KR200485114Y1 - A portable gas filling device - Google Patents

Abstract

The present invention relates to a portable gas filling apparatus for transferring industrial gas from a large container to a small container or for sealing a gas such as nitrogen into a pipe. For example, the present invention may include a flexible hose, a three-way nipple, a connection port, a pressure gauge, an opening / closing valve, and a charging port. When the opening / closing valve is closed, When the remaining amount of the gas is more than the reference value, the opening of the opening / closing valve is started to charge the gas to be filled with the gas. When a predetermined amount of gas is filled in the container to be charged while visually confirming the internal pressure change of the storage container through the pressure gauge , The gas filling of the container to be filled can be completed by locking the opening / closing valve and separating the filling port from the container to be filled.

Description

The present invention relates to a portable gas filling device,

The present invention relates to a gas filling apparatus, and more particularly, to a portable gas filling apparatus for transferring an industrial gas from a large container to a small container or sealing a gas such as nitrogen into a pipe.

Industrial gases such as oxygen, argon, carbon dioxide, and LPG are used for various purposes such as welding, cutting and refrigerant charging. Because of the transportation burden, these industrial gases are transferred from a large-capacity storage container to a small-capacity container to be filled, and then only the container to be filled is taken to the work site.

A portable gas filling device is used for this purpose. The conventional portable gas filling device has a structure that simply connects the storage container and the container to be filled with each other and there is no means for checking the remaining amount of the storage container and the container to be filled.

For this reason, the remaining amount of the storage container and whether or not the container to be charged is filled can be judged by the weight of the container being charged, the sound of gas ejection from the charging device during charging, and so on. The amount of which was inevitably inaccurate. Actually, work is delayed or stopped frequently in the field due to insufficient filling of the charging object container.

Korean Registered Patent No. 10-0920270 (Registered on Aug. 10, 2009, entitled: Rechargeable gas container)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for detecting a residual amount of a storage container, Which is capable of preventing the occurrence of a shortage of gas.

To achieve the above object, a portable gas filling apparatus of the present invention includes: a flexible hose 110 bent freely; A three-way nipple 120 provided at one end of the flexible hose 100 and having a branch flow path 121 communicated with the outside; A connection port 130 mounted at an end of the three-way nipple 120 and connected to the discharge pipe 10a of the storage container 10 in which the gas is stored; A pressure gauge (140) coupled to the branch passage (121) to measure the internal pressure of the storage container (10); An open / close valve 150 coupled between the three-directional nipple 140 and one end of the flexible hose 110 to temporarily shut off gas flow from the storage container 10 to the flexible hose 110; And a charging port 160 installed at the other end of the flexible hose 110 and connected to the charging port 11a of the charging object container 11. In a state where the opening and closing valve 150 is closed, The remaining amount of the gas stored in the storage container 10 is checked through the pressure gauge 140. When the remaining amount of the gas is equal to or more than the reference value, the opening and closing valve 150 is opened to start charging the gas to be filled in the container 11 Closing valve 150 is closed when a predetermined amount of gas is filled in the object container 11 while visually confirming a change in the internal pressure of the storage container 10 through the pressure gauge 140, The filling of the filling target container (11) is completed by separating the filling port (160) from the container (11).

In the portable gas filling apparatus according to the present invention, the opening and closing valve 150 is formed such that an inlet 151a and an outlet 151b through which gas enters and exits are symmetrical in both directions, and the inlet 151a and the outlet 151b, A stem shaft 152 that moves up and down along the central passage 151c and a handle 153 that moves up and down the stem shaft 152. The main body housing 151 includes a central passage 151c communicated with the stem shaft 152, And the stem shaft 152 has a thread section 152a and a connection section 152b extending upward from the thread section 152a and coupled to the handle 153, Closing section 152d that extends further downward from the extending section 152c and opens and closes the flow between the inlet 151a and the outlet 151b, A gap t is formed between the extension section 152c of the stem shaft 152 and the inner peripheral surface of the central passage 151c, And forming, the on-off valve 150, a cylindrical airtight member 154 is inserted in interference fit in the gap (t); And a threaded portion 152a of the stem shaft 152 are coupled to each other with a first diameter portion 155a of the stem shaft 152. The first diameter portion 155a has a diameter larger than that of the first diameter portion 155a, And a second diameter portion 155b coupled to a central protrusion 151d of the first and second protrusions 151 and 151. The cover nut 155 may be a multi-

In the portable gas filling apparatus according to the present invention, a groove (g) is formed in a circular shape along an outer circumferential surface in an extension section (152c) of the stem shaft (152), and the opening / closing valve (150) A sealing member (156) inserted into the groove (g) so as to be in close contact with the hermetic member (154); And an elastic material which forms a waveform along an imaginary circular arc of which one side is broken and which is interposed between the sealing member 156 and the stem shaft 152 so as to press the sealing member 156 in tight contact with the hermetic member 154 And a pressing member 157 of the pressing member 157.

