KR101567805B1 - Decompression valve coupled to container including high pressure gas - Google Patents

Abstract

The present invention relates to a decompression valve coupled to a container including high-pressure gas, which can efficiently prevent a leakage of high-pressure gas when coupled to a container including high-pressure gas. The decompression valve according to the present invention comprises: a container coupling unit; and a gas decompressing unit. The container coupling unit is coupled to a gas discharge unit of a gas container including high-pressure gas and comprises: a container coupling block; a pressurizing pin unit; a sealing coupling member; a first sealing member; and an elastic member. The gas decompressing unit is connected to the container coupling unit and reduces the pressure of the high-pressure gas flowing in from the container coupling unit into a lower pressure. The container coupling block has a penetrating hole in a direction of coupling of the gas discharge unit and the gas discharge unit inserted. The pressurizing pin unit is inserted into the container coupling block to pressurize a gas discharge pin of the gas discharge unit. The sealing coupling member has a first sealing groove formed along the outer circumferential surface, and as it is inserted into the container coupling block, the pressurizing pin unit is penetrated. The first sealing member is placed in a first sealing groove to seal a gap between the outer side surface of the sealing coupling member and the inner side surface of the penetrating hole by being close to the container coupling block. The elastic member is placed to surround at least a part of the pressurizing pin unit to elastically support the sealing coupling member of the gas discharge unit. At this point, as the gas discharge unit is coupled while the pressurizing pin unit, the elastic member, and the sealing coupling member are installed in the container coupling block, the gas discharge pin is pressurized by the pressurizing pin unit and high-pressure gas is discharged.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a high-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure reducing valve for connecting a high-pressure gas container, and more particularly, to a pressure reducing valve for connecting a high-pressure gas container that can effectively prevent high- .

Generally, a pressure reducing valve is provided at the inlet of a gas container filled with high-pressure gas or contents such as an oxygen tank.

The pressure reducing valve is a valve for reducing the pressure of the fluid, and serves to lower the high inlet pressure of the primary side to the low outlet pressure of the secondary side through the pressure regulation in the valve. In addition, the pressure reducing valve may play a role of maintaining a stable pressure at the outlet side by controlling the pressure in the valve when the pressure change at the inlet side is severe in the installation environment.

However, conventionally, there has been a problem that high-pressure gas leaks momentarily during the process of combining the pressure-reducing valve and the gas container.

Although research on the constituent parts for preventing such high-pressure gas from leaking has been continuously carried out, there is still a problem that the constituent parts have a complicated structure and take up a lot of space and have a high manufacturing cost have.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in an effort to solve the above problems, and it is an object of the present invention to provide a high pressure gas container for a high pressure gas container which can effectively prevent high- Pressure reducing valve.

According to an aspect of the present invention, there is provided a pressure reducing valve for connecting a high pressure gas container, comprising: a container coupling unit coupled to a gas discharge unit of a gas container having a high pressure gas therein; And a gas decompression portion communicating with the container coupling portion and lowering the pressure of the high pressure gas introduced from the container coupling portion to a low pressure gas, wherein the container coupling portion includes a through hole And a press pin unit inserted into the container coupling block to press the gas discharge pin of the gas discharge unit, a first sealing groove formed along the outer circumferential surface of the press pin unit, A first sealing member which is disposed in the first sealing groove and which is in close contact with the container coupling block to seal between an outer surface of the sealing member and an inner surface of the through hole, And a sealing member which is disposed to surround at least a part of the pressing pin unit and elastically supports the sealing engagement member when the gas discharging unit is engaged Wherein the gas discharge port is pressed by the pressure pin unit while the gas discharge unit is coupled with the pressure pin unit, the elastic member, and the sealing member being installed in the container coupling block, And the gas is discharged.

The pressure reducing valve for connecting a high pressure gas container according to the present invention is characterized in that the pressing pin unit includes a pin engaging member inserted and coupled to the container engaging block and a pressing member coupled to a lower end of the pin engaging member, And may include a pin member.

