1204712 DRIVE GP-SWING Caterpillar parts
M312, M315
Rating:
Alternative (cross code) number:
CA1204712
120-4712
1204712
CA1204712
120-4712
1204712
Weight: 175 pounds 79 kg.
WHEELED EXCAVATOR,
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Polaris RZR Engine Cover Assembly, Genuine OEM Part 1204712, Qty 1
Polaris Engine Cover Assembly, Part 1204712, and all other Polaris Engineered service parts, deliver unmatched performance and fit for your vehicle. Each one is extensively tested in the field and meticulously crafted to match your machine. || All service parts are engineered specifically for your machine. Which means everything is designed, tested and perfected to maximize the life of your ride. || Getting Polaris Engineered parts is a decision that pays off in the long run, because it ensures there is a long run.
Polaris Engine Cover Assembly, Part 1204712, and all other Polaris Engineered service parts, deliver unmatched performance and fit for your vehicle. Each one is extensively tested in the field and meticulously crafted to match your machine. || All service parts are engineered specifically for your machine. Which means everything is designed, tested and perfected to maximize the life of your ride. || Getting Polaris Engineered parts is a decision that pays off in the long run, because it ensures there is a long run.
Polaris RZR Engine Cover Assembly, Genuine OEM Part 1204712, Qty 1
Polaris Engine Cover Assembly, Part 1204712, and all other Polaris Engineered service parts, deliver unmatched performance and fit for your vehicle. Each one is extensively tested in the field and meticulously crafted to match your machine. || All service parts are engineered specifically for your machine. Which means everything is designed, tested and perfected to maximize the life of your ride. || Getting Polaris Engineered parts is a decision that pays off in the long run, because it ensures there is a long run.
Polaris Engine Cover Assembly, Part 1204712, and all other Polaris Engineered service parts, deliver unmatched performance and fit for your vehicle. Each one is extensively tested in the field and meticulously crafted to match your machine. || All service parts are engineered specifically for your machine. Which means everything is designed, tested and perfected to maximize the life of your ride. || Getting Polaris Engineered parts is a decision that pays off in the long run, because it ensures there is a long run.
Polaris RZR Engine Cover Assembly, Genuine OEM Part 1204712, Qty 1
Polaris Engine Cover Assembly, Part 1204712, and all other Polaris Engineered service parts, deliver unmatched performance and fit for your vehicle. Each one is extensively tested in the field and meticulously crafted to match your machine. || All service parts are engineered specifically for your machine. Which means everything is designed, tested and perfected to maximize the life of your ride. || Getting Polaris Engineered parts is a decision that pays off in the long run, because it ensures there is a long run.
Polaris Engine Cover Assembly, Part 1204712, and all other Polaris Engineered service parts, deliver unmatched performance and fit for your vehicle. Each one is extensively tested in the field and meticulously crafted to match your machine. || All service parts are engineered specifically for your machine. Which means everything is designed, tested and perfected to maximize the life of your ride. || Getting Polaris Engineered parts is a decision that pays off in the long run, because it ensures there is a long run.
Number on catalog scheme:
1
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Information:
Turbocharger
Illustration 3 g00302786
Typical example of a cross section of a turbocharger
(1) Air intake
(2) Compressor housing
(3) Compressor wheel
(4) Bearing
(5) Oil inlet port
(6) Bearing
(7) Turbine housing
(8) Turbine wheel
(9) Exhaust outlet
(10) Oil outlet port
(11) Exhaust inlet The turbocharger is mounted on the outlet of the exhaust manifold. The exhaust gas from the exhaust manifold enters the exhaust inlet (11) and passes through the turbine housing (7) of the turbocharger. Energy from the exhaust gas causes the turbine wheel (8) to rotate. The turbine wheel is connected by a shaft to the compressor wheel (3).As the turbine wheel rotates, the compressor wheel is rotated. The rotation of the compressor wheel causes the intake air to be pressurized through the compressor housing (2) of the turbocharger.
Illustration 4 g02720975
Typical example
(12) Line (boost pressure)
(13) Wastegate actuator
(14) Actuating lever
Illustration 5 g02720981
Typical example
(15) Wastegate regulator When the load on the engine increases, more fuel is injected into the cylinders. The combustion of this additional fuel produces more exhaust gases. The additional exhaust gases cause the turbine and the compressor wheels of the turbocharger to turn faster. As the compressor wheel turns faster, air is compressed to a higher pressure and more air is forced into the cylinders. The increased flow of air into the cylinders allows the fuel to be burnt with greater efficiency. The more efficient burning of fuel produces more power.A wastegate is installed on the turbine housing of the turbocharger. The wastegate is a valve that allows exhaust gas to bypass the turbine wheel of the turbocharger. The operation of the wastegate is dependent on the pressurized air (boost pressure) from the turbocharger compressor. The boost pressure acts on a diaphragm. The diaphragm is spring loaded in the wastegate actuator which varies the amount of exhaust gas that flows into the turbine.The wastegate regulator (15) is controlled by the engine electronic control module (ECM). The ECM uses inputs from a number of engine sensors to determine the optimum boost pressure. This will achieve the best exhaust emissions and fuel consumption at any given engine operating condition. The ECM controls the wastegate regulator, that regulates the boost pressure to the wastegate actuator.When high boost pressure is needed for the engine performance, a signal is sent from the ECM to the wastegate regulator. This causes high pressure in the inlet manifold to act on the diaphragm within the wastegate actuator (13). The actuating rod (14) acts upon the actuating lever to close the valve in the wastegate. When the valve in the wastegate is closed, more exhaust gas is able to pass over the turbine wheel. This results in an increase in the speed of the turbocharger.When low boost pressure is needed for the engine performance, a signal is sent from the ECM to the wastegate regulator. This causes high pressure in the air inlet pipe (12) to act on the diaphragm within the wastegate actuator (13). The actuating rod (14) acts upon the actuating lever to open the valve in the wastegate. When the valve in the wastegate
Illustration 3 g00302786
Typical example of a cross section of a turbocharger
(1) Air intake
(2) Compressor housing
(3) Compressor wheel
(4) Bearing
(5) Oil inlet port
(6) Bearing
(7) Turbine housing
(8) Turbine wheel
(9) Exhaust outlet
(10) Oil outlet port
(11) Exhaust inlet The turbocharger is mounted on the outlet of the exhaust manifold. The exhaust gas from the exhaust manifold enters the exhaust inlet (11) and passes through the turbine housing (7) of the turbocharger. Energy from the exhaust gas causes the turbine wheel (8) to rotate. The turbine wheel is connected by a shaft to the compressor wheel (3).As the turbine wheel rotates, the compressor wheel is rotated. The rotation of the compressor wheel causes the intake air to be pressurized through the compressor housing (2) of the turbocharger.