According to an aspect of the present invention, there is provided a portable gas filling apparatus comprising: a flexible hose which is bent freely; A three-way nipple 220 provided at one end of the flexible hose 210 and having a branch flow path 221 communicated with the outside; A connection port 230 mounted at an end of the three-way nipple 220 and connected to the discharge pipe 20a of the storage container 20 storing the gas; A pressure gauge 240 coupled to the branch passage 221 for measuring the internal pressure of the storage container 20; A first opening and closing valve 250 coupled between one end of the three-way nipple 220 and one end of the flexible hose 210 for temporarily shutting off gas flow from the storage container 20 to the flexible hose 210, ); And a second open / close valve (260) coupled to the other end of the flexible hose (210) to control the flow of gas from the flexible hose (210) to the gas filling pipe (21). And a filling port 270 mounted at an end of the second opening and closing valve 260 and connected to the filling port 21a of the gas filling subject pipe 21. The first opening and closing valve 250, The remaining amount of the gas stored in the storage container 20 is checked through the pressure gauge 240 while the second on-off valve 260 is closed. If the remaining amount of the gas is greater than the reference value, Closing valve 260 is opened to start gas filling of the gas filling pipe 21 and the auxiliary pressure gauge 21b mounted on the gas filling pipe 21 Closing valve 260 is closed when a predetermined amount of gas is filled in the pipe 21 to be filled with gas while visually checking the change in the internal pressure of the pipe 21 to be filled with gas through the pipe 22, By separating the filling port 270 from the target pipe 21, Group is characterized in that the gas filled in the gas filled the target pipe (21) ends.

In the portable gas filling apparatus according to the present invention, the first opening / closing valve (250) and the second opening / closing valve (260) are formed such that an inlet and an outlet through which gas enters and exits are symmetrical with each other, And a stem for lifting and lowering the stem shaft, wherein the stem shaft includes a threaded section and an upper part extending upward from the threaded section and coupled to the handle, wherein the stem shaft includes: a main body housing having a central flow path; An extension section extending downward from the thread section, and an opening / closing section extending further downward from the extension section to open / close a flow between the inlet and the outlet, wherein the extension section of the stem shaft, A gap is formed between the inner circumferential surfaces of the central flow path, and the first on-off valve 250 and the second on-off valve 260 are provided with a gap Privacy of the cylindrical member to be inserted; And a second diameter portion formed to have a diameter larger than that of the first diameter portion and coupled to a central protrusion of the main housing having the center flow path formed therein, the multi- ; ≪ / RTI >

In the portable gas filling apparatus according to the present invention, a groove is formed in a circular shape along an outer circumferential surface in an extension section of the stem shaft, and the first on-off valve 250 and the second on-off valve 260 are annular, A sealing member inserted into the groove so as to be in close contact with the hermetic member; And a pressing member made of an elastic material that forms a waveform along a virtual arc of which one side is broken and is interposed between the sealing member and the stem shaft so as to press the sealing member against the hermetic member.

According to the portable gas filling apparatus of the present invention, since the opening and closing valve and the pressure gauge are integrally formed in the flexible hose, the residual amount of the storage container can be immediately checked without a separate pressure gauge detachment process, It is possible to obtain an effect of accurately charging while checking the gas filling amount of the container.

This makes it possible to prevent the efficiency of various operations performed on site, such as welding, cutting, and refrigerant charging, from being hindered.

Particularly, the hermetic sealing member, the sealing member, and the pressing member are additionally provided inside the opening / closing valve, thereby preventing leakage of gas during charging.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the overall configuration of a portable gas filling apparatus according to an embodiment of the present invention,
FIG. 2 is an exploded perspective view for explaining a structure in which a connection port of the portable gas filling apparatus of FIG. 1 is coupled to a storage container,
3 is a cross-sectional view for explaining the internal structure of the opening and closing valve of the portable gas filling apparatus of Fig. 1,
Fig. 4 is a partially enlarged view of the main part of Fig. 3,
5 is a view schematically showing the overall configuration of a portable gas filling apparatus according to another embodiment of the present invention.

