KR101333837B1 - A valve structure of rechargeable container having personal charged protection - Google Patents

Abstract

The present invention relates to a valve structure for a refilling container having an anti-filling function, and more particularly, an elbow which includes an upper light plate, a lower light plate, and a valve body, and which is formed of a gas container having a cylindrical shape for storing an LPI therein. In the container, a screw thread that is coupled to the screw thread formed in the inner diameter of the valve body is formed on the outer side of the interruption, and the top of the thread formed on the outer side of the middle of the suspension is formed in the shape of a polygonal pillar for preventing gas leakage and valve separation. And a cylindrical burner mounting portion having a screw thread is formed to project the burner to the upper portion of the polygonal pillar shaped projection, and a counter ring between the polygonal pillar shaped circular projection and the thread formed on the middle surface of the suspension. A ring-shaped fixing groove for fixing the position of the large O-ring is formed, and is formed on the outer surface of the suspension. A valve having an extension portion integrally formed at a lower portion of the screw thread and having a screw thread at an inner diameter thereof, and having a pin insertion hole having a stepped diameter for allowing gas to be discharged at the same time the gas discharge pin is inserted; Is inserted into the pin insertion hole, and is provided with a circular annular shape of a disk shape larger than the upper diameter and smaller than the lower diameter of the pin insertion hole so as to be supported by a spring and caught by the stepped portion of the pin insertion hole. The upper portion of the round jaw has a gas discharge pin having a stepped shape so that the small O-ring can be fastened; A spring provided between the valve and the random charge prevention valve, the portion being inserted into the pin insertion hole and allowing the gas discharge pin to seal the pin insertion hole by pushing up the rounded end of the gas discharge pin; A small o-ring which is fastened to an upper portion of the circular shape of the disc of the gas discharge pin and prevents gas from flowing out through the pin insertion hole; A large O-ring which is fastened to a fixing groove of the valve and prevents gas from flowing into a gap between the valve and the valve body; And a screw thread of an inner diameter formed on an extension of the valve, and forming two gas flow paths for discharging and filling gas, and filling the gas to allow filling only at a specific high pressure which is not available to an individual. It characterized by including the configuration.
According to the valve structure for a refilling container having a personal filling prevention function proposed in the present invention, by configuring the random filling prevention valve in the replaceable valve in the configuration of the rechargeable lpage container that can be replaced, the individual can be used for filling arbitrarily It is possible to charge only at a certain high pressure so that it is possible to prevent the use of arbitrary charging by individuals and to prevent the risk of explosion that can be caused by illegal filling of gas.
In addition, according to the present invention, by sealing the gas container to which the replaceable valve combined with an arbitrary charge prevention valve is applied, by welding method, even if it is filled with isobutane with a high proportion of propane, it can withstand the internal pressure sufficiently, the risk of explosion is low It is very safe to use and can be recharged to prevent environmental pollution and reduce the user's cost.
In addition, according to the present invention, the replaceable valve combined with the optional charge prevention valve is fastened to the valve body of the gas container by screwing, it is possible to separate the valve from the gas container by using a polygonal pillar formed in the valve. By doing so, it is possible to replace the valve immediately if the valve is old due to prolonged use to maintain the sealing force.
In addition, according to the present invention, by fixing the O-ring for each fastening portion of the replaceable valve coupled to the optional charge prevention valve, it is possible to prevent unnecessary leakage of the gas stored in the gas container.

Description

VALVE STRUCTURE OF RECHARGEABLE CONTAINER HAVING PERSONAL CHARGED PROTECTION

The present invention relates to a valve structure for a refilling container having a personal filling prevention function, more specifically, can be recharged to reduce the cost, to maintain the sealing force by replacing the valve at regular intervals, the bottom of the gas container Filling is further equipped with an arbitrary charge prevention valve that allows filling only at a specific high pressure so that an individual cannot use it arbitrarily in the configuration of a replaceable valve that can withstand the high pressure of propane by welding. A valve structure for a refilling container having an prevention function.

In general, camping mainly uses disposable butane containers, propane containers or disposable isobutane containers that are manufactured in a size that can be easily carried, thereby heating or lighting food. At this time, the gas stored in the isobutane container is a mixture of butane and propane, the higher the proportion of propane can be used at lower temperatures, but if the proportion of propane exceeds 20%, the high-pressure gas standard of Korean portable equipment (5㎏) / Cm 2), the isobutane container is made of a structure (cylindrical having a wider width than the height) and a material that can withstand pressure well compared to the butane container.

