0335302 LOUVER, Starboard JOHNSON
BJ115ELEDR, BJ115ELEUA, BJ115GLECM, BJ115PLEEM, BJ115PLSSB, BJ150ELECD, BJ150ELEDB, BJ150ELEUC, BJ175EXECD, BJ175EXEDB, BJ175EXEUC, BJ175PLEES, BJ175PLSSC, BJ90ELEDR, BJ90ELEUA, BJ90PLEEB, BJ90PLSSE, BJ90SLECM, J100WPLEEC, J100WPLSSR, J100WQLECS, J10
LOUVER
Price: query
Rating:
Number on catalog scheme: 15
Compatible models:
BJ115ELEDR
BJ115ELEUA
BJ115GLECM
BJ115PLEEM
BJ115PLSSB
BJ150ELECD
BJ150ELEDB
BJ150ELEUC
BJ175EXECD
BJ175EXEDB
BJ175EXEUC
BJ175PLEES
BJ175PLSSC
BJ90ELEDR
BJ90ELEUA
BJ90PLEEB
BJ90PLSSE
BJ90SLECM
J100WPLEEC
J100WPLSSR
J100WQLECS
J105WELEEN
J105WELSSC
J105WRLEES
J115ELEOC
J150CXEES
J150CXSSC
J150ELARA
J150ELEOM
J150WPLEES
J150WPLSSC
J150WTLEOR
J150WTLERC
J175EXARC
J175EXEOM
J90ELEOC
SJ105RWLH
SJ105RWLP
SJ105WELV
SJ150WTPLB
SJ150WTPLT
SJ150WTPLY
JOHNSON
BRP JOHNSON entire parts catalog list:
BJ115ELEUA, BJ115ELEUC, BJ115GLEUA, BJ115GLEUC, BJ115SXEUA, BJ115SXEUC, HJ115SLEUA, HJ115SLEUC, J115ELEUA, J115ELEUC, J115GLEUA, J115GLEUC, J115SLEUA, J115SLEUC, J115SXEUA, J115SXEUC 1997
BJ115GLECM, BJ115SXECM, HJ115SLECM, J115ELECM, J115GLECM, J115JTLECS, J115SLECM, J115SXECM 1998
BJ115PLEEM, BJ115PXEEM, J115JPLEEC, J115PLEEM, J115PXEEM, J115SPLEES 1999
BJ115PLSSB, BJ115PXSSB, BJ115VXSSS, J115JPLSSR, J115PLSSB, J115PXSSB, J115SPLSSC, J115VLSSS, J115VXSSS, RJ115PLSSB, RJ115PXSSB, RJ115VLSSB, RJ115VXSSS 2000
BJ150ELECD, BJ150EXECD, BJ150GLECD, BJ150NXECD, J150ELECD, J150EXECD, J150GLECD, J150JLECD, J150NXECD, J150SLECD 1998
BJ150ELEDB, BJ150EXEDB, BJ150GLEDB, BJ150NXEDB, J150ELEDB, J150EXEDB, J150GLEDB, J150JLEDB, J150NXEDB, J150SLEDB, SJ150ELEDB 1996
BJ150ELEUC, BJ150ELEUE, BJ150EXEUC, BJ150EXEUE, BJ150GLEUC, BJ150GLEUE, BJ150NXEUC, BJ150NXEUE, J150ELEUC, J150ELEUE, J150EXEUC, J150EXEUE, J150GLEUC, J150GLEUE, J150JLEUC, J150JLEUE, J150NXEUC, J150NXEUE, J150SLEUC, J150SLEUE 1997
BJ175EXECD, BJ175GLECD, BJ175NXECD, J175EXECD, J175GLECD, J175NXECD, J175SLECD 1998
BJ175EXEDB, BJ175GLEDB, BJ175NXEDB, J175EXEDB, J175GLEDB, J175NXEDB, J175SLEDB 1996
BJ175EXEUC, BJ175EXEUE, BJ175GLEUC, BJ175GLEUE, BJ175NXEUC, BJ175NXEUE, J175EXEUC, J175EXEUE, J175GLEUC, J175GLEUE, J175NXEUC, J175NXEUE, J175SLEUC, J175SLEUE 1997
BJ175PLEES, BJ175PXEES, J175CXEES, J175PLEES, J175PXEES, J175SPLEES 1999
BJ175PLSSC, BJ175PXSSC, BJ175VXSSS, J175CXSSS, J175PLSSC, J175PXSSC, J175SPLSSC, J175VCXSSS, J175VLSSS, J175VXSSS, RJ175CXSSS, RJ175PLSSC, RJ175VXSSS 2000
BJ90ELEDR, BJ90SLEDR, J90ELEDR, J90SLEDR, SJ90ELEDR 1996
BJ90ELEUA, BJ90ELEUC, BJ90SLEUA, BJ90SLEUC, BJ90SXEUA, BJ90SXEUC, J90ELEUA, J90ELEUC, J90SLEUA, J90SLEUC 1997
BJ90PLEEB, BJ90PXEEB, J90PLEEB, J90SPLEES 1999
BJ90PLSSE, BJ90PXSSE, BJ90VXSSS, J90PLSSE, J90SPLSSC, J90VLSSE, RJ90PLSSE, RJ90VLSSS 2000
BJ90SLECM, BJ90SXECM, J90ELECM, J90SLECM 1998
J100WPLEEC, J100WPXEEC 1999
J100WPLSSR, J100WPXSSR 2000
J100WQLECS, J100WQXECS 1998
