951739 Lubricating nipple Volvo.Penta
2001; 2001B; 2001AG, 230A; 230B; 250A, 430; 430A; 430B, 500; 500A; 501A, 571A, 740A; BB740A, AD30A; AQAD30A; MD30A, AD31D; AD31D-A; AD31XD, AD31L-A; AD31P-A; AD41L-A, AD41D; D41D; TAMD41D, AQ115A; AQ115B; AQ130, AQ120B; AQ125A; AQ140A, AQ145A; BB145A
Lubricating
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$306.85
01-10-2019
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Vogtland 951739 Sport Lowering Spring Kit
Fits: Audi A4 type B9 Avant 2WD, Years 16 - 18 || Derived from racing, the Vogtland compound spring consists of two different spring rates. The initial rate provides the proper preload necessary for correct suspension function during all road conditions. The final rate is designed to provide the appropriate vehicle balance for neutral steering characteristics. Each spring is calibrated for every specific car model and provides a balance between performance and comfort. You can visually and physically experience your car in a whole new way. || |2016-2018 Audi A4
Fits: Audi A4 type B9 Avant 2WD, Years 16 - 18 || Derived from racing, the Vogtland compound spring consists of two different spring rates. The initial rate provides the proper preload necessary for correct suspension function during all road conditions. The final rate is designed to provide the appropriate vehicle balance for neutral steering characteristics. Each spring is calibrated for every specific car model and provides a balance between performance and comfort. You can visually and physically experience your car in a whole new way. || |2016-2018 Audi A4
Compatible models:
2001; 2001B; 2001AG
230A; 230B; 250A
430; 430A; 430B
500; 500A; 501A
571A
740A; BB740A
AD30A; AQAD30A; MD30A
AD31D; AD31D-A; AD31XD
AD31L-A; AD31P-A; AD41L-A
AD41D; D41D; TAMD41D
AQ115A; AQ115B; AQ130
AQ120B; AQ125A; AQ140A
AQ145A; BB145A
AQ200B; AQ225B
AQ205A; AQ205LB
AQ211A; DP-A; SP-A
AQ231A; AQ231B; AQ231LB
AQ271A; AQ271B; AQ271C
AQ311A; AQ311B
AQD70D; TAMD70D; TAMD70E
D1-13; D1-13B; D1-20
D100A; D100AK; D100B
D120A; D120AK; TD120A
D2-55; D2-55B; D2-55C
D2-75; D2-75B; D2-75C
D70B; D70B PP; D70B K
KAD42A; KAMD42A; HS1A
KAD42B; KAMD42B; TAMD42B
KAD42P-A; KAMD42P-A; HS1A
MD100A; TMD100A; TMD100AK
MD120A; MD120AK; TMD120A
MD2010-C; MD2010-D; MD2020-C
MD2010A; MD2020A; MD2030A
MD2010B; MD2020B; MD2030B
MD21B; AQD21B
MD22A; MD22A-A; MD22L-A
MD22L; MD22P; MD22L-B
MD31A; TMD31A; TMD31B
MD31A; TMD31B; TAMD31B
MD40A; TMD40A; TMD40B
MD70B; MD70BK; TMD70B
MD70C; TMD70C; TAMD70C
TMD41A; TMD41B; D41A
TMD41B; D41B; TAMD41B
Volvo.Penta
Volvo Penta entire parts catalog list:
230A; 230B; 250A; 250B
430; 430A; 430B; 431A; 431B; 432A; 434A; 500B; 501B; 570A; 572A; 740B; DP-A; DP-A1; DP-A2; DP-C; DP-C1; DP-C1 1.95; DP-C1 2.30; DP-D; DP-D1; DP-D1
500; 500A; 501A
571A
740A; BB740A
AD30A; AQAD30A; MD30A; TAMD30A; TMD30A; AD30; AQAD30; MD30; TAMD30; TMD30
AD31D; AD31D-A; AD31XD; TAMD31D; TMD31D
AD31L-A; AD31P-A; AD41L-A; AD41P-A; D41L-A; TAMD31L-A; TAMD31M-A; TAMD31P-A; TAMD31S-A; TAMD41H-A; TAMD41H-B; TAMD41P-A; TAMD41L-A; TAMD41M-A
AD41D; D41D; TAMD41D; TMD41D; HS1A
