Compressed air supply system

The invention claimed is: 1. A compressed-air feed system for operating a pneumatic system, comprising: a compressed-air supply; a compressed-air connection to the pneumatic system; at least one ventilation connection to surroundings; a pneumatic main line between the compressed-air supply and the compressed-air connection, the pneumatic main line having an air dryer and a regeneration throttle; a first ventilation line between the pneumatic main line and the at least one ventilation connection, the first ventilation line having a first ventilation valve and a ventilation throttle, the first ventilation valve being a 4/2 directional valve; and a second ventilation line between the compressed-air connection and the at least one ventilation connection, the second ventilation line having a second ventilation valve formed as a 2/2 directional valve, the 2/2 directional valve being configured, in a first position, as a check valve, wherein the second ventilation line permits a larger minimum flow cross section of a throughflowing compressed-air flow than the first ventilation line, and wherein the compressed-air feed system is designed to provide at least one operating mode in which the second ventilation valve is open over a predetermined time period of a ventilation process. 2. The compressed-air feed system as claimed in claim 1 , wherein the predetermined time period is an entire time period of the ventilation process. 3. The compressed-air feed system as claimed in claim 1 , wherein the first ventilation line and the second ventilation line are connected to a same ventilation connection of the at least one ventilation connection. 4. The compressed-air feed system as claimed in claim 1 , wherein the at least one operating mode includes an operating mode in which the first ventilation valve and the second ventilation valve are at least temporarily simultaneously open, such that the pneumatic system can be ventilated over the predetermined time period of the ventilation process via the first ventilation line and the second ventilation line. 5. The compressed-air feed system as claimed in claim 4 , wherein the operating mode in which the first ventilation valve and the second ventilation valve are at least temporarily simultaneously open is an operating mode in which the first ventilation valve is opened at a time t 1 and the second ventilation valve is opened at a time t 2 , the time t 1 preceding the time t 2 . 6. The compressed-air feed system as claimed in claim 1 , wherein the at least one operating mode includes an operating mode in which only the second ventilation valve is open, such that the pneumatic system can be ventilated exclusively over an entire time period of the ventilation process via the second ventilation line. 7. The compressed-air feed system as claimed in claim 1 , further comprising a compressed-air reservoir connected via a filling valve to the pneumatic main line and configured to, in the presence of a boost mode of the compressed-air feed system, fill the pneumatic system with compressed air via the filling valve and the pneumatic main line. 8. The compressed-air feed system as claimed in claim 1 , further comprising a two-stage compressor connected both to the air supply and to the pneumatic main line and configured to, in a corresponding filling operating mode of the compressed-air feed system, fill the pneumatic system with compressed air. 9. A pneumatic system comprising: the compressed-air feed system as claimed in claim 1 ; and a pneumatic system formed as an air suspension system having a gallery and at least one first branch line, which is pneumatically connected to the gallery and which has a bellows, and/or a second branch line, which is pneumatically connected to the gallery and which has a compressed-air reservoir, and having a first directional valve connected upstream of the bellows and/or a second directional valve connected upstream of the compressed-air reservoir. 10. The compressed-air feed system as claimed in claim 1 , wherein the first ventilation valve is configured to, in a first position, simultaneously close the first ventilation line and form a check valve in the pneumatic main line, and wherein the first ventilation valve is further configured to, in a second position, provide a flow path from the compressed-air connection through the air dryer in the pneumatic main line and to the first ventilation line. 11. The compressed-air feed system as claimed in claim 10 , wherein the second ventilation valve is configured to, in a first position, form a check valve in the second ventilation line, and wherein the second ventilation valve is further configured to, in a second position, open the second ventilation line to allow flow between the compressed-air connection and the at least one ventilation connection. 12. The compressed-air feed system as claimed in claim 11 , wherein the check valve in the pneumatic main line formed by the first ventilation valve in the first position prevents flow in a direction from the compressed-air connection to the compressed-air supply and allows flow in a direction from the compressed-air supply to the compressed-air connection when a high filling pressure exceeds a first spring force, and wherein the check valve in the second ventilation line formed by the second ventilation valve in the first position prevents flow in a direction from the ventilation connection to the compressed-air connection and allows flow in a direction from the compressed-air connection to the ventilation connection when a ventilation pressure exceeds a second spring force. 13. A method for operating a compressed-air feed system, the method comprising: filling a pneumatic system via a compressed-air flow conducted via a pneumatic main line from a compressed-air feed system; maintaining a pressure in the pneumatic system, wherein the pneumatic main line is shut off for prevention of a compressed-air flow out of the pneumatic system; and ventilating the pneumatic system by the compressed-air flow conducted via the pneumatic main line out of the pneumatic system via a first, 4/2 directional ventilation valve arranged in a first vent line that includes a ventilation throttle, and further via a second ventilation valve arranged in a second vent line, wherein the second vent line permits a larger minimum flow cross section of a throughflowing compressed-air flow than the first vent line. 14. The method as claimed in claim 13 , wherein the ventilating the pneumatic system via the first ventilation valve and further via the second ventilation valve is performed with the first ventilation valve and second ventilation valve open simultaneously over a predetermined time period of a ventilation process. 15. The method as claimed in claim 14 , wherein the predetermined time period is an entire time period of the ventilation process. 16. The method as claimed in claim 13 , further comprising ventilating the pneumatic system exclusively via the second ventilation valve. 17. The method as claimed in claim 13 , the ventilating the pneumatic system via the first ventilation valve and further via the second ventilation valve is performed such that the first ventilation valve is opened at a time t 1 and that the second ventilation valve is opened at a time t 2 , the time t 1 preceding the time t 2 . 18. A device for open-loop and/or closed-loop control of a compressed-air feed system and/or of a pneumatic system in accordance with the method as claimed in claim 13 . 19. A compressed-air feed