KR200449884Y1 - Fabrication structure of gas cylinder valve for chair high and low control - Google Patents

Abstract

The present invention relates to an assembly structure of the valve for the gas cylinder for adjusting the height of the chair, in the valve installed inside the gas cylinder of the chair, the valve is installed in the valve up and down sliding operation of the opening and closing pins and the flow of gas through the gas flow path In the structure to control the, the first catching groove jaw and the first catching projection provided in the lower portion of the valve body, the cap is relatively coupled with the guide of the opening and closing pin guide is installed inside the valve body, oh- By supporting the ring horizontally and having a second locking projection and the second locking groove jaw to have a structure in which two points are forcibly coupled to the valve body, it occurs in the valve body compared to the assembly structure of the valve by the conventional caulking operation It is applied to the chair by preventing gas cracks and providing gas sealing force that can maintain the height adjusted according to the seating state of the chair. There is an effect that can prevent the deterioration of the gas cylinder quality.

Chair, Gas Cylinder, Valve, Cap

Description

Fabrication structure of gas cylinder valve for chair high and low control}

The present invention relates to the assembling structure of the valve for the gas cylinder for adjusting the height of the chair, and more specifically to control the gas flow path according to the action of the open pin connected to the seat plate bottom side of the chair from the upper side on the cylinder inner cylinder. In one valve, the opening and closing pin, O-ring, pin guide, etc. constituting the valve can be stably supported inside the valve body, as well as having an assembly structure that prevents cracking of the valve body. It is to prevent the deterioration of product quality due to poor sealing force of gas.

In general, chairs widely used for office or home use the height adjustment device is to adjust the height of the seat seated by the user to use.

The height adjustment device is installed in the spindle that the cylinder is the support pillar of the chair, and when the user sits on the chair, the gas cylinder spindle is supported by the spindle guide in the outer cylinder and moved up and down to adjust the height of the chair seat. It is configured to be.

Rotating chairs that rotate the seat plate of the chair 360 degrees is installed with a part called the spindle to support the weight of the seated person and adjust the height according to the user's body shape. The spindle is a very important part for adjusting the seating height of the chair, and two kinds of adjustment methods are adopted.

That is, the screw adjusting method using a screw spindle, and the gas cylinder method to operate by filling the gas inside.

In the screw adjustment method, the user adjusts the height of the chair by rotating the seat plate one by one in the left and right directions without applying a load to the seat of the chair. In recent years, the gas cylinder system has been widely used to adjust the height of the chair quickly and easily as the pressure of the gas is moved upward or downward by the operation of the lever installed on one side of the chair. .

In the gas cylinder, which is a gas cylinder type chair height adjusting device, a rod-shaped spindle 4 is installed to be moved up and down by a spindle guide installed in an outer cylinder, as shown in FIG. 1, and a piston (P) in a cylinder in the spindle. ) Is combined.

The upper end of the spindle (4) is provided with an open pin (1-1) mechanically connected to a control lever (not shown) for adjusting the height of the chair, the lower opening and closing pin (1) for opening and closing the gas (1) ) Are arranged to abut.

In the spindle 4, a valve 10 for operating the opening / closing pin 1 is installed.

Looking at the configuration of the valve, it is as shown in Figures 2 and 3 attached.

The valve 10 has a pin hole (11a) for guiding and installing the opening and closing pin (1) in the center of the valve body 11, is formed to extend from the pin hole (11a) for guiding the pin guide (2) The first coupling groove 11b is formed, and the second coupling groove 11c is formed to extend downward from the first coupling groove 11b to guide the washer W. 4) A plurality of insertion grooves 11d are formed to insert the O-rings 6 and 7 which intercept gas from the inner diameter and the inner diameter of the cylinder 5, and the gas for distributing the gas to the first coupling groove portion 11b. A flow path is formed, and the bottom surface is integrally formed with a caulking portion 11f having a triangular cross-sectional area for preventing the washer W from being separated while the washer W is guided to the second coupling groove 11c. .

Formation of the conventional valve body 11 as described above is produced by cutting with aluminum, or injection molding from a plastic material.

The caulking portion 11f may be bent inward to the inner side of the second coupling groove 11c to be deformed so as not to be separated from the back of the washer W finally inserted into the second coupling groove 11c. To help.

As described above, in the method of fixing the washer W by deforming the caulking portion 11f, when the material of the valve body 11 is aluminum, a crack occurs in the valve body 11 due to caulking, and a plastic material In case of, there was a problem that a partial cracking phenomenon occurs.

In addition, in the fixing method of the washer (W) as described above, since the washer is not fixed horizontally in the second coupling groove 11c, the case is twisted, and ultimately, an internal component of the valve (pin guide 2). ), The opening pin (1), the O-ring (3) (3 ') also caused a problem that the poor phenomenon that the sealing force of the gas is reduced because the parallel state is not maintained.

