KR20230130349A - High pressure sealing apparatus for valve - Google Patents

Abstract

The present invention includes a sealing jig, a sealing pad mounted on the bottom of the sealing jig and performing a sealing function by being in close contact with the first inclined surface of the outlet pipe, and a sealing pad mounted on the outer surface of the sealing jig to be able to move in a straight line and on the male thread of the outlet pipe. It includes a fixing nut that is screwed to the outlet pipe to secure the sealing jig to the outlet pipe, and the sealing pad is formed with a first inclined surface that is in close contact with the first inclined surface of the outlet pipe to widen the contact area with the outlet pipe, thereby sealing the outlet pipe. It can improve performance and prevent scratches and wear on outlet pipes.

Description

Sealing device for high pressure airtightness of fluid control valve {HIGH PRESSURE SEALING APPARATUS FOR VALVE}

The present invention tests the airtightness of the fluid control valve that controls the flow of the raw material gas when charging the raw material gas stored in the high pressure container or supplying it to the gas user. For the airtightness test, the raw material gas is It relates to a high-pressure airtight sealing device for a fluid control valve that is mounted on an outlet pipe discharged to a used part or an inlet pipe through which raw material gas is charged into a high-pressure container and seals the pipe.

Currently, in the case of a hydrogen fuel cell system, a fluid control valve is installed in the high-pressure container where the raw material gas is stored to control the flow of the raw material gas when charging the raw material gas into the high-pressure container and when supplying the raw material gas stored in the high-pressure container to the gas user. Controls the flow of raw material gas.

The fluid control valve can precisely control the flow of raw material gas according to electrical signals, and must keep the pressure of the fluid stored in the pressure vessel constant, preventing the high-pressure vessel from exploding in the event of a hydrogen fuel cell vehicle overturning or a fire occurring. must be able to prevent.

A conventional valve for a fluid control system is mounted on a high-pressure cylinder and connected between a first region having a first pressure and a second region having a second pressure, as disclosed in US Patent No. 7,309,113 B2 (December 18, 2007). A valve body in which the main flow passage is formed, a filter installed on the inlet side connected to the main flow passage, a manual valve installed in a portion connected to the main flow passage to manually open and close the main flow passage, and a main flow passage It includes a solenoid valve installed in the communicating back pressure passage to open and close the back pressure passage according to an electrical signal, and a shuttle valve installed in the main flow passage to close the main flow passage when overpressure occurs and open the main flow passage when normal pressure is reached. do.

Since this type of fluid control valve has various valves mounted on the valve body in a screw-coupled manner, it is essential to perform an airtightness test after manufacturing the valve.

US registered patent US 7,309,113 B2 (2007 December 18)

Therefore, the purpose of the present invention is to provide a sealing device for high pressure airtightness of a fluid control valve that can improve the sealing performance of the pipe, improve the reliability of the airtightness test, and prevent wear and scratches of the pipe.

In order to achieve the above object, the sealing device of the present invention includes a sealing jig, a sealing pad mounted at the bottom of the sealing jig and performing a sealing function by being in close contact with the first inclined surface of the outlet pipe, and a straight line on the outer surface of the sealing jig. It is movably mounted and includes a fixing nut that is screwed to the male thread of the outlet pipe to secure the sealing jig to the outlet pipe, and the sealing pad is in close contact with the first inclined surface of the outlet pipe to widen the contact area with the outlet pipe. 1 A slope is formed.

The sealing jig is formed in the shape of a circular bar and includes a circular bar portion that is inserted so that the fixing nut moves in a straight line, a disk portion formed on the lower side of the circular rod portion and has an outer diameter larger than that of the disk portion, and a disk portion that protrudes from the center of the lower surface of the disk portion. It may include a coupling protrusion into which the sealing pad is fitted.

The sealing pad may be made of TPU (Thermal Polyurethane) material.

The sealing pad may be formed with a fitting hole penetrating in the center so as to be fitted into the coupling protrusion of the sealing jig, and a second inclined surface may be formed on the outer surface thereof in a form in which the inner diameter narrows downward.

The fixing nut may have a slide portion formed on its upper side to be linearly movable into the circular rod of the sealing jig, and a female thread portion screwed to the male thread of the outlet pipe may be formed on its lower inner surface.

As described above, in the sealing device of the present invention, the sealing pad is in surface contact with the outlet pipe to increase the contact area, thereby improving sealing performance.

Additionally, the sealing pad is made of TPU material to prevent wear and scratches on the outlet pipe.

