KR101346545B1 - Gas container Valve for preventing gas explosion and its assembly method - Google Patents

Abstract

The present invention relates to an explosion prevention valve for a gas container and a method for assembling the gas container provided with a sub-housing separately from the main housing in which the valve stem is built, and configured to eject the overpressure gas to the outside by embedding a safety valve in the sub-housing.

Description

Gas container valve for preventing gas explosion and its assembly method

The present invention relates to an explosion-proof valve of the gas container and a method for assembling the same, and more particularly, when the pressure in the gas container is excessively increased due to pressure or temperature rise applied from the outside, the overpressure gas in the gas container through the explosion-proof valve. The present invention relates to an explosion prevention valve of a gas container and a method of assembling the gas container so as to prevent the gas container from exploding by ejecting it to the outside.

     In general, the gas container is filled with the injection gas, such as LPG, DME, Freon, carbon dioxide, nitrogen and oxygen inside the container to seal the contents with the injection gas while being sealed with the injection gas. Gas containers using injection gas include portable butane gas containers, spray mosquito repellent, hair spray, and portable fire extinguishers.

Such a gas container may be deformed or broken when a high temperature or a predetermined pressure is applied to increase the internal pressure. For example, if the gas container is left where it is exposed to direct sunlight for a long time, the contents contained in the container are expanded by the heat of the direct sunlight, and the pressure rises excessively, and there is a risk of explosion.

Republic of Korea Patent Publication No. 2003-0002000 is a gas container for preventing the risk of deformation and breakage of the container by discharging some of the gas in the container to the outside before the container is deformed or damaged due to the internal pressure of the gas container is raised above a certain pressure Overpressure safety devices are known.

As shown in FIG. 1, a space portion 212 is formed at an inner side of the nozzle body 210, which is supported at an inner center of the support member 116, and is installed at the space portion of the nozzle body 210 to aerosol container. The upper and lower valve stems 220 and 230 for injecting the filled gas, the sealing body 240 for opening and closing the gas inlet 232 of the lower valve stem 230, and the sealing body 240 are connected to the lower valve stem. The direction in which the overpressure safety spring 250 and the lower valve stem 230 are always in close contact with the lower end surface of the upper valve stem 220. It consists of an elastic spring 252 to which the force acts, and the opening and closing ring 260 of the rubber material.

According to the overpressure safety device configured as described above, the internal pressure of the aerosol container 100 is increased to a predetermined pressure or higher in the absence of an external force for pressing the upper valve stem 220 to approach the deformation pressure or the bursting pressure of the aerosol container 100. The sealant 240 rises due to the overpressure in the aerosol container 100. Accordingly, the gas inlet 232 of the lower valve stem 230 is opened, and the overpressure gas inside the aerosol container 100 is discharged to the outside through the gas injection port 222 of the upper valve stem 220.

On the other hand, when the pressure inside the aerosol container 100 is lowered by discharging the overpressure gas, and the pressure inside the aerosol container 100 is smaller than the elastic force of the overpressure safety spring 250, the overpressure safety spring 250 is tensilely restored. The gas is blocked by closing the gas inlet 232 of the lower valve stem 230 by returning the seal 240 to the upper surface of the lower valve stem 230.

However, in the conventional gas container valve assembly configured as described above, since both the upper and lower valve stems are embedded in the nozzle body, not only the length of the valve body is longer but also the size of the overpressure safety spring is increased, resulting in a cost increase. There is this.

In addition, since the normal gas is discharged and the overpressure gas is discharged through one gas inlet, when the gas inlet is blocked, there is a problem in that not only the normal gas is discharged but also the overpressure gas is not discharged.

      Accordingly, the present invention has been made in order to solve the conventional problems as described above, and further comprises a sub-housing separate from the main housing in which the valve stem is built-in and a safety valve in the sub-housing to eject the overpressure gas to the outside The purpose of the present invention is to provide an explosion prevention valve for a gas container which can prevent the size of a component such as a spring from increasing.

In addition, the present invention by separately forming the main gas passage through which the normal gas discharge and the overpressure gas passage through which the overpressure gas is discharged, the normal gas discharge and the overpressure gas discharge through a single gas inlet as in the prior art It is also an object of the present invention to provide an explosion-proof valve for a gas container that can solve the problems caused when.

