1437433 ENGINE AR-GENERAL Caterpillar parts
773D  
 
 
Rating:
 Alternative (cross code) number:
CA1437433
143-7433
1437433
 
CA1437433
143-7433
1437433
 
 
TRUCK,
Related part:
 
1437433 
LONG BLOCK M 
 0R9360 
 R
 
1437433 
SHORT BLOCK 
 10R6171 
 R
 
Compatible equipment models: 1437433:
Information:
 Machines Powered By 3114 And 3116 Machine EnginesSUPPLEMENT: 12\04\95Service Magazine; December 4, 1995; Page 7; "Possible Sources Of High Crankcase Blowby From Breather Tube", for Caterpillar Machines Powered By 3114 And 3116 Machine Engines.Disregard this article. See the article with the same title in this issue.--------------- END SUPPLEMENT ---------------When evaluating crankcase blowby, Caterpillar recommends measuring the Flow Rate of the blowby fumes from the breather, using the 8T-2700 Blowby Indicator Group. This instrument measures blowby volume flow rate in units of cubic feet per horsepower hour (Ft3/HP Hr), or in liters per minute (L/min). The approximate blowby rate for new 3114 and 3116 Engines is 1.2 Ft3/Hp Hr or, 0.5 L/min.
Crankcase pressure measurements are less reliable as an indicator, and high crankcase pressure may be caused by something as simple as a partially plugged breather.
Many servicemen may assume that excessive blowby measurements always indicate piston ring and cylinder bore wear. However, there are other possible causes that should be checked. Some of these causes follow:
1. One possible cause is the intake manifold gasket. It is possible for the gasket to leak turbocharger boost pressure into the valve mechanism area, which exits the engine through the breather as "blowby". This can be checked by removing the valve cover, and inspecting the inlet manifold gasket for signs of deterioration.2. Another possible cause of high blowby is a ruptured fuel ratio control diaphragm which can leak boost pressure into the governor and into the engine. The fuel ratio control diaphragm can be checked by disconnecting the boost line at the control, and using an FT 1906 Tool Group (or equivalent) to pressurize the control to 103 kPa (15 psi). If the diaphragm is defective a pressure loss will be observed.3. If an engine is equipped with an air compressor, worn rings in the compressor or a defective unloader valve could cause excessive blowby. To determine if the air compressor is the cause, observe blowby while the compressor is cycling (building pressure) and unloading (bypassing pressure). If the blowby figures fluctuate, check the air compressor for dirt and/or unloader valve problems. If the air compressor air inlet line is connected to the engine air intake manifold boost port and uses charged air, it will be necessary to disconnect the line from the inlet manifold port to determine if the air compressor is causing high blowby.
 Crankcase pressure measurements are less reliable as an indicator, and high crankcase pressure may be caused by something as simple as a partially plugged breather.
Many servicemen may assume that excessive blowby measurements always indicate piston ring and cylinder bore wear. However, there are other possible causes that should be checked. Some of these causes follow:
1. One possible cause is the intake manifold gasket. It is possible for the gasket to leak turbocharger boost pressure into the valve mechanism area, which exits the engine through the breather as "blowby". This can be checked by removing the valve cover, and inspecting the inlet manifold gasket for signs of deterioration.2. Another possible cause of high blowby is a ruptured fuel ratio control diaphragm which can leak boost pressure into the governor and into the engine. The fuel ratio control diaphragm can be checked by disconnecting the boost line at the control, and using an FT 1906 Tool Group (or equivalent) to pressurize the control to 103 kPa (15 psi). If the diaphragm is defective a pressure loss will be observed.3. If an engine is equipped with an air compressor, worn rings in the compressor or a defective unloader valve could cause excessive blowby. To determine if the air compressor is the cause, observe blowby while the compressor is cycling (building pressure) and unloading (bypassing pressure). If the blowby figures fluctuate, check the air compressor for dirt and/or unloader valve problems. If the air compressor air inlet line is connected to the engine air intake manifold boost port and uses charged air, it will be necessary to disconnect the line from the inlet manifold port to determine if the air compressor is causing high blowby.
Caterpillar SIS machinery equipment:
Caterpillar parts catalog:
Parts engine Caterpillar catalog:
 1443495
ENGINE AR-CORE
 
769D, 771D
 
769D, 771D
 1241679
ENGINE AR
 
345B, 345B L
 
345B, 345B L
 1444579
ENGINE AR
 
3406B
 
3406B
 1444578
ENGINE AR
 
3406B
 
3406B
 1444577
ENGINE AR
 
3406B
  
3406B
 1473168
ENGINE AR
 
3512B
 
3512B
 1473167
ENGINE AR
 
3512B
 
3512B
 1473166
ENGINE AR
 
3508B
 
3508B
 1473165
ENGINE AR
 
3508B
 
 
3508B
 1314878
ENGINE AR
 
775D
 
775D