In the pressure reducing valve for connecting a high-pressure gas container according to the present invention, a block sealing groove is formed in the container coupling portion along an outer circumferential surface of the upper part of the container coupling block, and the container coupling portion is disposed in the block sealing groove, And a block sealing member which is in close contact with the member and seals between the container coupling block and the pin fastening member.

The pressure reducing valve for connecting a high pressure gas container according to the present invention is characterized in that the pin fastening member has a fastening body inserted from above the through hole and engaged with the through hole and extending from the upper end of the fastening body to the outside of the container combining block And a lower end fastening body extending from a lower end of the fastening body and coupled with the pressing pin member.

The pressure reducing valve for connecting a high pressure gas container according to the present invention is characterized in that the pressing pin member includes a pin body coupled with the lower end fastening body and a pin head formed at a lower end of the pin body to press the gas discharging pin The outer diameter of the lower end fastening body is formed to be smaller than the diameter of the through hole and the outer diameter of the pin body is formed to be smaller than the outer diameter of the lower end fastening body, A space region may be provided.

According to an aspect of the present invention, there is provided a pressure reducing valve for connecting a high-pressure gas container, wherein the sealing engagement member includes: a sealing engagement body formed by recessing the first sealing groove; Wherein a diameter of the pin through hole is larger than an outer diameter of the pin main body so that a flow path of the high pressure gas is formed between the pin main body and the pin through hole A second space region may be provided.

In the pressure reducing valve for connecting a high pressure gas container according to the present invention, a gas discharge hole, which is connected to a gas flow line which is a path through which the high pressure gas flows to the gas pressure reducing portion, is formed in a side wall of the first space region And the high-pressure gas can flow into the gas discharge hole through the second space region and the first space region.

In the pressure reducing valve for connecting a high-pressure gas container according to the present invention, the elastic member may be disposed between the fastening body and the sealing body, and both ends may be coupled to the lower fastening body and the elastic coupling body, respectively.

In the pressure reducing valve for connecting a high-pressure gas container according to the present invention, a second sealing groove is formed in the sealing engagement member so as to be spaced apart from the first sealing groove, along a circumferential surface of the sealing engagement body, And a second sealing member which is disposed in the second sealing groove and is in close contact with the container coupling block to seal between the container coupling block and the sealing coupling member.

According to the pressure reducing valve for connecting a high-pressure gas container of the present invention, it is possible to prevent leakage of high-pressure gas when the gas discharging portion is coupled while preventing noise from occurring when the gas container is coupled.

Further, according to the pressure reducing valve for connecting a high-pressure gas container of the present invention, there is no need for a sealing device and the sealing structure is simplified, so that the pressure reducing valve is reduced in size and weight and accordingly, the installation area of the pressure reducing valve is reduced, , The manufacturing cost of the pressure reducing valve can be reduced, and the pressure reducing valve can be effectively used.

1 is a view showing a state where a gas container is coupled to a pressure reducing valve for connecting a high pressure gas container according to the present invention,
FIG. 2 is a view schematically showing a pressure reducing valve for coupling a high-pressure gas container of FIG. 1,
FIG. 3 is an exploded view of the pressure reducing valve for connecting the high-pressure gas container of FIG. 1,
4 is a view schematically showing a pressure reducing valve for connecting a high-pressure gas container according to another embodiment of the present invention,
Fig. 5 is an exploded view of the pressure reducing valve for engaging the high-pressure gas container of Fig. 4; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a pressure reducing valve for connecting a high-pressure gas container according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a state where a pressure reducing valve for connecting a high-pressure gas container according to the present invention is combined with a gas container, FIG. 2 is a view schematically showing a pressure reducing valve for coupling a high- 1 is an exploded view of a pressure reducing valve for connecting a high-pressure gas container.

1 to 3, a pressure reducing valve for connecting a high-pressure gas container according to an embodiment of the present invention is capable of effectively preventing high-pressure gas from leaking when the pressure reducing valve is coupled with a container containing a high- A container coupling unit 100, and a gas depressurization unit 200.

