0323776 CLEVIS PIN,Shift and throttle lever JOHNSON
100ML79S, 115ML79R, 140ML79R, 150TL79C, 175TL79R, 200TL79A, 235TL70A, 50R79C, 55E79C, 70EL79R, 75ELR79R, 85ML79R, CJ275TLCDC, CJ275TLCOS, CJ300TLCDC, CJ300TLCOS, D100WTLM, HJ55WMLM, HJ55WMLZ, J100MLCSC, J100STLCCA, J100STLCEM, J100STLESB, J100WMLCDR,
CLEVIS

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Compatible models:
100ML79S
115ML79R
140ML79R
150TL79C
175TL79R
200TL79A
235TL70A
50R79C
55E79C
70EL79R
75ELR79R
85ML79R
CJ275TLCDC
CJ275TLCOS
CJ300TLCDC
CJ300TLCOS
D100WTLM
HJ55WMLM
HJ55WMLZ
J100MLCSC
J100STLCCA
J100STLCEM
J100STLESB
J100WMLCDR
J100WMLCOC
J100WMLCRS
J100WTLCUA
J100WTLESM
J100WTLZ
J10EESC
J110MLCCA
J110MLCDC
J110MLCEM
J110MLCUR
J115MLCIH
J115MLCNB
J115MLCOS
J115MLCRD
J115MLCSA
J115MLCTE
J115MLESB
J120TLAEM
J120TLASB
J120TLCCA
J120TLCDC
J120TLCOS
J120TLCUR
J125ESXESS
J125ESXW
J125WTPLE
J140CXCCS
J140CXCEC
J140CXESR
J140MLCIH
J140MLCNB
J140MLCSA
J140MLCTE
J140TLCDC
J140TLCOS
J140TLCRD
J140TLCUA
J150CXCCA
J150CXCEM
J150CXESB
J150GTLCUR
J150STLACA
J150STLCDC
J150STLCEM
J150STLCOH
J150STLCRD
J150STLCTE
J150STLESB
J150TLCDC
J150TLCIA
J150TLCNM
J150TLCOS
J150TLCRD
J150TLCSF
J150TLCTB
J150TLCUR
J150WPLEES
J150WPLSIF
J150WPLSSC
J150WTLEOR
J150WTLERC
J150WTLETG
J155WTLCDR
J155WTLCOC
J155WTLCRS
J155WTLCUA
J155WTLESM
J155WTLZ
J15EESR
J175STLACM
J175STLCEB
J175STLESE
J175TLCDR
J175TLCIH
J175TLCNB
J175TLCOC
J175TLCSA
J175TLCTD
J175TLCUA
J185ESXESS
J185ESXW
J185TLCOC
J185TLCRS
J200CXCCR
J200CXCEA
J200CXESM
J200STLCUA
J200TLCIH
J200TLCNE
J200TLCSF
J200TLCTD
J200WPXEEN
J200WPXSIF
J200WPXSSC
J20CRCCA
J20CRCDC
J20CRCOS
J20CRCUR
J20ECEM
J20EESB
J225CLCUB
J225CXCCE
J225CXCED
J225CXESS
J235STLCOR
J235STLCRC
J235STLCTS
J235TLCIB
J235TLCNE
J235TLCOR
J235TLCRC
J235TLCSM
J235TLCTD
J25ECCM
J25ECDR
J25ECEB
J25ECNE
J25ECOC
J25ECRS
J25ECTD
J25ECUA
J25EESE
J275CLCUR
J275CXCCA
J28ESLCEA
J28ESLESM
J300CLCUR
J300CXCCA
J300CXCEM
J300CXESB
J30ECCE
J30ECDM
J30ECED
J30ECOA
J30ECRR
J30ECUB
J30EESS
J35AELCDE
J35AELCUD
J35ECND
J35ECRR
J35ECTS
J35RCCE
J35RCDM
J35RCUB
J40AELCCS
J40ECDE
J40ECEC
J40ECOB
J40ECRM
J40ECUD
J40EESR
J45RCE
J45RCEIA
J45RCENM
J45RCESR
J48ESLCCC
J48ESLCER
J48ESLESA
J50BECCS
J50BECDE
J50BECEC
J50BECIC
J50BECNR
J50BECOB
J50BECRM
J50BECTA
J50BECUD
J50BEESR
J50ECSR
J50TELCEC
J55RCIM
J55RLCSA
J55RWLE
J55RWLEIA
J55RWLENM
J55RWLESR
J60ECIA
J60ECNM
J60ECSR
J60ECTB
J60ELCCR
J60ELCDS
J60ELCEA
J60ELCOD
J60ELCRE
J60ELCUC
J60ELESM
J65RWLCRS
J65WELSIR
J65WELSSC
J65WMLCDR
J65WMLCOC
J65WMLCUA
J65WMLESM
J65WMLZ
J70ELCCA
J70ELCDC
J70ELCEM
J70ELCIH
J70ELCNB
J70ELCOS
J70ELCRD
J70ELCSA
J70ELCTE
J70ELCUR