J105WELEEN, J105WELEES, J105WPLEEN, J105WPLEES, J105WPXEEN, J105WPXEES 1999
J105WELSSC, J105WPLSSC, J105WPXSSC 2000
J105WRLEES, J105WRYEES 1999
J115ELEOC, J115GLEOC, J115SLEOC, J115SXEOC 1995
J150CXEES, J150JPLEES, J150PLEES, J150PXEES, J150SPLEES 1999
J150CXSSC, J150JPLSSC, J150MXSSD, J150PLSSC, J150PXSSC, J150SPLSSC, J150VCSSS, J150VLSSS, J150VXSSS, RJ150CXSSC, RJ150PLSSC, RJ150PXSSC, RJ150VCSSS, RJ150VLSSS, RJ150VXSSS 2000
J150ELARA, J150ELARV, J150ELERA, J150ELERV, J150EXARC, J150EXARV, J150EXERA, J150EXERV, J150GLERA, J150GLERV, J150JLERA, J150JLERV, J150NXARC, J150NXARV, J150NXERA, J150NXERV 1994
J150ELEOM, J150EXEOM, J150GLEOM, J150JLEOM, J150NXEOM, J150SLEOM, VJ150HLEOS 1995
J150WPLEES 1999
J150WPLSSC 2000
J150WTLEOR, J150WTXEOR 1995
J150WTLERC, J150WTLERV, J150WTXERC, J150WTXERV 1994
J175EXARC, J175EXARV, J175EXERA, J175EXERV, J175GLERA, J175NXARC, J175NXARV, J175NXERA, J175NXERV, J175SLERA 1994
J175EXEOM, J175GLEOM, J175NXEOM, J175SLEOM 1995
J90ELEOC, J90EXEOC, J90SLEOC 1995
SJ105RWLH, SJ105RWYH 1998
SJ105RWLH, SJ105RWYH 1998
SJ105RWLP, SJ105RWYP 1997
SJ105RWLP, SJ105RWYP 1997
SJ105WELV, SJ105WEXV, SJ105WRPLV, SJ105WRPXV 1998
SJ105WELV, SJ105WEXV, SJ105WRPLV, SJ105WRPXV 1998
SJ150WTPLB, SJ150WTPXB 1996
SJ150WTPLT, SJ150WTPLT4, SJ150WTPXT, SJ150WTPXT4 1997
SJ150WTPLY, SJ150WTPXY 1998
Information:
Fuel System
FUEL SYSTEM SCHEMATIC
1. Fuel transfer pump. 2. Check valve. 3. Fuel injection pump. 4. Fuel filter. 5. Reservoir. 6. Fuel supply line. 7. Electric priming pump. 8. Fuel return line to tank. 9. Fuel filters. 10. Fuel filter bleed. 11. Injection pump bleed. 12. Bypass valve. 13. Switch. The fuel system shown is for the earlier engines. Even though some components on the later engines are not located the same as on the earlier engines, this schematic still applies. The 600 Series Tractors have a manually operated priming pump.Fuel is drawn from the fuel tank through the fuel supply line and fuel filter by the transfer pump. This pump is mounted on the fuel injection pump housing and is driven by a shaft connected to the fuel injection pump camshaft.A bypass valve, at the inlet side of the fuel filter, assures adequate pressure for the fuel system and allows excess fuel to be bypassed back to the fuel tank through a fuel return line.A fuel priming pump is used to fill the filter case, pressurize the fuel and assure that the system is free of air prior to starting the engine. A system of check valves allows fuel to be pumped past the fuel transfer pump when the priming pump is in use. As the filter and fuel injection pump passages are being filled with fuel from the priming pump, the fuel filter bleed on the filter housing can be opened to allow air to escape. The injection pump bleed valve can be used to allow any entrained air to escape from the individual fuel pumps and eliminate the need for