KR100773590B1 - gas spring - Google Patents

Abstract

According to the present invention, a gas spring is provided with an opening formed in an upper portion and a lower end coupled to an end cap, the gas chamber being defined so as to be slidably installed in the cylinder and moving gas in the gas chamber when moving from an extended position to a contracted position. A piston for compression, a rod connected to the piston and drawn out through the opening, a gas filling valve unit installed in a valve cavity formed on an outer circumferential surface of a cylinder or end cap to communicate with the gas chamber, and a pressure inside the gas chamber It is provided with a pressure gauge.

Gas spring, pressure gauge, gas chamber,

Description

Gas spring

1 is a partial ablation perspective view of a gas spring according to the present invention,

2 is a cross-sectional view showing a state in which a gas filling valve is installed in the end cap shown in FIG.

3 is a partial ablation perspective view showing another embodiment of a gas spring according to the present invention;

Figure 4 is a partially cutaway perspective view showing a state in which the pressure gauge is installed on the end cap shown in FIG.

<Explanation of symbols for the main parts of the drawings>

10; Gas spring

11; Gas chamber

12; cylinder

30; gas filling valve unit

40; pressure gauge

The present invention relates to a gas spring, and more particularly, to a gas spring that has been improved to measure the gas filling structure into the gas chamber and the pressure within the gas chamber.

Typically, the gas spring is installed in the press die for forming the sheet metal parts can be used to prevent movement of parts such as fastening rings for metal semi-finished products. These gas springs are operated either by an external gas source or by a gas filled in a cylinder that is its own container.

The gas spring is composed of a cylinder having a gas chamber filled at a predetermined pressure with an inert gas such as nitrogen through a filling valve, a sliding piston or head accommodated in the cylinder, and a rod connected thereto. This gas spring provides a cushion that allows the rod to move flexibly to its retracted position when the force exerted on the rod from the outside is greater than the gas repelling force in the gas chamber exerted on the piston.

The gas chamber of such a gas spring is filled with an inert gas of 2,000 psi or more, and the pressure in use can be increased to 3,000 to 5,000 psi. Examples of such gas springs are disclosed in US Pat. Nos. 4,792,128 and 4,838,527.

The gas spring as described above has a lot of restrictions in the design of the gas spring because the gas filling valve for filling the gas is installed on the lower surface of the gas spring. There is also a hassle to separate the gas spring from the device in order to fill the gas spring with gas.

In particular, when a plurality of gas springs are provided, it is difficult to find some gas springs with relatively low internal pressure of the gas springs, and the device installed as described above to fill gas even if a gas spring with low pressure is found. There is a hassle to separate the gas springs from them.

Utility model registration 0028474, patent registration 0014517, patent registration 0145456, and patent registration 0262530 disclose gas springs.

The present invention is to solve the problems as described above, it is possible to visually check the gas chamber pressure of the cylinder filled with inert gas, gas filling efficiency can be filled in the gas chamber in the state mounted on the device The purpose is to provide a gas spring that can be increased.

In order to achieve the above object, the gas spring of the present invention includes a cylinder having an opening formed in an upper portion and a lower portion coupled to an end cap to define a gas chamber;

A piston slidably installed in the cylinder and compressing the gas in the chamber when moving from an extended position to a contracted position, a rod connected to the piston and drawn out into the opening;

Characterized in that it comprises a gas filling valve unit mounted to the valve cavity formed on the outer peripheral surface of the cylinder or the end cap to communicate with the gas chamber.

In the present invention, the gas filling valve unit includes a valve body having a through passage communicating with the inlet and the outlet; A check valve member installed in the valve body so that gas flows through the passage to fill the gas chamber with gas, and a check valve member opened when a pressure greater than the gas pressure in the gas chamber acts on the valve cavity; A spring is provided to elastically bias the check valve member in the closing direction.

Alternatively to achieve the above object another gas spring in the present invention,
An opening having an upper portion and a lower portion coupled with the end cap to define a gas chamber;
A piston slidably installed in the cylinder and compressing the gas in the chamber when moving from an extended position to a contracted position; a rod connected to the piston and drawn out of the opening;
A valve body having a valve seat formed on a side corresponding to a pressure direction acting inside the gas chamber, a check valve member slidably installed in the valve body, and in close contact with the valve seat under the action of gas pressure in the gas chamber; A gas filling valve unit provided between the check valve member and the valve body and having a spring for elastically biasing the chuck valve member to the valve seat side;

And a pressure gauge installed in the through hole formed in the cylinder or the end cap so as to communicate with the gas chamber to measure the pressure inside the gas chamber.

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Hereinafter, an embodiment of a gas spring according to the present invention will be described in detail with reference to the accompanying drawings.

Gas spring according to the present invention is easy to fill the inert gas into the gas chamber, it is possible to observe the internal pressure of the gas spring in use, an embodiment thereof is shown in FIG.

Referring to the drawings, the gas spring 10 is connected to a cylinder 12 or tube assembly having a gas chamber 11 and a sliding piston 13 or head housed therein and to the outside through the cylinder 12. It has a protruding rod 14.

The cylinder 12 has a hollow tube shape, and an opening 15 is formed at one end thereof to protrude the rod 14, and an end cap 16 is coupled to the other end thereof to double the piston 13 and the gas. The chamber 11 is partitioned. Since the inert gas is filled in the gas chamber 11, the rod 14 may be pressed upward, that is, in the protruding direction, and the rod may be moved in a contracted position in response to a force applied to the free end of the rod 14.

