Service Manual
Table Of Contents
- Title Page
- Revision History
- Reader Comments
- Preface
- Table Of Contents
- 1 - Safety
- 2 - Product Records and Maintenance
- 3 - Kubota Diesel Engine
- 4 - Hydraulic System
- Specifications
- General Information
- Special Tools
- Hydraulic Schematics
- Hydraulic Flow Diagrams
- Troubleshooting
- Testing
- Traction Circuit Testing - Charge Pressure Test
- Traction Unit Testing - Wheel Motor Efficiency Tests
- Traction Circuit Testing - Piston Pump/Hydrostat Flow and Relief Pressure Test
- Cutting Unit Circuit Testing - Pressure Test
- Cutting Unit Circuit Testing - Reel Motor Efficiency/Case Drain Test
- Cutting Unit Circuit Testing - Reel Motor Cross-Over Relief Pressure Test (Reelmaster 3575-D)
- Cutting Unit Circuit Testing - Proportional Relief Valve (PRV) Pressure Test
- Cutting Unit Circuit Testing - Mow Control Manifold Relief Valve (RV) Pressure Test
- Cutting Unit Circuit Testing - Gear Pump (P1) Flow Test
- Steering/Lift Circuit Testing - Gear Pump (P2) Flow Test
- Steering/Lift Circuit Testing - Lift Relief Valve (RV1) Pressure Test (Reelmaster 3555-D and 3575-D)
- Steering/Lift Circuit Testing - Steering Relief Valve Pressure Test
- Steering/Lift Circuit Testing - Steering Control Valve and Steering Cylinder Test
- 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
- Hydraulic Tank
- Radiator and Oil Cooler Assembly
- Hydraulic Pump Assembly
- Neutral Arm Assembly
- Piston Pump/Hydrostat
- Piston Pump/Hydrostat Service
- Gear Pump
- Gear Pump Service
- Front Wheel Motors
- Rear Wheel Motor
- Wheel Motor Service
- Cutting Unit Reel Motor
- Cutting Unit Reel Motor Service (Reelmaster 3550-D and 3555-D)
- Cutting Unit Reel Motor Service (Reelmaster 3575-D)
- Mow Control Manifold
- Mow Control Manifold Service
- Lift Control Manifold
- Lift Control Manifold Service (Reelmaster 3550-D)
- Lift Control Manifold Service (Reelmaster 3555-D and 3575-D)
- Control Manifold Cartridge Valve Service
- Steering Control Valve
- Steering Control Valve Service
- Steering Cylinder
- Steering Cylinder Service
- Front Lift Cylinders
- Rear Lift Cylinders
- Lift Cylinder Service
- 5 - Electrical System
- General Information
- Electrical Schematic
- Special Tools
- Troubleshooting
- Electrical System Quick Checks
- Adjustments
- Component Testing
- Ignition Switch
- Main Power Relay
- Fuses
- Fusible Links
- Toro Electronic Controller (TEC)
- Parking Brake Switch
- Neutral Switch
- Lower/Raise Joystick Switches
- Reel Enable/Disable Switch
- Mow/Transport Switch
- Seat Switch
- Backlap Switch
- Turn Around Switch (Reelmaster 3555-D and 3575-D)
- Engine Temperature Sender
- Start Relay
- Fuel Stop Solenoid
- Fuel Pump
- Glow Relay
- Hydraulic Solenoid Valve Coils
- Indicator Lights
- CAN-bus Termination Resistors
- Hour Meter
- Oil Pressure Switch
- Worklight Switch
- Service and Repairs
- 6 - Chassis
- 7 - DPA Cutting Units
- 8 - Belt Driven Groomer (Optional)
- 9 - Universal Groomer (Optional)
- 10 - Foldout Drawings
- Electrical Drawing Designations
- Reelmaster 3550-D Hydraulic Schematic
- Reelmaster 3555-D/3575-D Hydraulic Schematic
- Reelmaster 3550-D Electrical Schematic (machine serial numbers below 316000300)
- Reelmaster 3550-D (machine serial numbers above 316000300) Electrical Schematic
- Reelmaster 3555-D/3575-D Electrical Schematic
- Reelmaster 3550--D/3555--D/3575--D Electrical Schematic (Serial Numbers Above 403446001)
- Reelmaster 3550-D (machine serial numbers below 316000300) Wire Harness Drawing
- Reelmaster 3550-D (machine serial numbers below 316000300) Wire Harness Diagram
- Reelmaster 3550--D/3555--D/3575--D (Machine serial number 316000301 to 403446000) Wire Harness Drawing
- Reelmaster 3550-D (machine serial numbers above 316000300) Wire Harness Diagram
- Reelmaster 3550--D/3555--D/3575--D Wire Harness Drawing(Machine serial number 316000301 to 403446000)
- Reelmaster 3550--D/3555--D/3575--D Wire Harness Drawing Serial Numbers 403446001 to 405999999)
- Reelmaster 3550--D/3555--D/3575--D Wire Harness Drawing (Serial Numbers Above 406000000)
Reelmaster 3550−D/3555−D/3575−DHydraulic System Page 4 − 18
Traction Circuit
The traction circuit of the hydraulic system consists of a
hydrostat connected in a closed loop circuit to three or-
bital geroller wheel motors.
