KR101912704B1 - Safety valve by blocking gas flow channel of portable gas container - Google Patents

Abstract

The present invention provides a flow channel blocking type safety valve of a portable gas container, wherein a shaft where a gasket is inserted by overpressure is operated to enable the gasket to close a flow channel where gas is discharged to a valve stem to prevent the gas from being discharged to block gas supply in order to put out flame to prevent explosion and fire of the gas container, minimize a component of a safety valve, have a compact structure, and completely block operation of a valve and the gas flow channel when overpressure of a predetermined amount occurs inside the portable gas container. Therefore, the present invention can significantly improve manufacturing and assembly convenience and productivity.

Description

[0001] The present invention relates to a safety valve for a portable gas container,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a safety valve for a portable gas container, and more particularly, to a safety valve for a portable gas container, Which can prevent explosion and fire of a gas container.

The portable butane gas container used for the portable gas stove by filling the butane gas mixture mainly made of butane gas, when the heat is received from the surroundings during the circulation process or use, the pressure of the liquefied gas in the butane gas container rises , Do not obey the safety rules in use and use it irregularly. If the pressure increases due to high temperature, the container may be deformed or broken, and if it is severe, it may explode. Therefore, the law stipulates pressure, deformation, and rupture pressure that a portable gas container can withstand.

Up to now, most of the technologies that have appeared in connection with the safety of portable gas containers have been provided with safety valves for discharging overpressure when the pressure in the gas container rises above a certain level. The inventors of the present invention It is patented and applied to actual products, producing and selling. For example, Patent No. 1064633 entitled "Portable Gas Container Safety Valve", Patent No. 1281536 "Portable Gas Container Safety Valve with Overpressure Prevention Function", Patent No. 1464493 " Safety valve for overpressure discharge ", etc., and received a number of patents in addition to the above patent.

In recent years, when the pressure in the portable gas container has risen to a certain level or more, a technique of shutting off the gas passage has been developed instead of discharging the overpressure. Patent Registration No. 1561825 "Safety Device for Preventing Gas Release of Gas Pipe", Patent Registration No. 1572622 No. 1572626, "Gas container safety device ". These patents are technologies for preventing the gas container from exploding by shutting down the flow path to the valve stem when an overpressure occurs in the gas container, thereby reducing the pressure in the gas container as the firearm is shut off around the gas container.

However, in the state where the gas container is mounted on the portable gas range, the pressure of the gas from the gas container and the inside of the gas container are always the same and the differential pressure does not occur. On the other hand, the movable valve (shut-off valve) provided in the flow path to the valve stem is provided so as to slide by the differential pressure between the Governor side and the inside of the gas container. However, There is a fatal problem that the gas flow path to the valve stem can not be blocked.

In addition, when the safety device operates, the shaft is operated at the boundary of the pressure. Since the spring-type valve is used, the boundary of the operating pressure is unclear and the valve can be opened and closed repeatedly. There is a problem in that the consumer continues to use the container with a risk of explosion in a state of overpressure in which the pressure in the gas container does not fall sufficiently below the set pressure.

In order to solve the above problems, the applicant of the present invention has developed and patented a patent application No. 2016-20662 entitled " Safety device for flow blocking device for portable gas container " The present invention has been accomplished while continuing research and development for convenience of production and assembly and improvement of productivity.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a gas- The present invention is to provide a safety valve for a flow path safety valve of a portable gas container, which can prevent the explosion and the fire of the gas container by shutting off the flame by shutting off the gas supply by shutting off the gasket by closing the gasket.

It is another object of the present invention to provide a safety valve that minimizes the components of the safety valve and has a compact structure and can ensure the operation of the valve and the shutoff of the gas flow path, A safety valve for a flow path of a portable gas container is provided.

