0316828 NUT,Tilting tube JOHNSON
100ML79S, 115EL77S, 115ESL73M, 115ESL74B, 115ESL75E, 115ETZ78C, 115ML79R, 115TXL77S, 135ESL73M, 135ESL74B, 135ESL75E, 140ML77S, 140ML78C, 140ML79R, 150TL78S, 150TL79C, 175TL77S, 175TL78C, 175TL79R, 200TL76S, 200TL77C, 200TL78R, 200TL79A, 235TL70A, 23
NUT
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Compatible models:
100ML79S
115EL77S
115ESL73M
115ESL74B
115ESL75E
115ETZ78C
115ML79R
115TXL77S
135ESL73M
135ESL74B
135ESL75E
140ML77S
140ML78C
140ML79R
150TL78S
150TL79C
175TL77S
175TL78C
175TL79R
200TL76S
200TL77C
200TL78R
200TL79A
235TL70A
235TL78R
25E77S
25E78C
25E79R
35E76G
35E77C
35E78R
35E79A
50ES73R
50ES74M
50ES75B
50R79C
55E76E
55E77D
55E78S
55E79C
65ES73R
70EL76D
70EL77S
70EL78C
70EL79R
70ES74M
70ES75B
75ELR76D
75ELR77S
75ELR78C
75ELR79R
75ESLR75B
85EL76D
85EL77S
85ESL73M
85ESL74B
85ESL75E
85ETLR78C
85ML79R
85TXLR77S
CJ275TLCDC
CJ275TLCOS
CJ300TLCDC
CJ300TLCOS
D100WTLM
J100MLCSC
J100STLCCA
J100WMLCDR
J100WMLCOC
J100WMLCRS
J100WTLCUA
J110MLCCA
J110MLCDC
J110MLCUR
J115MLCIH
J115MLCNB
J115MLCOS
J115MLCRD
J115MLCSA
J115MLCTE
J120TLCDC
J120TLCOS
J120TLCUR
J140MLCIH
J140MLCNB
J140MLCSA
J140MLCTE
J140TLCDC
J140TLCOS
J140TLCRD
J140TLCUA
J150CXCCA
J150GTLCUR
J150STLACA
J150STLCDC
J150STLCOH
J150STLCRD
J150STLCTE
J150TLCDC
J150TLCIA
J150TLCNM
J150TLCOS
J150TLCRD
J150TLCSF
J150TLCTB
J150TLCUR
J155WTLCDR
J155WTLCOC
J155WTLCRS
J155WTLCUA
J175STLACM
J175TLCDR
J175TLCIH
J175TLCNB
J175TLCOC
J175TLCSA
J175TLCTD
J175TLCUA
J185TLCOC
J185TLCRS
J200CXCCR
J200STLCDR
J200STLCUA
J200TLCIH
J200TLCNE
J200TLCSF
J200TLCTD
J20CRCOS
J225CLCUB
J225CXCCE
J225PTLCDA
J235STLCOR
J235STLCRC
J235STLCTS
J235TLCIB
J235TLCNE
J235TLCOR
J235TLCRC
J235TLCSM
J235TLCTD
J25ECDR
J25ECIB
J25ECNE
J25ECOC
J25ECRS
J25ECTD
J25RCSA
J275CLCUR
J275CXCCA
J28ELCDS
J300CLCUR
J300CXCCA
J30ECDM
J30ECOA
J30ECRR
J35AELCDE
J35AELCUD
J35ECIG
J35ECND
J35ECRR
J35ECSM
J35ECTS
J35RCDM
J40ECDE
J40ECOB
J40ECRM
J40ECUD
J48ESLCCC
J48ESLCUS
J50BECDE
J50BECIC
J50BECNR
J50BECOB
J50BECRM
J50BECTA
J50BECUD
J50ECSR
J55RCIM
J55RLCSA
J60ECIA
J60ECNM
J60ECSR
J60ECTB
J60ELCDS
J60ELCOD
J60ELCRE
J60ELCUC
J65RWLCRS
J65WMLCDR
J65WMLCOC
J65WMLCUA
J70ELCCA
J70ELCDC
J70ELCIH
J70ELCNB
J70ELCOS
J70ELCRD
J70ELCSA
J70ELCTE
J70ELCUR
J75ECDC
J75ECNB
J75ECOS
J75ECRD
J75ECTE
J75ECUR
J75ERCIH
J75ERCSA
J85MLCSA
J88MSLCCC
J88MSLCUS
J90MLCDC
J90MLCIH
J90MLCNB
J90MLCOS
J90MLCRD
J90MLCTE
J90MLCUR
N65WMLM
X155WTLM
JOHNSON
BRP JOHNSON entire parts catalog list:
- EXHAUST HOUSING » 0316828
115ESL73M 1973
115ESL74B, 115ETL74B 1974
115ESL75E, 115ETL75E 1975
115ETZ78C, 115ML78C, 115TXL78C 1978
115ML79R, 115TL79R, 115TXL79R 1979
115TXL77S 1977
135ESL73M 1973
135ESL74B, 135ETL74B 1974
135ESL75E, 135ETL75E 1975
140ML77S, 140TL77S, 140TXL77S 1977
140ML78C, 140TL78C, 140TX78C 1978
140ML79R, 140TL79R, 140TXL79R 1979
150TL78S, 150TXL78S 1978
150TL79C, 150TXL79C 1979
175TL77S, 175TXL77S 1977
175TL78C, 175TX78C 1978
175TL79R, 175TXL79R 1979
200TL76S, 200TXL76S 1976
200TL77C, 200TXL77C 1977
200TL78R, 200TX78R 1978
