Air suspension device for vehicles, having individual control and only one pressure sensor

What is claimed is: 1. An air suspension device for a vehicle with at least one axle, comprising: a plurality of air-spring bellows; at least one compressed-air supply; an air vent; a valve block for aerating the air-spring bellows with compressed air from the at least one compressed-air supply or for venting the air-spring bellows through the air vent; and air-bellows valves being assigned to corresponding ones of the air-spring bellows, for individually aerating and venting the air-spring bellows, wherein the valve block includes the air-spring bellows, and wherein the valve block includes a valve device which simultaneously decouples the air-bellows valve from the compressed-air supply and from the air vent, and a pressure sensor measuring air pressure in a flow path between the valve device and the air-bellows valves is provided on an other side of corresponding air-spring bellows, the other side being different from that of the corresponding air-spring bellows with respect to the air-bellows valves; wherein the pressure sensor is situated at a central point with respect to the flow path between the valve device and the air-bellows valve, so that the valve device ensures that the pressure in the flow path between the valve device and the respective air-bellows valve does not dynamically change and that a constant pressure sets in, so that the pressure sensor is not acted upon by the dynamic air-bellows pressures but is acted upon by the static air-bellows pressures necessary for measuring a load, and wherein sequential connection of the air-bellows valves provides that the pressure sensor may be connected to the respective air-spring bellows for individually measuring pressure, so that only a single pressure sensor is used for any number of air-spring bellows. 2. The air-suspension device of claim 1 , wherein the valve block containing the valve device, and the pressure sensor, are assigned to an axle of the vehicle. 3. The air-suspension device of claim 2 , wherein the vehicle includes at least one additional axle, and wherein at least one of the air-spring bellows is assigned to the at least one additional axle, and is one of aerated and vented by the valve block assigned to the at least one additional axle. 4. The air-suspension device of claim 3 , wherein the pressure sensor is connectable to the at least one air-spring bellows of each axle in a pressure-conducting manner by switching through the at least one air-bellows valves assigned to the at least one of the air-spring bellows. 5. The air-suspension device of claim 4 , wherein the valve block of a rear axle of the axles includes a 3/2-way directional control valve, which connects the air vent or the compressed-air supply to a connection of the valve device. 6. The air-suspension device of claim 5 , wherein the valve device includes a 2/2-way directional control valve, which switches the connection through to the air-bellows valves or blocks the connection. 7. The air-suspension device of claim 4 , wherein the valve device includes a 2/2-way directional control valve, which connects the air vent through to the air-bellows valves or blocks this flow path. 8. The air-suspension device of claim 7 , wherein the valve device includes a further 2/2-way directional control valve, which connects the compressed-air supply through to the air-bellows valves or blocks this flow path. 9. The air-suspension device of claim 3 , wherein, on at least one of a rear axle and a lifting axle of the axles, the air-spring bellows is assigned a 2/2-way directional control valve in a form of an air-bellows valve. 10. The air-suspension device of claim 1 , wherein at least one of the air-bellows valves includes a solenoid valve having a pneumatic pilot-operation connection for a pneumatic-electric pilot control and operation. 11. The air-suspension device of claim 10 , wherein at least the valve block assigned to a rear axle, the pressure sensor, and an electronic control unit for the pneumatic-electric pilot control, are integrated in one unit. 12. The air-suspension device of claim 3 , wherein a valve block assigned to a front axle of the axles includes a 3/2-way directional control valve, by which the air-spring bellows of the front axle are interconnected via a throttle device or connected to the air-bellows valves of the at least one additional axle. 13. The air-suspension device of claim 1 , further comprising: a rear axle. 14. The air-suspension device of claim 1 , wherein the vehicle is a commercial vehicle. 15. The air-suspension device of claim 2 , wherein at least one of the at least one of the air-spring bellows is assigned to a front axle and a lifting axle. 16. The air-suspension device of claim 1 , wherein: the vehicle includes at least one additional axle, at least one of the air-spring bellows is assigned to the at least one additional axle, and is one of aerated and vented by the valve block assigned to the at least one additional axle, the valve block containing the valve device, and the pressure sensor, are assigned to an axle of the vehicle, the pressure sensor is connectable to the air-spring bellows of each axle in a pressure-conducting manner by switching through the air-bellows valves assigned to the air-spring bellows, the air-bellows valves including a solenoid valve having a pneumatic pilot-operation connection for a pneumatic-electric pilot control and operation, and at least the valve block assigned to a rear axle, the pressure sensor, and an electronic control unit for the pneumatic-electric pilot control, are integrated in one unit. 17. The air-suspension device of claim 16 , wherein the valve block of a rear axle of the axles includes a 3/2-way directional control valve, which connects the air vent or the compressed-air supply to a connection of the valve device, and wherein the valve device includes a 2/2-way directional control valve, which switches the connection through to the air-bellows valves or blocks the connection. 18. The air-suspension device of claim 16 , wherein the valve device includes a 2/2-way directional control valve, which connects the air vent through to the air-bellows valves or blocks this flow path, and wherein the valve device includes a further 2/2-way directional control valve, which connects the compressed-air supply through to the air-bellows valves or blocks this flow path.