IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0247912
(2002-09-20)
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발명자
/ 주소 |
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출원인 / 주소 |
- Watson &
- Chalin Manufacturing, Inc.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
10 인용 특허 :
34 |
초록
▼
A lift axle suspension system. In a described embodiment, a lift axle suspension system includes: an axle assembly; an air spring connected between the axle assembly and a bracket attached to a vehicle frame; a trailing arm attached to the axle assembly; and a lift air spring. The lift air spring is
A lift axle suspension system. In a described embodiment, a lift axle suspension system includes: an axle assembly; an air spring connected between the axle assembly and a bracket attached to a vehicle frame; a trailing arm attached to the axle assembly; and a lift air spring. The lift air spring is connected between the bracket and the trailing arm, so that the axle assembly is lifted when the lift air spring is extended.
대표청구항
▼
1. A lift axle suspension system, comprising:an axle assembly; an air spring connected between the axle assembly and an air spring bracket configured for attachment to a vehicle frame; a trailing arm attached to the axle assembly; and a lift air spring connected to the trailing arm via a lever arm a
1. A lift axle suspension system, comprising:an axle assembly; an air spring connected between the axle assembly and an air spring bracket configured for attachment to a vehicle frame; a trailing arm attached to the axle assembly; and a lift air spring connected to the trailing arm via a lever arm attached to the trailing arm, wherein the lift air spring is connected between the air spring bracket and the trailing arm, such that the axle assembly is lifted when the lift air spring is extended, and wherein the air spring bracket is separate from and spaced apart from a hanger bracket configured for connecting the trailing arm to the vehicle frame, the lever arm being positioned within the hanger bracket, and the trailing arm being pivotably connected to the hanger bracket. 2. The suspension system according to claim 1, wherein the lever arm is rigidly attached to the trailing arm, relative displacement being prevented between the lever arm and the trailing arm.3. The suspension system according to claim 1, wherein the trailing arm is pivotably connected to the axle assembly.4. The suspension system according to claim 1, wherein the trailing arm pivots relative to the hanger bracket when the lift air spring is extended.5. The suspension system according to claim 1, wherein the trailing arm is a lower trailing arm, and further comprising an upper trailing arm, the upper and lower trailing arms remaining substantially parallel to each other as the axle assembly displaces relative to the air spring bracket.6. A lift axle suspension system, comprising:an axle assembly; an air spring connected between the axle assembly and an air spring bracket configured for attachment to a vehicle frame; a trailing arm attached to the axle assembly; and a lift air spring connected between the air spring bracket and the trailing arm, such that the axle assembly is lifted when the lift air spring is extended, wherein the air spring bracket is separate from and spaced apart from a hanger bracket configured for connecting the trailing arm to the vehicle frame, the trailing arm being pivotably connected to the hanger bracket such that the trailing arm pivots relative to the hanger bracket when the lift air spring is extended, and wherein the hanger bracket has a recessed pocket formed therein, and the lift air spring being received within the pocket when the lift air spring is extended to lift the axle assembly. 7. The suspension system according to claim 6, wherein the lift air spring is positioned substantially external to the hanger bracket when the lift air spring is compressed to lower the axle assembly.8. A lift axle suspension system, comprising:a vehicle frame; an axle assembly; a trailing arm connected to the axle assembly, the trailing arm also being connected to the vehicle frame via a hanger bracket; and a lift air spring connected between the vehicle frame and the trailing arm, the lift air spring being connected to the vehicle frame at a position spaced apart from the hanger bracket, wherein extension of the lift air spring lifts the axle assembly toward the vehicle frame, and wherein the trailing arm is pivotably connected to the hanger bracket attached to the vehicle frame, the hanger bracket having a recessed pocket formed therein, and the lift air spring being received within the pocket when the lift air spring is extended to lift the axle assembly. 9. The suspension system according to claim 8, wherein the lift air spring is positioned substantially external to the pocket when the lift air spring is compressed to lower the axle assembly.10. The suspension system according to claim 8, wherein the lift air spring is connected to the vehicle frame via a lift air spring bracket.11. The suspension system according to claim 10, further comprising an air spring connected between the vehicle frame and the axle assembly, the air spring being connected to the vehicle frame via an air spring bracket.12. The suspension system according to claim 8, wherein the lift air spring is connected to the vehicle frame via a lift air spring bracket, wherein an air spring is connected between the vehicle frame and the axle assembly, the air spring being connected to the vehicle frame via an air spring bracket, and wherein the lift air spring bracket and the air spring bracket are integrally formed.13. The suspension system according to claim 8, wherein the lift air spring is connected to the trailing arm via a lever arm attached to the trailing arm.14. The suspension system according to claim 13, wherein the lever arm is rigidly attached to the trailing arm, relative displacement being prevented between the lever arm and the trailing arm.15. The suspension system according to claim 8, wherein the trailing arm is a lower trailing arm, and further comprising an upper trailing arm, the upper and lower trailing arms remaining substantially parallel to each other as the axle assembly displaces relative to the vehicle frame.16. A lift axle suspension system, comprising:a vehicle frame; an axle assembly; a trailing arm connected to the axle assembly, the trailing arm also being connected to the vehicle frame via a hanger bracket; and a lift air spring connected between the vehicle frame and the trailing arm, the lift air spring being connected to the vehicle frame at a position spaced apart from the hanger bracket, and the lift air spring being connected to the trailing arm via a lever arm attached to the trailing arm, wherein extension of the lift air spring lifts the axle assembly toward the vehicle frame, and wherein the lever arm is positioned within the hanger bracket, the trailing arm being pivotably connected to the hanger bracket. 17. A lift axle suspension system, comprising:an axle assembly; a hanger bracket configured for attachment to a vehicle frame, the hanger bracket having at least one trailing arm pivotably attached thereto; and a lift air spring which is operative to lift the axle assembly by pivoting the trailing arm relative to the hanger bracket, the lift air spring being connected between the trailing arm and a second bracket configured for attachment to the vehicle frame at a position spaced apart from the hanger bracket, and the lift air spring being connected to the trailing arm via a lever arm attached to the trailing arm, wherein the level arm is positioned within the hanger bracket. 18. A lift axle suspension system, comprising:an axle assembly; a hanger bracket configured for attachment to a vehicle frame, the hanger bracket having at least one trailing arm pivotably attached thereto; and a lift air spring which is operative to lift the axle assembly by pivoting the trailing arm relative to the hanger bracket, the lift air spring being connected between the trailing arm and a second bracket configured for attachment to the vehicle frame at a position spaced apart from the hanger bracket, wherein the hanger bracket includes a recessed pocket formed therein, the lift air spring displacing into the hanger bracket pocket when the axle assembly is lifted. 19. The suspension system according to claim 18, wherein the lift air spring is positioned substantially external to the hanger bracket pocket when the lift air spring is compressed to lower the axle assembly.20. The suspension system according to claim 18, wherein the suspension system is a steerable suspension system.21. The suspension system according to claim 18, further comprising an air spring connected between the second bracket and the axle assembly.22. The suspension system according to claim 18, wherein the lift air spring is connected to the trailing arm via a lever arm attached to the trailing arm.23. The suspension system according to claim 22, wherein the lever arm is rigidly attached to the trailing arm, relative displacement being prevented between the lever arm and the trailing arm.24. The suspension system according to claim 18, wherein the trailing arm is pivotably connected to the axle assembly.25. The suspension system according to claim 18, wherein the at least one trailing arm comprises upper and lower trailing arms pivotably connected to the hanger bracket, the upper and lower trailing arms remaining substantially parallel to each other as the axle assembly displaces relative to the hanger bracket.
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