200TL79A, 200TXL79A 1979
235TL70A, 235TXL79A 1979
235TL78R, 235TX78R 1978
25E77S, 25EL77H, 25EL77S, 25R77H, 25R77S, 25RL77H, 25RL77S 1977
25E78C, 25EL78C, 25R78C, 25RL78C 1978
25E79R, 25EL79R, 25R79R, 25RL79R 1979
35E76G, 35E76S, 35EL76G, 35EL76S, 35R76G, 35R76S, 35RL76G, 35RL76S 1976
35E77C, 35E77H, 35EL77C, 35EL77H, 35R77C, 35R77H, 35RL77C, 35RL77H 1977
35E78R, 35EL78R, 35R78R, 35RL78R 1978
35E79A, 35EL79A, 35R79A, 35RL79A 1979
50ES73R, 50ESL73R, 50R73R, 50RL73R 1973
50ES74M, 50ESL74M 1974
50ES75B, 50ESL75B 1975
50R79C, 50RL79C 1979
55E76E, 55EL76E 1976
55E77D, 55EL77D 1977
55E78S, 55EL78S 1978
55E79C, 55EL79C 1979
65ES73R, 65ESL73R 1973
70EL76D 1976
70EL77S 1977
70EL78C 1978
70EL79R 1979
70ES74M, 70ESL74M, 70ESLR74M 1974
70ES75B, 70ES75E, 70ESL75B, 70ESL75E 1975
75ELR76D, 75ER76D 1976
75ELR77S, 75ER77S 1977
75ELR78C, 75ER78C 1978
75ELR79R, 75ER79R 1979
75ESLR75B, 75ESR75B 1975
85EL76D, 85EL76G, 85ETLR76D, 85ETLR76G 1976
85EL77S, 85ETLR77S 1977
85ESL73M 1973
85ESL74B 1974
85ESL75E 1975
85ETLR78C, 85ML78C, 85TXLR78C 1978
85ML79R, 85TL79R, 85TXL79R 1979
85TXLR77S 1977
CJ275TLCDC, CJ275TXCDC, J275PTLCDC, J275PTXCDC 1986
CJ275TLCOS, CJ275TXCOS, J275TLCOS, J275TXCOS 1985
CJ300TLCDC, CJ300TXCDC, J300TLCDC, J300TXCDC 1986
CJ300TLCOS, CJ300TXCOS, J300TLCOS, J300TXCOS 1985
D100WTLM, D100WTXM 1988
J100MLCSC, J100TRLCSC, J100TRXCSC 1980
J100STLCCA 1988
J100WMLCDR, J100WTLCDR, J100WTXCDR 1986
J100WMLCOC, J100WTLCOC 1985
J100WMLCRS, J100WTLCRS 1984
J100WTLCUA, J100WTXCUA 1987
J110MLCCA, J110TLCCA, J110TXCCA 1988
J110MLCDC, J110TLCDC, J110TLCDF 1986
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
J120TLCDC, J120TXCDC 1986
J120TLCOS, J120TXCOS 1985
J120TLCUR, J120TXCUR 1987
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
J150GTLCUR, J150STLCUR 1987
J150STLACA, J150STLCCA 1988
J150STLCDC 1986
J150STLCOH, J150STLCOS 1985
J150STLCRD 1984
Information:
Components of the Compression Brake
Illustration 1 g00318128
Installed Compression Brake (1) Rear housing. (2) Front housing. (3) Stud. (4) Support bracket. The compression brake consists of two different housings. Both brake housings are installed in the compartment for the valve mechanism above the rocker arms and the rocker arm shaft. Each brake housing is positioned over three cylinders. Each brake housing is mounted on a support bracket (4) at the end of the rocker shaft brackets. Special adjustment screws for the exhaust rocker arm and exhaust valve bridges are necessary. Note: The operation of the compression brakes only uses the exhaust side of the engine valve mechanism.A spacer is used between the cylinder head and the valve cover for the installation of the valve cover. With an installed compression brake, this increase in height is 90 mm (3.5 inch). The front compression brake housing and the rear compression brake housing consist of the following parts:
Three master pistons
Three slave pistons
Three control valves
One solenoid valveEngine Compression Brake's Operation