The safety valve of the portable gas container according to the present invention has an L shape having a vertical portion and a horizontal portion, a gas flow path formed therein, and an upper portion of the vertical portion is assembled and fixed to the mounting cup Stem housing; A safety valve housing formed in a cylindrical shape and integrally formed with the stem housing and spaced apart from a vertical portion of the stem housing and installed in a vertical direction; A horizontal pipe connected at one end to a gas flow path formed at a horizontal portion of the stem housing and having a through hole at a portion connected to a lower end portion of the safety valve housing, A hermetic means mounted between an upper portion of the safety valve housing and a hole formed in the mounting cup; A shaft having a rod shape and formed with a spring bearing protrusion protruding from a predetermined portion thereof and extending from an upper portion inside the safety valve housing to a lower end portion of the horizontal pipe; A stopper which is formed in a central portion of a closed top with a through hole formed therethrough and has a cylindrical shape with an opening downward and a cylindrical outer circumferential surface closely attached to the inner circumferential surface of the safety valve housing so as to be positioned below the airtight means; A spring that is fitted to the shaft and is assembled between the upper end of the stopper and the spring bearing jaw of the shaft; The upper portion is located at the lower end portion of the inside of the safety valve housing, the lower portion is located at the lower inner end portion of the horizontal pipe, and the lower portion of the spring support pin of the shaft is fitted therein. And a gasket for blocking a gas flow path formed in a horizontal portion of the gasket.

Preferably, the lower surface of the horizontal channel is lower in height than the gas channel formed in the horizontal portion of the stem housing, and a step is formed at a portion where the lower surface of the horizontal channel is connected to the horizontal portion of the stem housing.

Preferably, the gasket is formed in such a manner that a top portion thereof is open and a bottom portion thereof is closed so that a hollow portion is formed therein, and the gasket is formed to a predetermined height from a bottom end thereof, A flow blocking portion for blocking the flow of the fluid; A housing block located at an upper portion of the safety valve housing and positioned at an upper portion of a through hole formed in a lower end portion of the safety valve housing to open and close the through hole; The diameter of the outer circumferential surface is smaller than the diameter of the outer circumferential surface of the flow path blocking portion, and the connecting portion integrally connects the flow blocking portion and the housing blocking portion.

Preferably, the gasket is formed in a cylindrical shape and has a ring-shaped gasket that is fitted to a lower end portion of the shaft to a predetermined height to block a gas flow path formed in a horizontal portion of the stem housing when an overpressure is generated in the gas container, And a housing blocking gasket which is fitted in the shaft so as to be positioned above the flow blocking gasket and which is located above the through hole formed in the lower end portion of the safety valve housing and opens and closes the through hole. When the pressure in the gas container is normal, Is assembled so as to abut the step formed between the lower surface of the horizontal pipe and the horizontal part of the stem housing.

Preferably, the gasket is assembled such that a certain space is formed between the lower end surface of the flow path blocking portion of the gasket and the inner peripheral surface of the lower end of the horizontal conduit, and the diameter of the bottom surface of the housing blocking portion of the gasket is larger than the diameter of the through- do.

Preferably, the surface of the inlet portion of the gas flow path connected to the gas flow path formed in the horizontal portion of the horizontal channel and the stem housing is formed in a round shape so that when the gas flow blocking portion of the gasket blocks the gas flow path, As shown in FIG.

Preferably, the shaft has a rod-shaped spring insertion portion into which the spring is fitted on the outer peripheral surface; A spring support protrusion protruded from a lower end of the spring insertion portion to support a lower end of a spring inserted into the spring insertion portion; A gasket tightening portion formed at a lower portion of the spring bearing jaw to have a size smaller than the diameter of the spring bearing jaw and fitted to the outer circumferential surface of the housing block portion of the gasket; And a gasket insertion portion formed in the lower end of the gasket adhered portion so that the gasket is fitted to the outer circumferential surface.

In the safety valve of the portable gas container of the portable gas container according to the present invention, when the pressure in the portable gas container rises to a certain level or higher, the shaft in which the gasket is fitted is raised by the overpressure, Since the gas valve is blocked by the valve stem, the gas can not be discharged to the valve stem, so that the flame itself can be turned off, thereby preventing explosion and fire of the gas container.

In addition, since the gas shut-off portion for blocking the gas flow path to the valve stem and the valve housing shut-off portion for blocking the hole connected to the safety valve housing are integrally connected to each other to form the gasket and the shaft is inserted into the gasket The number of parts constituting the safety valve is small and the structure is compact, so that it is easy and convenient to manufacture and assemble the safety valve, so that the manufacturing cost is low and the productivity can be remarkably improved.

