IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0014604
(2004-12-16)
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발명자
/ 주소 |
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
18 인용 특허 :
3 |
초록
▼
A suspension unit used in a pull type shock application is disclosed, whereby a main shaft passes completely through a damping fluid so that the shock absorber fluid is not compressed when the shock shaft is displaced. The shaft also acts on a compression spring by an additional piston on the shaft.
A suspension unit used in a pull type shock application is disclosed, whereby a main shaft passes completely through a damping fluid so that the shock absorber fluid is not compressed when the shock shaft is displaced. The shaft also acts on a compression spring by an additional piston on the shaft. A cylindrical outer housing provides two distinct air chambers. The pressurization of these air chambers alters the spring rate, preload of the suspension, and vehicle ride height.
대표청구항
▼
The invention claimed is: 1. A suspension unit comprising: a shaft with a spring piston at one end thereof, said shaft passing completely through an inner damping tube, an outer body encases the spring piston; a damping piston connected to the shaft and positioned within the inner damping tube; and
The invention claimed is: 1. A suspension unit comprising: a shaft with a spring piston at one end thereof, said shaft passing completely through an inner damping tube, an outer body encases the spring piston; a damping piston connected to the shaft and positioned within the inner damping tube; and a main spring positioned between the spring piston and a spring support attached at one end of the outer body; wherein both the spring piston and damping piston are affixed to the shaft; a main chamber air inlet to allow introduction of pressurized gas between the spring piston and the spring support; a top out chamber air inlet to allow the introduction of pressurized gas between the spring piston and an outer tube cap, the outer tube cap being attached to an end of an outer tube farthest from the inner damping tube. 2. The suspension unit of claim 1, further including: on the shaft, a means for connecting to a suspension mounting point; fluid within the inner damping tube, the fluid being prevented from escaping the inner damping tube by an inner shaft seal on the one end and an outer shaft seal on the other end; at least one valve element on the damping piston, the valve element for regulating fluid flow between a rebound damping chamber formed between the damping piston and the inner shaft seal, and a compression damping chamber formed between the damping piston and the outer shaft seal; and means for connecting the outer body to a suspension mounting point on the outer body opposite to a shaft connector. 3. The suspension unit of claim 2, further including a main chamber air inlet to allow the introduction of pressurized gas between the spring piston and the spring support. 4. The suspension unit of claim 2, further including a top out chamber air inlet to allow the introduction of pressurized gas between the spring piston and an outer tube cap, said outer tube cap being attached to the end of an outer tube farthest from the inner damping tube. 5. The suspension unit of claim 3, further including a top out chamber air inlet to allow the introduction of pressurized gas between the spring piston and an outer tube cap, said outer tube cap being attached to the end of an outer tube farthest from the inner damping tube. 6. A suspension unit comprising: a shaft connectible at one end thereof to a suspension mounting point, a spring piston being positioned at the other end of the shaft, the spring piston including a seal for restricting the flow of gas across the piston, the shaft passing completely through an inner damping tube; a damping piston connected to the shaft and positioned within the inner damping tube, the inner damping tube containing a fluid that is prevented from escaping from the inner damping tube by an inner shaft seal on one end of the inner damping tube and an outer shaft seal on the other end of the inner damping tube, the damping piston including at least one valve element for regulating fluid flow between a rebound damping chamber formed between the damping piston and the inner shaft seal and a compression damping chamber formed between the damping piston and the outer shaft seal; an outer body encasing the spring piston; a connector connecting the outer body to a suspension mounting point formed at the outer body opposite a shaft connector, the other end of the outer body contains a spring support for a main spring, the main spring positioned between the spring piston and the spring support; a top out spring positioned between the spring piston and an outer tube cap attached to the end of the outer tube; a bottom out spring positioned between the spring piston and the main spring support; a main chamber air inlet to allow the introduction of pressurized gas between the spring piston and the spring support; and a top out chamber air inlet to allow the introduction of pressurized gas between the spring piston and the outer tube cap. 7. A suspension unit comprising: a shaft with a spring piston at one end thereof, said shaft passing completely through an inner damping tube, an outer body encases the spring piston; a damping piston connected to the shaft and positioned within the inner damping tube; and a main spring positioned between the spring piston and a spring support attached at one end of the outer body; a main chamber air inlet to allow introduction of pressurized gas between the spring piston and the spring support; and a top out chamber air inlet to allow the introduction of pressurized gas between the spring piston and an outer tube cap, the outer tube cap being attached to an end of an outer tube farthest from the inner damping tube. 8. A suspension unit comprising: a shaft with a spring piston at one end thereof, said shaft passing completely through an inner damping tube, an outer body encases the spring piston; a damping piston connected to the shaft and positioned within the inner damping tube; and a main spring positioned between the spring piston and a spring support attached at one end of the outer body; on the shaft, a means for connecting to a suspension mounting point; fluid within the inner damping tube, the fluid being prevented from escaping the inner damping tube by an inner shaft seal on the one end and an outer shaft seal on the other end; at least one valve element on the damping piston, the valve element for regulating fluid flow between a rebound damping chamber formed between the damping piston and the inner shaft seal, and a compression damping chamber formed between the damping piston and the outer shaft seal. 9. A suspension unit comprising: a shaft with a spring piston at one end thereof, said shaft passing completely through an inner damping tube, so that during sliding, the shaft does not substantially compress damper fluid within the inner damping tube, wherein an outer body encases the spring piston; a damping piston connected to the shaft and positioned within the inner damping tube; and a main spring positioned between the spring piston and a spring support attached at one end of the outer body; a main chamber air inlet to allow introduction of pressurized gas between the spring piston and the spring support; a top out chamber air inlet to allow the introduction of pressurized gas between the spring piston and an outer tube cap the outer tube cap being attached to an end of an outer tube farthest from the inner damping tube. 10. The suspension unit of claim 9, further including: on the shaft, a means for connecting to a suspension mounting point; fluid within the inner damping tube, the fluid being prevented from escaping the inner damping tube by an inner shaft seal on the one end and an outer shaft seal on the other end; at least one valve element on the damping piston, the valve element for regulating fluid flow between a rebound damping chamber formed between the damping piston and the inner shaft seal, and a compression damping chamber formed between the damping piston and the outer shaft seal; and means for connecting the outer body to a suspension mounting point on the outer body opposite to a shaft connector. 11. The suspension unit of claim 10, further including a main chamber air inlet to allow the introduction of pressurized gas between the spring piston and the spring support. 12. The suspension unit of claim 10, further including a top out chamber air inlet to allow the introduction of pressurized gas between the spring piston and an outer tube cap, said outer tube cap being attached to the end of an outer tube farthest from the inner damping tube. 13. The suspension unit of claim 11, further including a top out chamber air inlet to allow the introduction of pressurized gas between the spring piston and an outer tube cap, said outer tube cap being attached to the end of an outer tube farthest from the inner damping tube.
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