Illustration 2 g00322183
Master-Slave Circuit Schematic (1) Solenoid valve (2) Spring (3) Control valve (4) High pressure oil passage (5) Slave piston adjustment screw (6) Master piston (7) Spring (8) Rocker arm adjustment screw (9) Rocker arm (10) Slave piston (11) Exhaust pushrod (12) Exhaust valves (13) Ball check valve (14) Oil passage from manually operated control switch (15) Low pressure oil passageThe compression brake operates with engine oil. The engine oil is supplied from the rocker arm shafts. Solenoid valve (1) controls the oil flow in the brake housing. When the solenoid is activated, solenoid valve (1) moves down. The downward movement of the solenoid valve closes the oil drain passage to the oil pan. At the same time, solenoid valve (1) opens low pressure oil passage (15) to three control valves (3). As low pressure passage (15) is filled with engine oil, control valves (3) are pushed up in the chamber against the force of spring (2). At this position, a groove in control valve (3) should align with high pressure oil passage (4). This oil passage supplies high pressure oil to slave piston (10) and master piston (6). The engine oil pressure will now lift ball check valve (13). The engine oil pressure also fills high pressure oil passage (4) and the chambers behind the pistons (master-slave circuit). This pressure moves the pistons downward. Then, the pistons can contact the engine valve mechanism. When the oil pressure is the same pressure through all the oil passages, the small spring will force ball check valve (13) against the seat of the ball check valve. The system is completely pressurized, and the system is ready for operation with the engine valve mechanism. When the solenoid is activated, the compression brake is ready to operate in approximately 1/5 of a second.
Illustration 3 g00318164
Oil Passage Schematic (Front Housing) (1) Solenoid valve. (3) Control valves. (4) High pressure oil passage. (6) Master pistons. (10) Slave pistons. (15) Low pressure oil passage.When engine pushrod (11) for the exhaust valve begins to move up on the normal cycle of the exhaust valve, the following two components can make contact with master piston (6) :
Rocker arm (9)
Rocker adjustment screw (8) As master piston (6) begins to move up, the oil pressure increases in passage (4). The pressure increases because ball check valve (13) will not allow the oil to escape. Since there is a constant increase in pressure with the rocker arm movement, slave piston (10) is pushed down with enough force to open exhaust valves (12). The master-slave circuit is designed so that master piston (6) is moved only by an engine cylinder on the exhaust stroke. At the same time, slave piston (10) opens only the exhaust valves of an engine cylinder on the compression stroke. This occurs just before the cylinder arrives at the top center position. The braking force is constant, and the sequence is the same sequence as the firing order of the engine. See Table 1.
