65770-95541 SQUEEZE PUMP Suzuki
DF15, DF15, DF9.9R, DF9.9TH, DF9.9TH, DT30CRLJ, DT30CRSJ, DT30MCLJ, DT30MCSJ, DT55CRLJ, DT55CRLK, DT55CRLL, DT55HTCLJ, DT55HTCLK, DT55HTCLL, DT55TCLJ, DT55TCLK, DT55TCLL, DT55TCLM, DT55TCLN, DT55TCLP, DT55TCLR, DT55TCLS, DT55TCLT, DT55TCLV, DT65CRLJ,
SQUEEZE
Price: query
Rating:
Compatible models:
DF15
DF9.9R
DF9.9TH
DT30CRLJ
DT30CRSJ
DT30MCLJ
DT30MCSJ
DT55CRLJ
DT55CRLK
DT55CRLL
DT55HTCLJ
DT55HTCLK
DT55HTCLL
DT55TCLJ
DT55TCLK
DT55TCLL
DT55TCLM
DT55TCLN
DT55TCLP
DT55TCLR
DT55TCLS
DT55TCLT
DT55TCLV
DT65CRLJ
DT65CRLK
DT65CRLL
DT65HTCLK
DT65HTCLL
DT65TCLJ
DT65TCLK
DT65TCLL
DT65TCLM
DT65TCLN
DT65TCLP
DT65TCLR
DT65TCLS
DT65TCLT
DT65TCLV
DT9.9 CELK
DT9.9CELJ
DT9.9CELL
DT9.9CELM
DT9.9CELN
DT9.9CELP
DT9.9CELR
DT9.9CELS
DT9.9CELT
DT9.9CENK
DT9.9CESJ
DT9.9CESK
DT9.9CESL
DT9.9CESM
DT9.9CESN
DT9.9CESP
DT9.9CESR
DT9.9CESS
DT9.9CEST
DT9.9CNELP
DT9.9CNELR
DT9.9CNELS
DT9.9CNELT
DT9.9CNEXP
DT9.9CNEXR
DT9.9CNEXS
DT9.9CNEXT
DT9.9CNEXV
DT9.9CNJ
DT9.9CNK
DT9.9CNL
DT9.9CNLN
DT9.9MCLJ
DT9.9MCLK
DT9.9MCLL
DT9.9MCLM
DT9.9MCLN
DT9.9MCLP
DT9.9MCLR
DT9.9MCLS
DT9.9MCLT
DT9.9MCLV
DT9.9MCNLR
DT9.9MCNLT
DT9.9MCNLV
DT9.9MCSJ
DT9.9MCSK
DT9.9MCSL
DT9.9MCSM
DT9.9MCSN
DT9.9MCSP
DT9.9MCSR
DT9.9MCSS
DT9.9MCST
DT9.9MCSV
Suzuki
Suzuki entire parts catalog list:
- OPT:FUEL TANK (RESIN 25L) » 65770-95541
- OPT:FUEL TANK (RESIN 25L) » 65770-95541
- OPT:FUEL TANK (RESIN 25L) » 65770-95541
- OPT:FUEL TANK (RESIN 25L) » 65770-95541
- OPT:FUEL TANK (RESIN 25L) » 65770-95541
- FUEL TANK » 65770-95541
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- PLASTIC FUEL TANK » 65770-95541
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- FUEL TANK » 65770-95541
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- PLASTIC FUEL TANK » 65770-95541
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- PLASTIC FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
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- FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
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- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
- PLASTIC FUEL TANK » 65770-95541
- FUEL TANK » 65770-95541
Information:
Illustration 1 g01115385
(1) Inlet to the engine
(2) Aftercooler core
(3) Inlet air line
(4) Exhaust outlet from turbocharger
(5) Turbine side of turbocharger
(6) Compressor side of turbocharger
(7) Air cleaner The engine components of the air inlet and exhaust system control the quality of air and the amount of air that is available for combustion. The components of the air inlet and exhaust system are the following components:
Air cleaner
Turbocharger
Aftercooler
Cylinder head
Valves and valve system components
Piston and cylinder
Exhaust manifoldThe turbocharger compressor wheel pulls inlet air through the air cleaner and into the air inlet. The air is compressed and this compression causes the air to become hot. The air flows through aftercooler core (2) and the temperature of the compressed air lowers. This lowering of the temperature helps to provide increased horsepower output. Aftercooler core (2) is a separate cooler core that is mounted along the side of the engine radiator. The engine fan causes ambient air to move across both cores. This air movement cools the turbocharged inlet air and the engine coolant.Air is forced from the aftercooler into inlet manifold (1). The air flow from the inlet port into the cylinders is controlled by inlet valves.