In the case where the horizontal pipe line horizontally disposed at the lower portion of the safety valve housing is rectangular in cross section and the lower surface of the horizontal pipe line becomes flat, the lower surface of the horizontal pipe line and the lower end surface of the flow path blocking portion of the gasket The overpressure in the gas container uniformly acts on the entire lower end surface of the gas passage blocking portion of the gasket, and the outer surface of the gas passage of the gasket has a round shape, It is possible to reliably shut off the gas flow path toward the valve stem while correcting the operation of the safety valve when overpressure is generated.

1 is a view showing a state where a safety valve is fastened to a mounting cup.
2 is a sectional view showing a state before the safety valve of the first embodiment according to the present invention is operated.
3 is a cross-sectional view showing a state in which the safety valve shown in Fig.
Fig. 4 is a view showing the gasket of Fig. 2; Fig.
Fig. 5 is a view showing the shaft of Fig. 2;
6 is a cross-sectional view showing a state before the safety valve of the second embodiment according to the present invention is operated.
FIG. 7 is a cross-sectional view showing a state in which the safety valve shown in FIG.

The technical feature of the flow-path-type safety valve according to the present invention is that the number of parts constituting the safety valve is reduced and the structure is made compact by manufacturing the gasket which blocks the gas flow path when the overpressure in the gas container occurs, The ease of assembly and productivity are remarkably improved and the operation of the gasket is precise when overpressure is generated in the gas container and the flow path is surely sealed.

When the pressure in the gas container becomes higher than the set pressure, the safety valve of the present invention stops the overflowing gas at a time, but blocks the gas flow path 221 supplied to the valve stem 23, So that the fire is turned off, the temperature rise is suppressed, and the pressure in the gas container is lowered to prevent the gas container from exploding or generating a fire.

A notch 11 is formed in the mounting cup 10 of the gas container so that the gas container can be mounted on the portable gas cooking stove. The hole 12 formed in the mounting cup 10 is inserted into the mounting cup 10, So that the safety valve of the present invention can be easily mounted on the mounting cup 10.

The safety valve 30 according to the first embodiment of the present invention includes a safety valve housing 31 formed integrally with the stem housing 20 and a hermetic means 37 disposed between the safety valve housing 31 and the mounting cup 10, A stopper 35, a shaft 33 positioned in the safety valve housing 31, a spring 36 fitted in the shaft 33, and a gasket 34. [

The stem housing 20 has an L shape having a vertical portion 21 and a horizontal portion 22 and has a gas flow path 221 through which gas is spouted. The supplied gas is ejected through the valve stem 23 coupled to the upper portion, and the upper portion of the vertical portion 21 is assembled and fixed to the mounting cup 10. [ In the specification of the present invention, "vertical direction" means the longitudinal direction of the gas container, and "horizontal direction" means width direction of the gas container, that is, direction perpendicular to the vertical direction.

The safety valve housing 31 has a cylindrical shape with an open top and is integrally formed with the stem housing 20. The safety valve housing 31 is vertically spaced apart from the vertical portion 21 of the stem housing, Respectively.

One end of the horizontal pipeline 32 is connected to the gas passage 221 formed in the horizontal portion 22 of the stem housing and connected to the lower end portion of the safety valve housing 31 And a through hole 321 is formed. It is preferable that the horizontal pipeline 32 is formed in a rectangular shape and the lower surface of the horizontal pipeline 32 is lower in height than the gas flow passage 221 formed in the horizontal portion 22 of the stem housing And a step is formed at a portion where the lower surface of the horizontal pipe 32 and the horizontal portion 22 of the stem housing are connected. Of course, the cross section of the horizontal channel 32 may be formed in various shapes such as a circular shape or a polygonal shape. However, if the gasket 34 is formed in a rectangular shape, the lower end surface 341a of the gasket 34 and the lower end surface 341a of the horizontal channel 32 When the overpressure is generated in the gas container, the lower surface of the gasket 34 is uniformly pressed against the lower end surface 341a of the gasket 34 to push the shaft 33 upward. Since the gas pressure must push the lower end surface 341a of the gas passage 34 in the gasket 34, it is necessary to press the gas passage 34 between the lower end surface 341a of the gasket 34 and the inner peripheral surface of the lower surface of the horizontal passage 32, Should be assembled.

