Service Manual
Table Of Contents
- Title Page
- Revision History
- Reader Comments
- Preface
- Table of Contents
- 1 - Safety
- 2 - Product Records and Maintenance
- 3 - Yanmar Diesel Engine
- 4 - Kubota Diesel Engine
- 5 - Hydraulic System
- Specifications
- General Information
- Operator's Manual
- Hydraulic Component Locations
- Relieving Hydraulic System Pressure
- Traction Circuit Component Failure
- Towing Traction Unit
- Hydraulic Hoses
- Hydraulic Hose and Tube Installation (O-Ring Face Seal Fitting)
- Hydraulic Fitting Installation (SAE Straight Thread O-Ring Fitting into Component Port)
- Hydraulic Schematic
- Hydraulic Flow Diagrams
- Special Tools
- Troubleshooting
- Testing
- Traction Circuit - Charge Pressure Test
- Traction Circuit - Relief Pressure Test
- Traction Circuit - Piston (traction) Pump Flow Test
- Traction Circuit - Front Wheel Motor Case Drain Leakage Test
- Traction Circuit - Reverse Reducing Valve (PR) Pressure Test
- Traction Circuit - Rear Relief Valve (RV) Pressure Test
- Cutting Unit Circuit - Pressure Test
- Cutting Unit Circuit - Relief Pressure Test
- Cutting Unit Circuit - Cutting Unit Motor Case Drain Leakage Test
- Steering/Lift Circuit - Steering Relief Pressure Test
- Steering/Lift Circuit - Steering Cylinder Test
- Steering/Lift Circuit - Lift Relief Pressure Test
- Cooling Fan Circuit - Pressure Test
- Cooling Fan Circuit - Fan Motor Case Drain Leakage Test
- Gear Pump Flow Test (pump sections P2 thru P5)
- Adjustments
- Service and Repairs
- General Precautions for Removing and Installing Hydraulic System Components
- Check Hydraulic Lines and Hoses
- Priming Hydraulic Pumps
- Flush Hydraulic System
- Filtering Closed-Loop Traction Circuit
- Charge Hydraulic System
- Gear Pump
- Gear Pump Service
- Piston (Traction) Pump
- Piston (traction) Pump Service
- Rear Traction Manifold
- Rear Traction Manifold Service
- HI/LOW Range Manifold
- Front Wheel Motors
- Rear Axle Motor
- Front Wheel Motor and Rear Axle Motor Service
- Cutting Unit Motor
- Cutting Unit Motor Service
- Mow Control Manifold
- Mow Control Manifold Service
- Steering Control Valve
- Steering Control Valve Service
- Steering Cylinder
- Steering Cylinder Service
- Engine Cooling Fan Motor
- Engine Cooling Fan Motor Service
- Fan Control Manifold
- Fan Control Manifold Service
- Lift Manifold
- Lift Manifold Service
- Control Manifold Cartridge Valve Service
- Lift Junction Manifold
- Front Lift Cylinders
- Rear Lift Cylinders
- Lift Cylinder Service
- Hydraulic Reservoir
- Hydraulic Oil Cooler
- 6 - Electrical System
- General Information
- Electrical Drawings
- Special Tools
- InfoCenter Display
- Troubleshooting
- Electrical System Quick Checks
- Adjustments
- Component Testing
- Fusible Link Harness
- Fuses
- Toro Electronic Controllers (TEC)
- Ignition Switch
- Reel Enable/Disable Switch
- Engine Speed Switch (Yanmar Diesel Engine Only)
- Lower/Raise Joystick Switches
- Seat Switch
- Traction Neutral Switch
- Parking Brake Switch
- HI/LOW (Transport/Mow) Switch
- Cutting Unit Position Switch
- Backlap Switches
- Hydraulic Oil Temperature Sender
- Engine Temperature Sender (Kubota Diesel Engine Only)
- Relays with Four (4) Terminals
- Relays with Five (5) Terminals
- Hydraulic Solenoid Valve Coils
- Fuel Pump (Yanmar Diesel Engine Only)
- Fuel Pump (Kubota Diesel Engine Only)
- Fuel Stop Solenoid (Kubota Diesel Engines Only)
- CAN-bus Termination Resistor
- Diode Assembly
- Resistor Assembly
- Worklight Switch
- Service and Repairs
- 7 - Axles, Planetaries and Brakes
- 8 - Chassis
- 9 - DPA Cutting Units
- Table of Contents
- Specifications
- General Information
- Special Tools
- Gauge Bar Assembly
- Bedknife Screw Tool
- Handle Assembly
- Plastic Plug
- Cutting Unit Kickstand
- Spline Insert Tool
- Diameter/Circumference Measuring Tape
- Roller Rebuild Kit
- Turf Evaluator Tool
- Reel Bearing Installation Tool (cutting units with painted side plates)
- Cutting Reel Shim
- Cutting Performance Paper
- Pulley Alignment Tool
- Bedknife Top Angle Indicator and Mount
- Factors That Can Affect Cutting Performance
- Adjustments
- Service and Repairs
- Hydraulic Reel Motor
- Backlapping
- Bedbar Assembly
- Bedknife Replacement and Grinding
- Bedbar Adjuster Service
- Reel Assembly (cutting units with painted side plates)
- Reel Assembly Service (cutting units with painted side plates)
- Reel Assembly (cutting units with aluminum side plates)
- Reel Assembly Service (cutting units with aluminum side plates)
- Preparing Reel for Grinding
- Front Roller
- Rear Roller
- Roller Service
- Rear Roller Brush - Optional (cutting units with painted side plates)
- Rear Roller Brush - Optional (cutting units with aluminum side plates)
- 10 - Belt Driven Groomer (Optional)
- 11 - Universal Groomer (Optional)
- 12 - Foldout Drawings
- Electrical Drawing Designations
- Hydraulic Schematic
- Electrical Schematic - Traction Unit Model 03780 - Yanmar Engine (Serial numbers below 316000000)
- Electrical Schematic -- Traction UnitModel 03780 -- Yanmar Engine(Serial numbers 316000001 to 403350000)
- Electrical Schematic -- Traction UnitModel 03780 -- Yanmar Engine(Serial numbers above 403350001)
