KR20130106003A - A gas cylinder - Google Patents

Abstract

PURPOSE: A gas cylinder is provided to support a spindle stably, irrespective of temperature change since a bushing member problem that water expansive force is occurred by the temperature change is solved with an oilless guider. CONSTITUTION: A gas cylinder comprises a bushing member (100) and a hollow oilless guider (200). The bushing member is combined so that a spindle (20) moves up and down against an outer container body. The oilless guider, in which the lubrication is possible, guides the spindle to the inner wall of the bushing member. The oilless guider is separated into the upper and lower guiders, and a spacer is combined with the separation section. A brush plate in which a plurality of brushes are planted is arranged in the inner wall of the spacer in order to remove foreign substances and absorb noise of the outer container body.

Description

Gas cylinder

The present invention relates to a gas cylinder, and more particularly, the spindle for rotating and lifting the seat plate of the chair can be rotated and lowered at all times without the application of grease to prevent friction in the outer cylinder to maintain cleanliness at all times. It relates to a gas cylinder to enable.

In general, a gas cylinder is installed between the seat plate of the chair and the supporting member forming the base to adjust the height of the seat plate or to alleviate the impact. The gas cylinder is composed of an outer cylinder and a spindle, and the spindle is moved according to the movement of the gas. The height of the seat plate is adjusted while being lifted and lowered in the outer cylinder.

As shown in FIG. 1, a gas cylinder applied to a conventional chair includes a hollow outer cylinder 10, a spindle 20 inserted into the outer cylinder 10 and reciprocating up and down, and the spindle 20. A cylinder 30 located inside, a piston 40 partitioning the inside of the cylinder 30 up and down, one end is connected to the piston 40, the other end is connected to the lower end of the outer cylinder 10 The piston rod 50 and the valve body 60 positioned above the cylinder 30 to control the entrance and exit of the gas filled in the cylinder 30 through an orifice, and the valve body 60. It is provided to include an opening and closing pin (70) for opening and closing the gas flow path in accordance with the vertical movement, and the bushing member (80) located on the upper side of the outer cylinder 10 to guide the spindle (20).

The gas cylinder is configured as described above is coupled to the outer cylinder 10 perpendicular to the center of the support member supported on the bottom surface and is coupled to the bottom surface of the seat plate forming the chair the upper end of the spindle 20 is the outer cylinder The height of the seat plate of the chair is adjusted by the spindle 20 moved up and down at 10.

The cylinder 30 is divided into an upper chamber and a lower chamber by a piston 40, and a gas flow path through which the gas discharged through an orifice moves is formed between the cylinder 30 and the spindle 20.

In the conventional gas cylinder configured as described above, when the user rotates the operation lever for the operation upward when the user installs the seat plate of the chair, the open pin located on the upper side of the spindle is pushed down by the operation lever to lower downward. The opening / closing pin 70 contacting the lower side by the pressing force of the pin simultaneously descends to open the orifice of the valve body 60 so that the high pressure gas stored in the upper chamber passes through the orifice of the valve body 60 and continuously It moves to the lower chamber along the gas flow path. In this case, while the volume inside the lower chamber increases and the volume inside the upper chamber decreases, the spindle 20 descends along the outer cylinder 10. Then, when the user removes the force applied to the operating lever at the desired height, the opening and closing pin 70 is raised to its original position and the orifice is closed to close the upper chamber so that the gas is no longer moved and the spindle 20 is not moved. It remains fixed. When the seat plate of the chair is pushed harder than the gas pressure in the state where the operating lever is operated, the gas moves up through the orifice and the gas passage and pushes the piston 40 upward, and as a result, the spindle 20 descends, The height will be lowered.

Here, the lifting and lowering operation of the spindle is made through the slide guide of the bushing member coupled to the outer cylinder, the noise and wear of the bushing member due to friction as the bushing member and the spindle directly contact. Will occur.

To solve this problem, a viscous liquid grease is applied to the inner circumferential surface of the bushing member. The grease is pushed out of the bushing member according to the repeated ascending and descending of the spindle. Therefore, the spindle is always in contact with the bushing member. There was a problem that grease was buried.

In addition, when grease is leaked to the outside, the grease must be inserted between the spindle and the bushing member, but it has been difficult for general users to insert grease.

In addition, the bushing member for guiding the vertical movement and rotation of the spindle has a problem that the rotation of the spindle is difficult when the temperature change is large, especially when the contracting force is generated.

[Document 1] Republic of Korea Patent Registration No. 10-0330768 (announced March 29, 2002) [Document 2] Republic of Korea Patent Registration No. 10-0478450 (Notification Date March 22, 2005) [Patent 3] Republic of Korea Patent Publication No. 10-2011-0120558 (published November 4, 2011) [Document 4] Korean Utility Model Registration No. 20-0382001 (Announcement date April 15, 2005)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

SUMMARY OF THE INVENTION [0006]

The bushing member for slidably guiding the spindle in the gas cylinder is capable of slidably guiding the spindle in a state capable of lubrication without a separate grease.

Another object of the present invention is to provide

It is to improve the seating feeling by avoiding the load caused by friction during rotation of the spindle.

Another object of the present invention is to provide

The water expansion force of the bushing member according to the temperature change is to maintain the constant engagement with the spindle through the oilless guider at all times.