Table 1
Relationship of the Master-Slave Circuit    
Location of Master Piston     Location of Slave Piston    
Sequence for Activation    
No 1 Pushrod     No 3 Pushrod    
No 5 Pushrod     No 6 Pushrod    
No 3 Pushrod     No 2 Pushrod    
No 6 Pushrod     No 4 Pushrod    
No 2 Pushrod     No 1 Pushrod    
No 4 Pushrod     No 5 Pushrod    When solenoid valve (1) is in the OFF position, the engine oil supply passage is closed, and the oil drain passage to the oil pan is opened. This drains the oil beneath the control valve (3). Spring (2) pushes control valve (3) to the bottom of the chamber. This position allows the oil from high pressure oil passage (4) to drain into the chamber above the control piston. Spring (7) now moves master piston (6) up to the NEUTRAL position of the master piston and away from rocker arm adjustment screw (8). The time that is necessary for the system to stop operation is approximately 1/10 of a second. The compression brake will not be able to operate now until the solenoid is activated again.Controls for the Compression Brakes
Illustration 4
Illustration 1 g00318128
Installed Compression Brake (1) Rear housing. (2) Front housing. (3) Stud. (4) Support bracket. The compression brake consists of two different housings. Both brake housings are installed in the compartment for the valve mechanism above the rocker arms and the rocker arm shaft. Each brake housing is positioned over three cylinders. Each brake housing is mounted on a support bracket (4) at the end of the rocker shaft brackets. Special adjustment screws for the exhaust rocker arm and exhaust valve bridges are necessary. Note: The operation of the compression brakes only uses the exhaust side of the engine valve mechanism.A spacer is used between the cylinder head and the valve cover for the installation of the valve cover. With an installed compression brake, this increase in height is 90 mm (3.5 inch). The front compression brake housing and the rear compression brake housing consist of the following parts:
Three master pistons
Three slave pistons
Three control valves
One solenoid valveEngine Compression Brake's Operation
Illustration 2 g00322183
Master-Slave Circuit Schematic (1) Solenoid valve (2) Spring (3) Control valve (4) High pressure oil passage (5) Slave piston adjustment screw (6) Master piston (7) Spring (8) Rocker arm adjustment screw (9) Rocker arm (10) Slave piston (11) Exhaust pushrod (12) Exhaust valves (13) Ball check valve (14) Oil passage from manually operated control switch (15) Low pressure oil passageThe compression brake operates with engine oil. The engine oil is supplied from the rocker arm shafts. Solenoid valve (1) controls the oil flow in the brake housing. When the solenoid is activated, solenoid valve (1) moves down. The downward movement of the solenoid valve closes the oil drain passage to the oil pan. At the same time, solenoid valve (1) opens low pressure oil passage (15) to three control valves (3). As low pressure passage (15) is filled with engine oil, control valves (3) are pushed up in the chamber against the force of spring (2). At this position, a groove in control valve (3) should align with high pressure oil passage (4). This oil passage supplies high pressure oil to slave piston (10) and master piston (6). The engine oil pressure will now lift ball check valve (13). The engine oil pressure also fills high pressure oil passage (4) and the chambers behind the pistons (master-slave circuit). This pressure moves the pistons downward. Then, the pistons can contact the engine valve mechanism. When the oil pressure is the same pressure through all the oil passages, the small spring will force ball check valve (13) against the seat of the ball check valve. The system is completely pressurized, and the system is ready for operation with the engine valve mechanism. When the solenoid is activated, the compression brake is ready to operate in approximately 1/5 of a second.
Illustration 3 g00318164
Oil Passage Schematic (Front Housing) (1) Solenoid valve. (3) Control valves. (4) High pressure oil passage. (6) Master pistons. (10) Slave pistons. (15) Low pressure oil passage.When engine pushrod (11) for the exhaust valve begins to move up on the normal cycle of the exhaust valve, the following two components can make contact with master piston (6) :
Rocker arm (9)
Rocker adjustment screw (8) As master piston (6) begins to move up, the oil pressure increases in passage (4). The pressure increases because ball check valve (13) will not allow the oil to escape. Since there is a constant increase in pressure with the rocker arm movement, slave piston (10) is pushed down with enough force to open exhaust valves (12). The master-slave circuit is designed so that master piston (6) is moved only by an engine cylinder on the exhaust stroke. At the same time, slave piston (10) opens only the exhaust valves of an engine cylinder on the compression stroke. This occurs just before the cylinder arrives at the top center position. The braking force is constant, and the sequence is the same sequence as the firing order of the engine. See Table 1.
Table 1
Relationship of the Master-Slave Circuit    
Location of Master Piston     Location of Slave Piston    
Sequence for Activation    
No 1 Pushrod     No 3 Pushrod    
No 5 Pushrod     No 6 Pushrod    
No 3 Pushrod     No 2 Pushrod    
No 6 Pushrod     No 4 Pushrod    
No 2 Pushrod     No 1 Pushrod    
No 4 Pushrod     No 5 Pushrod    When solenoid valve (1) is in the OFF position, the engine oil supply passage is closed, and the oil drain passage to the oil pan is opened. This drains the oil beneath the control valve (3). Spring (2) pushes control valve (3) to the bottom of the chamber. This position allows the oil from high pressure oil passage (4) to drain into the chamber above the control piston. Spring (7) now moves master piston (6) up to the NEUTRAL position of the master piston and away from rocker arm adjustment screw (8). The time that is necessary for the system to stop operation is approximately 1/10 of a second. The compression brake will not be able to operate now until the solenoid is activated again.Controls for the Compression Brakes
Illustration 4
Parts nut JOHNSON:
