KR200234005Y1 - Gas opening-closing pin - Google Patents

Abstract

The present invention relates to a structure of a gas open / close pin of a height adjuster that can be used for a table, a chair, and the like, and relates to improving the structure so that the gas open / close pin can be manufactured in one step.

The gas opening and closing pin of the present invention has a groove formed on the outer peripheral surface of the central portion, and is configured such that one or more stages are selectively formed integrally with upper and lower ends of the gas opening and closing pin.

Description

Gas opening-closing pin

The present invention relates to a height adjuster that can be used in a table, chair, and the like, and more particularly to a structure of a gas opening and closing pin for controlling the movement of gas in the chamber of the spindle of the height adjuster.

In general, the height adjuster is provided with a spindle 50 in the tube guide 55 installed in the cylindrical outer cylinder 60 as in the longitudinal cross-sectional structure of FIG. The spindle 50 includes a cylinder 30 into which nitrogen gas or the like is injected at a predetermined pressure, a piston 11 dividing the cylinder into a first chamber 30a and a second chamber 30b, and a first chamber 30a. ) And a pipe holder 70 having a gas opening and closing pin 20 for flowing the gas of the second chamber 30b with each other.

The piston 11 is fixed to one end of the piston rod 10, the other end of the piston rod 10 is fixed to the end of the cylindrical outer cylinder 60 using a fixing clip 40.

Since the internal pressure of the cylinder 30 maintains a pressure higher than atmospheric pressure, the button 33 is pushed to allow the gas in the first chamber 30a and the second chamber 30b to move through the gas inlet and outlet 16. When the gas opening and closing pin 20 is opened, the piston 11 moves in the cylinder 30 by the pressure of the gas. As a result, the spindle 50 moves along the inner surface of the tube guide 55 to raise and lower the height adjuster. Is adjusted.

The process of raising and lowering the spindle 50 along the inner surface of the tube guide 55 will be described in detail with reference to FIGS. 2 and 3.

First, the pipe holder 70 has a cylindrical shape as a whole, and forms an operation hole 41 for receiving the gas opening / closing pin 20 in the center thereof, and the pipe holder and the spindle 50 in the outer O-ring groove 43. In order to maintain the airtightness between the inner walls of the plurality of 'O' rings are fitted. The inner center of the pipe holder 70 is a space 46 for the flow of gas, and both ends of the space 46 between the gas opening and closing pin 20 and the inner surface of the pipe holder 70. O-rings 45 are provided to maintain airtightness, respectively. In addition, the space portion 46 is provided with an inner holder 47 for maintaining the gap of the O-ring 45 and the smooth slide operation of the opening and closing pin 20. One side of the inner holder is drilled with a fine hole 47a so as to be connected to the gas entrance and exit 16.

In the pipe holder having the structure as described above, as shown in FIG. 2, the gas opening and closing pin 20 is closed so that the gas of the first chamber 30a is completely blocked so that the gas cannot flow through the gas inlet and outlet 16. The height of 50) is maintained in that state.

In the case of adjusting the height by sliding the spindle 50, pressing the gas opening and closing pin 20 using a button (not shown) as shown in Figure 3 while the gas opening and closing pin is moved toward the first chamber (30a) gas opening and closing pin The airtight is released between the 20 and the O-ring 45 to form a space. That is, when the annular groove 48 formed at the center of the gas opening and closing pin moves toward the O-ring 45, a space is formed between the O-ring 45 and the gas opening and closing pin 20 because the annular groove is smaller than the outer diameter of the gas opening and closing pin. Since the gases in the first chamber 30a and the second chamber 30b flow through each other and the gas pressure in each chamber changes with each other through the opened gas entrance 16, the piston 11 moves to adjust the height of the spindle. Is done. When the pressure applied to the button 33 is released after the height of the spindle is adjusted, the gas entrance / exit 16 is again blocked by the gas opening / closing pin 20.

In the height adjuster constituted as described above, the conventional gas opening and closing pin 20 is formed as an example, as shown in FIG. 4, a recessed groove 48 is formed at an intermediate portion, and an inclined surface is formed at an end of the recessed groove. 58 is formed. The lower end of the gas opening and closing pin 20 is formed with an insertion protrusion for inserting the fixing washer 200 and inserts the fixing washer 200 to the insertion protrusion to fix the washer in a joint manner.

The gas opening and closing pin 20 configured as described above is not only to install a return groove, but also to form an insertion protrusion at an end of the gas opening and closing pin, and is manufactured through a process of jointing using a separate washer for gas opening and closing. There is a problem that the manufacturing process of the fin becomes complicated and the manufacturing cost of the gas opening and closing fin is increased.

The present invention is devised to solve the above problems of the prior art, and improves the structure of the gas opening and closing pins so that the gas opening and closing pins can be manufactured in one process.

The gas opening and closing pin of the present invention has a circular groove, or one or more streamlined grooves, formed on the outer peripheral surface of the central portion, and the edges of the upper and lower ends of the gas opening and closing pins are chamfered.