AQ115A; AQ115B; AQ130; AQ130A; AQ130B; AQ130C; AQ130D; AQ165A; AQ170A; AQ170B; AQ170C; AQD21A; BB115A; BB115B; BB115C; BB165A; BB170A; BB170B; BB1
AQ120B; AQ125A; AQ140A; BB140A
AQ145A; BB145A
AQ200B; AQ225B
AQ205A; AQ205LB
AQ211A; DP-A; SP-A; 290A
AQ231A; AQ231B; AQ231LB; 290A; DP-A; SP-A; 275A; 285A
AQ271A; AQ271B; AQ271C; AQ271D; AQ271LB
AQ311A; AQ311B
AQD70D; TAMD70D; TAMD70E
D1-13; D1-13B; D1-20; D1-20B; D1-30; D1-30B; D2-40; D2-40B; D1-13F; D1-20F; D1-30F; D2-40F
D100A; D100AK; D100B; TD100A; TD100AG; TD100AK
D120A; D120AK; TD120A; TD120AG; TD120AG PP; TD120AK
D2-55; D2-55B; D2-55C; D2-55D; D2-55E; D2-55F
D2-75; D2-75B; D2-75C; D2-60F; D2-75F
D70B; D70B PP; D70B K; TD70B
- Control Motor Type ''Crouzet'' and Installation Comp., MOXXXXX/14584-: A
- Control Motor Type ''Crouzet'' and Installation Comp., MOXXXXX/14584-: B
KAD42B; KAMD42B; TAMD42B
KAD42P-A; KAMD42P-A; HS1A
MD100A; TMD100A; TMD100AK; TMD100A-CC; MD100B; MD100BK; MD100B-CC
MD120A; MD120AK; TMD120A; TMD120AK; TAMD120A; TAMD120AK; TMD120B; TAMD120B; TAMD120B-CC
MD2010-C; MD2010-D; MD2020-C; MD2020-D; MD2030-C; MD2030-D; MD2040-C; MD2040-D; 120S-D; 120S-E
MD2010A; MD2020A; MD2030A; MD2040A; MS2B-R; MS2A-D; MS2A-E; MS2L-D; MS2L-E; 120S-D; 120S-E; MD2010; MD2030; MD2040; MD2020
MD2010B; MD2020B; MD2030B; MD2040B; MS2L-D; MS2A-D; 120S-D; MS2B-R; MS2A-E; MS2L-E
MD21B; AQD21B
MD22A; MD22A-A; MD22L-A; TMD22A; TMD22-A; MS2B-A; MS2B-R; MS2A-E; MS2B-L; MS2L-E; 120S-E; MD22; MD22L
MD22L; MD22P; MD22L-B; MD22P-B; TMD22-B; TMD22P-C; TAMD22P-B; HS25A; HS25A-B; 120S-E; MS2A-E; MS2L-E; MS2B-L; TMD22B
MD31A; TMD31A; TMD31B; TAMD31A; TAMD31B; AD31; AQAD31A; AD31B; 290A; DP-A; DP-B; DP-A1; DP-B1; SP-A; SP-A1
MD31A; TMD31B; TAMD31B; AD31B
MD40A; TMD40A; TMD40B; TMD40C; AQD40A; TAMD40A; TAMD40B; AD40B; AQAD40A; AQAD40B
MD70B; MD70BK; TMD70B; THAMD70B; TAMD70B; AQD70BL; AQD70B
MD70C; TMD70C; TAMD70C; THAMD70C; AQD70BL; AQD70CL
TMD41A; TMD41B; D41A; D41B; TAMD41A; TAMD41B; AQAD41A; AD41A; AD41B; 290A; DP-A; DP-B; DP-A1; DP-B1; SP-A; SP-A1; AD41BJ; AD41; AD41P-B; D41; TAMD41
TMD41B; D41B; TAMD41B; AD41B; AD41BJ
Information:
Troubleshooting Index
1. Engine Crankshaft Will Not Turn When Start Switch Is On.2. Engine Will Not Start.3. Engine Misfires or Runs Rough.4. Stall at Low rpm.5. Sudden Changes In Engine rpm.6. Not Enough Power.7. Too Much Vibration.8. Loud Combustion Noise.9. Valve Train Noise (Clicking).10. Oil In Cooling System.11. Mechanical Noise (Knock) In Engine.12. Fuel Consumption Too High.13. Loud Valve Train Noise.14. Too Much Valve Lash.15. Valve Rotocoil or Spring Lock is Free.16. Oil at the Exhaust.17. Little or No Valve Clearance.18. Engine Has Early Wear.19. Coolant in Lubrication Oil.20. Too Much Black or Gray Smoke.21. Too Much White or Blue Smoke.22. Engine Has Low Oil Pressure.23. Engine Uses Too Much Lubrication Oil.24. Engine Coolant Is Too Hot.25. Exhaust Temperature Is Too High.26. Starter Motor Does Not Turn.27. Alternator Gives No Charge.28. Alternator Charge Rate Is Low or Not Regular.29. Alternator Charge Is Too High.30. Alternator Has Noise.31. Rack