The airtight means 37 is made of an elastic rubber material and is mounted between the upper portion of the safety valve housing 31 and a hole 12 formed in the mounting cup to closely contact each other, (12). The airtight means 37 may use an O-ring as shown in Figs. 2 and 3, or a gasket of various shapes may be used.

The shaft 33 is positioned from the upper end portion of the safety valve housing 31 to the lower end portion of the horizontal pipeline 32. The shaft 33 is in the form of a rod and has a spring insertion portion A spring support protrusion 333 protruding from the rod at the lower end of the spring insertion portion 331 to support the lower end of the spring 36 fitted to the spring insertion portion 331, A gasket tightening portion 334 protruding at a size smaller than the diameter of the gasket 333 and formed at a lower portion of the spring support protrusion 333 so that the housing blocking portion 342 of the gasket is fitted to the outer circumferential surface, And a gasket insertion portion 332 formed at the lower end of the tightly coupled portion 334 and fitted to the outer circumferential surface of the gasket 34 (see FIG. 5).

The spring insertion portion 331 is inserted into the through hole formed at the upper end of the stopper 35 and the spring receiving step 333 is assembled such that the outer circumferential surface thereof closely contacts the inner circumferential surface of the safety valve housing 31, The shaft 331 and the spring bearing jaw 333 serve to hold the shaft 33 so that the shaft 33 does not tilt due to vertical movement.

The stopper 35 is made of a synthetic resin and is positioned below the hermetic means 37. The stopper 35 is formed in a cylindrical shape and has a through hole through which the shaft 33 passes, The outer circumferential surface of the cylindrical shape is closely attached to the inner circumferential surface of the safety valve housing 31 and assembled. A stopper 35 is formed on the inner circumferential surface of the safety valve housing 31 so as to prevent the safety valve housing 31 from being deformed It is preferable that the stopper 35 be fixed to a position between the lower end of the airtight means 37 and the jawed portion on the inner circumferential surface of the safety valve housing 31 (refer to Figs. 2 and 3) .

The spring 36 is fitted in the spring insertion portion 331 of the shaft so that it is assembled between the upper end of the stopper 35 and the spring support jaw 333 of the shaft. When the pressure in the gas container is normal, the shaft 33 is pushed downward by the elastic force of the spring so that the bottom surface 342a of the housing blocking portion 342 of the gasket 34 is closely contacted with the through hole 321 formed in the lower portion of the safety valve housing So that the gas introduced into the horizontal pipeline 32 is not introduced into the safety valve housing 31 but is discharged to the gas passage 221 formed in the horizontal portion 22 of the stem housing. Therefore, the diameter of the bottom surface 342a of the housing blocking portion of the gasket should be larger than the diameter of the through-hole 321 formed in the lower end of the safety valve housing.

On the other hand, when the pressure in the gas container rises above the set pressure, excessive pressure of the gas is applied to the lower surface of the gasket 34 at the bottom end surface 341a and the bottom surface of the through- When the shaft 33 is lifted up while the spring 36 is being compressed by the overpressure force, a pressing force acts on the entire bottom surface 342a of the housing blocking portion 342a, 33). The gasket 34 rises as the shaft 33 rises and the position of the flow blocking portion 341 at the lower end portion of the gasket also rises so that the flow blocking portion 341 contacts the gas in the horizontal portion 22 of the stem housing The flow path 221 is blocked to block the gas spouting. Therefore, the diameter of the gas passage blocking portion 341 should be larger than the diameter of the gas passage 221 formed in the horizontal portion 22 of the stem housing.

The gasket 34 is formed in a hollow shape with its upper portion opened and its lower portion closed so that the gasket 34 is inserted into the gasket insertion portion 332 of the shaft, When assembled to the valve, the housing blocking portion 342 located at the upper portion is located at the lower end portion of the inside of the safety valve housing 31, and the lower portion is located at the lower inner end portion of the horizontal conduit 32.