The container coupling unit 100 is coupled to the gas discharge unit 11 of the gas container 10 in which the high pressure gas is embedded and includes the container coupling block 110, the pressing pin unit 120, A first sealing member 140, an elastic member 150, a block sealing member 160, a second sealing member 170, and a block fastening member 180. The first sealing member 130, the first sealing member 140, the elastic member 150,

The gas depressurization unit 200 has a structure for communicating with the vessel coupling unit 100 and for reducing the pressure of the high pressure gas to a low pressure gas. The structure of the gas depressurization part 200 is substantially the same as the structure for gas depressurization in a normally used depressurization valve, and thus a detailed description thereof will be omitted.

In this embodiment, the gas container 10 contains high-pressure carbon dioxide, and the gas container 10 can be disposed in a machine room of a water purifier or a refrigerator. Here, the high-pressure carbon dioxide gas may be mixed with water and used to produce carbonated water.

A through hole 110a is formed in the coupling direction A of the gas discharge part 11 and the gas discharge part 11 is inserted. The pressing pin unit 120, the sealing engagement member 130, and the elastic member 150 may be installed in the container coupling block 110.

The pressing pin unit 120 is inserted into the container coupling block 110 to press the gas discharging pin 11a of the gas discharging unit 11. [

Specifically, the pressing pin unit 120 includes a pin engagement member 121 inserted into and coupled to the container coupling block 110, and a gas discharge port 11a coupled to a lower end of the pin coupling member 121, And a pressing pin member 122 for pressing the pressing pin member 122.

The pin coupling member 121 has a fastening body 121a inserted at the upper side of the through hole 110a and engaged with the through hole 110a and a fastening body 121b at the upper end of the fastening body 121a, And a lower end fastening body 121b extending from the lower end of the fastening body 121a and coupled with the pressing pin member 122. The upper fastening body 121b extends outward from the lower end fastening body 121a and is in close contact with the block sealing member 160, (121c). The pin securing member 121 is fixed to the container engaging block 110 while the engaging body 121a is engaged with the through hole 110a and the upper engaging body 121b is engaged with the through hole 110a. .

The pressing pin member 122 includes a pin body 122a coupled to the lower end locking body 121c and a pin head 122b formed at the lower end of the pin body 122a for pressing the gas discharging pin 11a ). The high-pressure gas may be discharged to the container coupling block 110 by the pin head 122b which presses the gas discharge pin 11a when the gas discharge portion 11 is engaged.

When the pin fixing member 121 and the pressing pin member 122 are engaged with each other, a fastening protrusion b1 protruding from the pin body 122a is formed in the fastening hole a1 formed in the lower fastening body 121c. The pin coupling member 121 and the pressing pin member 122 may be engaged with each other.

The outer diameter of the lower end fastening body 121c is formed to be smaller than the diameter of the through hole 110a and the outer diameter of the pin body 122a is formed to be smaller than the outer diameter of the lower end fastening body 121c A first space region A1 may be provided in the vessel coupling block 110 to serve as a flow path of the high-pressure gas.

That is, the gas discharge unit 11 is coupled to the container coupling block 110, and the high-pressure gas to be discharged is supplied to the gas depressurization unit 200 while flowing in the first space area A1 .

The sealing member 130 is formed with a first sealing groove 131a along the outer circumferential surface thereof, and the pressing pin unit 120 is inserted while being inserted into the container combining block 110.

The sealing member 130 includes a sealing engagement body 131 in which the first sealing groove 131a is recessed and an elastic member 150 extending from the upper end of the sealing engagement body 131, And a pin through hole 133 through which the pin body 122a penetrates.

The diameter of the pin through hole 133 is formed larger than the outer diameter of the pin main body 122a so that the flow path of the high pressure gas is formed between the pin main body 122a and the pin through hole 133. [ A second space region A2 may be provided.