Solenoid Does Not Stop Engine.Engine Crankshaft Will Not Turn When Start Switch Is On Engine Will Not Start Engine Misfires Or Runs Rough Stall At Low RPM Sudden Changes In Engine Speed (rpm) Not Enough Power Too Much Vibration Loud Combustion Noise (Sound) Valve Train Noise (Clicking) Oil In Cooling System Mechanical Noise (Knock) In Engine Fuel Consumption Too High Loud Valve Train Noise Too Much Valve Lash Valve Rotocoil Or Spring Lock Is Free Oil At the Exhaust Little Or No Valve Clearance Engine Has Early Wear Coolant In Lubrication Oil Too Much Black Or Gray Smoke Too Much White Or Blue Smoke Engine Has Low Oil Pressure Engine Uses Too Much Lubrication Oil Engine Coolant Is Too Hot Exhaust Temperature Is Too High Starter Motor Does Not Turn Alternator Gives No Charge Alternator Charge Rate Is Low Or Not Regular Alternator Charge Is Too High Alternator Has Noise Rack Solenoid Does Not Stop Engine Fuel System
Either too much fuel or not enough fuel for combustion can be the cause of a problem in the fuel system. Many times work is done on the fuel system when the problem is really with some other part of the engine. The source of the problem is difficult to find, especially when smoke comes from the exhaust. Smoke that comes from the exhaust can be caused by a bad fuel injection valve, but it can also be caused by one or more of the reasons that follow:a. Not enough air for good combustion.b. An overload at high altitude.c. Oil leakage into combustion chamber.d. Not enough compression.e. Fuel injection timing retarded.Fuel System Inspection
A problem with the components that send fuel to the engine can cause low fuel pressure. This can decrease engine performance.1. Check the fuel level in the fuel tank. Look at the cap for the fuel tank to make sure the vent is not filled with dirt.2. Check the fuel lines for fuel leakage. Be sure the fuel supply line does not have a restriction or a bad bend.3. Install a new fuel filter. Clean the primary fuel filter.4. Remove any air that may be in the fuel system. Use the fuel priming pump to move fuel through low pressure part of the system. Fuel with the air will return to the tank through the fuel return line.To remove air from the fuel injection lines, loosen the fuel line nuts at the through head adapter nozzles 1/2turn. Move the governor lever to the low idle position. Crank engine with the starter motor until fuel without air comes from the fuel line connections. Tighten the fuel line nuts. The fuel priming pump will not give enough pressure to push fuel through the orificed reverse flow check valves in the fuel injection pumps.Fuel Transfer Pump
With the engine operating at full load speed, the fuel transfer pump moves fuel through the secondary filter and the fuel injection pump housing at approximately 240 kPa (35 psi).To check the fuel transfer pump pressure, disconnect the fuel line (from the filter) at the fuel injection pump housing inlet (1). Install a tee at inlet (1) and connect the fuel line to the tee. Connect a pressure gauge to the tee and start the engine.
