Shock absorber

Details Shock absorber Shock absorber

2000-04-13

2001-07-31

Schwartz, Christopher P. (Department: 3613)

Spring devices

Fluid

Expansible-contractible chamber device

C267S114000

Reexamination Certificate

active

06267360

ABSTRACT:

BACKGROUND OF THE INVENTION AND RELATED ART STATEMENT
This invention relates to a shock absorber for absorbing a shock of a moving member, such as work, in case the moving member is transferred from a moving state to a stopping state.
A conventional shock absorber includes a cylinder, a bearing fixed to the cylinder such that a center of the bearing is located on a center line of the cylinder, and a piston moving in the cylinder and having a shaft. The piston slides along the bearing pushed by moving member. The shock absorber is structured such that when a forward end of the piston pushed by the moving member approaches an inner end of the cylinder, compressed oil is circulated to a back side of the piston through an orifice provided to, for example, the piston or cylinder, to thereby absorb a shock of the moving member.
Then, in case the moving member is retracted and the pressing force applied to the piston is removed, the piston is restored to an original position by a force of a restoring spring incorporated in the shock absorber or attached to an outside thereof.
In the above conventional shock absorber, as the forward end of the piston approaches the inner end of the cylinder, a reactive force of the restoring spring becomes strong in addition to a resistance force caused by compressed oil circulating in the orifice to thereby suddenly increase the whole reactive force. Therefore, the forward end of the piston pushed by the moving member may not reach a stopping surface of the cylinder, i.e. may not completely contact the stopping surface.
Further, a fatigue and creep relaxation occur to the restoring spring with the lapse of time, which results in a defective product.
Also, in the conventional shock absorber, in case there is required a signal to be outputted to a controlling device of the moving member when the forward end of the piston pushed by the moving member reaches the stopping surface of the cylinder, in other words, if the contact signal is required, a user has to provide a switching device for detecting a movement of the moving member or a movement of the piston shaft, separately.
In view of the above defects, the present invention has been made, and an object of the invention is to provide a shock absorber, wherein a restoring spring is omitted by restoring a piston by an air force without a signal from an outside, and at the same time, in order to allow the piston to firmly contact, when a forward end of the piston pressed by a moving member reaches an inner end of the cylinder, a compressed air in the inner portion of the cylinder is ejected.
Another object of the invention is to provide a shock absorber as stated above, wherein a contact signal indicating a contact of the piston to the inner end of the cylinder is outputted to a controlling circuit of the moving member.
Further objects and advantages of the invention will be apparent from the following description of the invention.
SUMMARY OF THE INVENTION
In order to attain the above objects, according to a first aspect of the invention, a shock absorber includes a cylinder, a bearing fixed to the cylinder and having a center line of the cylinder as a bearing center, and a piston having a shaft sliding along the bearing pushed by a moving member and moving in the cylinder. In the shock absorber, a switching device actuating right before the piston abuts against the stopping surface is formed at a stopping surface of the cylinder; compressed air in the cylinder is extracted or ejected by operating an electromagnetic valve through an actuation of the switching device; and when the moving member is retreated and a pressing force against the piston is removed, the piston is returned to a position before the switching device is operated by a spring with less stroke, so that the electromagnetic valve is restored or operated again to send air into the cylinder. Thus, the piston is restored to a state before the compression of the air is carried out.
According to a second aspect of the invention, in the shock absorber, there is outputted a contact signal, through actuation of the switching device, for indicating that the forward end of the piston pressed by the moving member contacts the stopping surface of the cylinder.
According to a third aspect of the invention, in the shock absorber, a speed controller is provided between the cylinder and the electromagnetic valve, wherein in case the piston compresses air in the cylinder, a first valve operates to control an air quantity discharged to an outside from an interior of the cylinder. Also, in case air is fed into the cylinder, a second valve operates to feed a large quantity of air quickly into the cylinder.


REFERENCES:
patent: 5076404 (1991-12-01), Gustafsson
patent: 5100113 (1992-03-01), Imanishi
patent: 5353683 (1994-10-01), Snitgen
patent: 5435530 (1995-07-01), Sand
patent: 5588641 (1996-12-01), Sand
patent: 5623848 (1997-04-01), Kirii

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