loosening fuel line connections at the individual fuel pumps.Individual fuel injection lines carry fuel from the pumps to each cylinder. One section of line connects between the fuel injection pump and an adapter on the inward portion of the camshaft housing. Another section of line on the inside of the camshaft housing connects between the adapter and the top of the precombustion chamber.The fuel pump camshaft is driven by gears located inside a cover at the rear of the engine. An adjustable drive gear at the rear of the engine vee, drives a speed sensing, variable timing unit which in turn is coupled to the fuel pump camshaft through a sliding spline. This variable timing unit automatically provides retarded timing for easier starting and smooth low rpm operation. It will also advance timing as engine rpm increases to provide optimum engine operating efficiency.Fuel Injection Pump
Fuel enters the fuel injection pump housing through passage (6) and enters the fuel injection pump body through the inlet port (2). The injection pump plungers (5) and the lifters (11) are lifted by the cam lobes (12) on the camshaft and always make a full stroke. The lifters are held against the cam lobes by the springs (3). Each pump measures the amount of fuel to be injected into its respective cylinder and forces it out the fuel injection nozzle.The amount of fuel pumped each stroke is varied by turning the plunger in the barrel. The plunger is turned by the governor action through the fuel rack (8) which turns the gear segment (10) on the bottom of the pump plunger. Passage (4) provides fuel to lubricate the pump plunger and passage (7) allows air to be bled from the system through the valve on top of the fuel filter case.
FUEL INJECTION PUMP
1. Check valve. 2. Inlet port. 3. Spring. 4. Lubrication passage (fuel). 5. Pump plunger. 6. Fuel passage. 7. Bleed passage. 8. Fuel rack. 9. Lubrication passage (oil). 10. Gear segment. 11. Pump Lifter. 12. Camshaft lobe.Fuel Injection Valve
FUEL INJECTION VALVE CROSS SECTION
1. Fuel line assembly. 2. Seal. 3. Body. 4. Nut. 5. Seal. 6. Nozzle assembly. 7. Glow plug. 8. Precombustion chamber.Fuel, under high pressure from the injection pumps, is transferred through the injection lines to the injection valves. As high pressure fuel enters the nozzle assembly, the check valve within the nozzle opens and permits the fuel to enter the precombustion chamber. The injection valve provides the proper spray pattern.Speed Sensing, Variable Timing Unit
The variable timing unit, couples the fuel injection pump camshaft to the engine rear timing gears. The variable timing unit advances the timing as engine rpm increases.On earlier engines the timing advances from 11° BTC at low idle to 19° BTC at high idle. On later engines the timing advances from 8° BTC at low idle to 19° BTC at high idle.