0313838
0313838 NUT,Screw,friction adj.
1R69C, 1R70R, 25E77S, 25E78C, 25E79R, 2R71A, 2R72M, 2R73B, 2R74E, 2R75D, 2R76S, 2R77C, 2R78R, 2R79A, 35E76G, 35E77C, 35E78R, 35E79A, 4R69B, 4R70E, 4R71D, 4R72S, 4R73C, 50ES71S, 50ES72C, 50ES73R, 50ES74M, 50ES75B, 50R79C, 55E76E, 55E77D, 55E78S, 55E79
0900185
0900185 NUT,Choke switch
100ESL71A, 100ESL72R, 115ESL69E, 115ESL70D, 115ESL73M, 115ESL74B, 115ESL75E, 125ESL71C, 125ESL72R, 135ESL73M, 135ESL74B, 135ESL75E, 200TL76S, 25E72R, 25E73A, 25E74M, 25E75B, 25E76E, 25E77S, 33E69A, 33E69A, 33E70M, 33E70M, 35E76G, 35E77C, 40E69R, 40E7
0313650
0313650 NUT, Tilting shaft
100ESL71A, 100ESL72R, 115ESL69E, 115ESL70D, 125ESL71C, 125ESL72R, 55ES69A, 60ES70B, 60ES71C, 65ES72S, 65ES73R, 70EL77S, 70EL78C, 70EL79R, 70ES74M, 70ES75B, 75ELR76D, 75ELR77S, 75ELR78C, 75ELR79R, 75ESLR75B, 85ESL69E, 85ESL70B, 85ESL71A, 85ESL72R, J60
0316740
0316740 NUT, Gear spacer step
100ML79S, 115EL77S, 115ESL73M, 115ESL74B, 115ESL75E, 115ETZ78C, 115ML79R, 115TXL77S, 135ESL73M, 135ESL74B, 135ESL75E, 140ML77S, 140ML78C, 140ML79R, 150TL78S, 150TL79C, 175TL77S, 175TL78C, 175TL79R, 200TL76S, 200TL77C, 200TL78R, 200TL79A, 235TL70A, 23
0318903
0318903 NUT
115EL77S, 115ESL73M, 115ESL74B, 115ESL75E, 115ETZ78C, 115TXL77S, 135ESL73M, 135ESL74B, 140ML77S, 140ML78C, 85EL76D, 85EL77S, 85ESL73M, 85ESL74B, 85ESL75E, 85ETLR78C, 85TXLR77S
0387678
0387678 NUT AND WASHER
150TL78S, 150TL79C, 175TL77S, 175TL78C, 175TL79R, 200TL76S, 200TL77C, 200TL78R, 200TL79A, 235TL70A, 235TL78R, J150CXCCA, J150CXCEM, J150CXEIE, J150CXESB, J150GTLCUR, J150STLACA, J150STLCDC, J150STLCEM, J150STLCOH, J150STLCRD, J150STLCTE, J150STLEIE,
0328064
0328064 NUT, Pin, shift lever
AM55RSLD, BJ115GLECM, BJ115PLEEM, BJ115PLSIE, BJ115PLSSB, BJ115TLEDA, BJ130PLEED, BJ130PLSSS, BJ130TLECE, BJ130TLEDM, BJ130TLEUB, BJ135PLSIF, BJ150ELECD, BJ150ELEDB, BJ150ELEUC, BJ175EXECD, BJ175EXEDB, BJ175EXEUC, BJ175PLEES, BJ175PLSIF, BJ175PLSSC,
0331429
0331429 NUT, Fast idle lever
CJ275TLCDC, CJ275TLCOS, CJ300TLCDC, CJ300TLCOS, D100WTLM, HJ55WMLM, HJ55WMLZ, J100STLCCA, J100STLCEM, J100STLESB, J100WMLCDR, J100WMLCOC, J100WTLCUA, J100WTLESM, J100WTLZ, J10EESC, J110MLCCA, J110MLCDC, J110MLCEM, J110MLCUR, J115MLCOS, J115MLESB, J12