0335815 SHAFT, Throttle arm JOHNSON
BJ115ELEDR, BJ115ELEUA, BJ115GLECM, BJ115PLEEM, BJ115PLSIE, BJ115PLSSB, BJ90ELEDR, BJ90ELEUA, BJ90PLEEB, BJ90PLSID, BJ90PLSSE, BJ90SLECM, J100WPLEEC, J100WPLSIF, J100WPLSSR, J100WQLECS, J105WELEEN, J105WELSIF, J105WELSSC, J105WPLSTM, J105WRLEES, J105
SHAFT
Price: query
Rating:
Compatible models:
BJ115ELEDR
BJ115ELEUA
BJ115GLECM
BJ115PLEEM
BJ115PLSIE
BJ115PLSSB
BJ90ELEDR
BJ90ELEUA
BJ90PLEEB
BJ90PLSID
BJ90PLSSE
BJ90SLECM
J100WPLEEC
J100WPLSIF
J100WPLSSR
J100WQLECS
J105WELEEN
J105WELSIF
J105WELSSC
J105WPLSTM
J105WRLEES
J105WRLSIF
J105WRLSSC
J115ELEOC
J115FSLECS
J115GLSDE
J115GLSOB
J115GLSRC
J115GLSTA
J115PLSDA
J115PLSNF
J115PLSOR
J115PLSRC
J115PXSDA
J115PXSOR
J115PXSRM
J115WPLSOC
J115WPLSRS
J90ELEOC
J90FSLECS
J90GLSDE
J90GLSOB
J90GLSRM
J90GLSTA
J90PLSDM
J90PLSNF
J90PLSOA
J90PLSRR
J90PXSDR
J90PXSOC
J90PXSRS
SJ105RWLH
SJ105RWLP
SJ105WELV
JOHNSON
BRP JOHNSON entire parts catalog list:
- THROTTLE LINKAGE » 0335815
BJ115GLECM, BJ115SXECM, HJ115SLECM, J115ELECM, J115GLECM, J115JTLECS, J115SLECM, J115SXECM 1998
BJ115PLEEM, BJ115PXEEM, J115JPLEEC, J115PLEEM, J115PXEEM, J115SPLEES 1999
BJ115PLSIE, BJ115VXSIC, J115JPLSIA, J115PLSIE, J115VLSIC, J115VXSIC, RJ115PLSIE, RJ115VLSIC, RJ115VXSIC 2001
BJ115PLSSB, BJ115PXSSB, BJ115VXSSS, J115JPLSSR, J115PLSSB, J115PXSSB, J115SPLSSC, J115VLSSS, J115VXSSS, RJ115PLSSB, RJ115PXSSB, RJ115VLSSB, RJ115VXSSS 2000
BJ90ELEDR, BJ90SLEDR, J90ELEDR, J90SLEDR, SJ90ELEDR 1996
BJ90ELEUA, BJ90ELEUC, BJ90SLEUA, BJ90SLEUC, BJ90SXEUA, BJ90SXEUC, J90ELEUA, J90ELEUC, J90SLEUA, J90SLEUC 1997
BJ90PLEEB, BJ90PXEEB, J90PLEEB, J90SPLEES 1999
BJ90PLSID, BJ90VLSIC, BJ90VXSIC, J90PLSID, J90VLSIC, RJ90PLSID, RJ90VLSIC 2001
BJ90PLSSE, BJ90PXSSE, BJ90VXSSS, J90PLSSE, J90SPLSSC, J90VLSSE, RJ90PLSSE, RJ90VLSSS 2000
BJ90SLECM, BJ90SXECM, J90ELECM, J90SLECM 1998
J100WPLEEC, J100WPXEEC 1999
J100WPLSIF, J100WPXSIF 2001
J100WPLSSR, J100WPXSSR 2000
J100WQLECS, J100WQXECS 1998
J105WELEEN, J105WELEES, J105WPLEEN, J105WPLEES, J105WPXEEN, J105WPXEES 1999
J105WELSIF, J105WPLSIF, J105WPXSIF 2001
J105WELSSC, J105WPLSSC, J105WPXSSC 2000
J105WPLSTM 2003
J105WRLEES, J105WRYEES 1999
J105WRLSIF, J105WRYSIF 2001
J105WRLSSC, J105WRYSSC 2000
J115ELEOC, J115GLEOC, J115SLEOC, J115SXEOC 1995
J115FSLECS, J115FSXECS, J115FTLECS 1998
J115GLSDE 2006
J115GLSOB 2004,2005
J115GLSRC 2004
J115GLSTA, J115PLSTS, J115PXSTS 2003
J115PLSDA 2006
J115PLSNF, J115PXSNF, J115VLSNF 2002
J115PLSOR 2004,2005
J115PLSRC 2004
J115PXSDA 2006
J115PXSOR 2004,2005
J115PXSRM 2004
J115WPLSOC 2004,2005
J115WPLSRS 2004