Hereinafter, embodiments of a portable gas filling apparatus according to the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known techniques will be omitted to avoid obscuring the subject matter of the present invention.

FIG. 1 is a view schematically showing the overall configuration of a portable gas filling apparatus according to an embodiment of the present invention. FIG. 2 is an exploded perspective view illustrating a structure in which a connection port of the portable gas filling apparatus of FIG. to be.

Referring to FIGS. 1 and 2, a portable gas filling apparatus 100 according to an embodiment of the present invention is a device for transferring industrial gas from a large container to a small container. The device includes a flexible hose 110, A valve 130, a connection port 130, a pressure gauge 140, an on-off valve 150, and a filling port 160.

The flexible hose 110 is bent freely and is provided with a short length corresponding to the close distance between the gas storage container 10 and the container 11 to be filled, The flexible hose 110 has a length of about 1 to 2 m and has a reinforcing layer formed between the two rubber layers so as to have a sufficient air use pressure of 7 kg / cm 2 or more.

The three-way nipple 120 has a branch flow path 121 communicated with the outside, and is installed at one end of the flexible hose 100.

The connection port 130 is attached to the end of the three-way nipple 120 and is connected to the discharge pipe 10a of the storage container 10 in which the gas is stored. The internal pressure of the storage container 10 is generally 1,000 psi or more, which is 30 to 40 times the tire air pressure. Therefore, it is preferable that the connection port 130 is connected to the discharge pipe 10a in a threaded manner rather than connected to the discharge pipe 10a in a one-touch manner.

2, the connection port 130 includes a threaded portion 131 screwed to the three-way nipple 120, and a locking protrusion 132a extending from the threaded portion 131 and extending outwardly And an inserting part 133 extending from the body part 132 and inserted into the discharge pipe 10a of the storage container 10. [ And further includes a coupling nut 135 which is inserted from the side of the screw portion 131 so as to be caught by the one end stopper 132a and screwed to the outside of the discharge pipe 10a.

The pressure gauge 140 is coupled to the branch passage 121 to measure the internal pressure of the storage container 10 as shown in FIG.

The opening and closing valve 150 is coupled between the three-way nipple 120 and one end of the flexible hose 110 in order to temporarily block the flow of gas from the storage container 10 to the flexible hose 110. It is preferable that the opening and closing valve 150 is screwed to the three-directional nipple 120 and the flexible hose 110, respectively.

The valve disk 150 may be a needle valve having a needlelike valve disk (corresponding to the stem axis) for adjusting the flow rate as in the present embodiment, Various valves such as a ball valve for opening and closing a valve disc, or a butterfly valve for rotating a disc-shaped valve disc in a valve body can be used.

The filling port 160 is attached to the other end of the flexible hose 110 and is connected to the filling port 11a of the container 11 to be filled. And is configured in the same manner as the connection port 130 for convenience of manufacturing.

In this embodiment configured as described above, the remaining amount of the gas stored in the storage container 10 is first checked through the pressure gauge 140 while the opening / closing valve 150 is closed. If the remaining amount of the gas is equal to or more than the reference value, 150 to open the charging object container 11 to start charging the gas.

If the remaining amount of the gas stored in the storage container 10 is below the reference value, for example, if the internal pressure of the storage container 10 is less than the commercial pressure indicated on the outside of the storage container 10, It is judged that the remaining amount of the gas is insufficient and the gas filling can be started immediately by replacing with a new storage container.

Thereafter, when a predetermined amount of gas is filled in the object container 11 while confirming the internal pressure change of the container 10 through the pressure gauge 140, the opening / closing valve 150 is closed and the object container 11 The charging of the filling object vessel 11 is completed.

That is, the degree to which the internal pressure of the storage container 10 is reduced is converted into the gas filling amount. When the filling amount reaches the specified amount, it is determined that the filling of the object container 11 is completed, Thereby separating the charging port 160. [

There has been no conventional means for checking whether the remaining amount of the gas stored in the storage container 10 and how much gas is charged in the container 11 to be filled. The amount of gas to be filled in the container 11 to be filled was inevitably inaccurate because the gas was filled in the storage container 10 with sufficient gas and without knowing how much gas was charged in the container 11 to be filled .

When the filling object vessel 11 is insufficiently filled with gas, various operations to be performed in the field such as welding, cutting, refrigerant filling, and the like may be interrupted in the middle, Therefore, the efficiency of the operation is reduced.

