KR20060032533A - Gas spring to control height of chair - Google Patents

Abstract

Disclosed is a gas spring for adjusting the height of the chair to simplify the structure, increase the productivity, and reduce the manufacturing cost by integrally injection molding the inner cylinder and the valve portion with a synthetic resin material.

The present invention is a gas spring comprising an outer cylinder, an inner cylinder installed inside the outer cylinder, and a piston rod portion inserted into the inner cylinder to form a gas retention chamber in the upper and lower portions based on the piston portion of the upper end thereof. The inner cylinder is cylindrical body made of a synthetic resin material; It is made of the same material as the body and is integrally formed on the upper part of the body, and the operation hole is formed in the center thereof so that the valve pin is fitted to be lifted up and down, and the gas passage hole is formed to the side to allow the operation hole to communicate with the outside. It includes a valve part for selectively opening and closing the gas retention chamber.In this case, the inner cylinder, which is the most important member of the gas spring for adjusting the height of the chair, is formed by injection molding with synthetic resin, and the valve part is made of the same material on the upper part. Since it is formed, the O-ring of the piston part is less likely to be torn or broken even if used for a long time, and it is possible to reduce the member, mass production, and reduce the manufacturing cost because it does not need to be combined with each other by separately manufacturing the inner cylinder and the valve part.

Description

Gas spring to control height of chair}

1 is a block diagram of a gas spring for adjusting the height of the chair according to the prior art.

Figure 2 is a block diagram of a gas spring for adjusting the height of the chair according to the present invention.

3 is an operation of the gas spring for adjusting the height of the chair according to the present invention,

3A is a state when the height of the chair is raised.

3B is a state when the height of the chair is lowered.

4 is a detailed view of a valve pin according to the present invention.

5 is an exemplary view of the lower end of the inner cylinder according to the present invention.

6 is an exemplary view of the upper end of the inner cylinder according to the present invention.

7 is an exemplary view illustrating a sealing structure of an inner cylinder according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

100: outer cylinder 101: cylinder guide 102: cover

103,106,242: Tightening groove 104,107,224: Tightening protrusion 105: Dustproof rubber

108,203,251: groove 200: internal cylinder 201,202: gas detention chamber

204,222,232 Gas passage hole 210 Body 220 Valve part

221: operating hole 223, 241: step 230: valve pin

231: stopper 240: valve cap 250: spacer

300: piston 400: piston rod 500: outer cylinder

501: Road support

The present invention relates to a gas spring for adjusting the height of a chair, and more particularly, to simplify the structure, increase productivity, and reduce manufacturing costs by integrally injection molding the inner cylinder and the valve part using a synthetic resin material.

As is well known, a gas spring that can raise or lower the upper side of the chair according to the movement of the gas is applied to the prop of the chair so that the height of the chair can be easily adjusted. Fixed to the cylinder 1, the inner cylinder 2 installed inside the outer cylinder 1, the outer cylinder 3 into which the outer cylinder 1 is inserted, and the rod support 5 below the outer cylinder 3 It consists of a piston rod portion 6 and a piston portion 10 fixed to the upper portion of the piston rod 6, a gas through hole communicating with the space between the outer cylinder 1 and the inner cylinder 2 on one side. A valve member 17 having a 15 formed therein and an operating hole 16 penetrated therein is fitted to an upper end of the inner cylinder 2, and the operating hole 16 has a small diameter portion 18 in the middle thereof. The valve pin 19 is fitted to be able to move up and down, and the outer cylinder 1 is disposed on the upper portion of the valve pin 19. The push rod 20 drawn out is seated, and the gas passage hole 21 is formed at the lower end of the inner cylinder 2, and when the push rod 20 assembled at the top of the outer cylinder 1 is pressed, the push rod 20 ), The valve pin 19 is pressed in contact with the valve pin, and the small diameter part 18 located in the middle of the valve pin 19 is lowered so that the upper and lower parts of the piston part 10 are provided through the gas passage holes 15 and 21. The gas retention chambers on the side are opened to each other, and if no load is applied to the upper side in this state, the gas in the gas retention chamber on the lower side of the piston part 10 rises, and the gas retention chamber side on the piston part 10 upper side. The lower end of the piston rod (6) is fixed to the rod support (5) of the outer cylinder (3), the outer cylinder (1) is raised in reaction, the gas spring is extended as a whole, the height of the chair is increased, If the load is applied to the upper side in the same state, As the gas moves from the gas retention chamber at the upper side of the piston unit 10 to the gas retention chamber at the lower side of the piston unit 10, the outer cylinder 1 descends and the gas spring is compressed as a whole, thereby lowering the height of the chair. When the pressure applied to (20) is released, the valve pin 19 and the push rod 20 are returned to their original positions by the internal gas pressure, and the gas passage hole 15 is blocked by the valve pin 19 to control the chair. Fixed height.

