Method for operating an air suspension system, and air suspension system

The invention claimed is: 1. A system for operating an electronically controllable pneumatic suspension system of a motor vehicle, comprising: a plurality of air springs by which a ride height of the motor vehicle can be changed by the supply and extraction of compressed air, wherein at least two of the air springs are assigned to a first axle of the motor vehicle, and wherein two further air springs are assigned to a second axle of the motor vehicle, wherein an air spring valve is connected upstream of each air spring; a compressed air supply unit which provides compressed air by aspiration of surrounding air or compression of system air; a main accumulator and an additional accumulator which are configured to store the system air; and wherein the air springs of the first axle are connected to the main accumulator via a first compressed air path, and a first and a further changeover valves are arranged in the first compressed air path, wherein the air springs of the second axle are connected to the additional accumulator via a second compressed air path and an additional accumulator valve is provided in the second compressed air path, wherein the second compressed air path is connected to the first compressed air path via a third compressed air path in which a connecting valve is provided, wherein for simultaneous adjustment of the ride height of the vehicle on both axles, the air spring valves, and the first and the further changeover valves and the additional accumulator valve are opened while the connecting valve remains closed. 2. The system as claimed in claim 1 , wherein to adjust the ride height of the vehicle on the first axle, the compressed air supply unit which is situated in the first compressed air path is switched on. 3. The system as claimed in claim 1 , wherein adjustment of the ride height of the vehicle on both axles is ended by closure of the air spring valves and of the first and second changeover valves and of the additional accumulator valve. 4. The system as claimed in claim 1 , wherein the pressure in the main accumulator or in the additional accumulator or in the air springs is determined by a pressure sensor. 5. The system as claimed in claim 1 , wherein a pressure exchange of compressed air takes place via the second compressed air path when there is a pressure difference in the compressed air between the air springs of the second axle and the additional accumulator. 6. The system as claimed in claim 1 , wherein a pressure exchange of compressed air takes place via the first compressed air path when there is a pressure difference in the compressed air between the air springs of the first axle and the main accumulator. 7. An air suspension system of a motor vehicle, comprising: a plurality of air springs by which a ride height of the motor vehicle can be changed by the supply and extraction of compressed air, wherein at least two of the air springs are assigned to a first axle of the motor vehicle, and at least two further air springs are assigned to a second axle of the motor vehicle, wherein an air spring valve is connected upstream of each air spring; a compressed air supply unit which provides compressed air by aspiration of surrounding air or compression of system air; a main accumulator and an additional accumulator which are configured to store the system air; and wherein on an output side of the compressed air supply unit, a first compressed air line leads to a first changeover valve and to a second changeover valve, wherein on an input side of the compressed air supply unit, a second compressed air line leads to a third changeover valve and to a fourth changeover valve, wherein a third compressed air line leads from the main accumulator to the first and to the fourth changeover valves, wherein a first connecting valve is provided which is arranged between a fourth compressed air line and a fifth compressed air line, wherein the fourth compressed air line leads from the connecting valve to the second and to the third changeover valves, and the fifth compressed air line leads from the connecting valve to an additional accumulator valve which is connected upstream of the additional accumulator, wherein the air spring valves of the air springs of the second axle are connected to the fifth compressed air line. 8. The air suspension system as claimed in claim 7 , wherein the air spring valves of the first axle are connected to the fourth compressed air line. 9. The air suspension system as claimed in claim 7 , wherein a sixth compressed air line with a second connecting valve is provided, wherein the sixth compressed air line is coupled firstly to the fourth compressed air line and secondly to the fifth compressed air line. 10. The air suspension system as claimed in claim 7 , wherein a pressure sensor is provided on the fourth compressed air line. 11. The air suspension system as claimed in claim 7 , wherein a pressure exchange of compressed air takes place via the second compressed air path when there is a pressure difference in the compressed air between the air springs of the second axle and the additional accumulator. 12. The air suspension system as claimed in claim 7 , wherein a pressure exchange of compressed air takes place via the first compressed air path when there is a pressure difference in the compressed air between the air springs of the first axle and the main accumulator.