22) Plate
23) Spray Deflector
24) Connecting End
25) Anchor Pin
26) Bushing
27) Flat Washer
28) E-ring
29) Plastic Cap
SECTION 5A
25
26
Bravo Trim Cylinder (Series V)
NOTE: Except for diameter, Series III, IV and V trim cylinders are similar.
26 SECTION 5A
27
1) Screws
2) Clamping Plate
3) Trim Cylinder
4) O-Ring
5) Floating Piston
6) Bolt
7) Washer
8) Spring Guide
9) Spring
10) Spring Guide Washer
11) Check Balls
12) Shock Piston
13) O-Ring
14) Small O-Ring
15) Continuity Spring
16) Small O-Ring
17) Large O-Ring
18) End Cap
19) Rod Scraper
20) Washer
21) Retaining Ring
22) Small O-Ring
23) Piston Rod
24) Anode
25) Star Washer
26) Screw
27) Trim-In Limit Spacers (1/4 in.) [P/N 23-806445A 3]
28) Trim-In Limit Spacers (3/4 in.) [P/N 23-806445A 1]
29) Trim-In Limit Spacers (1-1/4 in.) [P/N 23-806445A 2]
SECTION 5A
27
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Oildyne Power Trim Electrical System
Series V 1986 and up
The “Oildyne” pump is fitted with two solenoids as standard equipment.
Without the use of solenoids, the smaller gauge wire in the control handle or
the additional length of wire harness, would cause too great a voltage drop for
the pump motor to operate properly.
Current is supplied to the control (panel or handle) from the battery via the red
lead and is protected by a 110 amp fuse located on the solenoid and then on
thru the red-purple lead to a 20 amp circuit breaker (on older pumps) or a 20
amp fuse (on new pumps), which serves to protect the trim control and
harness from an overload. Pushing the “up/out button” (in the control panel) or
the trim switch in the control handle upward, connects the red-purple jumper
lead and the purple-white lead which routes current to the trim limit switch
(which is normally a closed circuit). The blue-white lead then carries the
current to the “up” solenoid where it activates the solenoid to supply current
via the large blue-white lead to operate the trim motor in an up direction. The
“up/out button” in the control panel, or the trim switch in the control handle,
allows approximately 17_ of trim (from full “down” position), after which point
the trim limit switch opens and current can no longer be supplied to the pump
motor. By pressing the “up/out” and “up” button simultaneously or the trailer
button on the control handle, this will connect the purple-white jumper lead to
the blue-white lead which bypasses the trim limit switch. Current then
proceeds to the “up” solenoid and allows the drive unit to travel to a full “up”
position.
Pushing the “in” button (in the control panel), or the trim switch in the control
handle downward, connects the red-purple jumper lead and the green-white
lead. The green-white lead then carries the current to the “down” solenoid
where it activates the solenoid to supply current via the large green-white lead
to operate the trim motor in a “down” direction.
The pump motor is protected from overheating by an internal circuit breaker
(in the field winding), which interrupts the ground circuit to the solenoids if an
overheating condition is sensed.
28 SECTION 5A
29
With 3-Button Trim/Trailer Panel
SECTION 5A
29
30
With Trim In Handle and Trailer Switch Separate
30 SECTION 5A
31
Power Trim Systems / Oildyne Series V
“UP” Circuit (1986 and Up)
32 SECTION 5A
32
Oildyne Hydraulic “Up-Circuit”
Notes:
When you depress the up button, the power trim pump is activated in the up
position, the motor shaft and gears “8” rotate and draw some oil from the
pump reservoir “18” thru the up circuit oil pick-up “9” and past check ball “7”.
Oil pressure moves the shuttle valve “3” to the right and opens the down
circuit pilot check valve “5” allowing oil to return from the down side cavity of
the trim cylinders, which supplies most of the oil to operate the “up circuit”.
Oil under pressure moves the up circuit pilot check valve “2” to the left, which
allows oil to exit through the up pressure port “1”. Both pilot check valves open
at (20 psi). The oil then continues on through the up pressure hose “21” to
connector block “11” and on into the trim cylinders, pushing the piston rod out
and up.
If you continue to hold the up button in, after the piston comes to the end of its
travel, the oil will unseat the up pressure regulator and relief valve “19”, which
opens at (2200 to 2600 psi), allowing oil to return to the oil reservoir.