That is, the water expansion force of the bushing member to guide the vertical movement and rotation of the spindle at all times through the oilless guider.

Another object of the present invention is to provide

The oilless guider is detachably or integrally coupled to the inside of the bushing member to simplify manufacturing.

In order to achieve the above object,

According to the present invention,

In a gas cylinder in which a bushing member is coupled so that the spindle moves up and down with respect to the outer cylinder, a hollow oilless guider capable of lubricating and guiding the spindle on the inner wall of the bushing member may be provided.

The oilless guider may include a spacer coupled to a separation section separated into an upper guider and a lower guider.

In addition, the inner wall of the space may be provided with a plurality of mother planted base plate to remove the foreign matter of the spindle and to absorb the noise.

In addition, the oilless guider may be applied integrally formed with the bushing member.

In addition, the bushing member or the oilless guider, a plurality of ring plates spaced equally spaced up and down may be applied to increase the durability.

The present invention has the effect that the bushing member for guiding the slide in the gas cylinder can slide the spindle in a state capable of lubricating without a separate grease.

In addition, since the problem of the bushing member in which the water expansion force is generated according to the temperature change can be solved through the oilless guider, the spindle can be stably supported regardless of the temperature change.

1 is a longitudinal cross-sectional view showing a conventional gas cylinder,
2 is a longitudinal sectional view showing a gas cylinder according to the present invention;
3 is an enlarged view of a portion “A” according to the present invention;
4 is another embodiment of FIG.
5 is another embodiment of FIG.
6 is another embodiment of FIG.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the related well-known techniques will be described with the same reference numerals, and it is determined that the gist of the present invention can be clouded. If so, the detailed description thereof will be omitted.

The present invention, in the gas cylinder applied to the height adjustment of the chair and the like shown in Figures 2 and 3, the bushing member 100 so that the spindle 20 moves up and down with respect to the outer cylinder 10 constituting the gas cylinder. ) Is to be coupled, but the hollow oilless guider 200 to guide the spindle 20 to the inner wall of the bushing member 100 and to be polished.

The gas cylinder has a configuration and function similar to that of the known one, and includes a hollow outer cylinder 10, a spindle 20 inserted into the outer cylinder 10, and reciprocating up and down, and inside the spindle 20. A cylinder 30 positioned, a piston 40 partitioning the inside of the cylinder 30 up and down, and one end connected to the piston 40 and the other end connected to a lower end of the outer cylinder 10. A rod 50 and a valve body 60 positioned above the cylinder 30 to control entrance and exit of gas filled in the cylinder 30 through an orifice, and provided to the valve body 60. It is composed of an opening and closing pin 70 for opening and closing the gas flow path in accordance with the vertical movement.

In addition, a bushing member 100, which is a core means of the present invention, is provided on an inner upper side of the outer cylinder body 10, and a hollow oil capable of lubricating and lubricating the spindle 20 on an inner wall of the bushing member 100. The reply guider 200 is provided.

The oilless guider 200 is made of a synthetic resin material and has a smooth inner surface to perform a function of lubricating upon contact with the outer wall of the spindle 20.

Here, the oilless guider 200 can maintain a stable coupling force with the spindle 20 even if the durability decreases due to the temperature change of the bushing member 100 and thus the water expansion index decreases.

As another example, the oilless guider 200 may be applied to an outer side formed integrally with the bushing member 100.

4 is another example of the oilless guider 200 according to the present invention, the upper guider 220 and the lower guider 240 may be separated into a spacer 300 is separated and separated.

The spacer 300 may be a metal or synthetic resin material, and to minimize contact between the oilless guider 200 and the spindle 20.

The upper and lower ends of the spacer 300 may be coupled between the upper guide 220 and the lower guider 240 in a manner of being inserted.

5 is another example according to the present invention, the mother plate 400 that can remove the foreign material of the spindle 20 on the inner wall of the spacer 300 may be provided.

That is, a plurality of total hairs formed of natural or synthetic fibrous materials are planted on the inner surface of the spacer 300 or those formed by planting hairs on the surface of the panel may be applied.

6 is another example according to the present invention, the bushing member 100 or the oilless guider 200, a plurality of ring plate 500 spaced equally spaced up and down to increase durability can be built.

The ring plate 500 controls the shear deformation force of the bushing member 100 and the oilless guider 200.

The ring plate 500 may be applied repeatedly up and down continuously in a state that the size of the outer diameter is different from each other.

100: bushing member
200: oilless guider
220: upper guider 240: lower guider
300: Spacer
400: bed
500: ring plate

Claims (5)

In the gas cylinder coupled to the bushing member so that the spindle moves up and down with respect to the outer cylinder,
And a hollow oilless guider capable of lubricating and guiding the spindle on an inner wall of the bushing member.
The method according to claim 1,
The oilless guider,
Gas cylinder, characterized in that the spacer is coupled to the separation section separated into an upper guider and a lower guider.
The method according to claim 2,
Gas cylinders, characterized in that the inner wall of the spacer is provided with a plurality of mother planted base plate to remove the foreign matter of the outer cylinder and absorb the noise.
The method according to claim 1 or 2,
Gas cylinder, characterized in that the oilless guider is formed integrally with the bushing member.
The method according to claim 1 or 2,
The bushing member or the oilless guider,
Gas cylinders, characterized in that a plurality of ring plates are spaced equally spaced up and down for increased durability.

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