FUEL LINES
1. Fuel inlet.Minimum fuel pressures must be 70 kPa (10 psi) at low idle and 170 kPa (25 psi) at full load speed (and engine under full load).If the fuel pressure is not above the minimum specifications, stop the engine. Make a replacement of the primary and secondary fuel filters and check to make sure the fuel lines and hoses are not plugged or damaged.Start the engine and again check the fuel pressure. If the fuel pressure is not above the minimum specification, a repair or replacement of the fuel transfer pump is needed.Checking Engine Cylinders Separately
An easy check can be made to find the cylinder that runs rough (misfires) and causes black smoke to come out of the exhaust pipe.Run the engine at the speed that is the roughest. Loosen the fuel line nut at a fuel injection pump. This will stop the flow of fuel to that cylinder. Do this for each cylinder until a loosened fuel line is found that makes no difference in engine performance. Be sure to tighten each fuel line nut after the test before the next fuel line nut is loosened. Check each cylinder by this method. When a cylinder is found where the loosened fuel line nut does not make a difference in engine performance, test the injection pump and fuel injection nozzle for that cylinder.Temperature of an exhaust manifold port, when an engine runs at low idle speed, can also be an indication of the condition of a fuel injection nozzle. Low temperature at an exhaust manifold port is an indication of no fuel to the cylinder. This can possibly be an indication of a nozzle with a defect. Extra high temperature at an exhaust manifold port can be an indication of too much fuel to the cylinder, also caused by a nozzle with a defect.The most common defects found with the fuel injection nozzles
1. Engine Crankshaft Will Not Turn When Start Switch Is On.2. Engine Will Not Start.3. Engine Misfires or Runs Rough.4. Stall at Low rpm.5. Sudden Changes In Engine rpm.6. Not Enough Power.7. Too Much Vibration.8. Loud Combustion Noise.9. Valve Train Noise (Clicking).10. Oil In Cooling System.11. Mechanical Noise (Knock) In Engine.12. Fuel Consumption Too High.13. Loud Valve Train Noise.14. Too Much Valve Lash.15. Valve Rotocoil or Spring Lock is Free.16. Oil at the Exhaust.17. Little or No Valve Clearance.18. Engine Has Early Wear.19. Coolant in Lubrication Oil.20. Too Much Black or Gray Smoke.21. Too Much White or Blue Smoke.22. Engine Has Low Oil Pressure.23. Engine Uses Too Much Lubrication Oil.24. Engine Coolant Is Too Hot.25. Exhaust Temperature Is Too High.26. Starter Motor Does Not Turn.27. Alternator Gives No Charge.28. Alternator Charge Rate Is Low or Not Regular.29. Alternator Charge Is Too High.30. Alternator Has Noise.31. Rack Solenoid Does Not Stop Engine.Engine Crankshaft Will Not Turn When Start Switch Is On Engine Will Not Start Engine Misfires Or Runs Rough Stall At Low RPM Sudden Changes In Engine Speed (rpm) Not Enough Power Too Much Vibration Loud Combustion Noise (Sound) Valve Train Noise (Clicking) Oil In Cooling System Mechanical Noise (Knock) In Engine Fuel Consumption Too High Loud Valve Train Noise Too Much Valve Lash Valve Rotocoil Or Spring Lock Is Free Oil At the Exhaust Little Or No Valve Clearance Engine Has Early Wear Coolant In Lubrication Oil Too Much Black Or Gray Smoke Too Much White Or Blue Smoke Engine Has Low Oil Pressure Engine Uses Too Much Lubrication Oil Engine Coolant Is Too Hot Exhaust Temperature Is Too High Starter Motor Does Not Turn Alternator Gives No Charge Alternator Charge Rate Is Low Or Not Regular Alternator Charge Is Too High Alternator Has Noise Rack Solenoid Does Not Stop Engine Fuel System
Either too much fuel or not enough fuel for combustion can be the cause of a problem in the fuel system. Many times work is done on the fuel system when the problem is really with some other part of the engine. The source of the problem is difficult to find, especially when smoke comes from the exhaust. Smoke that comes from the exhaust can be caused by a bad fuel injection valve, but it can also be caused by one or more of the reasons that follow:a. Not enough air for good combustion.b. An overload at high altitude.c. Oil leakage into combustion chamber.d. Not enough compression.e. Fuel injection timing retarded.Fuel System Inspection
A problem with the components that send fuel to the engine can cause low fuel pressure. This can decrease engine performance.1. Check the fuel level in the fuel tank. Look at the cap for the fuel tank to make sure the vent is not filled with dirt.2. Check the fuel lines for fuel leakage. Be sure the fuel supply line does not have a restriction or a bad bend.3. Install a new fuel filter. Clean the primary fuel filter.4. Remove any air that may be in the fuel system. Use the fuel priming pump to move fuel through low pressure part of the system. Fuel with the air will return to the tank through the fuel return line.To remove air from the fuel injection lines, loosen the fuel line nuts at the through head adapter nozzles 1/2turn. Move the governor lever to the low idle position. Crank engine with the starter motor until fuel without air comes from the fuel line connections. Tighten the fuel line nuts. The fuel priming pump will not give enough pressure to push fuel through the orificed reverse flow check valves in the fuel injection pumps.Fuel Transfer Pump
With the engine operating at full load speed, the fuel transfer pump moves fuel through the secondary filter and the fuel injection pump housing at approximately 240 kPa (35 psi).To check the fuel transfer pump pressure, disconnect the fuel line (from the filter) at the fuel injection pump housing inlet (1). Install a tee at inlet (1) and connect the fuel line to the tee. Connect a pressure gauge to the tee and start the engine.