LOW RPM POSITION
1. Power piston. 2. Power piston cavity. 3. Control valve spring. 4. Power piston return spring. 5. Oil inlet passage. 6. Drain port. 7. Control valve. 8. Flyweights. 9. Shaft assembly.During engine low rpm operation, the flyweight force is not sufficient to overcome the force of control valve spring (3) and move control valve (7) to the closed position. Oil merely flows through the power piston cavity (2).
HIGH RPM POSITION
1. Power piston. 2. Power piston cavity. 3. Control valve spring. 4. Power piston return spring. 5. Oil inlet passage. 6. Drain port. 7. Control valve. 8. Flyweights. 9. Shaft assembly.As the engine rpm increases, flyweights (8) overcome the force of control valve spring (3) and move control valve (7) to the closed position, blocking the oil drain port (6). Pressurized oil, trapped in power piston cavity (2), overcomes the force of spring (4) and moves power piston (1) outward. This causes the fuel injection pump camshaft to index slightly ahead of the shaft portion (9) of the variable timing unit. Any outward movement of the power piston increases the force on the control valve spring. This tends to reopen the control valve, letting oil escape from the power piston cavity. As oil begins flowing from the cavity again, return spring (4) moves the power piston inward.At any given rpm, a balance is reached between the flyweight force and the control valve spring force. The resultant position of control valve (7) will tend to maintain proper pressure behind the power piston. The
FUEL SYSTEM SCHEMATIC
1. Fuel transfer pump. 2. Check valve. 3. Fuel injection pump. 4. Fuel filter. 5. Reservoir. 6. Fuel supply line. 7. Electric priming pump. 8. Fuel return line to tank. 9. Fuel filters. 10. Fuel filter bleed. 11. Injection pump bleed. 12. Bypass valve. 13. Switch. The fuel system shown is for the earlier engines. Even though some components on the later engines are not located the same as on the earlier engines, this schematic still applies. The 600 Series Tractors have a manually operated priming pump.Fuel is drawn from the fuel tank through the fuel supply line and fuel filter by the transfer pump. This pump is mounted on the fuel injection pump housing and is driven by a shaft connected to the fuel injection pump camshaft.A bypass valve, at the inlet side of the fuel filter, assures adequate pressure for the fuel system and allows excess fuel to be bypassed back to the fuel tank through a fuel return line.A fuel priming pump is used to fill the filter case, pressurize the fuel and assure that the system is free of air prior to starting the engine. A system of check valves allows fuel to be pumped past the fuel transfer pump when the priming pump is in use. As the filter and fuel injection pump passages are being filled with fuel from the priming pump, the fuel filter bleed on the filter housing can be opened to allow air to escape. The injection pump bleed valve can be used to allow any entrained air to escape from the individual fuel pumps and eliminate the need for loosening fuel line connections at the individual fuel pumps.Individual fuel injection lines carry fuel from the pumps to each cylinder. One section of line connects between the fuel injection pump and an adapter on the inward portion of the camshaft housing. Another section of line on the inside of the camshaft housing connects between the adapter and the top of the precombustion chamber.The fuel pump camshaft is driven by gears located inside a cover at the rear of the engine. An adjustable drive gear at the rear of the engine vee, drives a speed sensing, variable timing unit which in turn is coupled to the fuel pump camshaft through a sliding spline. This variable timing unit automatically provides retarded timing for easier starting and smooth low rpm operation. It will also advance timing as engine rpm increases to provide optimum engine operating efficiency.Fuel Injection Pump
Fuel enters the fuel injection pump housing through passage (6) and enters the fuel injection pump body through the inlet port (2). The injection pump plungers (5) and the lifters (11) are lifted by the cam lobes (12) on the camshaft and always make a full stroke. The lifters are held against the cam lobes by the springs (3). Each pump measures the amount of fuel to be injected into its respective cylinder and forces it out the fuel injection nozzle.The amount of fuel pumped each stroke is varied by turning the plunger in the barrel. The plunger is turned by the governor action through the fuel rack (8) which turns the gear segment (10) on the bottom of the pump plunger. Passage (4) provides fuel to lubricate the pump plunger and passage (7) allows air to be bled from the system through the valve on top of the fuel filter case.
