Bistable solenoid valve device and method for determining an armature position of a bistable solenoid valve

The invention claimed is: 1. A bistable solenoid valve device for a fluid system, the bistable solenoid valve device comprising: a bistable solenoid valve having: a permanent magnet yoke with a first pole base and a second pole base for the formation of a first ferromagnetic circuit and a second ferromagnetic circuit, an armature consisting of a magnetically conductive material, configured to be displaced between a first armature position for contact against the first core to form an air gap with the second core and a second armature position for contact against the second core to form an air gap with the first core, a first armature coil for supplying current for a displacement into the first armature position, a second armature coil for supplying current for a displacement into the second armature position, and a final stage for supplying current to in each case one of the armature coils for a displacement of the armature; and a detection device configured to: evaluate and/or measure a first inductance of the first armature coil, and evaluate and/or measure a second inductance of the second armature coil without displacement of the armature, to compare the inductances of the first armature coil and the inductance of the second armature coil, and to output a state signal that indicates the armature position. 2. The solenoid valve device according to claim 1 , wherein the detection device comprises: a first measurement path that is connected to a measurement voltage source for energizing the first armature coil for the measurement and/or evaluation of the first inductance, a second measurement path that is connected to the measuring voltage source for energizing the second armature coil for the measurement and/or evaluation of the second inductance, and a comparison device linked to the measurement paths. 3. The solenoid valve device according to claim 2 , wherein the armature is configured to be displaced by the energization of the armature coils by a supply voltage source, and the measuring voltage source is different from the supply voltage source. 4. The solenoid valve device according to claim 3 , further comprising a control system configured to receive the status signal, to activate a power switch device, and/or to activate a measuring switch device, wherein the measuring voltage source configured to supply voltage to the control system. 5. The solenoid valve device according to claim 3 , wherein the measuring voltage source provides a measuring voltage weaker than a supply voltage provided by the supply voltage source. 6. The solenoid valve device according to claim 4 wherein the comparison device is configured to compare the amount of the two measuring voltages after a predetermined measurement time in each case during a start-up process and/or shut-down process, and to generate the status signal as a function of a difference between the two measuring voltages. 7. The solenoid valve device according to claim 4 wherein the comparison device is configured to compare a duration of the two measuring voltages until a reference voltage is reached during a start-up process and/or a shut-down process. 8. The solenoid valve device according to claim 4 wherein the comparison device is configured to simultaneously receive the two measuring voltages or to receive the two measuring voltages successively. 9. The solenoid valve device according to claim 2 , wherein the first measurement path has a first measuring resistor for creating a series connection of the first armature coil with the first measuring resistor to the measuring voltage source as a first voltage divider circuit, and wherein the second measurement path has a second measuring resistor for creating a series connection of the second armature coil with the second measuring resistor to the measuring voltage source as a second voltage divider circuit, wherein the first and second measuring resistors are the same size, and wherein the comparison device compares an amount and/or a temporal behaviour of a first measuring voltage between the first measuring resistor and the first armature coil and a second measuring voltage between the second measuring resistor and the second armature coil. 10. The solenoid valve device according to claim 2 wherein at least one measuring switch device is provided for closing the measuring circuits via the measurement paths and the armature coils, and wherein the measuring switch device is different from a power switch device for energizing the armature coils for the displacements of the armature. 11. The solenoid valve device according to claim 10 , wherein separate measuring switch devices are provided in the first measurement path and the second measurement path for the simultaneous or successive energization of the measurement paths. 12. The solenoid valve device according to claim 10 , wherein a common measuring switch device is provided for the two measurement paths. 13. The solenoid valve device according to claim 2 , wherein the armature is configured to be displaced by the energization of the armature coils by a supply voltage source and power switch, wherein each of the measurement paths is connected to the supply voltage source by a measuring switch and a measuring resistor parallel to the power switches, and wherein the comparison device is configured to receive the measuring voltages falling across the measuring resistors and compare them. 14. The solenoid valve device according to claim 1 , wherein the armature is configured to be displaced by the energization of the armature coils by a supply voltage source and power switch, wherein the detection device comprises a first and a second shunt resistor and a comparison device, wherein in each case a shunt resistor with an armature coil and a power switch is connected in series to the supply voltage source, and wherein the comparison device is configured to receive the measuring voltages falling across the shunt resistors and to compare them. 15. The solenoid valve device according to claim 1 , wherein the solenoid valve device is configured symmetrically with regard to the magnetic and electrical properties of the permanent magnet device, of the armature with its armature coils, and the measurement paths. 16. An electro-pneumatic parking brake having a solenoid valve device according to claim 1 , wherein one armature position corresponds to a released parking brake, and the other armature position corresponds to an engaged parking brake. 17. A method for detecting an armature position of a bistable solenoid valve that is provided in a fluid system and that comprises a permanent magnet device with a first core, a second core, an armature, that can be displaced between a first armature position for contact against the first core and a second armature position for contact against the second core, and two armature coils for displacing the armature between the armature positions, the method comprising: conducting a first measuring current from a measuring voltage source via a first measurement path and a first armature coil in a measuring operation without displacement of the armature, whereby a first measuring voltage, which is dependent upon the first inductance of the first armature coil, is formed, conducting a second measuring current from the measuring voltage source via a second measurement path and a second armature coil whereby a second measuring voltage which is dependent upon the second inductance of the second armature coil, is formed, comparing a level and/or a temporal behaviour of the fir