Claims
- 1. A spring suspension device for rail vehicles which is arranged in the region of the wheels in the form of a primary spring suspension between the wheel axle and a frame and/or in the form of a secondary spring suspension between the frame and the vehicle box body, the spring suspension device comprising:
at least one main spring; and at least one auxiliary spring device assigned to the main spring, wherein the at least one main spring comprises a hydropneumatic spring that is arranged in series with the auxiliary spring device.
- 2. The spring suspension device of claim 1, wherein the auxiliary spring device has a spring characteristic with a progressive limit stop.
- 3. The spring suspension device of claim 1, wherein the auxiliary spring device comprises at least one rubber spring.
- 4. The spring suspension device of claim 1, wherein the auxiliary spring device comprises at least one coil spring.
- 5. The spring suspension device of claim 1, wherein the auxiliary spring device comprises a rubber spring/coil spring combination.
- 6. The spring suspension device of claim 1, wherein the hydropneumatic spring comprises an end piece that is connected to a piston, wherein the piston can be displaced in a cylinder, and wherein a hydraulic volume limited by the piston and the cylinder changes when the piston is displaced.
- 7. The spring suspension device of claim 6, wherein at least one hydraulic line that connects the hydraulic volume to a gas reservoir extends through the piston.
- 8. The spring suspension device of claim 7, wherein the end piece of the hydropneumatic spring is situated in an upper position and the hydraulic volume is situated in a lower position in the installed state, and by the fact that the gas reservoir is arranged in the region of the upper end piece.
- 9. The spring suspension device of claim 1, wherein the hydropneumatic spring is connected to the auxiliary spring device by means of a connecting element.
- 10. The spring suspension device of claim 9, wherein the connecting element contains a receptacle for the cylinder of the hydropneumatic spring, wherein the cylinder is fitted into said receptacle.
- 11. The spring suspension device of claim 6, wherein the connecting element contains a cylindrical opening for the piston.
- 12. The spring suspension device of claim 6, wherein the cylinder of the hydropneumatic spring is sealed in an upper region with a cylinder head.
- 13. The spring suspension device of claim 9, wherein the auxiliary spring device comprises a coil spring, and at least certain regions of the connecting element with the hydropneumatic spring are arranged in the interior of the coil spring.
- 14. The spring suspension device of claim 13, wherein the connecting element rests on an upper region of the coil spring.
- 15. The spring suspension device of claim 14, wherein at least certain regions of the connecting element contain downwardly protruding extensions in the contact zone.
- 16. The spring suspension device of claim 9, wherein the auxiliary spring device is in the form of a rubber spring with an opening, into which at least certain regions of the connecting element and the hydropneumatic spring are fitted.
- 17. The spring suspension device of claim 16, wherein the opening has a conical shape with a downwardly tapered cross section.
- 18. The spring suspension device of claim 1, wherein the auxiliary spring device contains a limit stop in the form of a rubber buffer in its lower region.
- 19. The spring suspension device of claim 1, further comprising at least one lateral spring.
- 20. The spring suspension device of claim 19, wherein the at least one lateral spring is in the form of a rubber spring.
- 21. A spring suspension system for a rail vehicle in which at least one spring suspension device of claim 1 is provided in the region of the wheels in the form of a primary spring suspension between the wheel axle and a frame and/or in the form of a secondary spring suspension between the frame and the vehicle box body, wherein two or more hydraulic units of hydropneumatic springs of the spring suspension devices are connected to a common gas reservoir by means of a synchronization unit.
- 22. The spring suspension system of claim 21, wherein the synchronization unit contains a hollow space that is separated into at least three independent divisional hollow spaces by means of a freely displaceable piston, wherein at least one of these divisional hollow spaces is connected to a gas reservoir, and wherein at least two of the other divisional hollow spaces are respectively connected to at least one hydraulic unit of a spring element.
- 23. The spring suspension system of claim 21, wherein hydraulic units on opposite sides of a wheel axle are connected to a common gas reservoir by means of a synchronization unit.
- 24. The spring suspension system of claim 21, wherein the hydraulic units of the respective vehicle sides are connected via common lines, and the two lines of the respective vehicle sides are connected to a gas reservoir by means of a common synchronization unit.
- 25. The spring suspension system of claim 21, wherein two respective hydraulic units which are arranged on diagonally opposite wheels are connected to a common gas reservoir by means of one respective synchronization unit.
- 26. The spring suspension system of claim 21, wherein each hydraulic unit is provided with a gas reservoir.
- 27. The spring suspension system of claim 21, wherein the working volumes of the hydraulic units are respectively interconnected.
Priority Claims (1)
Number |
Date |
Country |
Kind |
A 1937/2001 |
Dec 2001 |
AT |
|
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] Priority is claimed under 35 U.S.C. 119 to Austrian patent application A 1937/2001, filed Dec. 11, 2001.