J70ELESB
J75ECCA
J75ECDC
J75ECNB
J75ECOS
J75ECRD
J75ECTE
J75ECUR
J75ERCIH
J75ERCSA
J85MLCSA
J88MSLCCC
J88MSLCER
J88MSLESA
J90MLCDC
J90MLCIH
J90MLCNB
J90MLCOS
J90MLCRD
J90MLCTE
J90MLCUR
N65WMLM
SJ125WTPLJ
SJ125WTPLN
SJ125WTPLV
SJ150WTPLB
SJ150WTPLT
SJ150WTPLY
SJ200WTPLA
SJ200WTPLG
SJ200WTPLS
TJ30ELESS
X155WTLM
JOHNSON
BRP JOHNSON entire parts catalog list:
- REMOTE CONTROL » 0323776
140ML79R, 140TL79R, 140TXL79R 1979
150TL79C, 150TXL79C 1979
175TL79R, 175TXL79R 1979
200TL79A, 200TXL79A 1979
235TL70A, 235TXL79A 1979
50R79C, 50RL79C 1979
55E79C, 55EL79C 1979
70EL79R 1979
75ELR79R, 75ER79R 1979
85ML79R, 85TL79R, 85TXL79R 1979
CJ275TLCDC, CJ275TXCDC, J275PTLCDC, J275PTXCDC 1986
CJ275TLCOS, CJ275TXCOS, J275TLCOS, J275TXCOS 1985
CJ300TLCDC, CJ300TXCDC, J300TLCDC, J300TXCDC 1986
CJ300TLCOS, CJ300TXCOS, J300TLCOS, J300TXCOS 1985
D100WTLM, D100WTXM 1988
HJ55WMLM 1996
HJ55WMLZ 1997
J100MLCSC, J100TRLCSC, J100TRXCSC 1980
J100STLCCA 1988
J100STLCEM 1989
J100STLESB, VJ100SLESB 1990
J100WMLCDR, J100WTLCDR, J100WTXCDR 1986
J100WMLCOC, J100WTLCOC 1985
J100WMLCRS, J100WTLCRS 1984
J100WTLCUA, J100WTXCUA 1987
J100WTLESM, J100WTXESM 1990
J100WTLZ, J100WTXZ 1989
J10EESC, J10ELESC, J10RELESC, J10RESC, J10RLESC, J10SELESC, TJ10ELESC, TJ10RELESC, TJ10RLESC 1990
J110MLCCA, J110TLCCA, J110TXCCA 1988
J110MLCDC, J110TLCDC, J110TLCDF 1986
J110MLCEM, J110TLAEM, J110TLCEM, J110TXCEM, TJ110TLCEM, TJ110TXCEM 1989
J110MLCUR, J110TLCUR, J110TXCUR 1987
J115MLCIH, J115MLCIM, J115TLCIH, J115TLCIM, J115TXCIH, J115TXCIM 1981
J115MLCNB, J115TLCNB, J115TXCNB 1982
J115MLCOS, J115TLCOS 1985
J115MLCRD, J115TLCRD, J115TXCRD 1984
J115MLCSA, J115TLCSA, J115TXCSA 1980
J115MLCTE, J115TLCTE, J115TXCTE 1983
J115MLESB, J115TLASB, J115TLESB, J115TXESB, TJ115TLESB, VJ115TLASB, VJ115TLESB, VJ115TXESB 1990
J120TLAEM, J120TLCEM, J120TXCEM, TJ120TXCEM 1989
J120TLASB, J120TLESB, J120TXESB, VJ120TLASB, VJ120TLESB, VJ120TXESB 1990
J120TLCCA, J120TXCCA 1988
J120TLCDC, J120TXCDC 1986
J120TLCOS, J120TXCOS 1985
J120TLCUR, J120TXCUR 1987
J125ESXESS 1990
J125ESXW 1989
J125WTPLE 1995
J140CXCCS, J140TLCCM, J140TXCCM 1988
J140CXCEC, J140TLAEB, J140TLCEB, J140TXCEB 1989
J140CXESR, J140TLASE, J140TLESE, J140TXESE, VJ140TLASE, VJ140TLESE, VJ140TXESE 1990
J140MLCIH, J140MLCIM, J140TLCIH, J140TLCIM, J140TXCIH, J140TXCIM 1981
J140MLCNB, J140TLCNB, J140TXCNB 1982
J140MLCSA, J140TLCSA, J140TXCSA 1980
J140MLCTE, J140TLCTE, J140TXCTE 1983
J140TLCDC, J140TXCDC 1986
J140TLCOS, J140TXCOS 1985
J140TLCRD, J140TXCRD 1984
J140TLCUA, J140TXCUA 1987
J150CXCCA, J150TLCCA, J150TXCCA 1988
J150CXCEM, J150TLAEM, J150TLCEM, J150TXCEM, TJ150TXCEM 1989