Such a gas container is very favorably used by campers because of its small volume and simple method of use. However, since the upper and lower portions of the gas container are joined in such a manner as to bend the ends of the metal member and then press and crush the container, the gas container is produced only for one-time use because the risk of gas leakage is large and the refilling is prohibited by law. Therefore, after using the gas, the gas container has to be disposed of immediately, causing environmental pollution, and there is a problem in that the cost burden is considerable because the gas container must be continuously purchased. As a result, some people are at risk of explosion and illegally refill gas in gas containers.

In order to solve this problem, conventionally, a refill valve has been developed and used in combination with a gas container. However, since such a refill valve was developed to be applied only to a butane container having a low internal pressure, there is a problem that conventional drawbacks of the propane container or the isobutane container cannot be solved.

In this regard, the present applicant is applying for and registering a “validated refillable LP container” of Republic of Korea Patent No. 10-1023848 (Registration Date 2011.03.14) that can solve the conventional problems of propane containers or isobutane containers.

The present invention has been proposed to solve the above problems of the conventionally proposed methods, by configuring the random charge prevention valve in the replaceable valve in the configuration of the replaceable valve refillable elf container, the individual can be used for filling Refill container valve structure with a personal charge prevention function that can be filled only at a certain high pressure to prevent the use of arbitrary charges by individuals, and to prevent explosion risks that may occur due to illegal gas charging. To provide that purpose.

In addition, the present invention, by sealing the gas container to which the replaceable valve combined with an arbitrary charge prevention valve is applied by welding, it is able to withstand the internal pressure sufficiently even if the proportion of isobutane having a high proportion of propane, the explosion risk is very low It is another object of the present invention to provide a valve structure for a refilling container having a personal filling prevention function, which can be used safely and can be refilled so as to prevent environmental pollution and reduce a user's cost burden.

In addition, the present invention, by fastening the replaceable valve coupled to the arbitrary charge prevention valve to the valve body of the gas container by screwing, so that the valve can be separated from the gas container using a polygonal pillar formed in the valve. It is a further object of the present invention to provide a valve structure for a refilling container having an anti-filling function, so that the valve can be replaced immediately to maintain a sealing force when the valve is aging due to prolonged use.

In addition, the present invention, by installing the O-ring fixed to each fastening portion of the replaceable valve combined with the optional charge prevention valve, refilling with a personal charge prevention function, to prevent unnecessary leakage of the gas stored in the gas container Another object is to provide a valve structure for a container.

A valve structure for a refill container having a personal filling prevention function according to a feature of the present invention for achieving the above object,

An elbow container comprising an upper hard plate, a lower hard plate, and a valve body, and comprising a gas container having a cylindrical shape for storing elbow therein.

A screw thread coupled to the screw thread formed on the inner diameter of the valve body is coupled to the outer surface of the middle portion of the valve body, and the upper end of the thread line formed on the outer surface of the valve body is formed with a polygonal pillar shape for preventing gas leakage and separating the valve. A cylindrical burner mounting portion having a screw thread is formed to protrude so that the burner can be coupled to the upper portion of the polygonal pillar shaped projection, and a large O-ring is formed between the polygonal pillar shaped circular projection and the thread formed on the suspended outer surface. A ring-shaped fixing groove is formed for fixing the position, and an extension part integrally extended to the lower part of the screw thread formed on the outer surface of the middle part and having a screw thread on the inner diameter is formed therein, and a gas discharge pin is inserted therein and at the same time A valve having a pin insertion hole having a stepped diameter to allow discharge;

Is inserted into the pin insertion hole, and is provided with a circular annular shape of a disk shape larger than the upper diameter and smaller than the lower diameter of the pin insertion hole so as to be supported by a spring and caught by the stepped portion of the pin insertion hole. The upper portion of the round jaw has a gas discharge pin having a stepped shape so that the small O-ring can be fastened;

A spring provided between the valve and the random charge prevention valve, the portion being inserted into the pin insertion hole and allowing the gas discharge pin to seal the pin insertion hole by pushing up the rounded end of the gas discharge pin;

A small o-ring which is fastened to an upper portion of the circular shape of the disc of the gas discharge pin and prevents gas from flowing out through the pin insertion hole;

A large O-ring which is fastened to a fixing groove of the valve and prevents gas from flowing into a gap between the valve and the valve body; And

It is fastened to the screw thread of the inner diameter formed in the extension of the valve, and forms two gas flow paths for the discharge and filling of gas, the gas filling is a random charge prevention valve that can be filled only at a specific high pressure that can not be used by individuals It is characterized by the configuration thereof.