FUEL LINES
1. Fuel inlet.Minimum fuel pressures must be 70 kPa (10 psi) at low idle and 170 kPa (25 psi) at full load speed (and engine under full load).If the fuel pressure is not above the minimum specifications, stop the engine. Make a replacement of the primary and secondary fuel filters and check to make sure the fuel lines and hoses are not plugged or damaged.Start the engine and again check the fuel pressure. If the fuel pressure is not above the minimum specification, a repair or replacement of the fuel transfer pump is needed.Checking Engine Cylinders Separately
An easy check can be made to find the cylinder that runs rough (misfires) and causes black smoke to come out of the exhaust pipe.Run the engine at the speed that is the roughest. Loosen the fuel line nut at a fuel injection pump. This will stop the flow of fuel to that cylinder. Do this for each cylinder until a loosened fuel line is found that makes no difference in engine performance. Be sure to tighten each fuel line nut after the test before the next fuel line nut is loosened. Check each cylinder by this method. When a cylinder is found where the loosened fuel line nut does not make a difference in engine performance, test the injection pump and fuel injection nozzle for that cylinder.Temperature of an exhaust manifold port, when an engine runs at low idle speed, can also be an indication of the condition of a fuel injection nozzle. Low temperature at an exhaust manifold port is an indication of no fuel to the cylinder. This can possibly be an indication of a nozzle with a defect. Extra high temperature at an exhaust manifold port can be an indication of too much fuel to the cylinder, also caused by a nozzle with a defect.The most common defects found with the fuel injection nozzles
Parts lubricating Volvo Penta:
828250
828250 Lubricating grease
130S-C; 130SR-C, 130S; 130S-B; 130SR-A, 150S-C; 150SR-C, 150S; 150S-B; 150SR, 2001; 2001B; 2001AG, 230A; 230B; 250A, 430; 430A; 430B, AD30A; AQAD30A; MD30A, AD31D; AD31D-A; AD31XD, AD41D; D41D; TAMD41D, AQ115A; AQ115B; AQ130, AQ120B; AQ125A; AQ140A,
819891
819891 Lubricating hose
AQD70D; TAMD70D; TAMD70E, MD100A; TMD100A; TMD100AK, MD120A; MD120AK; TMD120A, MD70B; MD70BK; TMD70B, MD70C; TMD70C; TAMD70C, TAMD61A; TAMD62A, TAMD71A; TAMD72A, TAMD71B; TAMD73P-A; TAMD73WJ-A, TD100CHC; TD100CRC; TD121CHC, TD120AHC; TD120ARC; TAD120
847165
847165 Lubricating oil hose
AQD70D; TAMD70D; TAMD70E, MD70C; TMD70C; TAMD70C, TAMD60C, TAMD61A; TAMD62A, TAMD63L-A; TAMD63P-A, TAMD71A; TAMD72A, TAMD71B; TAMD73P-A; TAMD73WJ-A, TAMD72P-A; TAMD72WJ-A
846497
846497 Lubricating nipple
D42A; D42A PP, D70B; D70B PP; D70B K, MD120A; MD120AK; TMD120A, TAD1030P, TAD1230P; TD121GP-87; TWD1210P, TAD1630P; TWD1630P; TWD1630PP, TAD1630V; TWD1630V, TAD1641VE; TAD1642VE; TAD1643VE, TAD940GE; TAD941GE, TAD940VE; TAD941VE; TAD942VE, TAMD122A;
824487
824487 Lubricating oil hose
MD120A; MD120AK; TMD120A, TAMD103A, TAMD122A; TMD122A; TAMD122P-A, TMD121C; TAMD121C; TAMD121D
7745630_024
7745630_025
7745660_010