The rod 14 is slidably received in a bearing and sealing assembly (not shown) disposed within the cylinder 12. The seal assembly has housings and a rod seal or gasket received in the counter bore of the housing. The bearing is made of a suitable metal such as sintered bronze and preferably contains a lubricant to increase durability. In order to prevent contaminants from entering the bearings and seal assemblies, an annular rod scraper may be provided.

Meanwhile, a valve cavity 20 connected to the gas chamber 11 is formed on an outer circumferential surface of the cylinder 12 or the end cap 16, and the valve cavity 20 is filled with gas for filling inert gas. The valve unit 30 is installed.

As shown in FIG. 2, the valve cavity 20 has a connection hole 21 extending inwardly from an upper surface thereof in the end cap 16 so that the valve cavity 20 can communicate with the gas chamber 11. And a valve mounting portion 22 extending from an outer circumferential surface of the end cap 16. The valve mounting portion 22 may have a stepped configuration, and the screw is formed to be screwed with the valve body to be described later. The valve cavity 20 is not limited to the above-described embodiment and may be any structure as long as it can be mounted with the gas filling valve unit 30.

The gas filling valve unit 30 may be installed in the cavity 20, and may be coupled to the valve mounting unit 22 and may correspond to a pressure direction acting on the inside of the gas chamber 11. ) Is provided with a valve body 32, a check valve member 33 which is slidably installed in the valve body 32 and in close contact with the valve seat 31 by the action of the gas pressure in the gas chamber 11, and A spring 34 is provided between the check valve member 33 and the valve body 32 to elastically bias the chuck valve member 33 toward the valve seat 31. The check valve member 33 extends to the inlet side of the valve cavity through the valve body and has a stem 33a for retracting the check valve member 33 during gas filling. The shank valve member 33 with respect to the valve body 32 is slidably supported and has a larger inner diameter of the cylinder than the outer diameter of the shank valve member 33 so that gas flows when the valve seat 31 and the chuck valve are separated. It is preferable to make it form.

Here, the valve body 32 may be formed with protrusions projecting forward at equal angles to be engaged by a tool such as a wrench (not shown).

The gas filling valve unit 30 is not limited to the above-described embodiment and may be any structure as long as it can inject gas into the gas chamber 11 provided in the cylinder 12. That is, any gas can be injected into the chamber from the outside when the gas is filled and any structure of the check valve in which the valve structure is closed by the internal gas pressure is possible.

On the other hand, the check valve may be installed in the cylinder without being installed in the end cap, it may be installed on the outer peripheral surface of the cylinder within the reciprocating stroke of the piston.

3 and 4 show another embodiment of a gas spring according to the present invention.

Referring to the drawings, a pressure gauge 40 is installed in the cylinder 12 or the end cap 16 of the gas spring to measure the pressure inside the gas chamber 11. The pressure gauge 40 is installed in the gauge mounting portion 41 connected to the gas chamber 11 in the cylinder 12 or the end cap 16. In FIG. 4, the broth tube 42 can measure ultra-high pressure; Oval hollow metal tube) has a structure complemented by the structural strength. The pressure gauge 40 is not limited to the above-described embodiment and can be any structure as long as it can measure the pressure inside the gas chamber.

In order to inject the inert gas into the gas chamber 11 of the gas spring configured as described above, the high pressure gas filling line (not shown) is connected to the gas valve cavity formed in the end cap 16 while the gas spring is mounted. . In this way, the stem 33a causes the check valve member 33 to be retracted so that the gas chamber 11 and the gas supply line communicate with each other to fill gas.

As such, the gas spring can be charged while the gas spring is mounted because the valve unit for filling the gas is installed on the outer circumferential surface of the end cap or the cylinder.

In particular, since the gas spring is equipped with a pressure gauge for measuring the pressure inside the gas chamber, when a plurality of gas springs are installed, it is possible to check a gas spring having a relatively low pressure. Gas can be injected in the installed state.

 Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments are possible.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

As described above, the gas spring according to the present invention is capable of injecting gas through the gas filling valve installed on the outer circumferential surface of the end cap or the cylinder in the state where the gas spring is mounted. It can fundamentally solve the problem of separation from equipment.

In particular, the gas spring is attached to the outer circumferential surface to check the gas pressure in the gas chamber, it is easy to manage the gas pressure in the gas chamber of the gas springs.

Claims (4)

delete delete  An opening having an upper portion and a lower portion coupled with the end cap to define a gas chamber; A piston slidably installed in the cylinder and compressing the gas in the gas chamber when moving from an extended position to a contracted position; a rod connected to the piston and drawn out into the opening; A valve body having a valve seat formed on a side corresponding to a pressure direction acting inside the gas chamber, a check valve member slidably installed in the valve body, and in contact with the valve seat by the action of gas pressure in the gas chamber; A gas filling valve unit provided between the check valve member and the valve body and having a spring for elastically biasing the chuck valve member to the valve seat side; And a pressure gauge installed in the through hole formed in the cylinder or the end cap so as to communicate with the gas chamber, the pressure gauge measuring the pressure inside the gas chamber. delete

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