Upper and lower ends of the gas opening and closing pins may selectively form one or more steps in a stepwise manner.

In addition, the upper end portion of the gas opening and closing pins may be formed along the central axis of the gas opening and closing pins with a predetermined depth to facilitate the coupling with the button.

The structure of the gas opening and closing pins as described above is a structure that can be cut in one process or can be molded by a cold forging method using a mold, so the work process is very simple.

Therefore, the present invention aims to simplify the structure of parts and to reduce parts and assembly costs by configuring the gas opening and closing pins so that they can be formed by one cutting operation or by cold forging using a mold.

1 is a longitudinal sectional view of a spindle constituting a general gas cylinder height adjusting device,

2 is a cross-sectional view showing a state in which a gas opening / closing pin of a conventional structure blocks a gas inlet and outlet of a pipe holder;

3 is a cross-sectional view showing a state in which a gas opening / closing pin of a conventional structure opens a gas inlet and outlet of a pipe holder;

4 is a cross-sectional view of a gas opening and closing pin of a conventional structure,

5 is a cross-sectional view showing a state in which the gas opening and closing pins block the gas inlet and outlet of the pipe holder according to one embodiment of the present invention;

6 is a cross-sectional view showing a state in which the gas opening and closing pins according to one embodiment of the present invention open the gas inlet and outlet of the pipe holder;

7 is a cross-sectional view showing a state in which the gas opening and closing pins block the gas inlet and outlet of the pipe holder according to another embodiment of the present invention;

8 is a cross-sectional view showing a state in which a gas opening and closing pin of the pipe holder according to another embodiment of the present invention is opened;

9 to 15 are perspective views showing various other structural examples of the gas opening and closing pins according to the present invention,

<Explanation of symbols on main parts of the drawings>

70 ': Pipe Holder 70a': Jaw

100, 110, 120, 130, 140, 150, 160, 170, 180: gas opening and closing pin

The gas opening / closing pin according to the present invention is a gas opening / closing pin of a gas cylinder that opens and closes a gas inlet / outlet formed in a pipe holder sealing one end of a cylinder to move a position of a piston in the cylinder. It is formed, it characterized in that at least one end is selectively formed integrally with the upper and lower ends of the gas opening and closing pins.

The shape of the groove may be composed of a ring-shaped, or one or more streamlined grooves.

Further, an inclined surface is formed at the end of the annular groove.

Moreover, the diameter reduction part comprised by the said stage can be comprised so that it may become a tapered form, and can be comprised by chamfering the edge of the upper-lower end part of the said gas opening / closing pin.

In addition, the gas opening and closing pin may be made of a metal or a non-metal material.

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

First, referring drawings, Figs. 5 and 7 are cross-sectional views showing a state in which the gas opening and closing pin according to the present invention blocks the gas inlet and outlet of the pipe holder, and Figs. 6 and 8 are gas opening and closing pins according to the present invention. Fig. 9 is a perspective view showing examples of various structures of the gas opening / closing fins according to the present invention.

Gas opening and closing pin according to the present invention is made of a pin having a constant diameter as shown in Figures 5 to 15, the gas opening and closing pin is assembled from the lower portion of the pipe holder 70 ', the gas opening and closing pin is lowered In this case, at least one groove is formed at the center of the first chamber 30a, which is the upper portion of the piston 11, and the gas inlet 16 of the pipe holder 70 '.

5 and 6, the upper portion may have the structure of the stepped gas opening / closing pin 100, and the annular groove 100a is formed in the center portion thereof.

The gas opening / closing pin 100 is pushed upward by the gas pressure of the first chamber 30a so as not to be separated from the hole 41 of the pipe holder 70 '. An annular tuck 70a 'is formed in the upper end of the gas opening / closing pin, and a stepped portion, that is, a diameter reducing portion 100b having a reduced diameter, is formed so that the diameter reducing portion 100b is formed in the pipe holder 70'. ) Is caught by the annular jaw 70a '. Therefore, the gas opening and closing pin 100 is pushed upward by the pressure of the first chamber 30a, but the diameter reducing part 100b is caught by the annular jaw 70a '. It is not detached from the hole 41 of the pipe holder 70 '. In addition, the circumference | surroundings of the upper end of the said diameter reduction part are chamfered.

In the opening / closing operation of the gas opening / closing pin 100, FIG. 5 illustrates a normal state in which no force acts on the gas opening / closing pin from above. Here, the diameter reducing portion (100b) is in a state that is hanging on the annular jaw (70a '), the lower portion of the gas opening and closing pin (100) together with the O-ring 45 of the hole of the pipe holder (70') ( 70a ') and eventually the gas entrance 16 is closed. On the contrary, FIG. 6 is a view showing a state in which the gas opening and closing pin 100 is pressed by applying downward force, and the diameter reducing portion 100b is lowered without being caught by the annular jaw 70a '. The groove 100a of the gas opening / closing pin 100 is positioned at the height of the O-ring 45, so that the first and second chambers 30a and the gas inlet 16 of the pipe holder 70 ′ communicate with each other. State is maintained.

