KR0124492Y1 - Stopper for a gas spring - Google Patents

Abstract

The present invention relates to a gas spring stopper that is fixed to the inner wall of the gas spring and acts as a catching jaw at the end of the piston rod when the piston rod is extended. In the conventional gas spring, the piston rod (6) is initially converted from the maximum length to the minimum length again. In the present invention, the taper portion 21 of the piston rod 6 and the 0-ring 20 portion of the stopper 1 began to come into contact with each other, thereby causing the stopper 1 to wear out. The inside of the stopper is provided with a through hole so that the inside of the stopper is operated up and down by a coil spring, and a spool for opening and closing the inner flow path is located, and the phenomenon of a jam between the piston rod and the stopper when the piston rod is fully extended. To prevent this from happening.

Description

Stopper for gas spring

1 is a side cross-sectional view of a gas spring to which the gas stopper of the present invention is mounted.

2 is a side cross-sectional view of the gas stopper of the present invention.

3 is a side cross-sectional view of a gas spring stopper according to the prior art.

* Explanation of symbols for main parts of the drawings

1: stopper body 2: valve head

3: guide 4: valve foot

5: coil spring 6: piston rod

7: tube 8: pisto

The present invention relates to a gas spring stopper that is fixed to the inner wall of the gas spring and acts as a catching jaw at the end when the piston rod is extended. In particular, the gas spring is formed on the piston rod when the gas spring starts to be compressed in the state where it is extended to the maximum length. The present invention relates to a gas spring stopper which prevents a jamming phenomenon between the tapered surface and the stopper.

The gas spring is filled with oil and compressed nitrogen gas in a sealed storage tube to change the load on the piston rod when the piston rod is pushed back and forth. Therefore, the initial load value is smaller or larger than that of metal springs and rubber springs. It is possible to give a small spring constant, and can control the speed in the compression or stretching direction, which is impossible with the above-described metal spring, and has many advantages, such as to reduce the impact.

However, in the conventional gas spring, as shown in FIG. 3, the tip of the piston rod 6 to which the piston 8 is connected is tapered by a predetermined length, and the piston 8 is extended to the piston 8 when the piston rod 6 is extended. The stopper 1 which acts as a locking device is installed on the inner wall of the tube 7, so that the piston rod 6 and the stopper 1 are in close contact with each other, so that the oil reservoir 15 is closed. When the piston rod 6 extends to the maximum length, a gap is formed between the taper portion 21 and the stopper 1 of the piston rod 6, so that the oil reservoir 15 is opened and pushed by the piston 8. The raised oil 16 flows into the oil reservoir 15.

Thus, the piston rod 6 smoothly flows the oil 16 injected into the tube 7 so as to mitigate the impact between the piston 8 and the stopper 1 at the maximum extension and to achieve a smooth extension of the piston rod. It is to be stored in the oil reservoir 15.

However, in the above-described conventional gas spring, the taper portion 21 of the piston rod 6 initially contacts the 0-ring 20 portion of the stopper 1 when the piston rod 6 is converted from the maximum length to the minimum length. As it starts to be caught, the jamming occurs and wears the stopper 1, so that the life of the gas spring can be shortened, and there is a problem that the expansion and contraction of the gas spring is not made smoothly.

The present invention is to solve the above problems, and the purpose is to prevent the wear of the stopper and extend the life of the gas spring by preventing the surface contact between the piston rod surface and the stopper surface during the up and down movement of the piston rod As a solution, a stopper body includes a through hole to form an inner flow path, and the stopper has a spool that vertically operates in a coil spring and operates to open and close the inner flow path. This prevents jamming between the rod and the stopper.

When described in detail by the accompanying drawings as follows.

1 and 2, a stopper fixed to an inner wall of a tube 7 of a gas spring; The upper groove 9 is formed in the upper portion, and the lower groove 10 is formed by the guide 3 protruding from the lower portion, and the valve head 2 having a shape corresponding to the upper groove 9 is disposed in the upper portion. The valve foot 4 has a stepped portion 12 formed to correspond to the bottom surface of the guide 3, and a connecting rod 13 is connected between the valve head 2 and the valve foot 4 so that the through hole 11 is formed. The coil spring 5 is installed between the spool 14 to be positioned within the upper surface of the lower groove 10 and the stepped portion 12 of the valve foot 4.

In addition, the length of the spool 14 is between the lower surface of the guide 3 and the upper surface of the step 12 of the valve foot 4 when the lower surface of the valve head 2 is in contact with the upper surface of the upper groove 9. In this case, the gap d becomes long enough to be formed, and the inner inclined surface of the upper groove 9 becomes an inclined surface which is more urgent than the inclined surface of the outer peripheral surface of the valve head 2.

The present invention configured as described above operates as follows.

When the piston rod 6 is stretched to the maximum length, the upper surface of the piston 8 presses the valve foot 4, thereby overcoming the elastic force of the coil spring 5 and pushing the spool 14 upward. At this time, a gap is generated between the valve head 2 and the upper groove 9 which are in close contact with each other, and an internal flow path through the through hole 11 is opened.

Therefore, the oil pushed upward by the piston 8 flows into the oil reservoir 15 through the through hole 11. In addition, when the piston rod 6 is reduced again, the valve head 2 is brought into close contact with the upper groove 9 again by the elastic restoring force of the coil spring 5, so that the inner flow path is closed, and oil in the oil reservoir 15 is Will remain.

In addition, since the inclined surface of the upper groove 9 is the inclined surface of the outer peripheral surface of the valve head 2, the valve head 2 is completely blocked because the end of the upper groove 9 is completely blocked again.

As such, the present invention does not generate any gap between the piston rod 6 and the stopper 1 at the maximum extension of the piston rod, so that the expansion and contraction of the gas spring is smooth and the life of the gas spring is extended, It is useful design to be able to keep oil completely in (15).

Claims (3)

A stopper fixed to an inner wall of a tube of a gas spring; An upper groove 9 is formed at an upper portion, and a lower groove 10 is formed at the lower portion by a guide 3 protruding from the lower portion, and a stopper body having a through hole 11 formed between the upper groove 9 and the lower groove 10. (1) and a valve foot 4 having a valve head 2 having a shape coinciding with the upper groove 9 at the upper portion and a stepped portion 12 formed at the lower portion thereof so as to match the lower surface of the guide 3. And a connecting rod 13 connected between the valve head 2 and the valve foot 4 to be positioned in the through hole 11, and an upper surface of the lower groove 10 and a valve foot ( Gas spring stopper, characterized in that consisting of a coil spring (5) provided between the step (12) of 4). The lower surface of the guide (3) and the step of the valve foot (4) according to claim 1, wherein the length of the spool (14) is such that the lower surface of the valve head (2) is in contact with the upper surface of the upper groove (9). 12) Gas sputter stopper, characterized in that the length is enough to create a gap (d) between the upper surface. The gas spring stopper according to claim 1, wherein the inner inclined surface of the upper groove (9) is a steep inclined surface than the inclined surface of the outer peripheral surface of the valve head (2).