SECTION 5A
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33
33
Oildyne Series V “DOWN” Circuit (1986 and
Up)
34 SECTION 5A
34
Oildyne Hydraulic “Down-Circuit”
Notes:
When you depress the down button, the power trim pump is activated in
reverse for the down position, the motor shaft and gears “8” rotate, oil
pressure then moves the shuttle valve “3” to the left and opens the up circuit
pilot check valve “2” and draws returning oil form the up circuit trim cylinder
cavity to supply oil to the trim pump for the down circuit.
At this same time, oil pressure opens the down circuit pilot check valve “5”
allowing oil to exit through the down pressure port “4”. The oil then continues
on through the down pressure hose “10” to connector block “11” and on into
the trim cylinders, pushing the piston rod in and down.
If you continue to hold the down button in, after the piston has been fully
retracted, the oil will unseat the down pressure regulator and relief valve “6”
which opens at (400 to 600 psi) allowing oil to return to the oil reservoir. To
supply oil to the pump “8” at this time, a small amount of oil will be drawn up
through the down circuit oil pick up check ball.
SECTION 5A
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35
35
Oildyne Series V “Shock Absorber” System
(1986 and Up)
36 SECTION 5A
Oildyne Shock Absorber System
Notes:
When a submerged object is hit with great force, oil will build up sufficient
pressure in the trim cylinder down side cavity to open the shock piston relief
valve “15” (1100 to 1300 psi). Oil in the cavity of the up side of the cylinder
cavity is locked in by the up circuit pilot check valve “2”, and the thermal relief
“20” (2800 to 3200 psi). Therefore, the shock piston relief valve “15” allows the
oil from the down side cavity of the trim cylinder to pass thru the shock piston
“13”, into the vacuum area between the ram piston and the floating piston
“16”. Syphon valve “14” (50 to 150 psi) allows the oil to return thru the piston
as the drive unit returns to normal running position. Propeller thrust and weight
of the drive unit provides the return motion of the drive unit. The thermal relief
valve “20”, also allows for oil expansion from heat, to return the oil to the
reservoir “18”.
SECTION 5A
37
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Bravo Three Drive Unit Trim “In” Limit
Devices
NOTE: Some earlier Bravo Three models will be equipped with Trim-In Limit
Blocks, later model Bravo One, Two, and Three will have a Trim-In Limit
Spacer installed inside the trim rams. Current models use a crescent shaped
pin, inserted in an elongated aft power trim cylinder anchor pin hole.
It has been brought to our attention that some boats (predominantly deep-Vee
heavy boats), equipped with a Bravo Three drive unit, will roll up on their side
under certain, specific, operating conditions. The roll can be either to port or
starboard and may be experienced while moving straight ahead, or while
making a turn. The roll occurs most frequently at or near maximum speed,
with the drive unit trimmed at or near full “In”. While the boat will not roll
completely over, the roll may be sufficient to unseat the operator or
passengers, and thereby create an unsafe situation.
The roll is caused by “stern lift.” “Stern lift” can be created by excessive drive
unit trim “In.” Under these extreme “stern lift”/“bow down” conditions instability
can be created which may cause the boat to roll. Weight distribution to the
stern can reduce “stern lift” and, in some circumstances, eliminate the
condition. Weight distribution in the bow, port or starboard, may worsen the
condition.
The Trim “In” limit devices reduce “stern lift” by preventing the drive unit from
reaching the last few degrees of full trim under. While this device should
reduce the rolling tendency, they may not eliminate the tendency entirely. The
need for these trim “In” limit devices, and the effectiveness of them, can only
be determined through boat testing and is ultimately the responsibility of the
boat manufacturer.
WARNING
It is recommended that only qualified personnel remove or adjust the
Trim “In” Limit devices. Boat must be water tested after removing or
adjusting the device to ensure that the modified trim “In” range does not
cause the boat to exhibit an undesirable boat handling characteristic if
the drive unit is trimmed “In” at higher speeds. Increased trim “In” range
may cause handling problems on some boats which could result in
personal injury.
Early Bravo drive units that have the Trim “In” Limit Blocks should have them
removed. These early drive units (with “round” aft power trim ram anchor pin
holes) should have Trim “In” Limit Spacers installed internally, in the trim
rams.