Preferably, the random charge prevention valve,

A screw thread that can be fastened to the screw thread formed on the inner diameter of the extension part is formed on the outer surface, and a multi-pillar shaped round bar is formed at the bottom for coupling the screw fastening of the random charge prevention valve, and for discharging and filling the gas. The gas flow path for filling gas, which is one of the two gas flow paths, forms a tapered inclined surface at an upper end of the inner diameter, seals the inclined surface, and supports the ball and pushes the ball up to the inclined surface to seal the gas flow path. The spring and the screw through which the center is screwed to support the spring is sequentially installed to be formed, and the other, the gas flow path for the gas discharge to form a tapered inclined surface at the lower end of the inner diameter, the lower end The ball sealing the inclined surface formed in the screw, the center of the screw is screwed at the top of the space in which the ball flows It can be formed to be installed by car.

More preferably, the random charge prevention valve,

When the gas is filled into the gas container at a specific high pressure, the ball installed in the gas flow path that forms the inclined surface at the upper end of the two gas flow paths is pushed downward from the inclined surface by the filling high pressure, so that the gas flow path is opened. To be charged,

When the gas stored in the gas container is discharged, the ball installed in the gas flow path that forms the inclined surface at the lower end of the two gas flow paths is pushed upward from the inclined surface by the discharge pressure of the gas, thereby opening the gas flow path. Gas discharge can be achieved.

More preferably, the random charge prevention valve,

An upper O-ring may be further formed on the upper part of the round pillar having a polygonal pillar shape which is screwed to the thread line formed in the inner diameter of the extension part to prevent gas from flowing into the gap between the valve and the random charge prevention valve. .

Preferably, the gas container,

The valve body and the upper hard plate is joined by a welding method in the neck link portion, the lower hard plate having a curved shape at the bottom is joined by a welding method is composed of a cylindrical shape for storing the LPI inside,

A portion of the valve body may be located inside the gas container, and a portion of the valve body may protrude to a constant height for stable coupling of the burner.

More preferably, the gas container,

The thickness of the upper upper plate and the lower lower plate may be relatively thicker than the thickness of the sides.

More preferably, the pin insertion hole of the valve,

The stepped surface is located at the upper side than the surface provided with a polygonal pillar-shaped round jaw of the valve,

The round jaw of the polygonal pillar shape of the valve,

It can be configured in a hexagonal shape for easy coupling and separation of the valve.

More preferably,

The valve and the gas discharge pin is made of the same material,

The valve and the gas container may be made of different materials.

According to the valve structure for a refilling container having a personal filling prevention function proposed in the present invention, by configuring the random filling prevention valve in the replaceable valve in the configuration of the rechargeable lpage container that can be replaced, the individual can be used for filling arbitrarily It is possible to charge only at a certain high pressure so that it is possible to prevent the use of arbitrary charging by individuals and to prevent the risk of explosion that can be caused by illegal filling of gas.

In addition, according to the present invention, by sealing the gas container to which the replaceable valve combined with an arbitrary charge prevention valve is applied, by welding method, even if it is filled with isobutane with a high proportion of propane, it can withstand the internal pressure sufficiently, the risk of explosion is low It is very safe to use and can be recharged to prevent environmental pollution and reduce the user's cost.

In addition, according to the present invention, the replaceable valve combined with the optional charge prevention valve is fastened to the valve body of the gas container by screwing, it is possible to separate the valve from the gas container by using a polygonal pillar formed in the valve. By doing so, it is possible to replace the valve immediately if the valve is old due to prolonged use to maintain the sealing force.

In addition, according to the present invention, by fixing the O-ring for each fastening portion of the replaceable valve coupled to the optional charge prevention valve, it is possible to prevent unnecessary leakage of the gas stored in the gas container.

1 is a perspective view of a conventional isobutane container.
2 is a view showing a valve of a conventional isobutane container.
3 is a view showing the overall configuration of a state in which the valve structure for a refilling container having a personal charge prevention function according to an embodiment of the present invention is fastened to the gas container.
4 is a cross-sectional view showing a state in which the valve structure for a refilling container having a personal charge preventing function is fastened to a gas container according to an embodiment of the present invention.
5 is an exploded perspective perspective view of a valve structure for a refill container having a personal filling prevention function according to an embodiment of the present invention.
FIG. 6 illustrates a planar and cross-sectional configuration of a valve structure for a refill container having a personal filling prevention function according to an embodiment of the present invention. FIG.
7 is a view showing the planar and cross-sectional configuration of the arbitrary charge prevention valve of the valve structure for the refill container having a personal charge protection function according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . In addition, the term 'comprising' of an element means that the element may further include other elements, not to exclude other elements unless specifically stated otherwise.