That is, the gas discharge unit 11 is coupled to the vessel coupling block 110, and the high-pressure gas discharged from the vessel 100 flows into the second space area A2 while being supplied to the first space area A1 do.

A gas discharge hole 110b connected to the gas flow line 210, which is a path through which the high-pressure gas flows to the gas pressure-reducing part 200, is formed in the first space area A1 And the gas discharge hole 110b may be connected to the gas inlet 211 of the gas flow line 210. In this case,

As a result, the gas discharge unit 11 is coupled to the container combining block 110, and the high-pressure gas is discharged through the second space area A2 and the first space area A1, And is supplied to the gas decompression unit 200 while being discharged to the gas flow line 210 from the gas discharge hole 110b.

The second sealing groove 131b may be recessed along the outer circumferential surface of the sealing engagement body 131 while being spaced apart from the first sealing groove 131a in the sealing engagement member 130, The sealing member 130 may be formed with a plurality of sealing grooves in addition to the first sealing groove 131a and the second sealing groove 131b.

In the present embodiment, the sealing member 130 is preferably made of Teflon.

The first sealing member 140 is disposed in the first sealing groove 131a and is in close contact with the container coupling block 110 so that the outer surface of the sealing member 130 and the inner surface of the through hole 110a Respectively.

The second sealing member 170 is disposed in the second sealing groove 131b so as to be in close contact with the container coupling block 110 to form a gap between the container coupling block 110 and the sealing coupling member 130 Sealing between the outer surface of the sealing member 130 and the inner surface of the through hole 110a.

The elastic member 150 is disposed to surround at least a part of the pressing pin unit 120 and elastically supports the sealing engagement member 140 when the gas discharge unit 11 is engaged.

The elastic member 150 is disposed between the coupling body 121a and the sealing coupling body 131 and has both ends connected to the lower coupling body 121c and the elastic coupling body 132 And the sealing engagement member 130 may be coupled to the gas discharge unit 11 so that the sealing engagement member 130 is not moved in the container engagement block 110 when the gas discharge unit 11 is coupled. (130).

A block sealing groove 100a is formed along the outer peripheral surface of the upper part of the container coupling block 110. The block sealing member 160 is disposed in the block sealing groove 100a, Tightening member 121 to seal the space between the container coupling block 110 and the pin coupling member 121. [

That is, the block sealing member 160 seals between the container coupling block 110 and the pin coupling member 121 in an upper region of the container coupling block 110, and the first sealing member 140, And the second sealing member 170 seal the space between the outer surface of the sealing engagement member 130 and the inner surface of the through hole 110a in the lower region of the container combining block 110, It is possible to prevent the high-pressure gas from leaking to the outside of the container combining block 110.

The block fastening member 180 is coupled to the block through hole 100b formed in the sidewall of the vessel coupling part 100 to penetrate the gas flow line 210 side for installation of the gas flow line 210, And is sealed between the through hole 110a and the block through hole 100b while being coupled to the block through hole 100b.

2 and 3, a state in which the pressing pin unit 120, the sealing engagement member 130, and the elastic member 150 are installed in the container coupling block 110 will be schematically described .

The first sealing member 140 and the second sealing member 170 are disposed in the first sealing groove 131a and the second sealing groove 131b so that the elastic member 150 The seal coupling member 130 is inserted from the lower side of the container coupling block 110 in the coupling direction A of the gas discharge unit 11, 110). In the state where the block sealing member 160 is disposed in the block sealing groove 100a, the pressing pin unit 120 is connected to the container coupling block 110 And is fixedly coupled to the container combining block 110 while being inserted from above. The gas discharge port 11 is coupled with the sealing engagement member 130 and the pressing pin unit 120 while the gas discharge port 11a is coupled to the pin head 122b by the pin head 122b. And the high-pressure gas is discharged while being pressurized.