J150CXESB, J150TLASB, J150TLESB, J150TXESB, VJ150TLESB, VJ150TXESB 1990
J150GTLCUR, J150STLCUR 1987
J150STLACA, J150STLCCA 1988
J150STLCDC 1986
J150STLCEM, TJ150SLCEM 1989
J150STLCOH, J150STLCOS 1985
J150STLCRD 1984
J150STLCTE 1983
J150STLESB, TJ150SLESB, VJ150SLESB 1990
J150TLCDC, J150TXCDC 1986
J150TLCIA, J150TLCIH, J150TXCIA, J150TXCIH 1981
J150TLCNM, J150TXCNM 1982
J150TLCOS, J150TXCOS 1985
J150TLCRD, J150TXCRD 1984
J150TLCSF, J150TLCSR, J150TXCSF, J150TXCSR 1980
J150TLCTB, J150TLCTE, J150TXCTB, J150TXCTE 1983
J150TLCUR, J150TXCUR 1987
J150WPLEES 1999
J150WPLSIF 2001
J150WPLSSC 2000
J150WTLEOR, J150WTXEOR 1995
J150WTLERC, J150WTLERV, J150WTXERC, J150WTXERV 1994
J150WTLETG, J150WTLETS, J150WTXETG, J150WTXETS 1993
J155WTLCDR, J155WTXCDR 1986
J155WTLCOC, J155WTXCOC 1985
J155WTLCRS, J155WTXCRS 1984
J155WTLCUA, J155WTXCUA 1987
J155WTLESM, J155WTXESM 1990
J155WTLZ, J155WTXZ 1989
J15EESR, J15ELESR, J15RELESR, J15RESR, J15RLESR 1990
J175STLACM, J175STLCCM, J175TLCCM, J175TXCCM 1988
J175STLCEB, J175TXCEB 1989
J175STLESE, J175TXESE, VJ175SLESE, VJ175TXESE 1990
J175TLCDR, J175TXCDR 1986
J175TLCIH, J175TLCIM, J175TXCIH, J175TXCIM 1981
J175TLCNB, J175TXCNB 1982
J175TLCOC, J175TXCOC 1985
J175TLCSA, J175TLCSF, J175TXCSA, J175TXCSF 1980
J175TLCTD, J175TLCTE, J175TXCTD, J175TXCTE 1983
J175TLCUA, J175TXCUA 1987
Information:
System Response:The event code will be logged.Possible Performance Effect:E361(1)
There are no performance effects.E361(2)
The engine power will be derated.E361(3)
The engine may be derated or shut down.Note: For certain applications, the ECM may only derate the engine. The ECM will notify the operator that the condition exists and that the engine must be shutdown.TroubleshootingThere 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
There are no performance effects.E361(2)
The engine power will be derated.E361(3)
The engine may be derated or shut down.Note: For certain applications, the ECM may only derate the engine. The ECM will notify the operator that the condition exists and that the engine must be shutdown.TroubleshootingThere 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
Parts clevis JOHNSON:
0318955
0318955 CLEVIS, Link to bellcrank
10E74G, 10E75C, 10E76G, 10E77A, 10E78M, 10EL79B, 15E74G, 15E75C, 15E76A, 15E77M, 15E78B, 15E79E, J10ECDB, J10ECES, J10ECOM, J10ECSE, J10ECUE, J10EEIR, J10EENA, J10EESC, J10ELCID, J10ELCNS, J10ELCRA, J10ELCTC, J15ECDE, J15ECEC, J15ECIS, J15ECNC, J15EC
0322405
0322405 CLEVIS, Plunger to lever
100ML79S, 115ETZ78C, 115ML79R, 140ML78C, 140ML79R, 85ETLR78C, 85ML79R