38 SECTION 5A
Trim “In” Limit Blocks
Notes:
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Trim “In” Limit Spacers (Internal - Trim Ram)
1) Bolt
2) Flat Washer
3) Spring Guide
4) Spring
5) Spring Guide Washer
6) Check Balls (3)
7) Shock Piston Assembly
8) O-ring
9) Spacer Bolt (3/4”, 1”)(19 - 25.4 mm)
10) Spacer Bushing (1/4”)(6.3 mm)
11) End Cap
12) O-ring
Kit Number
Travel Reduction
23-806445A1
¾”-1” (19-25.4 mm)
SECTION 5A
39
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Trim “In” Limit Pin/Spacer (Drive Shaft Housing
Mounted)
1997 1/2 Model Year starting with serial number 0K184626 the Bravo Drive
Shaft Housing changed in the AFT ANCHOR PIN HOLE, location to
accommodate for the new TRIM IN LIMIT SPACER PIN, this change replaced
the (A - B) blocks that were on the Gimbal Housing on the front anchor pin.
IMPORTANT: On Bravo One, Two, and Three Models, the “Trim-In Limit
Pin” (If equipped), must be properly positioned before installing the trim
cylinder anchor pin in the following steps.
NOTE: When removing the stern drive unit, make a note of the position of the
pin for reference when reinstalling the drive unit.
If equipped, ensure that the Trim-In Limit Pin is positioned as shown for the
appropriate Bravo model.
Bravo One and Two (Positioned Forward)
Bravo Three (Positioned Aft)
a) Trim-In Limit Pin
Bravo Trim-In Limit Pin (808006)
40 SECTION 5A
Bravo Drive Shaft Housing Replacement
Notes:
(Information from MerCruiser Service Bulletin 98-16)
NOTICE
Revised January, 1999. This bulletin information supersedes all of the
following bulletins 94-1, 94-16, 96-1 and 97-7.
Bravo Drive Shaft Housings Affected
1589-8868A25 or 1589-8868A55
Description
The 1589-8868A25 and 1589-8868A55 drive shaft housings will supersede to
the 1589-8868G21 drive shaft housing. The anchor pin hole changes from the
round aft anchor pin hole to the elongated (slotted) aft anchor pin hole. The
elongated (slotted) aft anchor pin hole requires the use of a crescent shaped
insert (808006). This insert is included with the housing to position the pin
placement for Bravo One/Two/Three.
Bravo One and Two
For the Bravo One and Two, the insert is placed in the FORWARD most
position in the aft anchor pin hole. This placement will give the normal minus
5 degrees of trim under. The insert may be placed in the AFT most position
of the slotted hole to limit the amount of trim under for boat hulls requiring less
trim under.
a) Bravo One / Two Standard Insert Location
b) Bravo One / Two Optional Insert Location
SECTION 5A
41
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Bravo Three
For the Bravo Three drive unit, the insert MUST BE placed in the AFT most
position in the slotted hole to limit the Trim Under.
a) Trim-In Limit Spacer Location
When the 1589-8868G21 housing is used on a Bravo Three drive unit, the
Trim-In Limit Blocks (806692A2) will no longer be required. DO NOT reinstall
them on the drive unit. If the blocks are already installed, they MUST BE
REMOVED.
After placing the insert in the AFT most position of the slotted hole, install a
Tilt Limit Spacer Kit (15768A3). Use 1 spacer per cylinder as shown below to
prevent the bell housing and drive shaft housing from contacting the gimbal
ring U-Bolt.
Port Trim Cylinder
Starboard Trim Cylinder
42 SECTION 5A
Notes:
Air Bleeding Power Trim System
1. The Power Trim System will purge itself of a small amount of air by raising
and lowering the drive unit several times. However, if a rebuilt trim cylinder
is being installed (which has not been filled with oil), the following bleeding
procedure should be used to remove the air from the system.
Bleeding OUT/UP Trim Circuit
1. Fill the pump reservoir to the proper level as explained preceding. (The
trim cylinder must be compressed.)
2. Disconnect the OUT/UP hose from the front connection on the trim
cylinder. If both cylinders were rebuilt, disconnect the hoses from both
cylinders.
3. Direct the end of the trim hoses(s) into a container.
4. Run the trim pump in the UP direction until a solid, air-free stream of fluid
is expelled from the hose(s). Reconnect the hose(s) and tighten securely.