In order to avoid such a problem, there is also a method of confirming whether the gas is sufficiently stored in the storage container before the gas filling using a separate pressure gauge, and confirming whether the gas to be filled is filled with the gas after filling the gas . However, this method requires a separate pressure gauge and high-pressure hose alternately, so that the gas filling operation becomes very troublesome.

In this embodiment, the pressure gauge 140 and the on-off valve 150 are integrally formed with the flexible hose 110, so that the remaining amount of the storage container 10, It is possible to easily and accurately charge the gas to be charged 11 with a correct amount of gas, thereby solving all of the problems described above.

Hereinafter, the portable gas filling apparatus 200 according to another embodiment of the present invention will be described.

5 is a view schematically showing the overall configuration of a portable gas filling apparatus according to another embodiment of the present invention.

Referring to FIG. 5, the portable gas filling apparatus 200 according to another embodiment of the present invention includes a gas filling pipe 21 such as various kinds of water pipes and refrigerant gas pipes embedded in a main building, an apartment building, an office building, A three-way nipple 220, a connection port 230, a pressure gauge 240, a first on-off valve 250, and a second on-off valve 250. The apparatus includes a flexible hose 210, 2 opening / closing valve 260, and a filling port 270. Here, the three-directional nipple 220, the connection port 230, and the pressure gauge 240 are the same as those of the present embodiment, and a description thereof will be omitted. The remaining components are also common to the embodiment of the present invention The description thereof will be omitted.

The gas filling operation is carried out to prevent the inside of the pipe 21 to be gas-filled by the moisture or the like from being corroded.

The flexible hose 210 is provided with a long length for connecting between the gas storage container 20 mounted on the vehicle and the gas-filling target pipe 21 embedded in the building, and has a length of about 30 to 50 m.

The first opening and closing valve 250 is coupled between the three-way nipple 220 and one end of the flexible hose 210 to temporarily block the flow of gas from the storage container 20 to the flexible hose 210.

The second on-off valve 260 is coupled to the other end of the flexible hose 210 to control gas flow from the flexible hose 210 to the gas-filling pipe 21.

The filling port 270 is attached to the end of the second opening / closing valve 260 and is connected to the filling port 21a of the pipe 21 to be filled with the gas.

In this embodiment configured as described above, the remaining amount of the gas stored in the storage container 20 through the pressure gauge 240 can be set to a predetermined value in a state in which one operator has closed both the first open / close valve 250 and the second open / close valve 260 If the remaining amount of the gas is not less than the reference value, the first opening / closing valve 250 is opened to allow charging. Then, the operator moves to the inside of the building where the gas filling pipe 21 is located to open the second opening / closing valve 260 The gas filling target pipe 21 starts filling the gas.

Thereafter, when a predetermined amount of gas is filled in the pipe 21 to be gas-charged while visually confirming the internal pressure change of the gas-filling pipe 21 through the auxiliary pressure gauge 21b mounted on the gas-filling pipe 21 Closing the second opening / closing valve 260 and separating the filling port 270 from the pipe 21 to be filled with gas, the gas filling of the pipe 21 to be filled with gas is ended.

Conventionally, a conventional high-pressure hose is used to simply connect the storage container 20 and the charging connection 21a of the pipe 21 to be gas-filled to perform the gas filling operation. Whether or not the gas filling pipe 21 is charged It was confirmed through the auxiliary pressure gauge basically provided in the gas-filling pipe 21.

In addition, since the storage container 20 and the gas-filling pipe 21 are distant from each other, one of the workers must check whether the gas-filling pipe 21 is charged while looking at the auxiliary pressure gauge 21b, One person should immediately lock the valve of the storage container 20 according to the signal of the opponent's worker (radio signal, radio, etc.) to prevent the gas from being overcharged in the pipe 21 to be gas-

On the other hand, in this embodiment, regardless of the distance, one operator can independently perform the gas filling operation by sequentially opening and closing the first opening and closing valve 250 and the second opening and closing valve 260.

Particularly, since the amount of gas filled in the storage container 20 can not be accurately confirmed in the past, if the gas is insufficient in the storage container 20 and gas is released during the gas filling operation, the operation is stopped and the storage container 20 ) Had to recharge the gas. On the other hand, in the present embodiment, the residual amount of the gas stored in the storage container 20 is checked first through the pressure gauge 240 and the gas filling is started, thereby preventing this situation in advance.

On the other hand, the on-off valve 150 (including the first and second on-off valves in other embodiments of the present invention) configured in one embodiment of the present invention may be configured as follows to prevent gas leakage during charging.