7 and 8 show the structure of the gas opening and closing pin 160 without the diameter reduction portion and the annular jawless pipe holder 70 ', in the case of FIG. It shows the normal state which does not work.

Even if there is no diameter reduction portion as described above, since the button not shown in the figure is configured to support the upper end of the gas opening and closing pin 160, the gas opening and closing pin does not push upward, and the lower portion of the gas opening and closing pin 160 is Close the gas inlet 16 of the pipe holder 70 'with the O-ring 45. On the contrary, FIG. 8 illustrates a state in which the gas opening / closing pin 160 is pressed by applying downward force by using a button (not shown). The groove 160a of the gas opening / closing pin 160 is located, so that the first and second chambers 30a and the gas inlet and outlet 16 of the pipe holder 70 'are in communication with each other.

The structure of the gas opening and closing pin is not limited to the above embodiment, and as shown in FIG. 9, the upper and lower diameter reducing parts 110b having two stages are formed, and the gas opening and closing groove 110a is formed in the center. Pin 110 can be configured,

As shown in FIG. 10, the gas reduction pin 120 may be configured to have a diameter reducing part 120b having one end formed thereon and a streamlined groove 120a formed only at one side thereof in the center thereof.

In addition, as shown in FIG. 11, the gas reducing pin 130 may be formed in a structure in which a diameter reducing portion 130b having two stages is formed at an upper portion, and a streamlined groove 130a is formed at only one side at the center thereof.

As shown in FIG. 12, the gas reducing pin 140 may be configured in a structure in which a single diameter-reduced portion 140b having one end is formed at an upper portion, and a streamlined groove 140a is formed at both sides in the center thereof.

Meanwhile, as shown in FIG. 13, one streamlined groove 150a is formed only at one side of the center, and a diameter reducing part 150b having one end is formed at the top thereof, but the gas opening and closing is performed so that the taper shape is gradually reduced in diameter toward the top. The pin 150 may be configured.

When the end is configured to taper as described above, the annular tuck 70a 'of the pipe holder 70' is preferably formed to be symmetrical with the tapered shape to accommodate the taper.

Further, as shown in FIGS. 14 and 15, the annular grooves 170a and 180a are formed in the center, respectively, and the gas opening / closing fins 170 and 180 having the diameter reducing portions 170b and 180b having one end formed at the bottom thereof can be formed. In particular, as shown in FIG. 14, a groove 181 having a predetermined depth may be formed on the gas opening / closing pin in the center axial direction of the gas opening / closing pin to engage with a button (not shown).

In the present invention, if the structure of the gas opening and closing pin that can be produced by one cutting or forming process falls within the scope of the present invention and the structure can be variously modified.

Therefore, each of the gas opening and closing fins 100, 110, 120, 130, 140, 150, 160, 170, and 180 may be selectively formed with a circular groove or a streamlined groove, and the number of the grooves is not limited.

In addition, the gas opening and closing pin may be made of a metal such as copper, aluminum, cast iron, or the like as well as a nonmetal material made of plastic, such as PVC, as long as it can sufficiently serve as the gas opening and closing pin.

In this way, the gas opening and closing pins according to the present invention have a structure that can be cut or molded in a single process, so the assembly of the gas opening and closing pins is very simple, and there is no need to use a washer or the like. It is possible to obtain an effect.

Claims (10)

In the gas opening and closing pin of the gas cylinder for opening and closing the gas entrance and exit formed in the pipe holder for sealing one end of the cylinder to move the position of the piston in the cylinder, The groove is formed in the outer peripheral surface of the central portion of the gas opening and closing pins, integral gas opening and closing pins, characterized in that at least one end is selectively formed integrally with the upper and lower ends of the gas opening and closing pins. The method of claim 1, The integrated gas opening and closing pins, characterized in that the groove shape of the groove. The method of claim 1, The shape of the groove is an integrated gas opening and closing pin, characterized in that one or more streamlined grooves. The method of claim 2, An integrated gas opening and closing pin, characterized in that the inclined surface is formed at the end of the annular groove. The method of claim 1, An integral gas opening and closing pin, characterized in that the diameter reducing portion constituted by the end is tapered. The method of claim 1, An integrated gas opening and closing pin, characterized in that the upper and lower edges of the gas opening and closing pins are chamfered. The method of claim 1, The gas opening and closing pin is an integrated gas opening and closing pin, characterized in that the material of the metal. The method of claim 1, The gas opening and closing pin is an integrated gas opening and closing pin, characterized in that the material of the non-metal. The method of claim 1, An integrated gas opening and closing pin, characterized in that a groove having a predetermined depth in the central axial direction of the gas opening and closing pin is formed on the gas opening and closing pin. The method of claim 1, The gas opening and closing pin is an integrated gas opening and closing pin, characterized in that formed by cold forging method.