FUEL INJECTION PUMP
1. Check valve. 2. Inlet port. 3. Spring. 4. Lubrication passage (fuel). 5. Pump plunger. 6. Fuel passage. 7. Bleed passage. 8. Fuel rack. 9. Lubrication passage (oil). 10. Gear segment. 11. Pump Lifter. 12. Camshaft lobe.Fuel Injection Valve
FUEL INJECTION VALVE CROSS SECTION
1. Fuel line assembly. 2. Seal. 3. Body. 4. Nut. 5. Seal. 6. Nozzle assembly. 7. Glow plug. 8. Precombustion chamber.Fuel, under high pressure from the injection pumps, is transferred through the injection lines to the injection valves. As high pressure fuel enters the nozzle assembly, the check valve within the nozzle opens and permits the fuel to enter the precombustion chamber. The injection valve provides the proper spray pattern.Speed Sensing, Variable Timing Unit
The variable timing unit, couples the fuel injection pump camshaft to the engine rear timing gears. The variable timing unit advances the timing as engine rpm increases.On earlier engines the timing advances from 11° BTC at low idle to 19° BTC at high idle. On later engines the timing advances from 8° BTC at low idle to 19° BTC at high idle.
LOW RPM POSITION
1. Power piston. 2. Power piston cavity. 3. Control valve spring. 4. Power piston return spring. 5. Oil inlet passage. 6. Drain port. 7. Control valve. 8. Flyweights. 9. Shaft assembly.During engine low rpm operation, the flyweight force is not sufficient to overcome the force of control valve spring (3) and move control valve (7) to the closed position. Oil merely flows through the power piston cavity (2).
HIGH RPM POSITION
1. Power piston. 2. Power piston cavity. 3. Control valve spring. 4. Power piston return spring. 5. Oil inlet passage. 6. Drain port. 7. Control valve. 8. Flyweights. 9. Shaft assembly.As the engine rpm increases, flyweights (8) overcome the force of control valve spring (3) and move control valve (7) to the closed position, blocking the oil drain port (6). Pressurized oil, trapped in power piston cavity (2), overcomes the force of spring (4) and moves power piston (1) outward. This causes the fuel injection pump camshaft to index slightly ahead of the shaft portion (9) of the variable timing unit. Any outward movement of the power piston increases the force on the control valve spring. This tends to reopen the control valve, letting oil escape from the power piston cavity. As oil begins flowing from the cavity again, return spring (4) moves the power piston inward.At any given rpm, a balance is reached between the flyweight force and the control valve spring force. The resultant position of control valve (7) will tend to maintain proper pressure behind the power piston. The
Parts louver JOHNSON:
0335301
0335301 LOUVER, Port
BJ115ELEDR, BJ115ELEUA, BJ115GLECM, BJ115PLEEM, BJ115PLSSB, BJ150ELECD, BJ150ELEDB, BJ150ELEUC, BJ175EXECD, BJ175EXEDB, BJ175EXEUC, BJ175PLEES, BJ175PLSSC, BJ90ELEDR, BJ90ELEUA, BJ90PLEEB, BJ90PLSSE, BJ90SLECM, J100WPLEEC, J100WPLSSR, J100WQLECS, J10
0345814
0345815