5. Refill the trim pump to the proper level.
a) OUT/UP Trim Hose
b) Front Connection On Trim Cylinder
SECTION 5A
43
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Bleeding IN/DOWN Trim Circuit
1. Ensure that the pump reservoir is filled to the proper level.
2. Disconnect the IN/DOWN hose from the rear connection on the gimbal
housing hydraulic connector. If both cylinders were rebuilt, disconnect the
hoses from both sides of the hydraulic connector.
3. Plug the holes in the hydraulic connector, using a plug (22-38609) or
suitable device.
4. Direct the end of the trim hose(s) into a container.
5. Run the trim pump in the Up direction until the trim cylinders are fully
extended.
6. Remove the plug(s) from the gimbal housing hydraulic connector and
momentarily run the trim pump in the IN/DOWN direction until a solid, airfree stream of fluid is expelled from the rear hole(s) in the hydraulic
connector. Reconnect the trim hose(s) and tighten securely.
7. Lower the drive unit to the full IN/DOWN position and refill the trim pump
to the proper level. Run the trim system IN/DOWN and OUT/UP several
times and recheck the fluid level.
a) In/Down Trim Hose
b) Hydraulic Connector
c) Plug (22-38609)
44 SECTION 5A
Testing Power Trim Pump
CAUTION
Cross connecting trim hoses will damage the stern drive housing.
Appropriately mark trim hoses and hose connections to ensure proper
reassembly.
Test Gauge
1. Check the trim pump oil level. Fill if necessary.
2. Place the drive unit in the full IN/DOWN position.
3. Connect the test gauge at the most convenient location (at pump or
hydraulic connector).
Gauge Connected to Pump
a) Hydraulic Test Gauge (91-52915A6)
Gauge Connected to Hydraulic Connector
a) Hydraulic Test Gauge (91-52915A6)
b) Gimbal Housing Hydraulic Connector
c) Caps (Supplied with Gauge)
d) Plugs (Supplied with Gauge)
4. Open valve “A” and “B” and operate the pump UP and DOWN for several
seconds to purge air.
SECTION 5A
45
Internal Restriction Test
1. Open valves “A” and “B”.
2. Operate pump OUT/UP and IN/DOWN while observing gauge.
3. Replace adapter if pressure is in excess of 200 psi (1379 kPa).
OUT/UP Pressure Test
NOTE: The numbers in parenthesis, e.g. (3), refer to the trim pump hydraulic
system diagram.
1. Leave valve “A” open and close valve “B.”
2. Run pump OUT/UP while observing the gauge. The reading should be
2200-2600 psi. (15173-17932 kPa).
If Gauge reading is within specifications, proceed to step 3.
If Gauge reading is not within specifications, perform the following:
46 SECTION 5A
3. Run the pump OUT/UP until the gauge reading reaches 2200-2600 psi
(15173-17932 kPa). Stop pumping OUT/UP The pressure should not fall
below 1900 psi (13104 kPa). If Gauge reading is 1900 psi (13104 kPa) or
above, UP pressure test completed. If Gauge reading is below 1900 psi
(13104 kPa) perform the following:
NOTE: A small leak will cause a pressure drop to be seen.
SECTION 5A
47
IN/DOWN Pressure Test
NOTE: The numbers in parenthesis, e.g. (3), refer to the trim pump hydraulic
system diagram.
1. Close valve “A” and open valve “B.”
2. Run the pump IN/DOWN while observing the gauge. The reading should
be 400-600 psi (2759-4138 kPa). If Gauge reading is within specifications,
proceed to step 3. Gauge reading is NOT within specifications, perform
the following.
3. Run pump IN/DOWN until gauge reading reaches 400 - 600 psi (2759 4138 kPa). Stop pumping IN/DOWN. Pressure should not fall below 350
psi (2414 kPa).
NOTE: A small leak will cause a pressure drop to be seen.
Gauge reading above 350 psi (2414 kPa), DOWN Pressure Test completed.
Gauge reading below 350 psi (2414 kPa), perform the following:
48 SECTION 5A
Trim Pump Hydraulic System
1)
2)
3)
4)
5)
6)
Shuttle
Pump Adaptor
OUT/UP Pressure Relief Valve
Fitting
IN/DOWN Pressure Relief Valve
SECTION 5A
49
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Trim Cylinder Internal Leak Test
IMPORTANT: Before performing the following test, ensure that OUT/UP
pressure meets specifications designated in OUT/UP pressure test.