The present invention has been made to solve the conventional problems as described above, the gas flow path according to the action force of the open pin connected to the seat plate bottom side of the chair from the inner cylinder top of the spindle that is the support shaft of the chair In the valve to be controlled, the assembly structure which prevents the valve body from cracking as well as the components such as the opening pin, the O-ring, the pin guide, etc. constituting the valve can be stably supported inside the valve body. The purpose of the present invention is to prevent degradation of product quality due to poor sealing force of gas.

According to the present invention for achieving the above object, a pin hole for guiding the opening and closing pin is formed in the center of the valve body, is formed extending from the pin hole to form a first coupling groove for guiding the pin guide and the O-ring, The second coupling groove is extended from the first coupling groove in a downward direction, a plurality of grooves are formed in the outer circumference so as to insert an O-ring to control the gas from the spindle inner diameter and the cylinder inner diameter, the gas to the first coupling groove portion A gas cylinder valve having a gas flow path for circulation, the gas cylinder being inserted into a second coupling groove of the valve body and supporting the lower end of the opening / closing pin and accommodating the bottom and lower outer circumferences of the valve body. An assembly structure of a valve for a gas cylinder for adjusting the height of a chair having a cap installed therein is provided.

The present invention is a valve installed inside the gas cylinder of the chair, in the structure that is installed in the valve to control the up and down sliding operation of the opening and closing pins and the flow of gas through the gas flow path, the first catch on the lower portion of the valve body To provide a groove jaw and the first locking projection, the cap coupled relatively to the pin guide, the O-ring installed in the valve body with the guide of the opening and closing the pin while the second locking projection and the second locking groove jaw By having a structure in which the two points are forcibly coupled to the valve body to prevent the cracks occurring in the valve body compared to the assembly structure of the valve by the conventional caulking operation, the height is adjusted according to the seating state of the chair By providing a gas sealing force that can maintain the effect is to prevent the degradation of the gas cylinder applied to the chair.

Hereinafter, with reference to Figures 4 to 6 attached in accordance with the present invention in more detail.

4 is a cross-sectional view illustrating a gas cylinder to which a valve of the present invention is applied, and FIG. 5 is a cross-sectional view of a valve according to the present invention, and FIG. 6 is a cross-sectional view illustrating the assembly of the valve according to the present invention. .

The present invention, the pin hole (11a) for guiding and installing the opening and closing pin (1) is formed in the center of the valve body 11, is formed extending from the pin hole (11a) pin guide (2) and O-ring (3) A first coupling groove 11b for guiding 3 'is formed, and a second coupling groove 11c extends downwardly from the first coupling groove 11b, and the spindle 4 is formed on the outer circumference. An insertion groove 11d is formed to insert the O-rings 6 and 7 which intercept gas from the inner diameter of the cylinder 5 and the inner diameter of the cylinder 5, and a gas flow path for distributing the gas to the first coupling groove 11b. In the gas cylinder valve 10 formed with 11e),

The cap is inserted into the second coupling groove 11c of the valve body 11 while supporting the lower end of the opening / closing pin 1 and at the same time receiving the bottom and lower outer circumferences of the valve body 11. 20) is installed in combination.

The first engaging groove 11-1 is formed at the inner corner of the second coupling groove 11c extending downward from the first coupling groove 11b, and the lower outer circumference of the valve body 11 is formed. The first locking projection 11-2 protrudes circumferentially from the edge side.

The cap 20 is injection molded as a plastic material, and a through hole 21 for penetrating the opening / closing pin 1 is formed at the center thereof and inserted into the second coupling groove 11c of the valve body 11. At the same time, the insertion shaft portion 22 supporting the bottom surface of the O-ring 3 'is formed, and the outer periphery of the insertion shaft portion 22 is formed with a groove 23a for guiding the lower end of the valve body 11. The support jaw 23 is integrally formed, and a second catching protrusion 20-1 for catching and supporting the first catching groove 11-1 is formed at an upper circumference of the insertion shaft portion 22. The second locking groove jaw 20-2 is formed in the groove 23a so that the first locking projection 11-2 can be caught and supported, so that the coupling is formed at two points.

The upper portion of the support jaw 23 of the cap 20 is preferably formed at a height that is supported by the bottom surface of the O-ring 7 that is inserted from the lower end of the valve body 11 to seal the inner diameter of the cylinder 5.

Referring to the operation of the assembly structure of the valve for the gas cylinder for adjusting the chair height of the present invention configured as described above are as follows.

In the valve 10, the components respectively installed inside the valve body 11 basically have an o-ring 3, a pin guide 2 and an o-ring 3 'in the first coupling groove 11b. ) Position the cap 20 from the bottom in the state of being inserted to force the coupling.

The insertion shaft portion 22 of the cap 20 is inserted into the second coupling groove portion 11c of the valve body 11 and is in a state of supporting and supporting the bottom surface of the o-ring 3 '.