Illustration 2 g01319128
Air inlet and exhaust system
(2) Aftercooler core
(4) Exhaust outlet
(5) Turbine side of turbocharger
(6) Compressor side of turbocharger
(8) Exhaust manifold
(9) Exhaust valve
(10) Inlet valve
(11) Air inlet Each cylinder has two inlet valves (10) and two exhaust valves (9) in the cylinder head. The inlet valves open on the inlet stroke. When the inlet valves open, compressed air from the inlet port within the inlet manifold is pushed into the cylinder. The inlet valves close when the piston begins the compression stroke. The air in the cylinder is compressed and the fuel is injected into the cylinder when the piston is near the top of the compression stroke. Combustion begins when the fuel mixes with the air. The force of combustion pushes the piston on the power stroke. The exhaust valves open and the exhaust gases are pushed through the exhaust port into exhaust manifold (8). After the piston finishes the exhaust stroke, the exhaust valves close and the cycle begins again.Exhaust gases from the exhaust manifold flow into the turbine side of turbocharger (5). The high temperature exhaust gases cause the turbocharger turbine wheel to turn. The turbine wheel is connected to the shaft that drives the compressor wheel. Exhaust gases from the turbocharger pass through exhaust outlet (4), through a muffler, and through an exhaust stack.Turbocharger
Illustration 3 g01319169
Turbocharger
(12) Air inlet
(13) Compressor housing
(14) Compressor wheel
(15) Bearing
(16) Oil inlet port
(17) Bearing
(18) Turbine housing
(19) Turbine wheel
(20) Exhaust outlet
(21) Oil outlet port
(22) Exhaust inlet The turbocharger is mounted to the exhaust manifold of the engine. All of the exhaust gases go from the exhaust manifold through the turbocharger.The exhaust gases enter the turbocharger and the turbine wheel is turned. Because the turbocharger turbine wheel is connected by a shaft to the turbocharger compressor wheel, the turbine wheel and the compressor wheel turn at very high speeds. The rotation of the compressor wheel pulls clean air through the compressor housing air inlet. The action of the compressor wheel blades causes a compression of the inlet air. This compression allows a larger amount of air to enter the engine. With more air in the engine, the engine is able to burn more fuel. The overall effect is an increase in power.
Illustration 4 g01319184
Turbocharger with wastegate
(23) Canister
(24) Actuating lever The engine can operate under conditions of low boost (lug). Low boost is a condition that occurs when the turbocharger produces less than optimum boost pressure. There is a spring that is inside canister (23). Under low boost, the spring pushes on the diaphragm in canister (23). This moves actuating lever (24). The actuating lever closes the wastegate, which will allow the turbocharger to operate at maximum performance.Under conditions of high boost, the wastegate opens. The open wastegate allows exhaust gases to bypass the turbine side of the turbocharger. When the boost pressure increases against the diaphragm in canister (23), the wastegate is opened. The rpm of the turbocharger is limited by bypassing a portion of the exhaust gases around the turbine wheel of the turbocharger.Note: The calibration of the wastegate is preset at the factory. No adjustment can be made to the wastegate.Bearing (15) and bearing (17) in the turbocharger use engine oil that is under pressure for lubrication. The lubrication for the bearings flows through oil inlet port (8) and into the inlet port in the center section of the turbocharger cartridge. The oil exits the turbocharger through oil outlet port (21). The oil then returns to the engine oil pan through the oil drain line for the turbocharger. The oil then returns to the engine oil pan through the oil drain line for the turbocharger.The turbocharger center housing of the turbocharger is cooled by engine coolant. The coolant flows from the thermostat housing to the turbocharger center housing. The coolant flow keeps the components of the turbochargers center housing cool in order to prevent oil coking in the bearing area.Valves And Valve Mechanism
Illustration 5 g01319198
Valve system components
(25) Valve bridge
(26) Rocker arm
(27) Camshaft
(28) Rotocoil
(29) Valve spring
(30) Valve guide
(31) Valve The valves and the valve mechanism control the flow of inlet air into the cylinders during engine operation. The valves and the valve mechanism control the flow of exhaust gases out of the cylinders during engine operation.
Illustration 6 g01319199
Components of the gear train
(32) Timing mark
(33) Camshaft gear
(34) Adjustable idler gear
(35) Idler gear
(36) Timing mark
(37) Cluster gear
(38) Crankshaft gear
(39) Oil pump gear The inlet valves and the exhaust valves are opened by the valve mechanism. The inlet valves and the exhaust valves are also closed by the valve mechanism. This occurs as the rotation of the crankshaft causes camshaft (27) to rotate. Camshaft gear (33) is driven by a series of two idler gears (34) and (35). Idler gear (34) is driven by cluster gear (37). Cluster gear (37) is driven by crankshaft gear (38). Timing mark (32) and timing mark (36) are aligned in order to provide the