J90ELEOC, J90EXEOC, J90SLEOC 1995
J90FSLECS, J90FTLECS 1998
J90GLSDE 2006
J90GLSOB 2004,2005
J90GLSRM 2004
J90GLSTA, J90PLSTC 2003
J90PLSDM 2006
J90PLSNF, J90VLSNF 2002
J90PLSOA 2004,2005
J90PLSRR 2004
J90PXSDR 2006
J90PXSOC 2004,2005
J90PXSRS 2004
SJ105RWLH, SJ105RWYH 1998
SJ105RWLH, SJ105RWYH 1998
SJ105RWLP, SJ105RWYP 1997
SJ105RWLP, SJ105RWYP 1997
SJ105WELV, SJ105WEXV, SJ105WRPLV, SJ105WRPXV 1998
SJ105WELV, SJ105WEXV, SJ105WRPLV, SJ105WRPXV 1998
Information:
System Response:361-1 (Warning)The ECM will trigger a snapshot. The check engine lamp will illuminate while this event code is active. The event code will be logged once the engine coolant temperature drops below 101 °C (214 °F) for four seconds.361-2 (Derate)The ECM will trigger a snapshot. The check engine lamp will illuminate while this event code is active. The event code will be logged once the engine coolant temperature drops below 101 °C (214 °F) for 20 seconds.361-3 (Shutdown)The ECM will trigger a snapshot. The check engine lamp will illuminate while this event code is active. The event code will be logged once the engine coolant temperature drops below 104 °C (219 °F).Possible Performance Effect:361-1 (Warning)None361-2 (Derate)The ECM will derate power by 25 percent. The ECM will derate power an additional 25 percent for every 1 °C (1.8 °F) over 103 °C (217 °F) up to a 100 percent derate at 106 °C (223 °F).361-3 (Shutdown)The engine will shut down.Troubleshooting:There may be a problem with the engine's cooling system.Test Step 1. Check the Engine's Cooling System
Verify that the cooling system is filled to the proper level. If the coolant level is too low, air will get into the cooling system. Air in the cooling system will cause a reduction in coolant flow.
Check the radiator or the heat exchanger for a restriction to coolant flow.
Check for debris or damage between the fins of the radiator core. Debris between the fins of the radiator core restricts air flow through the radiator core.
Check internally for debris, dirt, or deposits on the radiator core. Debris, dirt, or deposits will restrict the flow of coolant through the radiator.
Check the mixture of antifreeze and water. Make sure that the coolant mixture meets recommendations.
Check the water temperature regulator. A water temperature regulator that does not open, or a water temperature regulator that only opens part of the way can cause overheating.
Check the water pump. A water pump with a damaged impeller does not pump enough coolant. Remove the water pump and check for damage to the impeller.