1 is a view showing a perspective view of a conventional isobutane container. As shown in Figure 1, the conventional isobutane container, the bottom of the gas container by applying a bottom plate and bending the corners inward and then press the sealing method, the upper valve also through the same way Bound to the gas container. Therefore, there is a risk of leakage of gas when the gas is refilled and used for a long time because the sealing is not perfect. Currently, the gas recharging is strictly regulated to prevent this.

In addition, the conventional isobutane container, because it is made of a single-use, greatly pollutes the environment in the process of disposal after use, there is a problem that people who use the gas often have to buy the isobutane container continuously, so the cost burden is large.

2 is a view showing a valve of a conventional isobutane container. As shown in FIG. 2, the valve of the conventional isobutane container is somewhat inferior in durability because the valve is joined to the gas container after the valve is integrally manufactured. Therefore, when the gas is refilled in a conventional isobutane container for a long time, the risk of explosion due to gas leakage may be very high as the valve is damaged, thereby prohibiting refilling by law. Therefore, the isobutane container does not have a duty of regular valve replacement unlike the butane container, which requires a valve replacement every two years.

However, as shown in FIG. 2, since the valve of the conventional isobutane container is manufactured to a certain standard for compatibility with a burner sold in the market, the present invention is an improvement of the conventional isobutane container, The part to which a burner is coupled can borrow the same specification as the valve of the conventional isobutane container.

In this regard, the present applicant has registered and maintains a "valve refillable repellent container that can replace valves" of Republic of Korea Patent No. 10-1023848 (Registration Date 2011.03.14) that can solve the conventional problems of propane container or isobutane container, The valve structure for a refilling container having a personal filling prevention function according to an embodiment of the present invention is improved by the structure of the valve applied to the replaceable refillable LP container, which is registered and maintained by the applicant, so that a particular high pressure cannot be used by an individual. Only charge is possible.

3 is a view showing the overall configuration of a state in which the valve structure for the refilling container having a personal charge prevention function according to an embodiment of the present invention is fastened to the gas container, Figure 4 is an individual according to an embodiment of the present invention It is a figure which shows the cross-sectional structure of the valve structure for refilling containers which has a charge preventing function fastened to the gas container. As shown in FIGS. 3 and 4, the valve structure for a refilling container having a personal filling prevention function according to an embodiment of the present invention includes an upper hard plate 101, a lower hard plate 102, and a valve body 103. In the elbow container (10) consisting of a gas container 100 of a cylindrical shape for storing the lip paper therein, the valve 200, the gas discharge pin 300, the spring 400, the sour ring 500 ), The large O-ring 600, and arbitrary charge prevention valve 700 may be configured to include.

The gas container 100 to which the valve structure for a refilling container having a personal filling prevention function according to an embodiment of the present invention is applied as an example is welded at a neck link portion where the valve body 103 and the upper hard plate 101 contact each other. The lower hard plate 102 having a curved shape at the bottom thereof is coupled to each other by a welding method, and may be configured to have a cylindrical shape for storing LLP (butane, isobutane or propane) therein. Here, a part of the valve body 103 is located inside the gas container 100, a part of the valve body 103 may be formed to protrude to a certain height for stable coupling of the burner. The valve body 103 is in the form of a hollow cylinder, the upper portion of the stepped configuration is wider than the bottom, it may be concentric in shape when viewed from above. The gas container 100 used in the replaceable valve elbow container 10 applied to the present invention has a curved lower surface 102 having a curved shape in order to maintain durability by evenly dispersing the pressure caused by the internal gas. The upper hard plate 101 coupled to the bottom by welding, and forming the upper end of the gas container 100 may also have a curved shape for the same reason, and the upper hard plate 101 is also preferably joined by welding. At this time, a higher pressure may be applied to the lower hard plate 102 and the upper hard plate 101 having a curved shape than the side of the gas container 100, and to withstand the upper hard plate 101 of the gas container 100 and The thickness of the lower hard plate 102 may be relatively thicker than the thickness of the side of the gas container 100. In detail, the thickness of the side surface may be 0.6T, and the thickness of the upper hard plate 101 and the lower hard plate 102 may be 0.8T.