In addition, the present invention, the safety valve is pressed and fixed to the fixed spring on the compression spring until it is a certain elastic force to operate at a constant pressure in the gas container, the gas at a constant overpressure always open and close the member under the pressure spring The purpose is to provide the pressure so that the overpressure gas to the outside to push up.

In addition, the present invention is to provide a method of assembling the explosion-proof valve for the gas container can be molded integrally with the main housing and the sub-housing, the explosion-proof valve can be easily assembled in the housing can reduce the manufacturing cost.

      In order to achieve the object as described above, the explosion-proof valve for a gas container according to the present invention includes a main housing formed of an elbow shape and having a vertical portion formed inside the space portion, and a horizontal portion extending horizontally from the bottom of the vertical portion. Sub-housings are installed in parallel to the vertical portions by the main housings and the connecting ribs, and an overpressure gas flow path through which the overpressure gas is discharged is formed, and the lower portion thereof is formed by the horizontal portion of the main housing and the inlet gas inlet hole. An explosion-proof valve configured to communicate, comprising: inserting a valve stem assembly in a vertical portion of the main housing; Inserting a safety valve into the sub-housing; Positioning the sub housing to be positioned on a connection line between a center of a fixing groove of the sub housing and a center of a notch formed in a mounting cap; Pressing the vertical part of the main housing into the fixing groove of the mounting cap; And pressing the outer circumference of the fixing groove by crimping means composed of a plurality of arms operated by pneumatically to fix the mounting cap to the vertical portion.

 In addition, in the inserting of the valve stem assembly, the valve stem assembly is fitted to the spring under the valve stem, assembling the inner circumferential surface of the opening and closing seal on the orifice and inserted into the main housing It consists of steps.

In the inserting of the safety valve into the sub-housing, the safety valve may include an opening and closing member for opening and closing an overpressure gas inlet hole in the sub-housing, inserting a compression spring placed on the opening and closing member, and the compression spring. Insert a compression spring fixing plate having a hole formed in the center thereof, but when the spring fixing plate is press-fitted until the elastic force of the compression spring becomes a predetermined reference value, the outer circumferential surface of the fixing plate is formed larger than the inner circumferential surface of the sub-housing. Secured to an inner surface of the sub-housing and inserting an airtight gasket on top of the sub-housing.

In addition, in the step of press-fitting the vertical portion of the main housing into the fixing groove of the mounting cap, the upper end of the main housing is interposed in the fixing groove of the mounting cap, so that the valve stem is protruded through the through hole in the center, the mounting cap And inserting an airtight gasket between the overpressure gas discharge hole and the sub-housing.

In addition, in the step of fixing the mounting cap to the vertical portion, the fixing groove outer periphery of the fixing groove to the fixing groove outer peripheral edge of the mounting cap includes a step of fixing so as to be pressed into the concave portion of the upper portion of the vertical portion .

      According to the explosion prevention valve for a gas container of the present invention configured as described above, the valve housing further includes a sub housing separately from the main housing in which the valve stem is built, and a safety valve is built in the sub housing so that the overpressure gas is discharged to the outside when the gas container is overheated. By being blown out, it is possible to prevent the length of the overpressure valve from lengthening or the size of components such as an overpressure safety spring.

In addition, the main gas flow path that discharges the normal gas and the overpressure gas flow path that discharges the overpressure gas are separately formed, which is generated when the normal gas discharge and the overpressure gas are discharged through one gas inlet as in the prior art. Problems such as clogging of gas inlets can be solved.

In addition, the present invention, the safety valve is pressed and fixed to the fixed spring on the compression spring until it is a certain elastic force to operate at a constant pressure in the gas container, the gas at a constant overpressure always open and close the member under the pressure spring Push up to improve the stability of the valve.

1 is a cross-sectional view showing an explosion-proof valve for a gas container according to the prior art.
Figure 2 is an exploded perspective view showing an explosion-proof valve for a gas container according to an embodiment of the present invention.
3 is a bottom view of the mounting cap shown in FIG. 2.
4 is a plan view of the main housing and the sub-housing shown in FIG.
Figure 5 is a longitudinal sectional view showing an installation state of the explosion-proof valve for the gas container according to an embodiment of the present invention.
FIG. 6 is a cross-sectional view illustrating gas being discharged through the main gas passage shown in FIG. 5. FIG.
FIG. 7 shows the overpressure gas being discharged through the overpressure gas passage shown in FIG. 5.
Cross-section.