If the cooling system for this application is equipped with a fan, check the operation of the fan. A fan that is not turning at the correct speed can cause improper air speed across the radiator core. The lack of proper air flow across the radiator core can cause the coolant not to cool to the proper temperature differential.
Check for air in the cooling system. Air can enter the cooling system in different ways. The most common causes of air in the cooling system are the incorrect filling of the cooling system and combustion gas leakage into the cooling system. Combustion gas can get into the system through inside cracks, a damaged cylinder head, or a damaged cylinder head gasket.
Check the cooling system hoses and clamps. Damaged hoses with leaks can normally be seen. Hoses that have no visual leaks can soften during operation. The soft areas of the hose can become kinked or crushed during operation. These areas of the hose can restrict the coolant flow. Hoses become soft and/or get cracks after a period of time. The inside of a hose can deteriorate, and the loose particles of the hose can restrict the coolant flow.
If the cooling system for this application is equipped with an expansion tank, check the shunt line for the expansion tank. The shunt line must be submerged in the expansion tank. A restriction of the shunt line from the expansion tank to the inlet of the jacket water pump will cause a reduction in water pump efficiency. A reduction in water pump efficiency will result in low coolant flow.
If the cooling system for this application is equipped with an aftercooler, check the aftercooler. A restriction of air flow through the air to air aftercooler can cause overheating. Check for debris or deposits which would prevent the free flow of air through the aftercooler.
Check for a restriction in the air inlet system. A restriction of the air that is coming into the engine can cause high cylinder temperatures. High cylinder temperatures cause higher than normal temperatures in the cooling system.
Check for a restriction in the exhaust system. A restriction of the air that is coming out of the engine can cause high cylinder temperatures.
Consider high ambient temperatures. When ambient temperatures are too high for the rating of the cooling system, there is not enough of a temperature difference between the ambient air and coolant temperatures.
Consider high altitude operation. The cooling capability of the cooling system is reduced at higher altitudes. A pressurized cooling system that is large enough to keep the coolant from boiling must be used.
The engine may be running in the lug condition. When the load that is applied to the engine is too large, the engine will run in the lug condition. When the engine is running in the lug condition, engine rpm does not increase with an increase of fuel. This lower engine rpm causes a reduction in coolant flow through the system. Expected Result:A thorough inspection of the cooling system revealed a problem.Results:
OK - There is a problem with the cooling system.Repair: Repair the problem. Ensure that the repair eliminates the problem.STOP
Verify that the cooling system is filled to the proper level. If the coolant level is too low, air will get into the cooling system. Air in the cooling system will cause a reduction in coolant flow.
Check the radiator or the heat exchanger for a restriction to coolant flow.
Check for debris or damage between the fins of the radiator core. Debris between the fins of the radiator core restricts air flow through the radiator core.
Check internally for debris, dirt, or deposits on the radiator core. Debris, dirt, or deposits will restrict the flow of coolant through the radiator.
Check the mixture of antifreeze and water. Make sure that the coolant mixture meets recommendations.
Check the water temperature regulator. A water temperature regulator that does not open, or a water temperature regulator that only opens part of the way can cause overheating.
Check the water pump. A water pump with a damaged impeller does not pump enough coolant. Remove the water pump and check for damage to the impeller.
If the cooling system for this application is equipped with a fan, check the operation of the fan. A fan that is not turning at the correct speed can cause improper air speed across the radiator core. The lack of proper air flow across the radiator core can cause the coolant not to cool to the proper temperature differential.
Check for air in the cooling system. Air can enter the cooling system in different ways. The most common causes of air in the cooling system are the incorrect filling of the cooling system and combustion gas leakage into the cooling system. Combustion gas can get into the system through inside cracks, a damaged cylinder head, or a damaged cylinder head gasket.
Check the cooling system hoses and clamps. Damaged hoses with leaks can normally be seen. Hoses that have no visual leaks can soften during operation. The soft areas of the hose can become kinked or crushed during operation. These areas of the hose can restrict the coolant flow. Hoses become soft and/or get cracks after a period of time. The inside of a hose can deteriorate, and the loose particles of the hose can restrict the coolant flow.