However, in such a general gas spring, since the inner cylinder is made of metal, the O-ring of the rubber material or the synthetic resin material provided at the outer portion of the piston part is torn by metal residues for a long time rubbing with the inner surface of the metal material to maintain the airtightness. The gas spring loses its function by losing its airtightness, and a separate valve member made of synthetic resin must be molded and fitted according to the inner diameter of the inner cylinder. Therefore, a process of manufacturing such a member separately and a step of fitting the valve member are added. As a result, manufacturing costs are increased and productivity is lowered.

In addition, since the small diameter portion for opening and closing the gas passage is formed in the middle of the valve pin, the stress due to the raising and lowering of the valve pin is concentrated on the small diameter portion, so that the valve pin is easily broken, which prevents the lower end of the inner cylinder. Since the cylinder guide into which the lower end of the cover and the inner cylinder are fitted is separated from each other, there is an inconvenience in that each of the above-mentioned members must be assembled separately when assembling each cylinder.

The present invention has been proposed in view of the above-mentioned, by forming the valve member integrally with the upper cylinder while injection molding the inner cylinder into the synthetic resin material, reducing the number of members to improve workability as well as mass production, It is to provide a gas spring for adjusting the height of the chair to prevent damage to the O-ring of the piston to extend the life.

In another aspect, the valve pin has the same outer diameter while forming a gas passage hole inward to prevent the valve pin from breaking.

In another aspect, the cover and the cylinder guide is to be coupled to each other to improve the assemblability.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram of the gas spring for adjusting the height of the chair according to the present invention, Figure 2 is an operation of the gas spring for adjusting the height of the chair according to the present invention.

As shown, the chair height adjustment gas spring according to the present invention is the same as the general gas spring, the outer cylinder 100, the inner cylinder 200 is installed in the interior of the outer cylinder 100, the inner cylinder 200 It is composed of a piston rod portion 400 is inserted into the upper and lower portion of the piston portion 300 to form a gas retention chamber 201, 202, respectively, the inner cylinder 200 is made of a synthetic resin cylindrical A body 210; The same material as the body 210 is formed integrally with the upper portion of the body 210, the operating hole 221 is formed in the center through which the valve pin 230 is fitted to be able to move up and down, the operation hole 221 ) And a gas passage hole 222 which communicates with the outside is formed laterally, and has a characteristic consisting of a valve unit 220 that selectively opens and closes each gas reservoir chamber 201 and 202.

That is, in the structure of a general gas spring, the inner cylinder 200 is made of a metal material, and the valve member is made of a synthetic resin material to be fitted with each other in the present invention, instead of separately configuring the valve member, the body of the inner cylinder 200. 210 is configured by injection molding so that the valve unit 220 is formed integrally on the upper portion.

At this time, the valve pin 230 has the same outer diameter as the whole except for the stopper 231 formed in the middle as shown in Figure 4, the gas passage hole 232 to the one side of the outer diameter at the lower side of the stopper 231 It penetrates into it.

