Method for maintaining a vehicle air conditioning unit and service apparatus therefor

The invention claimed is: 1. A method for servicing a vehicle air-conditioning system operated with a closed coolant circulation system comprising the steps of: sucking out in a first servicing phase a circulation mixture comprising at least refrigerant and compressor oil components from the vehicle air-conditioning system into a separator stage by a refrigerant compressor via a separator and separating said refrigerant from the sucked-out circulation mixture by the separator, compressing and collecting said refrigerant, and in which in a second servicing phase that is triggered by at least one of pressure or time, actuating a switchover valve block, emptying the refrigerant circulation system of the vehicle air-conditioning system of residual content, which comprises residual gases, by a vacuum pump, one of time or pressure controlling said switchover valve block having a plurality of valves and disposing said servicing device in fluid communication with a first input pressure side of said vacuum pump and a second output pressure side of said vacuum pump, wherein in the second servicing phase, conducting said pumped-out residual gases through the separator stage by the vacuum pump in flow communication with said refrigerant compressor by way of said switchover valve block; measuring a defined maximum pressure between an output pressure side of said vacuum pump and a suction side of said refrigerant compressor; temporarily switching off said vacuum pump until a pressure at one of the output side of the vacuum pump or the suction side of the refrigerant compressor reaches an acceptable level; and, determining the quantity of said refrigerant collected in said first servicing phase and residual refrigerant collected in said second servicing phase. 2. The method as claimed in claim 1 , wherein a container which is connected downstream of the separator, for liquid components separated from the circulation mixture, is temporarily fluidly connected to a suction side of the vacuum pump, and gas volumes occurring in the container are fed again to the separator stage. 3. The method as claimed in claim 2 , wherein switching over to a sucked-out operating mode is triggered by pressure which comes about in the container connected downstream. 4. The method as claimed in claim 1 , wherein monitoring a pressure of a weighing container of the separator stage for separate refrigerant is monitored, and non-condensable and non-condensed gas is selectively discharged from said container. 5. The method as claimed in claim 4 , wherein feeding gases discharged from the weighing container again to the separator stage. 6. The method as claimed in claim 1 , wherein conducting gas volumes which are sucked in from the vacuum pump and are refrigerant-free or substantially free of refrigerant past the separator stage. 7. The method as claimed in claim 6 , wherein the separator stage is bypassed or the compressor is switched off if at least one of the vacuum pump and the compressor does not reach preset pressures. 8. The method as claimed in claim 1 , wherein switching over from the first servicing phase to the second servicing phase takes place when a preset suction pressure generated by the compressor is reached. 9. The method as claimed in claim 1 , wherein the vacuum pump in the second servicing phase is temporarily switched off as a function of gas pressure generated on a pressure side thereof, while the compressor of the separator stage continues to run. 10. A method for servicing a vehicle air-conditioning system operated with a closed coolant circulation system comprising: a first servicing phase wherein a circulation fluid that includes one or more components selected from the group consisting of refrigerant and compressor oil comprising the steps of: sucking out from the vehicle air-conditioning system into a separator stage by a refrigerant compressor via a separator; separating said refrigerant from sucked-out circulation fluid by said separator, compressing and collecting said refrigerant; measuring or weighting to determine a quantity of said collected refrigerant; and, monitoring a pressure of said container and selectively discharging gas from said container, and feeding condensable gases in said container again to said separator stage; switching to a second servicing phase upon one of a pressure or time limitation being reached by actuating a switchover valve block and placing said compressor in flow communication with a vacuum pump by way of said switchover valve block, wherein a residual content of said circulation fluid of said vehicle air-conditioning system is—emptied by said vacuum pump, said switchover valve block having a plurality of valves and being disposed in a servicing device in fluid communication with a first input pressure side of said vacuum pump and a second output pressure side of said vacuum pump; processing in said second servicing phase via said separator; measuring or weighing to determine a quantity of refrigerant collected in said first servicing phase and said second servicing phase; measuring a defined maximum pressure between an output pressure side of said vacuum pump and a suction side of said refrigerant compressor; and, temporarily switching off said vacuum pump until a pressure at one of the output side of the vacuum pump or the suction side of the refrigerant compressor reaches an acceptable level. 11. The method as claimed in claim 10 , wherein said circulation fluid that is sucked by said vacuum pump and which is substantially free of refrigerant is conducted past the separator stage. 12. The method as claimed in claim 10 , wherein said separator stage is bypassed, said refrigerant compressor is switched off, or combinations thereof if said vacuum pump, said refrigerant compressor, or combinations thereof do not reach preset pressures. 13. The method as claimed in claim 10 , wherein said switching from said first servicing phase to said second servicing phase occurs when a preset suction pressure generated by said refrigerant compressor is reached. 14. The method as claimed in claim 13 , wherein said switching includes said at least one switchover valve block that has a pressure sensor that is connected to a collecting line for said circulation fluid, said at least one switchover valve block configured to change valve positions to cause switching from said first servicing phase to said second servicing phase. 15. The method as claimed in claim 14 , wherein said at least one switchover valve block is provided with a pressure switch that is connected to said collecting line between a pressure side of said vacuum pump and a suction side of said refrigerant compressor, said pressure switch configured to carry out pressure-controlled switching off and on of said vacuum pump in said second servicing phase. 16. The method as claimed in claim 10 , wherein said vacuum pump in said second servicing phase is temporarily switched off as a function of a gas pressure generated on a pressure side of said vacuum pump while said refrigerant compressor continues to run. 17. The method as claimed in claim 10 , wherein said separator, of said first and second servicing phase is a heat exchanger in which compression heat of said separator supplies evaporation heat for said circulation fluid. 18. The method as claimed in claim 15 , wherein said separator of said first and second servicing phase is a double jacket heat exchanger in which compressed refrigerant is conducted through a closed system composed of at least one heat exchanger pipe into an inn