Method and device for supplying, in particular a rail vehicle, with main and auxiliary air

The invention claimed is: 1. A method for supplying main and auxiliary air in a vehicle having a compressor that is driven via an electric motor so as to generate compressed air for filling at least one main air container for supplying pneumatic units of the vehicle, the method comprising: supplying the vehicle with electrical energy via at least a first energy source and a second energy source; and operating a pneumatic adjustment drive so as to prepare the vehicle for use and activate the first energy source using the compressed air that is generated by the compressor, wherein the electric motor of the compressor is supplied in a preparation and activation phase via the second energy source, wherein the compressed air is supplied for preparing the vehicle for use in the preparation and activation phase via a 3/2 way valve switching valve device to an auxiliary air container that is allocated to the pneumatic adjustment drive when the switching valve device is in a first switching position, and wherein, otherwise the switching valve device supplies the compressed air that is generated by the compressor to the main air container when the switching valve device is in a second switching position. 2. The method of claim 1 , wherein the switching valve device is activated by the pressure in the auxiliary air container such that, in response to the pressure level being below a minimum pressure, the auxiliary air container is refilled with compressed air. 3. The method of claim 1 , wherein the switching valve device is activated by the pressure in the auxiliary air container such that, in response to a desired pressure being achieved, the main air container is filled when necessary. 4. The method of claim 1 , wherein an output power of the compressor is set by an inverter, which is connected upstream of the electric motor, wherein the output power is set by varying the voltage and/or the frequency. 5. A device for supplying main and auxiliary air in a vehicle having a compressor that is driven via an electric motor so as to generate compressed air to fill at least one main air container for supplying pneumatic units of the vehicle, wherein the vehicle comprises at least a first energy source and a second energy source for supplying electrical energy, the device comprising: a pneumatic adjustment drive provided to prepare the motor vehicle and to activate the first energy source using the compressed air that is generated by the compressor, wherein during a preparation and activation phase, the second energy source supplies the electric motor of the compressor; a switching valve device that supplies the compressed air to an auxiliary air container that is allocated to the pneumatic adjustment drive for the preparation and activation phase, wherein, otherwise the switching valve device supplies the compressed air that is generated by the compressor to the main air container, wherein the switching valve device is a 3/2 way valve that in a first switching position supplies the supply pressure that is generated by the compressor to the auxiliary air container, and wherein a second switching position supplies the supply pressure that is generated by the compressor to the main air container. 6. The device of claim 5 , further comprising a valve element provided that is connected in parallel to the switching valve device, wherein the valve element fills the auxiliary air container with compressed air from the main air container. 7. The device as of claim 6 , wherein the valve element is configured as a spring-loaded non-return valve that has a through flow direction from the main air container to the auxiliary air container. 8. The device of claim 6 , wherein the switching pressure of the switching valve device is below a nominal supply pressure of the main air container. 9. The device of claim 5 , further comprising a control unit that provides a switching signal for actuating the switching valve device. 10. The device of claim 9 , wherein the control unit is configured as an electronic control unit, and is electrically connected on an input side to a pressure sensor on the main air container and also to a pressure sensor on the auxiliary air container, wherein the electronic control unit determines the switching signal for the switching valve device that may be actuated in an electric manner and/or actuates the compressor. 11. The device of claim 5 , wherein the first energy source is a pantograph and that the second energy source is configured as a vehicle battery. 12. The device of claim 5 , wherein the pneumatic adjustment drive actuates a pantograph.