5248319 PUMP GP-MAIN HYDRAULIC Caterpillar parts
Rating:
Alternative (cross code) number:
CA5248319
524-8319
5248319
CA5248319
524-8319
5248319
Number on catalog scheme:
3
For full view, you need register
Information:
Starting Solenoid for Electric Starting Motors
A solenoid is an electromagnetic switch that does two basic operations.
Close the high current starting motor circuit with a low current start switch circuit.
Engage the starting motor pinion with the ring gear.
Illustration 1 g00285112
Typical solenoid
The solenoid has windings (one or two sets) around a hollow cylinder. There is a spring-loaded plunger inside the cylinder. The plunger can move forward and backward. When the start switch is closed and the electricity is sent through the windings, a magnetic field is made. The magnetic field pulls the plunger forward in the cylinder. The motion moves the shift lever to engage the pinion drive gear with the ring gear. The front end of the plunger makes contact across the battery and the motor terminals of the solenoid. The starting motor begins to turn the engine flywheel.When the start switch is opened, current no longer flows through the windings. The spring pushes the plunger back to the original position. The spring simultaneously moves the pinion gear away from the flywheel.When two sets of windings in the solenoid are used, the windings are called the hold-in winding and the pull-in winding. Both of the winding have the same number of turns around the cylinder. However, the pull-in winding uses a wire with a larger diameter to produce a greater magnetic field. When the start switch is closed, part of the current flows from the battery through the hold-in windings. The rest of the current flows through the pull-in windings to the motor terminal. The current then goes through the motor to the ground. When the solenoid is fully activated, current is shut off through the pull-in windings. Only the smaller hold-in windings are in operation for the extended time. This time is the amount of time that is needed for the engine to start. The solenoid will now take less current from the battery. The heat that is made by the solenoid will be kept at an acceptable level.Electric Starting Motor
The starting motors are used to turn the engine flywheel to get the engine running.
Illustration 2 g01192489
Cross section of the starting motor (typical example)
(1) Field
(2) Solenoid
(3) Clutch
(4) Pinion
(5) Commutator
(6) Brush assembly
(7) ArmatureThe starting motor has a solenoid. When the start switch is activated, electricity will flow through the windings of the solenoid. The solenoid core will move to push the starting motor pinion with a mechanical linkage. The pinion engages with the ring gear on the flywheel of the engine. The starting motor pinion engages the ring gear before the contacts in the solenoid close the circuit between the battery and the starting motor. When the circuit between the battery and the starting motor is complete, the pinion will turn the engine flywheel. A clutch gives protection to the starting motor. The engine cannot turn the starting motor too fast. When the start switch is released, the starting motor pinion will move away from the flywheel ring gear.Starting Motor Protection
The starting
A solenoid is an electromagnetic switch that does two basic operations.
Close the high current starting motor circuit with a low current start switch circuit.
Engage the starting motor pinion with the ring gear.
Illustration 1 g00285112
Typical solenoid
The solenoid has windings (one or two sets) around a hollow cylinder. There is a spring-loaded plunger inside the cylinder. The plunger can move forward and backward. When the start switch is closed and the electricity is sent through the windings, a magnetic field is made. The magnetic field pulls the plunger forward in the cylinder. The motion moves the shift lever to engage the pinion drive gear with the ring gear. The front end of the plunger makes contact across the battery and the motor terminals of the solenoid. The starting motor begins to turn the engine flywheel.When the start switch is opened, current no longer flows through the windings. The spring pushes the plunger back to the original position. The spring simultaneously moves the pinion gear away from the flywheel.When two sets of windings in the solenoid are used, the windings are called the hold-in winding and the pull-in winding. Both of the winding have the same number of turns around the cylinder. However, the pull-in winding uses a wire with a larger diameter to produce a greater magnetic field. When the start switch is closed, part of the current flows from the battery through the hold-in windings. The rest of the current flows through the pull-in windings to the motor terminal. The current then goes through the motor to the ground. When the solenoid is fully activated, current is shut off through the pull-in windings. Only the smaller hold-in windings are in operation for the extended time. This time is the amount of time that is needed for the engine to start. The solenoid will now take less current from the battery. The heat that is made by the solenoid will be kept at an acceptable level.Electric Starting Motor
The starting motors are used to turn the engine flywheel to get the engine running.
Illustration 2 g01192489
Cross section of the starting motor (typical example)
(1) Field
(2) Solenoid
(3) Clutch
(4) Pinion
(5) Commutator
(6) Brush assembly
(7) ArmatureThe starting motor has a solenoid. When the start switch is activated, electricity will flow through the windings of the solenoid. The solenoid core will move to push the starting motor pinion with a mechanical linkage. The pinion engages with the ring gear on the flywheel of the engine. The starting motor pinion engages the ring gear before the contacts in the solenoid close the circuit between the battery and the starting motor. When the circuit between the battery and the starting motor is complete, the pinion will turn the engine flywheel. A clutch gives protection to the starting motor. The engine cannot turn the starting motor too fast. When the start switch is released, the starting motor pinion will move away from the flywheel ring gear.Starting Motor Protection
The starting
Caterpillar SIS machinery equipment:
Caterpillar SIS
330F L Excavator LCG00001-UP (MACHINE) POWERED BY C7.1 Engine »
524-8319
PUMP GP-MAIN HYDRAULIC
330F L Excavator GHT00001-UP (MACHINE) POWERED BY C7.1 Engine »
524-8319
PUMP GP-MAIN HYDRAULIC
330F L Excavator HCK00001-UP (MACHINE) POWERED BY C7.1 Engine »
524-8319
PUMP GP-MAIN HYDRAULIC
330F L & 330F LN Excavators JHF00001-UP (MACHINE) POWERED BY C7.1 Engine »
524-8319
PUMP GP-MAIN HYDRAULIC
Caterpillar parts catalog:
Parts pump Caterpillar catalog:
5248318
PUMP GP-MAIN HYDRAULIC
Caterpillar
Caterpillar
Caterpillar
5045477
PUMP GP-MAIN HYDRAULIC
Caterpillar
Caterpillar
4978499
PUMP GP-PISTON & GEAR
Caterpillar
Caterpillar
4976211
PUMP GP-FUEL TRANSFER
Caterpillar
Caterpillar
4976207
PUMP AR-FUEL TRANSFER
Caterpillar
Caterpillar
5413334
PUMP GP-GEAR
Caterpillar
Caterpillar
5411723
PUMP GP-PISTON
Caterpillar
Caterpillar
5411722
PUMP GP-PISTON
Caterpillar
Caterpillar
5411721
PUMP GP-PISTON
Caterpillar
Caterpillar
5349064
PUMP & MTG GP-AUXILIARY
Caterpillar
Caterpillar
5336373
PUMP & MTG GP-MAIN HYDRAULIC
Caterpillar
Caterpillar