The gas discharge unit 11 is coupled to the container coupling block 110 while the pressing pin unit 120, the elastic member 150 and the sealing member 130 are installed, The pin 11a is pressed by the pressing pin unit 120 so that the high pressure gas is discharged through the second space area A2 and the first space area A1, And may be discharged to the gas flow line 210 and supplied to the gas pressure reducing part 200 while flowing in the coupling block 110.

The pressing pin unit 120, the elastic member 150 and the sealing member 130 are installed in the container coupling block 110 and then the gas discharger 11 is coupled It is possible to prevent the high pressure gas from leaking when the gas discharging part 11 is engaged while preventing the noise from being generated when the gas container is coupled.

Also, by implementing a sealing structure that prevents leakage of the high-pressure gas by using the first sealing member 140 and the second sealing member 170 and the block sealing member 160, As the sealing structure is simplified and the sealing structure is simplified, the pressure reducing valve is reduced in size and weight, thereby reducing the installation area of the pressure reducing valve, facilitating storage and transportation, reducing the manufacturing cost of the pressure reducing valve, .

FIG. 4 is a schematic view of a pressure reducing valve for connecting a high-pressure gas container according to another embodiment of the present invention, and FIG. 5 is an exploded view of a pressure reducing valve for connecting a high-pressure gas container of FIG. In FIGS. 4 and 5, the members denoted by the same reference numerals as the members shown in FIGS. 1 to 3 have the same configuration and function, and a detailed description thereof will be omitted.

Referring to FIGS. 4 and 5, the pressure reducing valve for connecting the high-pressure gas container according to the present embodiment includes a pressing pin unit 2120 and a sealing engagement member 2130.

Specifically, the pressing pin unit 2120 includes a pin main body 2121, a pin main body 2122, a pin top main body 2123, and a pressing pin member 2124.

The pin securing body 2122 is extended from the upper end of the pin body 2121 and engaged with the through hole 110a. Here, the pin-tightening body 2122 may be formed with a second screw thread engaging with a first screw thread formed in an upper region of the container combining block 110, wherein the first screw thread and the second screw thread are engaged with each other, A pin unit 2120 may be coupled to the container coupling block 110.

The pin upper body 2123 extends from the upper end of the pin coupling body 2122 to the outside of the container coupling block 110 and is in close contact with the block sealing member 160.

The pressing pin member 2124 extends from the lower end of the pin body 2121 and presses the gas discharging pin 11a.

The outer diameter of the pin body 2121 is formed to be smaller than the diameter of the through hole 110a and the outer diameter of the pressing pin member 2122 is formed to be smaller than the outer diameter of the pin body 2121, A first space region that is a flow path may be provided and the gas discharge portion 11 is coupled to the vessel coupling block 110. At the same time, the discharged high pressure gas flows in the first space region, And is supplied to the decompression unit 200.

The pin upper body 2123 and the pin coupling body 2122 may be formed with a wrench hole 2125 for coupling the pressing pin unit 2120 to the container coupling block 110 , The pressing pin unit 2120 can be coupled to the container combining block 110 by using a wrench which is formed with the wrench hole 2125.

The first sealing groove 2131a is formed along the outer circumferential surface of the sealing engagement member 2130, and the pressing pin unit 2120 is inserted while being inserted into the container engagement block 110. [

The sealing member 2130 includes a sealing member 2131 having a first sealing groove 2131a formed therein and a sealing member 2131 extending from the upper end of the sealing member 2131, And a pin through hole 2133 through which the pressing pin member 2124 is inserted.

The diameter of the pin penetrating hole 2133 is formed to be larger than the outer diameter of the pressing pin member 2124 so that a gap between the pressing pin member 2124 and the pin penetrating hole 2133 is filled with the high- And a second space area A2 as a flow path may be provided.

That is, the gas discharge unit 11 is coupled to the vessel coupling block 110, and the high-pressure gas discharged from the vessel 100 flows into the second space area A2 while being supplied to the first space area A1 do.