- Electrical Schematic - Traction Unit Model 03781 - Kubota Engine (Serial numbers below 316000000)
- Electrical Schematic -- Traction UnitModel 03781 -- Kubota Engine(Serial numbers 316000001 to 403350000)
- Electrical Schematic -- Traction UnitModel 03781 -- Kubota Engine(Serial numbers above 403350001)
- Electrical Schematic - Cab
- Main Wire Harness Drawing (Serial numbers below 316000000)
- Main Wire Harness Diagram (Serial numbers below 316000000)
- Main Wire Harness DrawingModel 03780 & 03781(Serial numbers 316000001 to 403350000)
- Main Wire Harness DiagramModel 03780 & 03781(Serial numbers 316000001 to 403350000)
- Main Wire Harness DrawingModel 03780 & 03781(Serial numbers 403350001 to 405699999)
- Main Wire Harness DiagramModel 03780 & 03781(Serial numbers 403350001 to 405699999)
- Main Wire Harness DrawingModel 03780 & 03781(Serial numbers above 405700000)
- Main Wire Harness DiagramModel 03780 & 03781(Serial numbers above 405700000)
- Engine Wire Harness Drawing - Yanmar
- Engine Wire Harness Diagram - Yanmar
- Engine Wire Harness Drawing - Kubota
- Engine Wire Harness Diagram - Kubota
- Seat and Console Wire Harness Drawing
- Seat and Wire Harness Diagram
- Power Center Wire Harness Drawing (Serial numbers below 403350000)
- Power Center Wire Harness Diagram (Serial numbers below 403350000)
- Power Center Wire Harness DrawingModel 03780 & 03781(Serial numbers above 403350001)
- Power Center Wire Harness DiagramModel 03780 & 03781(Serial numbers above 403350001)
Reelmaster 7000−DHydraulic System Page 5 − 38
Testing
The most effective method for isolating problems in the
hydraulic system is by using hydraulic test equipment
such as pressure gauges and flow meters in the circuits
during various operational checks (See the Special
Tools section in this chapter).
Remember that pressure specifications that appear on
hydraulic schematics are the design specifications for
the specific component. Actual system pressure will
vary depending on oil temperature, the location of the
test port, and the specific components used in the hy-
draulic circuit.
IMPORTANT: All obvious areas such as oil supply,
filter, binding linkages, loose fasteners or improper
adjustments must be checked before assuming that
a hydraulic component is the source of the problem.
Before Performing Hydraulic Tests
All obvious areas such as fluid supply, filter, binding link-
ages, loose fasteners, or improper adjustments must be
checked before assuming that a hydraulic component is
the source of the problem.
Make sure hydraulic oil is at normal operating tempera-
ture by operating the machine under load for approxi-
mately ten (10) minutes. Also, make sure the hydraulic
reservoir is full.
Precautions for Hydraulic Testing
Keep body and hands away from pin hole leaks
or nozzles that eject hydraulic fluid under high
pressure. Do not use hands to search for leaks;
use paper or cardboard. Hydraulic fluid escap-
ing under pressure can have sufficient force to
penetrate the skin and cause serious injury. If
fluid is injected into the skin, it must be surgical-
ly removed within a few hours by a doctor famil-
iar with this type of injury. Gangrene may result
from such an injury.
WARNING
CAUTION
Failure to use gauges with recommended pres-
sure (PSI) rating as listed in test procedures
could result in damage to the gauge and possible
personal injury from leaking hot oil.
CAUTION
All testing should be performed by two (2)
people. One person should be in the seat to oper-
ate the machine and the other should monitor
testing equipment and record test results.
1. Clean machine thoroughly before disconnecting or
disassembling any hydraulic components. Always keep
in mind the need for cleanliness when working on hy-
draulic equipment. Hydraulic fluid contamination will
cause excessive wear of components.
WARNING
Before disconnecting or performing any work
on the hydraulic system, all pressure in the
system must be relieved. See Relieving Hy-
draulic System Pressure in the General Infor-
mation section.
2. Put metal caps or plugs on any hydraulic lines left
open or exposed during testing or while hydraulic com-
ponents are removed.
3. The engine must be in good operating condition. Use
a phototach (non−contact tachometer) when performing
a hydraulic test. Engine speed can affect the accuracy
of the test readings. Monitor engine RPM during hy-
draulic testing. Use the information below when per-
forming hydraulic system tests. If engine RPM is above
or below the specified speed during a test, you will need
to adjust the expected hydraulic performance paramet-
ers (aprox. 3% per 100 engine rpm at full throttle)
IMPORTANT: Hydraulic component output volume
relates directly to engine RPM. For every 100 engine
rpm the following component output volumes will
change by the volume listed.
Piston (traction) Pump (P1): 100 engine RPM = 1.3
GPM or 166 oz. (4916 cc) of hydraulic fluid dis-
placed per minute
Gear Pump (P2): 100 engine RPM = 0.45 GPM or
57 oz. (1687 cc) of hydraulic fluid displaced per
minute
Gear Pump (P3): 100 engine RPM = 0.45 GPM or
57 oz. (1687 cc) of hydraulic fluid displaced per
minute