As the gas container 100 has such a shape, the present invention can withstand a pressure of 70 kg / cm 2 or more (tested by the Korea Research Institute of Chemical Research) which is much better than the legal standard of 26 kg / cm 2 of the propane container. As a result of direct experiments, it was confirmed that the pressure sufficiently exceeded 100 kg / cm 2. Therefore, the present invention is remarkably superior in durability compared to a conventional isobutane container or propane container, and it can be expected that no problem will occur even after long-term use after recharging.

The valve 200 has a screw thread coupled to a screw thread formed on the inner diameter of the valve body 103 and formed on the outer side of the middle of the interruption. Shaped round jaw 210 is formed, the cylindrical burner mounting portion 220 having a screw thread is formed to protrude so that the burner is coupled to the upper portion of the polygonal pillar-shaped round jaw 210. At this time, a ring-shaped fixing groove 230 for fixing the position of the large O-ring 600 is formed between the polygonal pillar-shaped circular jaw 210 and the threaded line formed on the outer surface of the middle portion. An extension portion 240 is formed integrally with the lower portion of the screw thread formed on the surface and has a screw thread in the inner diameter, and a pin having a stepped diameter allowing the gas to be discharged at the same time as the gas discharge pin 300 is inserted therein. It is composed of a structure in which the insertion hole 250 is formed. The pin insertion hole 250 and the polygonal pillar-shaped annulus 210 will be described in detail with reference to FIG. 6.

6 is a view showing the planar and cross-sectional configuration of the valve structure for the refill container having a personal charge prevention function according to an embodiment of the present invention. As shown in FIG. 6, the pin insertion hole 250 of the valve structure for a refill container having a personal filling prevention function according to an embodiment of the present invention is configured to penetrate the entire valve 200 to allow gas to flow. However, it may be manufactured to the same size as the gas discharge hole of the conventional isobutane container for compatibility with the burner sold in the market. Of course, the part manufactured by the same standard means only the uppermost part where the burner is coupled in the pin insertion hole 250. In addition, the pin insertion hole 250 of the valve 200 may have a stepped surface at an upper side than a surface having a polygonal pillar-shaped annulus 210 of the valve 200. The pin insertion hole 250 allows the vertical movement of the gas discharge pin 300 to be described later, but should be made in a form that limits the left and right movements. This is because the discharge of the gas should be controlled as the gas discharge pin 300 moves up and down, and if the gas is unintentionally moved left and right, the gas may leak unnecessarily.

The polygonal pillar-shaped annulus 210 of the valve 200 may be configured in a hexagonal shape for easy coupling and separation of the valve 200. The width of the polygonal pillar-shaped annulus 210 provided in the valve 200 is a protruding portion of the valve body 103 so as to realize a perfect sealing of the gas and at the same time not disturbing the use of a tool for the separation of the valve 200. It is configured to be smaller in width, so as to secure a free space at a predetermined interval from the protruding portion of the valve body 103. If the polygonal pillar-shaped annulus 210 is larger than the protruding portion of the valve body 103, the valve 200 itself will not be coupled to the gas container 100, and if it is in contact with the protruding portion, the valve 200 will be separated. This is because the tool for holding the polygonal pillar shape 210 can not properly hold. In addition, the manufacturing of the polygonal pillar-shaped round jaw 210 provided in the valve 200 in the form of a hexagonal column does not protrude greatly from the diameter of the upper or lower end of the valve 200, and for the separation of the valve 200. This is because the shape that can be effectively used is a hexagon. Therefore, the polygonal pillar-shaped annulus 210 should have a hexagonal column shape that is the minimum size to seal the valve body 103, which is a highly preferred embodiment because it also has a side effect of reducing the material cost.

The gas discharge pin 300 is inserted into the pin insertion hole 250, and is supported by the spring 400 and at the top of the pin insertion hole 250 so as to be caught by the stepped portion of the pin insertion hole 250. The circular jaw 310 of the disk shape is larger than the diameter and smaller than the lower diameter, and the upper portion of the circular jaw 310 of the disk shape has a stepped shape so that the So-ring 500 (small O-ring) can be fastened. It can be configured as. That is, the gas discharge pin 300 has a structure in which protrusions are formed at the upper and lower centers of the circular recess 310 of a disc shape, and a fitting groove for coupling with a burner is provided at a protrusion (not shown) at the top of the gas discharge pin 300. It can form more.