1. Reconnect the trim cylinder hoses (if removed in a previous test) as
follows:
a) Remove the plugs and caps.
b) Install the UP hose to the forward hole on the hydraulic connector.
Tighten securely.
c) Install the DOWN hose to the aft hole on the hydraulic connector.
Tighten securely.
a) UP Hose
b) DOWN Hose
c) Hydraulic Connector
2. Connect the gauge at the most convenient location, at the pump or at the
hydraulic connector.
3. Open valves “A” and “B” and the run pump OUT/UP and IN/DOWN
several times (to purge air).
4. Run the pump OUT/UP until the trim cylinders are fully extended; then,
observe the gauge while pumping. The pressure should be 2200-2600 psi
(15173-17932 kPa).
5. Stop pumping OUT/UP Pressure should not fall below 1900 psi (13104
kPa).
a) Reading below 1900 psi (13105 kPa) indicates a trim cylinder
leak. Use the following steps to locate the faulty cylinder.
b) If the gauge is connected at the pump, reconnect the gauge at the
gimbal housing hydraulic connector. Repeat step 2: then run the
pump in the OUT/UP direction until the trim cylinder is fully
extended.
c) Close the valve on the test gauge an repeat Steps 3 and 4.
If Reading is now within specification: The trim cylinder on the same side
that test gauge is connected to is faulty.
If Reading is still not within specification: The trim cylinder on the opposite
side from where the test gauge is connected is faulty.
50 SECTION 5A
Trim Cylinder Shock Piston Test
Notes:
If all previous trim system test results meet specifications, but drive unit
will not trim IN/DOWN, the problem may be a leaky trim cylinder shock
piston. Use the following test to check for this condition. No test gauge
required.
1. Run the pump in the OUT/UP direction until the trim cylinders are fully
extended.
2. Use a suitable devise to keep trim cylinder piston rods from retracting. The
Quicksilver Trailering Kit works well for this purpose.
a) Trailering Clip
3. Disconnect the UP trim hose from a trim cylinder.
a) UP Trim Hose
b) Front Connection
4. Run the pump in the IN/DOWN direction. If oil flows from the UP port on
the trim cylinder, the shock piston is leaking and must be replaced.
SECTION 5A
51
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Motor and Electrical Bench Tests
110 Amp Fuse Test (Pump in Boat)
WARNING
DO NOT perform this test near flammables (or explosives) as a spark
may occur when making connections.
1. Check for voltage at terminal “d” using a volt meter. Voltage MUST BE
indicated before proceeding with the next check.
a)
b)
c)
d)
Volt Meter Negative (-) Lead
Volt Meter Positive (+) Lead
Fuse (RED in Color)
Check for Voltage Here
52 SECTION 5A
2. Check for voltage at terminal “d” using a volt meter.
a) Voltage Indicated: Fuse O.K.
b) Voltage Not Indicated: Replace the fuse.
a)
b)
c)
d)
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Volt Meter Negative (-) Lead
Volt Meter Positive (+) Lead
Fuse (RED in Color)
Check for Voltage Here
SECTION 5A
53
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110 Amp Fuse Test (Pump Out of Boat)
1. Connect the ohmmeter leads between the terminals on the fuse.
a) 110 Amp Fuse (Red)
b) Ohmmeter Leads
Zero Ohms Reading (Full Continuity)-Fuse OK.
High Ohms Reading (No Continuity)-Replace fuse.
54 SECTION 5A
20 Amp Fuse Test
1. Remove the fuse from the fuse holder.
a
a) Fuse Holder (Older Style-Glass Fuse Assembly, Newer Style-Flat Blade)
Older Style Fuse
Newer Style Fuse
2. Connect one ohmmeter lead to each end (terminal) of the fuse.
b
a
a) 20 Amp Fuse
b) Ohmmeter Leads
Zero Ohms Reading (Full Continuity)-Fuse OK.
High Ohms Reading (No Continuity)-Replace fuse.
SECTION 5A
55
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Trim Pump Motor Test (In Boat)
WARNING
Making electrical connections may cause a spark. DO NOT perform this
test near flammables (or explosives).
WARNING
Remain clear of the drive unit when performing power trim pump motor
tests with pump in the boat and hydraulic hoses connected.