1 is a cross-sectional view of a fluid control valve according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of a sealing device according to an embodiment of the present invention coupled to an outlet pipe.
Figure 3 is a cross-sectional view of a sealing device according to an embodiment of the present invention.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the attached drawings. In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. Additionally, terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be made based on the content throughout this specification.

As shown in FIG. 1, the fluid control valve 100 according to an embodiment includes a valve body 10 that is mounted on a high-pressure vessel in which raw material gas is stored and has a plurality of passages through which the raw material gas passes, and a valve body. A manual valve (12) mounted on (10) to manually open and close the flow path, a solenoid valve (14) mounted on the valve body (10) to automatically open and close the flow path according to an electrical signal, and the valve body (10) Inlet pipes 16 and 18, which are mounted on the part inserted into the high pressure vessel and through which raw material gas passes, outlet pipes 20, which are mounted on the valve body 10 and through which raw material gas flows in and out, and vehicle accidents, etc. When a fire occurs due to a fire, the pressure relief device (22) prevents the high-pressure container from exploding by releasing the raw material gas inside the high-pressure container to the outside when the temperature of the high-pressure container rises, and the It includes a bleed valve (24) that releases it.

A high-pressure container mounting portion 26 having a male thread portion to be screwed to the high-pressure container is formed on the valve body 10.

The inlet pipes 16 and 18 include a first inlet pipe 16 through which raw material gas is charged into the high pressure vessel, and a second inlet pipe 18 through which the raw material gas stored in the high pressure vessel is discharged.

The flow path of the valve body 10 is a first flow path 30 connecting between the first inlet pipe 16 and the manual valve 12, and a first flow path connecting between the second inlet pipe 18 and the solenoid valve 14. It includes a second passage 32 and a third passage 34 connecting the manual valve 12 and the outlet pipe 20, and the first passage 30 and the second passage 32 are solenoid valves ( 14) are connected to each other.

The valve body 10 is formed with a valve mounting portion 38 in which a female thread is formed so that the various valves, inlet pipes, outlet pipes, and pressure release devices described above are mounted by screwing, and various valves are screwed to each valve mounting portion. It is fixed.

Such hydraulic control valves are equipped with an airtightness inspection system that checks whether each valve operates normally without airtightness and whether the valve mounting portion 38 is maintained airtight.

The airtightness inspection system installs a sealing device 50 on the outlet pipe 20 to seal the outlet pipe 20 and then pressurizes fluid into the flow path of the hydraulic control valve to inspect whether each valve mounting part is airtight. .

The outlet pipe 20 is formed with a passage 46 penetrating its inner surface so that the raw material gas passes through, and a first inclined surface 48 is formed on the inner surface of the inlet side to allow the raw material gas to pass through the outlet pipe 20. When the piping for supply to the supply section is connected, the adhesion to the piping is improved. And a male thread portion 42 is formed on the outer surface of the inlet side of the outlet pipe 20 and is screwed to the pipe.

As shown in FIGS. 2 and 3, the sealing device 50 is mounted on the sealing jig 52 and the lower end of the sealing jig 52 and seals in close contact with the first inclined surface 48 of the outlet pipe 20. The sealing pad 54, which performs a function, is mounted on the outer surface of the sealing jig 52 to be able to move linearly and is screwed to the male thread portion 42 of the outlet pipe 20 to connect the sealing jig 52 to the outlet pipe 20. ) includes a fixing nut (56) that secures to the.

The sealing jig 52 is formed in the shape of a circular bar and is integrally formed with a circular bar part 60 that is inserted so that the fixing nut 56 moves linearly and supports the fixing nut 56, and the lower side of the circular bar part 60. It includes a disk portion 62 having a larger outer diameter than the portion 60, and a coupling protrusion 64 that protrudes from the center of the lower surface of the disk portion 62 and into which the sealing pad 54 is fitted. This sealing jig 52 may be made of a metal material to maintain strength.

The sealing pad 54 is formed with a fitting hole 70 penetrating in the center so as to be fitted into the coupling protrusion of the sealing jig 52, and has a second inclined surface 72 on its outer surface whose inner diameter narrows downward. This is formed to closely adhere to the first inclined surface 48 of the outlet pipe 20 to perform a sealing effect, and improves sealing performance by increasing the contact area between the sealing pad 54 and the outlet pipe 20.

Since the sealing pad 54 is in direct contact with the outlet pipe 20, it must play a sealing role and prevent the outlet pipe 20 from being damaged, worn, or scratched.

