Vehicle air suspension installation and operating method

What is claimed is: 1. An air suspension installation for a vehicle having a pneumatic installation configured for operation with a compressed air supply installation, the air suspension installation comprising: a pneumatic line having a connection to the compressed air supply installation; a solenoid valve assembly including a primary control valve, a secondary control valve, and a magnetic part common to both the primary control valve and the secondary control valve; and a first air bellows and a second air bellows, at least one of the first and second air bellows being connected via at least one of the first and second solenoid control valves to the pneumatic line; wherein the first air bellows and the second air bellows is each associated with and can be one of pressurized and vented depending on a switching state of the primary control valve and of the secondary control valve, and wherein the magnetic part of the solenoid valve assembly is configured to selectively control the primary control valve and the secondary control valve independently from one another so as to independently control pressurization and venting of the first air bellows and the second air bellows. 2. The air suspension installation as claimed in claim 1 , wherein the magnetic part common to both the primary control valve and the secondary control valve comprises a common coil body. 3. The air suspension installation as claimed in claim 2 , wherein the controlled comprises at least one of a common coil body and a common control line. 4. The air suspension installation as claimed in claim 2 , wherein the magnetic part of the solenoid valve assembly is configured to control the primary control valve and the secondary control valve independently from one another by way of regulating a current delivered to the common coil body. 5. The air suspension installation as claimed in claim 4 , wherein the magnetic part of the solenoid valve assembly is configured to control the primary control valve and the secondary control valve to reach a switching state in which the primary control valve is open while the secondary control valve is closed by increasing a current delivered to the common coil body to a first current value at which the primary valve opens while the secondary valve remains closed; and wherein the magnetic part of the solenoid valve assembly is configured to control the primary control valve and the secondary control valve to reach a switching state in which the primary control valve is closed while the secondary control valve is open by first increasing a current delivered to the common coil body to a second current value at which the secondary control valve opens, the second current value being greater than the first current value, and then decreasing the current to a third current value at which the primary control valve closes while the secondary control valve remains open. 6. The air suspension installation as claimed in claim 1 , wherein each of the primary and the secondary valves is a 2/2-way valve. 7. The air suspension installation as claimed in claim 1 , wherein the pneumatic installation comprises a gallery line connected to the pneumatic, and wherein at least one of the first and second air bellows is connected to the gallery line via a branch line. 8. The air suspension installation as claimed in claim 7 , wherein the first air bellows is connected to a first branch line and the second air bellows is connected to a second branch line. 9. The air suspension installation as claimed in claim 1 , wherein the pneumatic installation comprises a compressed air reservoir connected via another controllable solenoid control valve to the pneumatic line, and wherein the compressed air reservoir can be one of pressurized and vented depending on a switching state of the other controllable solenoid control valve, and wherein the other controllable solenoid control valve is part of the solenoid valve assembly. 10. The air suspension installation as claimed in claim 1 , wherein the solenoid valve assembly is connected by at least one branch line to the pneumatic line, and wherein a bellows-side pneumatic connection of the primary valve is connected into a first branch line and a bellows-side pneumatic connection of the secondary valve is connected into a second branch line, and wherein the first branch line and the second branch line are separate branch lines. 11. The air suspension installation as claimed in claim 10 , wherein the pneumatic installation comprises a gallery line connected to the pneumatic line, and wherein the solenoid valve assembly is connected to the gallery line. 12. The air suspension installation as claimed in claim 1 , wherein the pneumatic installation comprises a gallery line connected to the pneumatic line, the primary valve and the secondary valve are disposed in a parallel circuit, a gallery-side pneumatic connection of the secondary valve is connected to a second branch line, and the first branch line and the second branch line are separately connected to the gallery line. 13. The air suspension installation as claimed in claim 1 , further comprising a control unit configured to control pressure in the first and second air bellows based on an average value of pressure of the first and second air bellows. 14. The air suspension installation as claimed in claim 13 , wherein the control unit is configured to specify the same switching states for the primary and secondary valves, wherein the primary and secondary valves of the solenoid valve assembly are disposed in a pneumatic parallel circuit. 15. The air suspension installation as claimed in claim 1 , wherein the pneumatic installation comprises a gallery line connected to the pneumatic line, the primary valve and the secondary valve are disposed in a series circuit, and wherein a gallery-side pneumatic connection of each of the primary valve and the secondary valve of the solenoid valve assembly is connected to the same branch line to the gallery line. 16. The air suspension installation as claimed in claim 1 , further comprising a control unit configured to control a different pressure in the first and second air bellows. 17. The air suspension installation as claimed in claim 16 , wherein the control unit is configured to selectively specify a switching state for the primary valve independent from a switching state of the secondary valve and to specify a switching state for the secondary control valve independent from a switching state of the primary control valve. 18. A vehicle, comprising at least two axles; and the air suspension installation as claimed in claim 1 wherein the first air bellows and the second air bellows are disposed on one of the first axle and the second axle to each form a pneumatic spring. 19. A method for operating the air suspension installation as claimed in claim 1 , comprising: one of pressurizing and venting the first and second air bellows of the solenoid valve assembly depending on the switching state of the primary and secondary valves, and controlling the primary and secondary valves using the controller of the solenoid valve assembly common to and acting on both the primary and secondary valves. 20. The method as claimed in claim 19 , further comprising one of (i) activating the primary valve and the secondary valve time-sequentially in a first operating mode with a control current rising above a current amplitude, the primary and secondary valves being in a pneumatic series circuit in the solenoid valve assembly, and (ii) activatin