The gasket 34 includes a flow path blocking portion 341 which is formed up to a certain height from the lower end and blocks the gas flow path 221 formed in the horizontal portion 22 of the stem housing when overpressure is generated in the gas container, A housing blocking portion 342 for opening and closing the through hole 321 at an upper portion of the through hole 321 formed in the lower end portion of the safety valve housing 31, And a connecting portion 343 which is integrally formed between the flow path blocking portion 341 and the housing blocking portion 342.

 The gasket insertion portion 332 located at the lower end portion of the shaft 33 is inserted into the hollow portion through the opened upper portion of the gasket 34. When the pressure in the gas container is normal, The bottom surface 342a of the housing blocking portion of the gasket 34 is inserted into the through hole 321. The bottom surface 342a of the gasket 34 is in contact with a step formed between the lower surface of the horizontal channel 32 and the horizontal portion 22 of the stem housing, And the connecting portion 343 of the gasket 34 is positioned in front of the gas passage 221 so that the gas in the gas container is normally blown into the valve stem 23 through the gas passage 221 2). Therefore, the diameter of the connecting portion 343 of the gasket 34 is preferably smaller than the diameter of the flow blocking portion 341.

The gas passage 221 formed in the horizontal portion 22 of the stem housing must be sealed so as to seal the gas passage 221 securely so as to block the gas when the overpressure occurs in the gas container. It is preferable that the surface of the inlet portion 221a of the gas flow path, which is located at a portion to which the horizontal channel 32 is connected, is formed in a round shape. Since the outer circumferential surface of the gasket flow path blocking portion 341 has a circular shape, the outer circumferential surface of the flow path blocking portion 341 is tightly sealed against the surface of the inlet portion 221a of the gas flow path 221, do.

Hereinafter, the operation of the flow-blocking safety valve according to the present invention will be briefly described. When the pressure in the gas container is normal, the elastic force of the spring 36 of the safety valve maintains a balance between the atmospheric pressure on the side of the hole 12 formed in the mounting cup and the pressure difference in the gas container, Thereby securing the channel of the flow path 221 and supplying the normal gas to the valve stem 23 (see FIG. 2).

However, when the pressure in the gas container rises to a predetermined pressure or more and overpressure is generated, the overpressure gas causes the gasket's lower end surface 341a and the lower surface 342a of the gasket shutoff portion The spring 36 of the safety valve is compressed and the gasket 34 and the shaft 33 are moved upward so that the upper surface of the spring support step 333 of the shaft comes into contact with the lower end of the stopper 35, The portion 341 also rises together with the shaft 33 to block the gas supply to the valve stem 23 by blocking the gas flow passage 221 located horizontally in the stem housing 20 3).

At this time, when the safety valve operates due to overpressure and the shaft 33 rises and the outer circumferential surface of the gas passage blocking portion 341 is brought into close contact with the surface of the inlet portion 221a of the gas passage to cut off the oil passage, An overpressure discharge passage 321a is formed outside the circumferential surface of the through hole 321 in order to prevent the upper portion of the portion 341 from completely blocking the through hole 321 leading to the safety valve 30 from the horizontal conduit 32 Should be formed. This is because the lower end surface 341a of the flow path shutoff portion and the lower surface 341b of the housing shutoff portion 341a are formed in order to keep the gas flow path blocking portion 341 in close contact with the surface of the inlet portion 221a of the gas flow path, The overpressure is forced through the overpressure discharge passage 321a to the safety valve and the bottom surface 342a of the housing blocking portion must be pushed (see FIG. 3). The overpressure discharge passage 321a is not limited and the overpressure discharge passage 321a may not be formed if the diameter of the through hole 321 is made larger than the outer diameter of the gasket interruption portion 341 .

In addition, when the pressure in the gas container falls below a set value and becomes stable, the shaft 33 is lowered by the elastic force of the spring 36, and the gasket 34 returns to the original position as shown in Fig. The flow path blocking portion 341 of the gasket which has blocked the gas flow path 221 is lowered to secure the gas flow path to the valve stem 23.

6 and 7, a safety valve according to a second embodiment of the present invention will be described. The second embodiment of the safety valve 30 is different from the first embodiment in terms of the shape of the gasket and the shaft, and the rest of the configuration is the same as that of the first embodiment.