The mow/transport slide control on the machines has
positions for mow and transport. The mow position al-
lows traction pedal inputs that are appropriate for mow
speeds by limiting the movement of the traction pedal
and the piston pump swash plate. The transport position
allows full movement of the traction pedal so complete
pump swash rotation is possible.
Forward
The engine drives traction pump (P3) indirectly through
pulleys and a V−belt. The traction pump is a variable dis-
placement piston pump/hydrostat. The traction pedal
connects through a cable to the trunnion shaft and
swash plate of the pump. With the engine running and
the traction pedal in the neutral position, traction pump
(P3) supplies no flow to the wheel motors. When the
traction pedal is pressed to the forward position, the
cable from the pedal positions the swash plate in the
traction pump so fluid flows out of the hydrostat lower
port. Fluid flow out of the lower port goes to the front
wheel motors first, turning them in the forward direction.
Fluid flowing out of the front wheel motors flows to the
rear wheel motor, turning it in a forward direction. Fluid
flowing out of the rear wheel motor returns to the upper
port of the hydrostat and is continuously pumped out of
the lower port.
Operating pressure in the closed traction circuit is deter-
mined by the amount of load developed by the wheel
motors. As the load increases, circuit pressure can in-
crease to the relief valve setting of 3500 psi (241 bar).
In forward operation, fluid flows through the internal hy-
drostat relief valve to the low pressure side of the trac-
tion circuit when circuit pressure exceeds the relief
setting.
Reverse
The traction circuit operates essentially the same in re-
verse as it does in forward. However, there are a few dif-
ferences in operation.
When the reverse traction pedal is depressed, the cable
from the pedal positions the swash plate in the traction
pump (P3) so fluid flows out of the hydrostat upper port.
Fluid flow out of the upper port goes to the rear wheel
motor where an internal check valve allows the hydraul-
ic fluid to bypass the motor. Fluid flow out of the rear
wheel motor flows to the front wheel motors, turning
them in the reverse direction. Fluid flow out of the front
wheel motors returns to the lower port of the hydrostat
and is continuously pumped out of the upper port.
NOTE: Due to the inclusion of a bypass valve in the rear
wheel motor, the rear wheel motor does not help propel
the traction unit in reverse.
Charge Circuit
The traction pump uses a small amount of hydraulic fluid
for internal lubrication. Fluid is designed to leak across
internal pump parts into the case drain. This leakage re-
sults in the loss of hydraulic fluid from the closed loop cir-
cuit that must be replenished via the charge circuit.
The gear pump (P2) is directly coupled to the hydrostat
through gear pump (P1) and driven by the engine. Gear
pump (P2) supplies hydraulic pressure for operating the
cutting unit lift/lower system and the power steering sys-
tem. On Reelmaster 3550−D machines, the oil flows first
to the steering circuit and then to the lift/lower circuit. On
Reelmaster 3555−D/3575−D machines, the oil flows
first to the lift/lower circuit and then to the steering circuit.
Gear pump (P2) may also be referred to as the charge
pump as flow from the gear pump returns to the hydros-
tat and replenishes the closed loop traction circuit. A re-
lief valve located in the hydrostat provides sufficient
resistance so that flow is guided to the low pressure side
of the traction circuit through two (2) check valves
(charge circuit). Charge pump flow in excess of 100 to
150 PSI (6.9 to 10.3 bar) is relieved through the relief
valve back to the gear pump inlet and hydraulic tank.
Traction Circuit Cooling
The traction circuit is cooled by a bleed off circuit in the
piston pump. The piston pump includes an internal
bleed valve which allows a small amount of hydraulic oil
to pass from the return side of the pump while operating
the traction unit in the forward direction. The charge cir-
cuit replenishes oil that is bled from the traction circuit by
the bleed valve.
When operating the traction circuit in the reverse direc-
tion, the bleed valve closes once reverse pressure
reaches 200 to 300 PSI (13.8 to 20.6 bar) to allow nor-
mal reverse operation.
NOTE: The bleed valve threads into the piston pump
back plate. Access to the bleed valve requires removal
of the back plate from the piston pump.