      Hereinafter, the characteristics of the above-described configuration and its operation will be described in more detail with reference to preferred embodiments of the explosion-proof valve for a gas container according to the present invention.

Figure 2 of the accompanying drawings is an exploded perspective view showing an explosion-proof valve for the gas container according to an embodiment of the present invention, Figure 3 is a bottom view of the mounting cap shown in Figure 2, Figure 4 is the main shown in Figure 2 5 is a vertical cross-sectional view illustrating an installation state of an explosion-proof valve for a gas container according to an exemplary embodiment of the present invention, and FIG. 6 is a view illustrating gas being discharged through the main gas passage shown in FIG. 5. 7 is a cross-sectional view showing a state in which the overpressure gas is discharged through the overpressure gas passage shown in FIG. 5.

As shown in Figure 2 and 5, the explosion-proof valve 1 for the gas container according to an embodiment of the present invention, the main housing 10 is fixed to the lower end of the mounting cap 3, the main housing 10 ) And the opening and closing seal 40 interposed between the valve stem 20, the main housing 10 and the mounting cap 3, and a sub housing installed at the side of the main housing 10. 50, and a safety valve 60 installed in the sub-housing 50.

2, 4, and 5, the main housing 10 described above is formed in an elbow shape, and a main gas flow path 10a is formed therein, and a space portion in which the valve stem 20 is installed. 11a is composed of a vertical portion 11 formed therein and a horizontal portion 12 extending horizontally from the lower end of the vertical portion 11.

At this time, the main gas passage 10a is connected to the space portion 11a and is formed over the horizontal portion 12 from the lower end of the vertical portion 11, and the upper portion of the vertical portion 11 of the mounting cap 3 It is inserted and fixed in the fixing groove 3a formed in the lower center.

As shown in FIG. 2, a notch is formed at one side of the mounting cap 3 to form an overpressure gas discharge hole 3c on a line between the center of the fixing groove 3a and the center of the notch. When the main housing 10 is pressed into the mounting cap 3, the center of the inner diameter of the sub housing 50 is positioned on a line connecting the center of the fixing groove 3a to the center of the notch.

As shown in FIG. 3, the main housing 10 and the sub-housing are formed on the outer circumference of the vertical portion 11 by the compression spring 62 of the safety valve 60 which will be in contact with the bottom surface of the mounting cap 3. A flow preventing protrusion 14 which prevents the 50 from flowing in the vertical direction is formed to extend horizontally at a position facing the sub housing 50.

Inside the space portion 11a, a plurality of stem guide ribs 11b for guiding the lifting and lowering of the valve stem 20 and forming a moving passage of the gas flowing from the main gas passage 10a are formed to protrude radially. In the inner lower portion of the space portion 11a, a spring guide rib 11c which prevents the spring 30 to be described later from flowing laterally and forms a movement path of the gas together with the stem guide rib 11b is formed to protrude radially. do.

At this time, the spring guide rib 11c protrudes further into the space 11a than the stem guide rib 11b.

As shown in FIG. 2 and FIG. 5, the above-described valve stem 20 has an upper portion penetrating a lower center of the mounting cap 3 and a lower portion formed in the vertical portion 11 of the main housing 10. It is elastically supported by the spring 30 in the part 11a, and the gas flow path 20a is formed in the upper side, the annular recessed part 20b is formed in the outer periphery of a center part, and is horizontal in the center of the recessed part 20b. Orifice 20c is formed in the direction.

As shown in Figure 2 and 5, the opening and closing seal 40 described above is interposed between the upper end of the main housing 10 and the mounting cap (3) in the fixing groove (3a) of the mounting cap (3). When the through-hole 40a through which the valve stem 20 penetrates is formed at the center thereof, and there is no outflow of gas, the inner circumference is inserted into the concave inlet 20b of the valve stem 20 to block the orifice 20c. As a result, the inflow and outflow of gas is prevented.

On the other hand, when the valve stem 20 is pressed in order to discharge or introduce gas, the inner circumference of the opening / closing seal 40 is separated from the indentation of the valve stem 20, so that the orifice 20c is opened to open the gas container. Internal gas is discharged to the outside through the valve stem 20.