1. OUT/UP Operation.
a) Connect a 12 gauge jumper wire between the positive (+) solenoid
terminal and the blue-white motor lead terminal.
b) The motor should run.
a)
b)
c)
d)
OUT/UP Solenoid
Positive Terminal (+)
BLUE-WHITE Motor Lead Terminal
Jumper Wire
56 SECTION 5A
2. IN/DOWN Operation.
terminal and the green-white motor lead terminal.
a)
b)
c)
d)
IN/DOWN Solenoid
Positive Terminal (+)
GREEN-WHITE Motor Lead Terminal
Jumper Wire
3. If the motor does not run, refer to “Motor Repair.”
SECTION 5A
57
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Trim Pump Motor Test (Out of Boat)
WARNING
Making electrical connections may cause a spark. DO NOT perform this
test near flammables or explosives.
1. Remove the trim pump from the boat. Refer to “Trim Pump Removal”.
2. Remove the fluid from the trim pump reservoir.
3. OUT/UP Operation
a. Connect a 12 volt Positive (+) supply lead to the blue-white motor
lead terminal.
b. Connect the negative (–) supply lead to a good ground on the
pump.
c. The motor should run.
a) OUT/UP Solenoid
b) 12 Volt Positive (+) Supply Lead
c) Negative Supply Lead
58 SECTION 5A
4. IN/DOWN Position.
a. Connect a 12 volt Positive (+) supply lead to the green-white motor
lead terminal.
b. Connect the negative (–) supply lead to a good ground on the pump.
c. The motor should run.
Notes:
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a) IN/DOWN Solenoid
b) 12 Volt Positive Supply (+) Lead
c) Negative Supply Lead
5. If the motor does not run, refer to “Motor Repair.”
SECTION 5A
59
Notes:
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Solenoid Test (Pump In Boat)
WARNING
CAUTION
Remain clear of the drive unit when performing power trim pump motor
tests with pump in the boat and hydraulic hoses connected.
1. UP/OUT Solenoid.
terminal and the blue-white harness wire terminal.
a)
b)
c)
d)
OUT/UP Solenoid
Positive (+) Solenoid Terminal
BLUE-WHITE Harness Wire Terminal
Jumper Wire
60 SECTION 5A
2. IN/DOWN Solenoid.
a) Connect a 12 gauge jumper between the positive (+) solenoid
terminal and the green-white harness wire terminal.
a)
b)
c)
d)
Notes:
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IN/DOWN Solenoid
Positive (+) Solenoid Terminal
GREEN-WHITE Harness Wire Terminal
Jumper Wire
3. If the pump motor does not run in one direction or another, replace the
appropriate solenoid.
SECTION 5A
61
Notes:
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Solenoid Test (Pump Out of Boat)
WARNING
1. Remove the trim pump from the boat. Refer to “Trim Pump Removal”.
2. Remove the fluid from the trim pump reservoir.
3. OUT/UP Solenoid.
a) Connect a 12 volt Positive (+) supply lead to blue-white
harness terminal wire.
b) Connect the negative (–) supply lead to the solenoid ground
terminal as shown.
c) Connect the ohmmeter leads to the large terminals on the
solenoid.
a)
b)
c)
d)
e)
f)
OUT/UP Solenoid
12 volt Positive (+) Supply Lead
Negative (–) Supply Lead
Ohmmeter Leads
BLUE-WHITE Harness Wire Terminal
Solenoid Ground Terminal
Zero Ohms Reading (Full Continuity)-Solenoid is OK.
High Ohms Reading (No Continuity)-Replace solenoid.
62 SECTION 5A
4. IN/DOWN Solenoid.
a) Connect a 12 volt positive (+) supply lead to the green-white
harness wire terminal.
b) Connect the negative (–) supply lead to the solenoid ground
terminal.
c) Connect the ohmmeter leads to the large terminals on the
solenoid.
a)
b)
c)
d)
e)
f)
Notes:
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IN/DOWN Solenoid
12 Volt Positive (+) Supply Lead
Negative (–) Supply Lead
Ohmmeter Leads
GREEN-WHITE Harness Wire Terminal
Solenoid Ground Terminal
Zero Ohms Reading (Full Continuity)-Solenoid is OK.
High Ohms Reading (No Continuity)-Replace solenoid.
5. See the wiring diagram.
SECTION 5A
63

hydraulic systems

Transcription

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