In addition, as shown in FIG. 5, one of the cylinder guide 101 into which the lower end of the inner cylinder 200 is fitted and the cover 102 fitted between the cylinder guide 101 and the outer cylinder 100 gradually become inward. A fastening groove 103 is formed to be wider, and the other one is formed to be fastened to each other by forming a fastening protrusion 104 gradually widening toward the outside so as to correspond to the fastening groove 103. In some cases, the anti-vibration rubber 105 may be inserted into the upper portion of the cylinder guide 101 to perform a function of buffering and preventing noise during contact with the piston 300. Even in this case, the anti-vibration rubber 105 and the cylinder guide may be used. Any one of the 101 is formed with a fastening groove 106 is gradually wider toward the inner side, the other is formed with a fastening protrusion 107 gradually wider toward the outside to correspond to the fastening groove 106 By each other Is such that if the fitting.

In addition, as shown in FIG. 6, the stepped portion 223 is integrally formed on the valve portion 220 of the inner cylinder 200 so that the stopper 231 of the valve pin 230 is caught, or the valve portion of the inner cylinder 200 is formed. (220) provided with a valve cap 240 having a stepped portion 241 so as to catch the stopper 231 of the valve pin 230, the valve cap 240 and the valve portion 220 in one of the inward A fastening groove 242 gradually increasing in width is formed, and in the other one, a fastening protrusion 224 gradually widens in width toward the outside so as to correspond to the fastening groove 242 may be configured to be pressed together. .

And, as shown in Figure 7 O-ring (R) for sealing the airtight sealing between the inner cylinder 200 and the outer cylinder 100 in the upper side to form a plurality of grooves 203 on the upper side of the inner cylinder (200) this groove 203 may be fitted, or a plurality of grooves 251 may be formed in the spacer 250 positioned between the upper portion of the inner cylinder 200 and the outer cylinder 100 so as to be fitted thereto. In the side, the groove 108 of a multistage may be formed in the outer side of the cylinder guide 101, and may be fitted here.

In the drawing, reference numeral 500 denotes an outer cylinder positioned outside the outer cylinder 100, 501 denotes a rod support for fixing the piston rod 400 to the outer cylinder 500, and 204 denotes a lower side of the inner cylinder 200. And a gas passage hole formed in the piston to communicate with the gas retention chamber 202 on the lower side of the piston unit 300.

Chair height adjustment gas spring according to the present invention configured as described above acts as follows.

First, when the valve pin 230 is pressed, the gas through hole 232 of the valve pin 230 communicates with the gas through hole 222 of the valve part 220, and the gas through hole ( Since the 204 is in the open state, the gas reservoir chamber 201 on the upper side of the piston unit 300 and the gas reservoir chamber 202 on the lower side of the piston unit 300 are respectively passed through the gas passage holes 204, 222, and 232. Through the open state to each other.

When no load is applied to the upper side in such a state, the gas in the lower gas reservoir chamber 202 of the piston unit 300 rises and moves to the upper gas reservoir chamber 201 side of the piston unit 300, and the piston rod unit Since the lower end of the 400 is fixed to the rod support 501 of the outer cylinder 500, the outer cylinder 100 rises in reaction so that the height of the chair is increased by extending the gas spring as a whole, and the load on the upper side in the same state. In contrast to the above, the gas moves from the gas reservoir chamber 201 at the upper side of the piston unit 300 to the gas reservoir chamber 202 at the lower side of the piston unit 300 while the external cylinder 100 descends and the gas spring is lowered. The height of the chair is lowered by the overall compression, and when the pressure applied to the valve pin 230 is released, the valve pin 230 is returned to its original position by the internal gas pressure, and the respective gas cylinders are opened by the valve pin 230. The pores 204, 222 and 232 are blocked and the chair is fixed to the adjusted height.

That is, it can be seen that the gas spring according to the present invention operates in the same manner as a general gas spring.

Here, the gas spring according to the present invention is because the inner cylinder 200 is composed of a cylindrical body 210 made of a synthetic resin material, and the valve portion 220 formed integrally with the same material on the upper portion of the piston 300 The O-ring (R) to be fitted is in close contact with the inner circumferential wall of the inner cylinder 200, so it is unlikely to be torn or damaged even if it is raised or lowered for a long time. The number of can be reduced, the material cost can be reduced, and the production by injection molding has the advantage that mass production is possible.