The scope of the present invention is not limited to the above-described embodiments and modifications, but can be implemented in various forms of embodiments within the scope of the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

10: gas container 11: gas discharge part
11a: gas discharge pin 100: container coupling portion
100a: block sealing groove 110: container coupling block
110a: Through hole 110b: Gas outlet
120: pressing pin unit 121: pin engaging member
122: pressing pin member 130: sealing member
131: sealing coupling body 132: elastic coupling body
133: pin through hole 140: first sealing member
150: elastic member 160: block sealing member
170: second sealing member 180: block fastening member
200: gas decompression section 210: gas flow line

Claims (9)

A container coupling portion coupled to a gas discharge portion of a gas container having a high-pressure gas therein; And,
And a gas decompression portion communicating with the container engaging portion and reducing the pressure of the high pressure gas introduced from the container engaging portion to a low pressure gas,
Wherein the container coupling portion includes a container coupling block having a through hole formed in the coupling direction of the gas discharge portion and to which the gas discharge portion is inserted, a pressing pin unit inserted into the container coupling block to press the gas discharge pin of the gas discharge portion, A seal engaging member having a first sealing groove formed along the first sealing groove and inserted into the container engaging block to allow the pressing pin unit to pass therethrough; A first sealing member for sealing between a side surface and an inner surface of the through hole and an elastic member disposed to surround at least a part of the pressing pin unit and elastically supporting the sealing engagement member when the gas discharge unit is engaged,
The gas discharge unit is coupled with the pressurizing pin unit, the elastic member, and the sealing member in the container combining block, and the gas discharge pin is pressurized by the pressurizing pin unit to discharge the high-pressure gas. Pressure regulating valve for connecting a high-pressure gas container. The method according to claim 1,
The pressing pin unit includes:
A pin coupling member inserted and coupled to the container coupling block, and a pressing pin member coupled to a lower end of the pin coupling member and pressing the gas discharge pin. 3. The method of claim 2,
Wherein a block sealing groove is formed in the container coupling portion along an outer peripheral surface of the upper portion of the container coupling block,
Wherein the container coupling portion includes a block sealing member which is disposed in the block sealing groove and is in close contact with the pin fastening member to seal between the container coupling block and the pin fastening member. The method of claim 3,
Wherein the pin-
An upper fastening body extending from the upper end of the fastening body to the outside of the container combining block and closely contacted with the block sealing member and a fastening body inserted into the through hole at a lower end And a lower end fastening body extended from the lower end fastening body to which the pressing pin member is coupled. 5. The method of claim 4,
The pressing pin member
A pin body coupled to the lower fastening body and a pin head formed at a lower end of the pin body and pressing the gas discharge pin,
Wherein the outer diameter of the lower end fastening body is smaller than the diameter of the through hole and the outer diameter of the pin body is smaller than the outer diameter of the lower end fastening body so that the first space Pressure region of the pressure-reducing valve. 6. The method of claim 5,
Wherein the sealing engagement member
And a pin through hole through which the pin body is inserted, wherein the first and second sealing grooves are formed in the first and second sealing grooves,
Wherein a diameter of the pin through-hole is larger than an outer diameter of the pin body, and a second space region is provided between the pin main body and the pin through-hole to serve as a flow path of the high-pressure gas. Pressure reducing valve. The method according to claim 6,
A gas discharge hole is formed in a sidewall of the first space region, the gas discharge hole being connected to a gas flow line that is a path through which the high-pressure gas flows to the gas decompression portion,
Wherein the high-pressure gas flows into the gas discharge hole through the second space region and the first space region. The method according to claim 6,
Wherein the elastic member is disposed between the fastening body and the sealing engagement body, and both ends thereof are coupled to the lower fastening body and the elastic engagement body, respectively. The method according to claim 6,
A second sealing groove is formed in the sealing engagement member so as to be spaced apart from the first sealing groove and along an outer peripheral surface of the sealing engagement body,
Wherein the container coupling block includes a second sealing member which is disposed in the second sealing groove and is in close contact with the container coupling block to seal between the container coupling block and the sealing coupling member. Pressure reducing valve.

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