3 is a sectional view for explaining the internal structure of the opening and closing valve of the portable gas filling apparatus of Fig. 1, and Fig. 4 is a partially enlarged view of the main part of Fig.

3 and 4, the opening / closing valve 150 includes an inlet 151a and an outlet 151b through which gas enters and exits and which is symmetrically formed in both directions and communicates with the inlet 151a and the outlet 151b. And a handle 153 for raising and lowering the stem shaft 152. The handle shaft 153 includes a main body housing 151 having the stem shaft 152 and a stem 151,

The stem shaft 152 has a thread section 152a and a connection section 152b extending upward from the thread section 152a and coupled to the handle 153 and an extension section 152b extending downward from the thread section 152a Closing section 152d that extends further downward from the extension section 152c and opens and closes the flow between the inlet 151a and the outlet 151b.

A gap t is formed between the extension section 152c of the stem shaft 152 and the inner peripheral surface of the central passage 151c so that the gas flowing in the central passage 151c does not leak to the outside through the gap t A cylindrical airtight member 154 is inserted into the gap t by interference fit.

A cover nut 155 having a multistage inner shape is formed in the center protruding portion 151d of the main housing 151 in which the central passage 151c is formed so that the hermetic member 154 is not separated to the upper side of the main housing 151, do. The cover nut 155 has a first diameter portion 155a to which the threaded section 152a of the stem shaft 152 is coupled and a second diameter portion 155b having a diameter larger than that of the first diameter portion 155a and coupled to the center projection portion 151d And a second diameter portion 155b.

The extension section 152c of the stem shaft 152 is in close contact with the side surface of the hermetic member 154 and slides up and down. In order to maintain the airtightness therebetween, the extension section 152c of the stem shaft 152, It is preferable to form the groove g with the annular sealing member 156 inserted into the groove g and to be in tight contact with the hermetic member 154. [

The sealing member 156 may be worn while being moved up and down together with the stem shaft 152. The sealing member 156 is always pressed against the hermetic member 154 by the urging force of the urging member 157 through the urging member 157 of elastic material between the sealing member 156 and the stem shaft 152 It is preferable that they are brought into close contact with each other.

It is preferable that the pressing member 157 has a waveform along one of the imaginary circular arc which is broken in terms of the assembly of the pressing member 157 and maintenance of elasticity.

In the portable gas filling apparatus of the present invention constructed as described above, since the opening and closing valve and the pressure gauge are integrally formed in the flexible hose, the remaining amount of the storage container can be immediately checked without any separate pressure gauge detachment process, It is possible to obtain an effect that the gas can be accurately charged while confirming the gas filling amount of the container to be filled in real time.

This makes it possible to prevent the efficiency of various operations performed on site, such as welding, cutting, and refrigerant charging, from being hindered.

Particularly, the hermetic sealing member, the sealing member, and the pressing member are additionally provided inside the opening / closing valve, thereby preventing leakage of gas during charging.

The scope of the present invention is not limited to the above-described embodiments and modifications, but may be embodied 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 invention as defined by the appended claims.

100: Portable gas filling device according to one embodiment of the present invention
110: Flexible hose
120: Three-way nipple
130:
140: Manometer
150: opening / closing valve
160: Charging port

Claims (6)