The gasket 34 of the first embodiment is formed integrally with the flow path blocking portion 341, the housing blocking portion 342 and the connecting portion 343, And the housing gasket 34 "for opening and closing the gasket 34 'and the through-hole 321 are separated, and the operation is the same.

The flow path interception gasket 34 'is formed in a cylindrical shape having an open upper end and a lower end, or a cylindrical shape with an open top and a closed bottom end, and is assembled by being fitted to the lower end portion of the gasket insertion portion 332 of the shaft 33. If the flow path gasket 34 'has a cylindrical shape with both ends open, the lower end portion of the gasket insertion portion 332 of the shaft forms a recess in the height direction, so that the flow path interception gasket 34' So that when the shaft 33 is moved up and down, the flow path blocking gasket 34 'should not be released from the shaft 33. Further, when the upper end is opened and the lower end is closed, it is not necessary to form a recess in the lower end portion of the shaft 33. [

The shaft 33 is formed in a ring shape so as to be fitted on the outer circumferential surface of the gasket insertion portion 332 of the shaft and the upper end thereof is brought into close contact with the lower portion of the spring bearing jaw 333. Of course, The gasket adhering portion 334 is not formed and only the spring inserting portion 331, the gasket inserting portion 332, and the spring receiving step 333 are formed.

 It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention. Various modifications and variations will be possible without departing from the spirit of the invention. Therefore, the scope of the present invention should be construed as being covered by the scope of the appended claims, and technical scope within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

10: Mounting cup 11:
12: hole
20: stem housing 21: vertical part
22: horizontal part 221: gas flow path
23: Valve stem
30: Safety valve 31: Safety valve housing
32: Horizontal channel 321: Through hole
33: shaft 331: spring insertion portion
332: gasket inserting portion 333: spring bearing jaw
334: Gasket tightening portion
34: gasket 341:
342: housing blocking portion 343:
34 ': Flow cut-off gasket 34 "Housing cut-off gasket
35: stopper 36: spring
37: Confidential means (O-ring)

Claims (12)