The valve structure for a refill container having a personal filling prevention function according to an embodiment of the present invention, when the valve 200 is replaced from the gas container 100 of the refillable LP container 10 that can be replaced, the valve 200 ) Is removed from the valve body 103 of the gas container 100, and the gas discharge pin 300 and the random charge prevention valve 700 inserted into the valve 200 may be selectively replaced. As a result, gas sealability and durability can be maintained for a long time by replacing only some components, thereby solving problems such as explosion risk or environmental pollution caused by using a conventional disposable isobutane container, as well as individual illegal methods. To prevent filling the gas. In this case, the valve 200 and the gas discharge pin 300, which are components to be replaced, may be made of the same material, but the valve 200 and the gas container 100 may be made of different materials. Arbitrary charge prevention valve 700 that is integrally coupled to the valve 200 is made of the same material as the valve (200). As such, by changing the material of the part that is not replaced and the part that is replaced, the manufacturing cost can be significantly lowered.

The spring 400 is provided between the valve 200 and the random charge prevention valve 700, and a part of the spring 400 is inserted into the pin insertion hole 250 and pushes up the annulus 310 of the gas discharge pin 300. The discharge pin 300 may seal the pin insertion hole 250. Since the pin insertion hole 250 may be properly sealed only when the gas discharge pin 300 is positioned as far as possible, the spring 400 uses a sufficiently strong elastic force.

The small ring 500 (small O-ring) is fastened to the upper portion of the disk-shaped annulus 310 of the gas discharge pin 300, and prevents the gas from flowing out through the pin insertion hole 250. When the user mounts the burner through the pin insertion hole 250 formed at the top of the valve 200, the gas discharge pin 300 is lowered to open the pin insertion hole 250, and an optional charge preventing valve to be described later. One of two gas flow paths 720 of 700 is opened to discharge the gas, and when the burner is separated, the gas discharge pin 300 is raised to seal the pin insertion hole 250 and at the same time, a random charge preventing valve. The open gas passage 720 of 700 is also sealed. In this case, the sour ring 500 completely seals the pin insertion hole 250 and prevents the gas discharge pin 300 from being damaged by the collision or friction with the inner surface of the valve 200 when the gas discharge pin 300 moves up and down.

The large O-ring 600 is fastened to the fixing groove 230 of the valve 200, and prevents gas from flowing into the gap between the valve 200 and the valve body 103. Although the valve 200 and the valve body 103 are screwed together, there is a possibility that even a small amount of gas leaks due to the narrow gap between the threads. Therefore, the large O-ring 600 (large O-ring) is fastened to the fixing groove 230 of the valve 200 to hermetically seal the contact portion between the valve 200 and the valve body 103, and thus the valve. And a gap between the threads between the valve body 103 and the valve body 103 is completely sealed. Here, the small ring 500 and the large ring 600 may be made of a synthetic rubber material.

The arbitrary charge prevention valve 700 is fastened to a screw thread of the inner diameter formed in the extension part 240 of the valve 200, and forms two gas flow paths 720 for discharging and filling the gas, and the gas filling is performed individually. It is configured to allow charging only at certain high pressures that cannot be used. Here, the random charge in the arbitrary charge prevention valve 700 may be defined as meaning that some people risk the explosion and illegally refill the gas container 100 to use. That is, the main function of the random charge prevention valve 700 is to prevent individuals from randomly filling the gas in an illegal manner except for recharging the gas in a normal manner, and to prevent the accident of an explosion risk. Hereinafter, the detailed configuration of the arbitrary charge prevention valve 700 will be described in detail with reference to FIGS. 5 to 7.

5 is an exploded perspective configuration of the valve structure for a refill container having a personal charge preventing function according to an embodiment of the present invention, Figure 6 is a refill having a personal charge prevention function according to an embodiment of the present invention Fig. 7 is a view showing a planar and cross-sectional configuration of a valve structure for a container, and FIG. Drawing. 5 is a valve 200, a gas discharge pin 300, a spring 400, a sour ring 500, and an o-ring, which is a configuration of a valve structure for a refill container having a personal filling prevention function according to the present invention. 600 and an exploded perspective configuration of the arbitrary charge prevention valve 700 are shown. Figure 6 (a) shows a plan view from above of the valve structure for the refill container having a personal charge protection function according to the present invention, Figure 6 (b) is for a refill container with a personal charge prevention function according to the present invention A cross-sectional view of the valve structure is shown. Figure 7 (a) shows a plan view from above of the arbitrary charge prevention valve 700 according to the present invention, Figure 7 (b) shows a cross-sectional view of the arbitrary charge prevention valve 700 according to the present invention.