If the cooling system for this application is equipped with an expansion tank, check the shunt line for the expansion tank. The shunt line must be submerged in the expansion tank. A restriction of the shunt line from the expansion tank to the inlet of the jacket water pump will cause a reduction in water pump efficiency. A reduction in water pump efficiency will result in low coolant flow.
If the cooling system for this application is equipped with an aftercooler, check the aftercooler. A restriction of air flow through the air to air aftercooler can cause overheating. Check for debris or deposits which would prevent the free flow of air through the aftercooler.
Check for a restriction in the air inlet system. A restriction of the air that is coming into the engine can cause high cylinder temperatures. High cylinder temperatures cause higher than normal temperatures in the cooling system.
Check for a restriction in the exhaust system. A restriction of the air that is coming out of the engine can cause high cylinder temperatures.
Consider high ambient temperatures. When ambient temperatures are too high for the rating of the cooling system, there is not enough of a temperature difference between the ambient air and coolant temperatures.
Consider high altitude operation. The cooling capability of the cooling system is reduced at higher altitudes. A pressurized cooling system that is large enough to keep the coolant from boiling must be used.
The engine may be running in the lug condition. When the load that is applied to the engine is too large, the engine will run in the lug condition. When the engine is running in the lug condition, engine rpm does not increase with an increase of fuel. This lower engine rpm causes a reduction in coolant flow through the system. Expected Result:A thorough inspection of the cooling system revealed a problem.Results:
OK - There is a problem with the cooling system.Repair: Repair the problem. Ensure that the repair eliminates the problem.STOP
Parts shaft JOHNSON:
0322941
0322941 SHAFT
100ML79S, 115ETZ78C, 115ML79R, 140ML78C, 140ML79R, 150TL79C, 175TL79R, 200TL79A, 235TL70A, 85ETLR78C, 85ML79R, BJ115ELEDR, BJ115ELEUA, BJ115GLECM, BJ115PLEEM, BJ115PLSIE, BJ115PLSSB, BJ115TLEDA, BJ130PLEED, BJ130PLSSS, BJ130TLECE, BJ130TLEDM, BJ130TL
0337006
0337006 SHAFT, Roller
BJ115GLECM, BJ115PLEEM, BJ115PLSIE, BJ115PLSSB, BJ115TLEDA, BJ150ELECD, BJ150ELEDB, BJ150ELEUC, BJ175EXECD, BJ175EXEDB, BJ175EXEUC, BJ175PLEES, BJ175PLSIF, BJ175PLSSC, BJ20SRECB, BJ20SREUM, BJ25BAECM, BJ25BAEUA, BJ30BAECS, BJ30BAEEC, BJ30BAEUD, BJ40E
0335544
0335544 SHAFT, Roller arm
BJ115ELEDR, BJ115ELEUA, BJ115GLECM, BJ115PLEEM, BJ115PLSIE, BJ115PLSSB, BJ150ELECD, BJ150ELEDB, BJ150ELEUC, BJ175EXECD, BJ175EXEDB, BJ175EXEUC, BJ175PLEES, BJ175PLSIF, BJ175PLSSC, BJ90ELEDR, BJ90ELEUA, BJ90PLEEB, BJ90PLSID, BJ90PLSSE, BJ90SLECM, J100
0348483
0348483 *SHAFT, Shift
J105WPLSTM, J115GLSTA, J115PLSNF, J115PXSDA, J115PXSOR, J115PXSRM, J115WPLSOC, J115WPLSRS, J150CXSNF, J150GLSTA, J150MLSOR, J150MLSRC, J150MLSTS, J150PXSDD, J150PXSOE, J150PXSRB, J175CXSNF, J175GLSTA, J175MXSOR, J175MXSRC, J175MXSTS, J175PXSDD, J175P