The safety valve according to any one of claims 1 to 3, wherein the gas valve is provided to the valve stem to block the gas flow when the pressure in the gas container becomes higher than a predetermined pressure,
The flow-blocking safety valve includes:
A stem housing having an L shape with a vertical portion and a horizontal portion, a gas flow path formed therein, and an upper portion of the vertical portion being assembled and fixed to the mounting cup;
A safety valve housing formed in a cylindrical shape and integrally formed with the stem housing and spaced apart from a vertical portion of the stem housing and installed in a vertical direction;
A horizontal pipe connected at one end to a gas flow path formed at a horizontal portion of the stem housing and having a through hole at a portion connected to a lower end portion of the safety valve housing,
A hermetic means mounted between an upper portion of the safety valve housing and a hole formed in the mounting cup;
A shaft having a rod shape and formed with a spring bearing protrusion protruding from a predetermined portion thereof and extending from an upper portion inside the safety valve housing to a lower end portion of the horizontal pipe;
A stopper which is formed in a central portion of a closed top with a through hole formed therethrough and has a cylindrical shape with an opening downward and a cylindrical outer circumferential surface closely attached to the inner circumferential surface of the safety valve housing so as to be positioned below the airtight means;
A spring that is fitted to the shaft and is assembled between the upper end of the stopper and the spring bearing jaw of the shaft;
The upper portion is located at the lower end portion of the inside of the safety valve housing, the lower portion is located at the lower inner end portion of the horizontal pipe, and the lower portion of the spring support pin of the shaft is fitted therein. A gasket for blocking a gas flow path formed in a horizontal portion of the gasket;
The lower surface of the horizontal channel is lower in height than the gas channel formed in the horizontal portion of the stem housing so that a step is formed at a portion where the lower surface of the horizontal channel is connected to the horizontal portion of the stem housing Wherein the safety valve is a flow-blocking type safety valve for a portable gas container.
delete The method according to claim 1,
The gasket has a shape with an open top and a closed bottom with a hollow inside,
And a gas flow path formed in a horizontal portion of the stem housing when the overpressure is generated in the gas container;
A housing block located at an upper portion of the safety valve housing and positioned at an upper portion of a through hole formed in a lower end portion of the safety valve housing to open and close the through hole;
A diameter of the outer circumferential surface is smaller than a diameter of the outer circumferential surface of the flow path blocking portion, and a connecting portion integrally connecting the flow blocking portion and the housing blocking portion;
Wherein a lower end of the shaft is inserted into a hollow portion through an opened upper portion of the gasket, and when the pressure in the gas container is normal, the outer circumferential surface of the flow blocking portion is inserted between the lower surface of the horizontal pipe and the horizontal portion of the stem housing And is assembled so as to come into contact with the formed end (step).
The method of claim 3,
The gasket is assembled so that a predetermined space is formed between the lower end surface of the flow path blocking portion of the gasket and the inner peripheral surface of the lower end portion of the horizontal pipe,
Wherein a diameter of a bottom surface of the housing blocking portion of the gasket is larger than a diameter of a through hole formed in a lower end portion of the safety valve housing.
The method of claim 3,
When the shaft is raised by the operation of the safety valve and the outer circumferential surface of the gas passage blocking portion of the gasket is brought into close contact with the surface of the inlet portion of the gas passage so as to block the passage, And an overpressure discharge passage is further formed on the outside of the circumferential surface of the hole.
The gasket according to claim 1,
An oil flow cutoff gasket formed in a cylindrical shape and fitted to a lower end portion of the shaft up to a predetermined height so as to block a gas flow path formed in a horizontal portion of the stem housing when an overpressure is generated in the gas container;
A housing shielding gasket formed in a ring shape and fitted in the shaft so as to be positioned above the flow path blocking gasket to open and close the through hole while being positioned above the through hole formed in the lower end portion of the safety valve housing;
Wherein when the pressure in the gas container is normal, the outer circumferential surface of the gas barrier gasket is assembled so as to abut the step formed between the lower surface of the horizontal pipe and the horizontal portion of the stem housing. Shut-off safety valve.
The method according to claim 6,
A gasket is assembled so that a predetermined space is formed between the lower portion of the flow-blocking gasket and the inner peripheral surface of the lower end portion of the horizontal channel,
Wherein the housing blocking gasket is assembled so as to block a through hole formed in a lower end portion of the safety valve housing.
The method according to claim 6,
In order to prevent the upper portion of the flow path blocking gasket from completely blocking the through hole when the shaft is raised by the operation of the safety valve and the outer circumferential surface of the flow path blocking gasket is in close contact with the surface of the inlet portion of the gas flow path, And an overpressure discharge passage is further formed on the outside of the valve body.
The method according to claim 1,
When the flow path cutoff portion of the gasket cuts off the gas flow path, the outer circumferential surface of the flow path blocking portion is connected to the inflow portion of the gas flow path, Wherein the valve body is configured to be in close contact with the surface of the valve body.
4. The apparatus of claim 3,
A spring inserting portion having a rod shape and having the spring fitted to an outer circumferential surface thereof;
A spring support protrusion protruded from a lower end of the spring insertion portion to support a lower end of a spring inserted into the spring insertion portion;
A gasket tightening portion formed at a lower portion of the spring bearing jaw to a size smaller than the diameter of the spring bearing jaw and having a housing block portion of the gasket fitted to an outer circumferential surface thereof;
A gasket inserting portion formed at a lower end of the gasket adhered portion and having a gasket fitted to an outer circumferential surface thereof;
Wherein the valve body is made of a metal.
7. The apparatus of claim 6,
A spring inserting portion having a rod shape and having the spring fitted to an outer circumferential surface thereof;
A spring support protrusion protruded from a lower end of the spring insertion portion to support a lower end of a spring inserted into the spring insertion portion;
A gasket inserting portion formed at a lower end of the spring bearing jaw and having a flow path blocking gasket and a housing blocking gasket fitted to an outer circumferential surface thereof;
Wherein the valve body is made of a metal.
The method according to claim 1,
Wherein a hole formed in the mounting cup is formed on a line connecting the center of the mounting cup and the notch.

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