The second locking protrusion 20-1 formed on the outer circumference of the upper side of the insertion shaft portion 22 is forcibly inserted into the second coupling groove 11c and is elastic to the first locking groove jaw 11-1 formed therein. At the same time, the second locking groove jaw 20-2 formed in the recess 23a of the cap 20 has a first locking protrusion 11-2 protruding from the lower outer circumference of the valve body 11. Coupling is forcibly guided to the groove 23a and is engaged in a state in which it is momentarily elastically supported.

As a result, the coupling between the valve body 11 and the cap 20 corresponds to each other and the two points are coupled to each other to receive a stable coupling.

The upper surface of the insertion shaft portion 22 of the cap 20 with respect to the cap 20 coupled as described above is formed of the O-ring 3 'interposed in the first coupling groove 11b after the pin guide 2 is inserted. Since the bottom surface is stably supported, there is no need for a separate washer component as in the prior art.

Furthermore, the pin guides 2 and the o-rings 3 and 3 'installed therein are supported horizontally and stably so that the o-rings 3 at the bottom through the through holes 21 of the cap 20, Up and down operation of the opening and closing pin 1 penetrating through the pin guide (2), O-ring (3 '), the pin hole (11a) is made stable and the control force for gas sealing or distribution through the gas flow path (11e) This is done exactly.

In addition, in the complete coupling of the cap 20, the spindle (4) is separately installed at the lower part of the O-rings 6 respectively inserted into the insertion grooves 11d formed in the outer periphery of the valve body 11, respectively. By supporting the bottom surface of the O-ring 7 which hermetically seals the inner diameter of the cylinder 5 in the c), the O-ring 7 can serve as a groove.

Therefore, the cap 20 coupled to the lower part of the valve main body 11 is forcedly press-fitted so that the bottom side of the washer by the conventional caulking operation is supported and supported by a rigid structure. The advantage is to minimize shrinkage by preventing shrinkage and cracking.

1 is a cross-sectional view showing a gas cylinder for a conventional chair,

Figure 2 is a cross-sectional view showing a separate valve for a conventional gas cylinder,

Figure 3 is a longitudinal cross-sectional view showing a state in which the components of the conventional valve coupled;

4 is a cross-sectional view showing a gas cylinder to which the valve of the present invention is applied;

5 is a cross-sectional view showing a separate valve according to the present invention,

Figure 6 is a cross-sectional view showing the assembly of the valve according to the present invention.

<Explanation of Signs of Major Parts of Drawings>

10: valve 11: valve body

11-1: first jamming groove jaw 11-2: first jamming protrusion

20: cap 20-1: second locking projection

20-2: second locking groove jaw 21: through hole

22: insertion shaft 23a: groove

23: support jaw

Claims (3)

A pin hole 11a is formed at the center of the valve body 11 for guiding and installing the opening and closing pin 1, and is formed to extend from the pin hole 11a so that the pin guide 2 and the O-ring 3 and 3 'are formed. A first coupling groove 11b for guiding is formed, and a second coupling groove 11c extends downward from the first coupling groove 11b, and an inner diameter of the spindle 4 and a cylinder The insertion groove 11d is formed so that the O-rings 6 and 7 which intercept gas from the inner diameter of 5) are inserted, and the gas in which the gas flow path 11e for distributing gas to the first coupling groove 11b is formed. In the valve 10 for a cylinder, The cap is inserted into the second coupling groove 11c of the valve body 11 while supporting the lower end of the opening / closing pin 1 and at the same time receiving the bottom and lower outer circumferences of the valve body 11. 20) are installed in combination, The first engaging groove 11-1 is formed at the inner corner of the second coupling groove 11c extending downward from the first coupling groove 11b, and the lower outer circumference of the valve body 11 is formed. The first locking projection (11-2) is formed protruding circumferentially from the corner side, the cap 20 is made of a plastic material, a through-hole 21 for penetrating the opening and closing pin 1 is formed in the center is formed In addition, an insertion shaft portion 22 supporting the bottom surface of the O-ring 3 'is formed at the same time as the second coupling groove portion 11-2 of the valve body 11 is formed, and an outer circumference of the insertion shaft portion 22 is formed. The support jaw 23 formed with the groove 23a for guiding the lower end of the valve body 11 is integrally formed, and is caught by the first catching groove jaw 11-1 around the upper portion of the insertion shaft portion 22. The second locking projection 20-1 is formed to be supported, and the second locking groove jaw 20-2 is formed in the groove 23a so that the first locking projection 11-2 can be caught and supported. Yes be formed mounting structure of a valve for a gas cylinder for a chair height adjustment, characterized in that the binding to occur in the cross-two points. delete According to claim 1, wherein the upper support jaw 23 of the cap 20 is inserted into the lower end of the valve body 11 to a height to support the bottom surface of the O-ring (7) to seal the inner diameter of the cylinder (5) Assembly structure of the valve for the gas cylinder for adjusting the chair height, characterized in that formed.

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