A flexible hose 110 flexing freely;
A three-way nipple 120 provided at one end of the flexible hose 110 and having a branch flow path 121 communicated with the outside;
A connection port 130 mounted at an end of the three-way nipple 120 and connected to the discharge pipe 10a of the storage container 10 in which the gas is stored;
A pressure gauge (140) coupled to the branch passage (121) to measure the internal pressure of the storage container (10);
An open / close valve 150 coupled between the three-directional nipple 120 and one end of the flexible hose 110 to temporarily shut off gas flow from the storage container 10 to the flexible hose 110; And
And a charging port 160 mounted on the other end of the flexible hose 110 and connected to the charging port 11a of the charging object container 11,
The opening and closing valve 150 includes a center channel 151c formed symmetrically with respect to the inlet 151a and the outlet 151b through which the gas enters and exits and communicates with the inlet 151a and the outlet 151b And a handle 153 for lifting and lowering the stem shaft 152. The handle 151 includes a main body housing 151, a stem shaft 152 that moves up and down along the central passage 151c,
The stem shaft 152 includes a thread section 152a and a connection section 152b extending upward from the thread section 152a and coupled to the handle 153 and a connection section 152b extending downward from the thread section 152a Closing section 152d that extends further downward from the extension section 152c and opens and closes the flow between the inlet 151a and the outlet 151b,
A gap t is formed between the extension section 152c of the stem shaft 152 and the inner peripheral surface of the central passage 151c,
The on-off valve (150) includes a cylindrical airtight member (154) inserted into the gap (t) by interference fit; And a threaded portion 152a of the stem shaft 152 are coupled to each other with a first diameter portion 155a of the stem shaft 152. The first diameter portion 155a has a diameter larger than that of the first diameter portion 155a, And a second diameter portion 155b coupled to a central protrusion 151d of the first cover portion 151,
Closing valve 150 is closed and the remaining amount of the gas stored in the storage container 10 is checked through the pressure gauge 140. If the remaining amount of the gas is equal to or more than the reference value, The charging of the gas to be charged into the container 11 is started,
Closing valve 150 is closed when a predetermined amount of gas is filled in the filling object container 11 while visually confirming changes in the internal pressure of the storage container 10 through the pressure gauge 140, Wherein the filling of the filling target container (11) is completed by separating the filling port (160) from the container (11). delete The method according to claim 1,
A groove (g) is formed in the extension section (152c) of the stem shaft (152) in a circular shape along the outer peripheral surface,
The on-off valve (150) includes a sealing member (156) which is annular and is inserted into the recess (g) so as to be in close contact with the hermetic member (154); And an elastic material which forms a waveform along an imaginary circular arc of which one side is broken and which is interposed between the sealing member 156 and the stem shaft 152 so as to press the sealing member 156 in tight contact with the hermetic member 154 And a pressure member (157) of the gas supply device (150). A flexible hose 210 bent freely;
A three-way nipple 220 provided at one end of the flexible hose 210 and having a branch flow path 221 communicated with the outside;
A connection port 230 mounted at an end of the three-way nipple 220 and connected to the discharge pipe 20a of the storage container 20 storing the gas;
A pressure gauge 240 coupled to the branch passage 221 for measuring the internal pressure of the storage container 20;
A first opening and closing valve 250 coupled between one end of the three-way nipple 220 and one end of the flexible hose 210 for temporarily shutting off gas flow from the storage container 20 to the flexible hose 210, );
A second open / close valve 260 coupled to the other end of the flexible hose 210 to control the flow of gas from the flexible hose 210 to the gas inlet pipe 21; And
And a filling port 270 mounted on an end of the second on-off valve 260 and connected to the filling port 21a of the pipe 21 to be filled with gas,
The first opening / closing valve (250) and the second opening / closing valve (260) include a main body housing having an inlet and an outlet, through which the gas enters and exits, formed symmetrically with each other and a central flow passage communicating with the inlet and the outlet, A stem shaft that ascends and descends along the flow path, and a handle that lifts the stem shaft,
Wherein the stem axis includes a threaded section, a connection section extending upwardly from the threaded section and coupled to the handle, an extended section extending downwardly from the threaded section, and an extended section extending further downward from the extended section, And an opening / closing section for opening / closing the flow between the outlets,
A gap is formed between an extension section of the stem shaft and an inner peripheral surface of the central flow passage,
The first on-off valve (250) and the second on-off valve (260) include a cylindrical airtight member inserted into the gap by interference fit; And a second diameter portion formed to have a diameter larger than that of the first diameter portion and coupled to a central protrusion of the main housing having the center flow path formed therein, the multi- ; ≪ / RTI >
The remaining amount of the gas stored in the storage container 20 is checked through the pressure gauge 240 while the first on-off valve 250 and the second on-off valve 260 are both closed, , The first on-off valve (250) is opened to allow charging, and then the second on-off valve (260) is opened to start charging the gas to be filled in the pipe (21)
A predetermined amount of gas is sealed in the gas filling pipe 21 while visually checking the internal pressure change of the gas filling subject pipe 21 through the auxiliary pressure gauge 21b mounted on the gas filling subject pipe 21 Closing the second open / close valve (260) and separating the filling port (270) from the gas filling subject pipe (21), the gas filling of the gas filling subject pipe (21) Gas charging device. delete 5. The method of claim 4,
Wherein a circular groove is formed along an outer circumferential surface of the extension portion of the stem shaft,
The first on-off valve (250) and the second on-off valve (260) are annular and are inserted into the groove so as to be in close contact with the hermetic member. And a pressing member made of an elastic material that forms a waveform along an imaginary circular arc of which one side is broken and is interposed between the sealing member and the stem shaft so as to press the sealing member against the hermetic member. Portable gas filling device.

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