As shown in Figures 2 and 4, and 5 and 6, the above-described sub-housing 50 and the main housing 10 is integrally molded by injection molding as a synthetic resin material, and the sub-housing 50 and A connecting rib 70 is formed between the main housings 10 to support and support the two housings 50 and 10.

An overpressure gas passage 50a through which the overpressure gas is discharged is formed in the sub-housing 50, and a lower end thereof is integrally formed with the horizontal portion 12 of the main housing 10, so that the overpressure gas passage 50a and the main The gas flow passages 10a communicate with each other. That is, the lower end of the sub housing 50 is integrally formed at the outer periphery of the horizontal part 12 of the main housing 10, and the main part is formed at the outer periphery of the horizontal part 12 formed integrally with the lower end of the sub housing 50. An overpressure gas inlet hole 12a through which the overpressure gas in the gas passage 10a flows into the sub-housing 50 is formed.

At this time, the outlet side of the overpressure gas inlet hole 12a is in close contact with the bottom surface of the opening / closing member 61, which will be described later, made of a rubber material, and the gas is normally served when the opening / closing member 61 blocks the overpressure gas inlet hole 12a. An airtight jaw 12b is formed to protrude from the housing 50.

The upper part of the sub housing 50 is installed in communication with the overpressure gas discharge hole 3c formed at one side of the fixing groove 3a of the mounting cap 3 during installation.

Accordingly, when the opening / closing member 61, the compression spring 62, and the compression spring fixing plate 63 are sequentially inserted into the sub housing 50, the compression spring 62 causes the compression spring fixing plate 63 of the sub-housing 50 to be removed. Compression spring fixing plate 63 having a larger outer diameter than the inner diameter of the sub-housing 50 so as not to be pushed further by the pressing force of the compression spring fixing plate 63 even if a force acts in the direction to push upward. Press-fitted to form a compression spring (62) to prevent separation.

On the other hand, under the compression spring fixing plate 63 a plurality of opening and closing to guide the lifting and lowering of the opening and closing member 61 to be described later to form a moving passage of the over-pressure gas flowing from the main gas passage (10a) of the main housing 10 The member guide ribs 52 protrude radially.

2, 5, and 7, the aforementioned safety valve 60 is installed in the sub-housing 50 so that the gas pressure in the gas container 2 is opened when the gas pressure is higher than the set pressure and is lower than the set pressure. If so, it can be closed.

The safety valve 60 is built in the sub-housing 50 to open and close the opening and closing member 61 for opening and closing the overpressure gas inlet hole 12a, the lower housing is embedded in the sub-housing 50 and the lower end is placed on the opening and closing member 61. Compression spring 62 to be installed, the compression spring fixing plate 63 is placed on the compression spring 62 in the sub-housing 50, the hole 63a is formed in the center, and the lower end is inserted into the upper portion of the sub housing 50 The upper end is in close contact with the bottom of the mounting cap (3), and the inside of the sub-housing 50 is formed with a hole 64a communicating with the overpressure gas discharge hole 3c and the hole 63a of the compression spring fixing plate 63. It is composed of a hermetic gasket 64 which maintains hermeticity between the mounting caps 3.

At this time, the opening and closing member 61 has a flat bottom surface and a fixing portion 61a protrudes from the upper surface thereof. The lower end of the compression spring 62 is inserted into and supported on the outer circumference of the fixing portion 61a to compress the force in the longitudinal direction. The compression spring 62 is prevented from being deformed laterally.

Outside the fixing part 61a of the opening / closing member 61, as shown in FIG. 2, the lower inner surface of the compression spring 62 is in close contact with the plurality of spring flow preventing protrusions 61b to prevent the flow in the lateral direction. It is formed radially.

The compression spring fixing plate 63 maintains a state in which the compression spring 62 is in close contact with the airtight gasket 64 by the compression spring 62. The gas pressure in the container body 2 rises above the set pressure to open and close the member 61. Has a function of supporting the compression spring 62 when it rises or falls again.

The airtight gasket 64 blocks the gap between the sub-housing 50 and the mounting cap 3 so that gas in the container body 2 leaks through the gap between the sub-housing 50 and the mounting cap 3. The upper airtight jaw 64b for shielding the overpressure gas discharge hole 3c is formed at the upper end thereof, and the outer periphery thereof is inserted into the fixed jaw 50b formed at the upper end of the sub-housing 50. The secondary hermetic jaw 64c is formed to closely contact the hermetic gasket 64 and the sub-housing 50.