For this purpose, the material of the sealing pad 54 is important, and in this embodiment, it is made of TPU (Thermal Polyurethane) material to prevent wear and scratches of the outlet pipe while performing a sealing function.

TPU material is a thermoplastic polyurethane that has heat resistance and abrasion resistance, and is a plastic with rubber properties that has elasticity and high durability. Therefore, by using the sealing pad 54 made of TPU, it is possible to prevent wear and scratches on the outlet pipe 20 even when the outlet pipe 20 is pressed, and because it has rubber properties, it has excellent adhesion and excellent sealing performance.

The fixing nut 56 has a slide portion 66 formed in its upper center that is inserted into the circular rod portion 60 of the sealing jig 52 so as to be able to move linearly, and has a locking part on the upper inner surface that is caught on the upper surface of the circular plate portion of the sealing jig. A jaw portion 68 is formed, and a female thread portion 44 that is screwed to the male thread portion 42 of the outlet pipe 20 is formed on its lower inner surface.

When the female thread portion 44 of the fixing nut 56 is screwed to the male thread portion 42 of the outlet pipe 20 and tightened, the fixing nut 56 is lowered, and as the fixing nut 56 is lowered, the sealing jig 52 ) is lowered together, and the second inclined surface 72 of the sealing pad 54 mounted on the lower side of the sealing jig 52 comes into close contact with the first inclined surface 48 of the outlet pipe 20 to perform a sealing action.

Looking at the operation of the sealing device constructed in this way, the sealing pad 54 is placed in close contact with the inlet side of the outlet pipe 20, and when the fixing nut 56 is tightened, the female thread portion 44 of the fixing nut 56 is is screwed to the male thread portion 42 of the outlet pipe 20 and is lowered, and thus the sealing pad 54 is in close contact with the outlet pipe 20 to seal the outlet pipe 20. In particular, since the second inclined surface 72 of the sealing pad 54 is in surface contact with the first inclined surface 48 of the outlet pipe 20, the contact area can be widened and sealing performance can be further improved.

In addition, since the sealing pad 54 is made of TPU material, it prevents wear and scratches on the outlet pipe, and has excellent wear resistance, allowing reuse and increasing the number of uses.

In the above, the present invention has been shown and described by taking specific preferred embodiments as examples, but the present invention is not limited to the above-described embodiments and is within the scope of the spirit of the present invention and is within the scope of common knowledge in the technical field to which the invention pertains. Various changes and modifications will be possible by those who have it.

20: outlet pipe 42: male thread portion
44: female thread 48: first slope
50: Sealing device 52: Sealing jig
54: Sealing pad 56: Fixing nut

Claims (6)

ceiling jig;
a sealing pad mounted at the bottom of the sealing jig and performing a sealing function by being in close contact with the first inclined surface of the outlet pipe;
A fixing nut is mounted on the outer surface of the sealing jig to enable linear movement and is screwed to the male thread of the outlet pipe to secure the sealing jig to the outlet pipe.
The sealing pad is a high-pressure hermetic sealing device for a fluid control valve in which a first inclined surface is formed in close contact with a first inclined surface of the outlet pipe to widen the contact area with the outlet pipe. According to paragraph 1,
The sealing jig is formed in the shape of a circular rod and includes a circular rod portion inserted so that the fixing nut moves in a straight line;
a disk portion formed below the circular rod portion and having a larger outer diameter than the circular rod portion; and
A sealing device for high pressure airtightness of a fluid control valve including a coupling protrusion formed to protrude from the center of the lower surface of the disk portion and into which a sealing pad is fitted. According to paragraph 2,
The sealing jig is a sealing device for high pressure airtightness of a fluid control valve made of metal. According to paragraph 1,
A sealing device for high pressure airtightness of a fluid control valve made of the sealing pad TPU (Thermal Polyurethane) material. According to paragraph 2,
The sealing pad is formed with a central fitting hole penetrating so as to fit into the coupling protrusion of the sealing jig, and on the outer surface of the sealing pad, a second inclined surface having an inner diameter that narrows downward is formed for high pressure airtight sealing of the fluid control valve. Device. According to paragraph 2,
The fixing nut is a high-pressure airtight device for a fluid control valve in which a slide portion is formed on the upper side to be linearly movable inserted into the circular rod of the sealing jig, and a female thread portion that is screwed to the male thread of the outlet pipe is formed on the lower inner surface of the fixing nut. Sealing device.

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