Case 470, 500, 540, 580, 620 Quadtrac Tractor Service Manual

Case 470, 500, 540, 580, 620 Quadtrac Tractor Service Manual: 1. Serial/PIN Starting with JEEZ00000FF314001 and above Service Manual: 7040 Pages 2. Serial/PIN Starting with ZEF300001 and ZEF308000 Service Manual: 5569 Pages 3. Serial/PIN Starting with PIN ZFF308001 and above Service Manual: 6287 Pages Publication Number: Multiple English Format: PDF Description Case 470, 500, 540, 580, 620 Quadtrac Tractor Manual Quadtrac Tractor Model : 470, 500, 540, 580, 620 Publication Number: Multiple English Format: PDF Case 470, 500, 540, 580, 620 Quadtrac Tractor Service Manual: 1. Serial/PIN Starting with JEEZ00000FF314001 and above Service Manual: 7040 Pages 2. Serial/PIN Starting with ZEF300001 and ZEF308000 Service Manual: 5569 Pages 3. Serial/PIN Starting with PIN ZFF308001 and above Service Manual: 6287 Pages Manual Table of Content: Contents Introduction Engine Power Coupling Transmission Four Wheel Drive (4WD) System Rear Axle System Power Take Off (PTO) Brakes and Controls Hydraulic System Hitches, drawbars and implement couplings Frames and ballasting Steering Wheels Cab Climate Control Electrical Systems Plateform, Cab, bodywork and decals Special Tool Index Electrical Schematic Hydraulic Schematic Manual Extract: Air conditioning – Dynamic description – A/C thermal operation The refrigerant circuit of the air conditioning system contains five major components: • compressor, • condenser, • receiver-drier, • expansion valve, • and evaporator. These components are connected by tubes and hoses and operate as a closed system. The air conditioner system is charged with HFC-134a refrigerant. The compressor receives the refrigerant as a low pressure gas. The compressor then compresses the refrigerant and sends it in the form of a high pressure gas to the condenser. Air flow through the condenser removes the heat from the refrigerant. As the heat is removed the refrigerant is "condensed" to a high pressure liquid. The high pressure refrigerant liquid flows from the condenser to the receiver-drier. The receiver-drier is a container filled with moisture removing material, which removes any moisture that may have entered the air conditioner system in order to prevent corrosion of the internal components. NOTE: Not all refrigerant leaves the condenser as a liquid. Some leaves as a gas without affecting system performance. Liquid refrigerant pools at the bottom of the receiver-drier, while the lighter gas collects at the top. Since the pick-up tube draws refrigerant from the bottom of the receiver-drier, only liquid refrigerant flows to the thermal expansion valve. The refrigerant, still in high pressure liquid form, flows from the receiver-drier to the expansion valve. The expansion valve provides a restriction to refrigerant flow to cause a pressure drop which allows the liquid refrigerant to expand, decreasing its temperature and pressure. NOTE: The thermal expansion valve is internally equalized: the need for refrigerant to handle the heat load is balanced with the ability to fully vaporize the refrigerant within the one valve. This low temperature, low pressure liquid or mist flows through the evaporator. The hot cab air passes through the evaporator fins cooling the air and evaporating the liquid refrigerant. The low pressure gas returns to the compressor and the cycle starts all over again.