On the other hand, the upper portion of the compression spring fixing plate 63 is formed with an insertion groove 63b into which the lower end of the airtight gasket 64 is inserted, and the hole 63a and the airtight gasket formed in the center of the compression spring fixing plate 63. The holes 64a formed at the center of 64 are connected to each other.

Hereinafter, the operation of the explosion-proof valve for the gas container according to the embodiment of the present invention configured as described above will be described in detail.

First, a process of discharging or blocking a gas in the gas container 2 will be described.

When the valve stem 20 is pressed to discharge the gas in the gas container 2 to the outside, as shown in FIG. 6, the spring 30 which has elastically supported the valve stem 20 is compressed and the valve stem 20 is lowered. And the orifice 20c which was closed by the opening / closing seal 40 is opened.

As such, when the orifice 20c is opened, the gas filled in the gas container 2 is filled in the main gas passage 10a and the space 11a formed in the main housing 10, and the orifice formed in the valve stem 20. It is discharged to the outside through 20c) and gas flow path 20a.

When the use of the gas container is released and the force applied to the valve stem 20 is released, the valve stem 20 is returned to its original state by the restoring force of the spring 30, and the orifice is closed by the opening / closing seal 40. Emission of gas is blocked.

On the other hand, irrespective of whether the gas container is mounted on a gas stove or the like, the pressure in the container body 2 is the elastic force of the compression spring 62 of the safety valve 60 (10-12 kgf / cm 2 in the case of butane gas container). 7), the opening and closing member 61 closing the overpressure gas inlet hole 12a formed in the horizontal portion 12 of the main housing 10 by the pressure of the gas as shown in FIG. Ascending within 50, the compression spring 62 is compressed.

Therefore, the overpressure gas is introduced into the sub-housing 50 through the overpressure gas inlet hole 12a, and the inflow of the overpressure gas is a hole 63a of the opening / closing member guide rib 52 and the compression spring fixing plate 63, and the airtightness is maintained. It is discharged to the outside through the hole 64a of the gasket 64 and the overpressure gas discharge hole 3c of the mounting cap 3.

As such, when the safety valve 60 is operated and some of the overpressure gas is discharged to the outside, the gas pressure in the gas container 2 becomes smaller than the elastic force of the compression spring 62 of the safety valve 60. The opening and closing member 61 is lowered by the restoring force of the spring 62 to block the overpressure gas inlet hole 12a.

As such, when the opening / closing member 61 is lowered to block the overpressure gas inlet hole 12a, the gas is blocked through the sub-housing 50, thereby preventing the unnecessary gas from being discharged.

The explosion-proof valve assembly method for a gas container according to the present invention is formed in the elbow shape and the vertical portion 11 is formed in the space portion (11a) and the horizontal portion extending horizontally from the lower end of the vertical portion (11) The sub-housing 50 is installed in parallel to the vertical portion 11 by the main housing 10 and the main housing 10 and the connecting rib 70 formed of 12, and the overpressure gas is discharged therein. An overpressure gas flow path (50a) is formed, the lower end of the explosion protection valve formed in communication with the horizontal portion 12 of the main housing 10 and the overpressure gas inlet hole (12a), the main housing 10 Inserting the valve stem assembly into the vertical portion (11) of the; Inserting a safety valve (60) into the sub-housing (50); Positioning the main housing 10 on a connection line between the center of the fixing groove 3a of the main housing 10 and the center of the notch formed on the mounting cap 3; Press-fitting the vertical part of the main housing (10) into the fixing groove (3a) of the mounting cap (3); The outer periphery of the fixing groove (3a) is assembled by crimping means formed of a plurality of articulated arms actuated by pneumatic to secure the mounting cap (3) to the vertical portion (11) .

In the inserting of the valve stem assembly, the valve stem assembly is assembled so that the spring 30 is inserted into the lower portion of the valve stem 20, and the inner circumferential surface of the opening and closing seal 40 is positioned on the orifice 20c. And inserting into the main housing 10.