Random charge prevention valve 700, the threaded line which can be fastened with the screw thread formed in the inner diameter of the extension portion 240 is formed on the outer surface, the lower end of the polygonal pillar for coupling the screw fastening of the random charge prevention valve 700 Shaped scuff 710 is formed, the gas flow path 720 for filling the gas, one of two gas flow paths 720 for the discharge and filling of the gas to form a tapered inclined surface 721 on the upper end of the inner diameter A ball 722 for sealing the inclined surface 721, a spring 723 for supporting the ball 722 and pushing up the ball 722 to the inclined surface 721 to seal the gas flow path 720. A screw 724 having a center through which the screw is fastened to support the 723 is sequentially installed. At this time, the ball 722 may be made of a urethane material.

The other gas passage 720 for discharging the gas is formed in a structure opposite to the gas passage 720 described above. That is, another gas passage 720 for discharging gas forms a tapered inclined surface 721 at the lower end of the inner diameter as opposed to the gas passage 720 above, and seals the inclined surface 721 formed at the lower end of the ball ( 722 and a screw 724 through which the center of the screw is screwed at the upper end of the space in which the ball 722 flows may be sequentially installed. That is, the random charge prevention valve 700 forms two gas passages 720 for filling and discharging gas, and each gas passage 720 has a structure in which the same configuration is reversed. In this case, as shown in FIG. 7, a spring 723 for supporting the ball 722 may be removed from the gas flow path 720 formed on the right side to discharge the gas. Since the ball 722 may be sealed by the gas pressure to the inclined surface 721 formed at the bottom during gas filling, even if the configuration of the spring 723 is removed, there is no problem in its function.

That is, the arbitrary charge prevention valve 700 is provided in the gas flow path 720 that forms the inclined surface 721 at the upper end of the two gas flow paths 720 when the gas is filled into the gas container 100 at a specific high pressure. Since the installed ball 722 is pushed downward from the inclined surface 721 by the filling high pressure, the gas flow path 720 may be opened to allow gas filling. On the contrary, the arbitrary charge prevention valve 700 is installed in the gas flow path 720 that forms the inclined surface 721 at the lower end of the two gas flow paths 720 when the gas stored in the gas container 100 is discharged. As the ball 722 is pushed upward from the inclined surface 721 by the discharge pressure of the gas, the gas flow path 720 can be opened to allow the gas to be discharged. The random charge prevention valve 700 is a gap between the valve 200 and the random charge prevention valve 700 in the upper portion of the polygonal column-shaped round jaw 710 that is screwed with the screw thread formed in the inner diameter of the extension portion 240. An O-ring 730 is further formed to prevent the gas from flowing out.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

10: Elbow container (rechargeable valve replacement)
100: gas container 101: upper hard plate
102: lower plate 103: valve body
200: valve 210: round pillar
220: burner mounting portion 230: fixing groove
240: extension portion 250: pin insertion hole
300: gas discharge pin 310: disk-shaped round jaw
400: spring 500: small O-ring
600: large O-ring 700: random charge prevention valve
710: multi-pillar shaped circular 720: gas flow path
721: slope 722: ball (urethane)
723: spring 724: screw
730: medium O-ring

Claims (8)