Illustration 4 g02720975
Typical example
(12) Line (boost pressure)
(13) Wastegate actuator
(14) Actuating lever
Illustration 5 g02720981
Typical example
(15) Wastegate regulator When the load on the engine increases, more fuel is injected into the cylinders. The combustion of this additional fuel produces more exhaust gases. The additional exhaust gases cause the turbine and the compressor wheels of the turbocharger to turn faster. As the compressor wheel turns faster, air is compressed to a higher pressure and more air is forced into the cylinders. The increased flow of air into the cylinders allows the fuel to be burnt with greater efficiency. The more efficient burning of fuel produces more power.A wastegate is installed on the turbine housing of the turbocharger. The wastegate is a valve that allows exhaust gas to bypass the turbine wheel of the turbocharger. The operation of the wastegate is dependent on the pressurized air (boost pressure) from the turbocharger compressor. The boost pressure acts on a diaphragm. The diaphragm is spring loaded in the wastegate actuator which varies the amount of exhaust gas that flows into the turbine.The wastegate regulator (15) is controlled by the engine electronic control module (ECM). The ECM uses inputs from a number of engine sensors to determine the optimum boost pressure. This will achieve the best exhaust emissions and fuel consumption at any given engine operating condition. The ECM controls the wastegate regulator, that regulates the boost pressure to the wastegate actuator.When high boost pressure is needed for the engine performance, a signal is sent from the ECM to the wastegate regulator. This causes high pressure in the inlet manifold to act on the diaphragm within the wastegate actuator (13). The actuating rod (14) acts upon the actuating lever to close the valve in the wastegate. When the valve in the wastegate is closed, more exhaust gas is able to pass over the turbine wheel. This results in an increase in the speed of the turbocharger.When low boost pressure is needed for the engine performance, a signal is sent from the ECM to the wastegate regulator. This causes high pressure in the air inlet pipe (12) to act on the diaphragm within the wastegate actuator (13). The actuating rod (14) acts upon the actuating lever to open the valve in the wastegate. When the valve in the wastegate
Caterpillar SIS machinery equipment:
Caterpillar SIS
M315 Excavator 7ML00001-00859 (MACHINE) POWERED BY 3054 Engine »
120-4712
DRIVE GP-SWING
M312 Excavator 6TL00001-00409 (MACHINE) POWERED BY 3054 Engine »
120-4712
DRIVE GP-SWING
M312 Excavator 6TL00410-UP (MACHINE) POWERED BY 3054 Engine »
120-4712
DRIVE GP-SWING
M315 Excavator 7ML00860-UP (MACHINE) POWERED BY 3054 Engine »
120-4712
DRIVE GP-SWING
Caterpillar parts catalog:
Parts drive Caterpillar catalog:
1487147
DRIVE GP-ACCESSORY
M312, M315
M312, M315
M312, M313C, M313D, M315, M315C, M315D, M315D 2, M316C, M316D, M317D 2
2175636
DRIVE GP-PUMP
M315, M315C, M316C, M318, M318C, M318C MH
M315, M315C, M316C, M318, M318C, M318C MH
1414808
DRIVE GP-FAN
312B L, 312C, 315B L, M312, M315
312B L, 312C, 315B L, M312, M315
M312, M313C, M313D, M315, M315C, M315D, M315D 2, M316C, M316D, M317D 2
1230863
DRIVE GP-ACCESSORY
M312, M315
M312, M315
1273296
DRIVE GP-FAN
M312, M315
M312, M315
1204714
DRIVE GP-SWING
M312, M315
M312, M315
2065952
DRIVE GP-ACCESSORY
3054, 3054B, M312, M315
3054, 3054B, M312, M315
1844388
DRIVE GP-FAN
M312, M315
M312, M315
2175635
DRIVE GP-PUMP
M312, M313C, M313D, M315D 2
M312, M313C, M313D, M315D 2
3239874
DRIVE GP-FAN
AP555E, BG500E, C4.4
AP555E, BG500E, C4.4
4P8084
DRIVE GP-FAN
245D
245D
3510508
DRIVE GP-FAN
C13, CX31-C13I
C13, CX31-C13I
6I1690
DRIVE GP-FAN
D4H XL
D4H XL
1064475
DRIVE GP-AUXILIARY
515, 525, R1300, R1300G
515, 525, R1300, R1300G
6N0050
DRIVE GP-GOVERNOR
D353C
D353C
1378335
DRIVE GP-ACCESSORY
797, 797B
797, 797B
3385871
DRIVE GP-FAN
120K, 120K 2, 12K, 140K, 140K 2, 160K
120K, 120K 2, 12K, 140K, 140K 2, 160K