In the inserting of the safety valve 60 into the sub-housing 50, the safety valve 60 is an opening and closing member 61 for opening and closing the overpressure gas inlet hole (12a) in the sub-housing (50), the opening and closing Inserting a compression spring 62 seated on the member 61; and inserting a compression spring fixing plate 63 having a hole 63a formed at a center thereof on the compression spring 62, wherein an outer circumferential surface of the fixing plate 63 When the spring fixing plate 63 is press-fitted until the elastic force of the compression spring 62 becomes a predetermined reference value than the inner circumferential surface of the sub-housing 50, it is fixed to the inner surface of the sub-housing 50 at that position. And inserting an airtight gasket 64 on top of the sub-housing 50.

Pressing the vertical portion of the main housing 10 into the fixing groove 3a of the mounting cap 3 may include an upper end of the main housing 10 in the fixing groove 3a of the mounting cap 3. Protruding the valve stem 20 in the through-hole 40a of the central portion, and the airtight gasket 64 between the overpressure gas discharge hole (3c) of the mounting cap (3) and the sub-housing (50) Inserting.

The fixing of the mounting cap 3 to the vertical portion 11 may include crimping formed of a plurality of articulated arms operated by pneumatic pressure on the outer periphery of the fixing groove 3a of the mounting cap 3. The outer peripheral edge of the fixing groove (3a) by means of the step characterized in that it comprises the step of pressing fixed to the recess (not shown) above the vertical portion (11).

1. Explosion proof valve
3. Mounting cap
10. Main Housing
20. Balstem
40. Seal
50. Sub-housing
61. Opening and Closing Member
63. Retaining Plate

Claims (6)

A main housing 10 formed of an elbow shape and having a vertical portion 11 having a space portion 11a formed therein, a horizontal portion 12 extending horizontally from a lower end of the vertical portion 11, and the main portion 10; The sub housing 50 is installed in parallel to the vertical portion 11 by the housing 10 and the connecting rib 70, and an overpressure gas flow path 50a through which the overpressure gas is discharged is formed. In the explosion-proof valve formed to communicate with the horizontal portion 12 of the main housing 10 and the overpressure gas inlet hole (12a),
Inserting a valve stem assembly into a vertical portion (11) of the main housing (10);
Inserting a safety valve (60) into the sub-housing (50);
Positioning the main housing 10 on a connection line between the center of the fixing groove 3a of the main housing 10 and the center of the notch formed on the mounting cap 3;
Press-fitting the vertical portion of the main housing (10) into the fixing groove (3a) of the mounting cap (3); And
And pressing the outer circumference of the fixing groove with a crimping means composed of a plurality of arms operated by pneumatically to fix the mounting cap to the vertical portion.
In the step of inserting the safety valve 60 in the sub-housing 50,
The safety valve 60 is a step of inserting the opening and closing member 61 for opening and closing the over-pressure gas inlet hole (12a) in the sub-housing (50), and the compression spring 62 is placed on the opening and closing member 61; A compression spring fixing plate 63 having a hole 63a formed at the center of the compression spring 62 is inserted therein, and the outer circumferential surface of the fixing plate 63 is larger than the inner circumferential surface of the sub-housing 50 so as to have a compression spring. Pressing the spring fixing plate 63 until the elastic force of the 62 becomes a predetermined reference value is fixed to the inner surface of the sub-housing 50 at the position thereof, and the airtight gasket 64 is mounted on the upper portion of the sub-housing 50. Assembly method of the explosion-proof valve for a gas container, characterized in that it comprises a step of inserting.
The method of claim 1,
In the step of inserting the valve stem assembly,
The valve stem assembly includes fitting the spring 30 to the lower part of the valve stem 20, assembling the inner circumferential surface of the opening and closing seal 40 on the orifice 20c, and inserting it into the main housing 10. In the step, the assembly method of the explosion-proof valve for a gas container, characterized in that configured.
delete The method of claim 1,
In the step of pressing the vertical portion of the main housing 10 into the fixing groove (3a) of the mounting cap (3),
An upper end of the main housing 10 is interposed in the fixing groove 3a of the mounting cap 3, and the valve stem 20 protrudes from the through hole 40a at the center thereof. And inserting a gastight gasket (64) between the overpressure gas discharge hole (3c) and the sub-housing (50).
The method of claim 1,
In fixing the mounting cap (3) to the vertical portion (11),
And fixing the outer circumference of the fixing groove 3a to the recess of the upper portion of the vertical portion 11 by the crimping means on the outer circumference of the fixing groove 3a of the mounting cap 3. Assembly method of explosion proof valve for gas container.
delete

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