In the LLP container 10 having an upper light plate 101, a lower light plate 102, and a valve body 103, the gas container 100 having a cylindrical shape for storing LPI inside therein,
A screw thread coupled to a screw thread formed on the inner diameter of the valve body 103 is formed on the outer surface of the middle portion of the valve body 103, and the upper portion of the threaded line formed on the middle surface of the middle portion of the valve body 103 prevents gas leakage and separates the valve from the polygonal pillar shape. ) Is formed, a cylindrical burner mounting portion 220 having a screw thread is formed to protrude so that the burner can be coupled to the upper portion of the polygonal pillar-shaped annular 210, the polygonal pillar-shaped circular projection 210 and the interruption A ring-shaped fixing groove 230 for fixing the position of the large O-ring is formed between the threads formed on the outer surface, and is integrally extended to the lower portion of the thread formed on the suspended outer surface. An extension portion 240 having a screw thread is formed in the inner diameter, and a valve 2 having a pin insertion hole 250 having a stepped diameter for allowing gas to be discharged at the same time the gas discharge pin 300 is inserted therein. 00);
The pin insertion hole 250 is inserted into the pin insertion hole 250 and is larger than the upper diameter of the pin insertion hole 250 so as to be supported by the spring 400 and caught by the stepped portion of the pin insertion hole 250. A smaller disc-shaped annular jaw 310 is provided, and the upper portion of the disc-shaped annular jaw 310 has a gas discharge pin 300 having a stepped shape so that the o-ring 500 can be fastened. );
It is provided between the valve 200 and the random charge prevention valve 700, a portion is inserted into the pin insertion hole 250 and the gas discharge pin by pushing up the round (310) of the gas discharge pin 300 A spring 400 allowing the pin insertion hole 250 to be sealed;
A sour ring 500 fastened to an upper portion of the annular plate 310 of the gas discharge pin 300 to prevent the gas from flowing out through the pin insertion hole 250;
A large O-ring fastened to the fixing groove 230 of the valve 200 and preventing a gas from flowing into a gap between the valve 200 and the valve body 103; And
It is fastened to a screw thread of the inner diameter formed in the extension portion 240 of the valve 200, and forms two gas flow paths 720 for discharging and filling gas, and the gas filling is filled only at a specific high pressure which cannot be used by an individual. It characterized in that it comprises a random charge prevention valve 700 to enable, the valve structure for a refill container having a personal charge protection function.
According to claim 1, wherein the random charge prevention valve 700,
A screw thread that can be fastened with a screw wire formed on the inner diameter of the extension part 240 is formed on the outer surface, and a round pillar 710 having a polygonal pillar shape for coupling the screw fastening of the random charge prevention valve 700 is formed at the lower end thereof. The gas passage 720 for filling gas, which is one of two gas passages 720 for discharging and filling gas, forms a tapered inclined surface 721 at an upper end of an inner diameter, and seals the inclined surface 721. A ball 722, a spring 723 for supporting the ball 722 and pushing up the ball 722 to the inclined surface 721 to seal the gas flow path 720, and the spring 723. The screw 724 through which the center of the screw fastened to support the screw 724 is sequentially installed and formed, and the other gas passage 720 for discharging the gas forms a tapered inclined surface 721 at the lower end of the inner diameter. A ball 722 for sealing the inclined surface 721 formed on the lower end, and A center of threaded screw 724 through which the ball 722 is screwed at the upper end of the space in which the flow flows is sequentially installed and formed.
The method of claim 2, wherein the random charge prevention valve 700,
When the gas is filled into the gas container 100 at a specific high pressure, the ball 722 installed in the gas flow path 720 that forms the inclined surface 721 at the upper end of the two gas flow paths 720 is filled with the high pressure. By being pushed downward from the inclined surface 721, the gas flow path 720 is opened to allow gas filling,
When the gas stored in the gas container 100 is discharged, a ball 722 installed in the gas flow path 720 that forms the inclined surface 721 at the lower end of the two gas flow paths 720 is applied to the discharge pressure of the gas. By moving upward from the inclined surface 721 by, the gas flow path (720) is opened so that the gas is discharged, characterized in that the valve structure for refilling container having a personal charge prevention function.
The method of claim 2, wherein the random charge prevention valve 700,
Preventing outflow of gas into a gap between the valve 200 and the random charge prevention valve 700 in the upper part of the round pillar 710 of the polygonal column type which is screwed with the screw line formed in the inner diameter of the extension part 240. A valve structure for a refill container having a personal filling prevention function, further comprising an O-ring (730).
The gas container 100 according to any one of claims 1 to 4,
The valve body 103 and the upper hard plate 101 is joined by a welding method in the neck link portion, and the lower hard plate 102 having a curved shape at the bottom is joined in a welded manner to keep the elbow inside It consists of
A portion of the valve body 103 is located inside the gas container 100, a portion of the valve body 103 is characterized in that the protrusion formed at a constant height for stable coupling of the burner, personal charging prevention function Valve structure for a refill container having a.
The method of claim 5, wherein the gas container 100,
A valve structure for a refill container having an individual filling prevention function, characterized in that the thickness of the upper upper plate 101 and the lower lower plate 102 is relatively thicker than the side thickness.
The method of claim 5, wherein the pin insertion hole 250 of the valve 200,
The stepped surface is located on the upper side than the surface provided with a round pillar 210 of the polygonal pillar shape of the valve 200,
The round jaw 210 of the polygonal pillar shape of the valve 200,
Characterized in that the hexagonal configuration for easy coupling and separation of the valve 200, the valve structure for the refill container having a personal charge prevention function.
The method of claim 5,
The valve 200 and the gas discharge pin 300 is made of the same material,
The valve 200 and the gas container 100, characterized in that made of a different material, the valve structure for the refill container having a personal charge prevention function.

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