In addition, the valve pin 230 according to the present invention, except for the stopper 231 formed in the middle of the outer diameter is configured to be the same as the whole, the gas passage hole 232 to communicate the one side and the gas retention chamber 201 of the outer diameter. Since the bottom of the stopper 231 is formed through the inside of the stopper 231, even if the valve pin 230 is raised and lowered, the pressure is not concentrated and can be dispersed as a whole to extend the life of the valve pin 230, the gas passage hole ( 232 is formed inside the valve pin 230, so that the functionality that can selectively open and close between each gas retention chamber 201, 202 according to the rising and falling of the valve pin 230 can be smoothly implemented. .

On the other hand, the members of the cylinder guide 101 and the cover 102, the cylinder guide 101 and the anti-vibration rubber 105, the valve unit 220 and the valve cap 240, which are formed separately, are all inward in one side member. Fastening grooves 104, 106, 224 are formed gradually wider width gradually, the other side member fastening protrusion 104 gradually widens toward the outside to correspond to the fastening grooves 103, 106, 242 Since 107 and 224 are formed, members adjacent to each other can be coupled to each other by interference fit, and in the combined state, they are never detached. Without first joining the small members in a pre-process, and then entering the assembly, the assembly is good, there is no fear of losing the small members, and close to each other to reduce noise.

As described above, the present invention is configured by injection molding the inner cylinder, which is the most important member in the gas spring for adjusting the height of the chair, with synthetic resin material, so that the valve part is integrally formed on the upper portion of the piston, so that the O-ring of the piston It is less likely to be torn or broken even when used, and it is possible to reduce the member, mass production, and reduce the manufacturing cost since the inner cylinder and the valve part do not need to be manufactured separately.

In addition, since the outside diameter of the valve pin is the same, and the gas passage hole is formed therein, even if the valve pin is raised or lowered, the pressure can be dispersed throughout the valve pin to extend the service life. Since the members have a fastening groove that extends inwardly and a fastening protrusion that extends outwards, the members can be fitted to each other and provide a structure that never falls out after being joined. To prevent the loss, noise due to the collision between members can be obtained.

Claims (5)

The outer cylinder 100, the inner cylinder 200 which is installed inside the outer cylinder 100, and the gas cylinder is inserted into the inner cylinder 200 and the upper and lower parts respectively based on the piston 300 of the upper end In the gas spring comprising a piston rod portion 400 forming the seal 201, 202, The inner cylinder 200, A cylindrical body 210 made of synthetic resin, The same material as the body 210 is formed integrally with the upper portion of the body 210, the operating hole 221 is formed in the center through which the valve pin 230 is fitted so as to move up and down, the operation The gas passage hole 222 is formed to the side to communicate with the hole 221 and the outside is characterized in that it comprises a valve portion 220 for selectively opening and closing each gas retention chamber 201,202 (202) Gas spring for chair height adjustment. The method of claim 1, The valve pin 230 has the same outer diameter as the whole except for the stopper 231 formed in the middle, and a chair height characterized in that the gas passage hole 232 passing through the inner side is formed through the inside thereof. Regulating gas spring. The method of claim 1, In one of the cylinder guide 101 to which the lower end of the inner cylinder 200 is fitted, and the cover 102 fitted between the cylinder guide 101 and the outer cylinder 100, the width gradually increases toward the inside. Forming the fastening groove 103, and the other one of the chair height adjustment, characterized in that forcing each other by forming a fastening protrusion 104 that gradually widens toward the outside so as to correspond to the fastening groove 103 Gas spring. The method of claim 1, The upper step of the valve portion 220 of the inner cylinder 200, the stepped gas spring for height adjustment, characterized in that the stepped 223 is formed integrally to take the stopper 231 of the valve pin (230). The method of claim 1, In the upper portion of the valve unit 220 of the inner cylinder 200 is provided with a valve cap 240 having a step 241 so that the stopper 231 of the valve pin 230, the valve cap 240 and Any one of the valve unit 220 is formed with a fastening groove 242 is gradually wider toward the inner side, and the other is a fastening protrusion gradually wider toward the outside to correspond to the fastening groove 242 ( 224) to form a chair height adjustment gas spring, characterized in that the mutual fit.

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