KR20180000535U - Valve for automatic section switch - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a valve for an automatic shut-off valve that automatically discharges the bequest or moisture inside a fault-zone automatic switch.
According to an embodiment of the present disclosure, a valve for an automatic opening and closing valve is formed in a cylindrical shape and has a hollow portion, one end of which is connected to an outer case and penetrates from one end to the other end, A second plunger, a spring inserted into the hollow and surrounding a part of the other end of the second plunger, and a body formed at one end to open an inner space and coupled with the first plunger so as to surround a part of the other end of the first plunger, .

Description

{VALVE FOR AUTOMATIC SECTION SWITCH}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a valve for an automatic shut-off valve that discharges the bequest or moisture inside a fault-zone automatic switch.

Unless otherwise indicated herein, the description set forth in this identification section is not prior art to the claims of this application and is not to be construed as prior art as described in this identification section.

In general, the automatic section switch (ASS) is installed to protect the equipment such as the measuring transformer (MOF: Metering Outfit), which is the reception equipment of the customer. The breaker is installed in the inner space of the enclosure, Insulating gas or oil is filled to insulate the inside.

1, the fault section automatic switch 10 includes an enclosure 11, a top plate 12, an insulator 13, an aisle 14, an upper terminal 15 and an automatic switch valve A1 .

The automatic break switch (10) is filled with gas or oil to insulate electronic devices disposed therein, thereby preventing malfunction from occurring.

Inside the enclosure 11, a blocking portion for blocking the conductor is disposed, and the inside of the enclosure 11 is filled with oil or gas to insulate the conductor. An upper plate 12 is coupled to an upper portion of the enclosure 11 and a plurality of insulators 13 are disposed above the upper plate 12.

Each of the insulators 13 is composed of a corrugated pipe integrally formed of a magnetic or rubber material and is composed of a circular apex 14 and an upper terminal 15 coupled to the upper portion. .

An automatic switch valve A1 for connecting the space filled with the oil or gas inside the enclosure 11 to the outside is disposed in the upper plate 12 and the valve A1 for automatic opening / When a pressure higher than a predetermined value is applied to the solenoid-operated valve A1, the inside of the enclosure 11 is discharged to the outside.

Meanwhile, oil or gas is filled in the inside of the enclosure 11 of the fault section automatic switchgear 10, and the temperature of the oil or gas increases due to the influence of the outside or the inside of the enclosure 11, There is a problem that moisture is accumulated or beak is generated.

Therefore, when the valve A1 for automatic opening and closing is connected to the upper plate 12 and the pressure of the moisture or beak is equal to or higher than a predetermined value in order to discharge the foreign matter including moisture or beak that occurs inside the enclosure 11 to the outside, The valve A1 is opened to discharge moisture or beak to the outside.

In this regard, Korean Patent Registration No. 10-0118748 discloses an oil-type automatic switch that prevents deterioration of oil and improves its operating characteristics while reducing its size. Korean Utility Model Laid-Open No. 20-2015-0000647 discloses an oil- Discloses a gas insulated switchgear with a locking device.

 However, the conventional invention does not disclose a valve invention for removing bequest or moisture generated in the enclosure, and it is necessary to safely remove bequest or moisture to solve the problem.

And a valve for an automatic opening / closing valve for automatically discharging the bequest or moisture inside the automatic switch of the fault section.

Further, it is obvious that the present invention is not limited to the above-described technical problems, and another technical problem may be derived from the following description.

According to an embodiment of the disclosed subject matter, the valve for an automatic opening and closing valve is formed in a cylindrical shape, and a hollow portion, one end of which is coupled with an enclosure and penetrates from one end to the other end, a second plunger inserted into the other end of the hollow, A spring inserted into the hollow and surrounding a part of the other end of the second plunger and a body formed at one end to open an inner space and coupled with the first plunger so as to surround a part of the other end of the first plunger have.

The first plunger may further include inclined surfaces formed toward the body with a part of the inner surface protruding toward the center of the inner surface of the hollow.

According to an embodiment of the present disclosure, when a valve for automatic opening / closing operation is applied to a valve for automatic opening and closing, a valve for automatically opening and closing a passage connected to the outside space is opened So that it can be conveniently and safely removed.

Further, the valve for the automatic opening / closing valve can easily replace the sealing member formed therein through a single disassembly, and the spring fixing portion is formed therein, so that the spring can be stably contracted or extended.

In addition, the plunger inside the valve for the automatic switch moves according to the pressure of the beak or moisture, pushes out the plunger, and the beak or moisture flowing into the valve for the automatic switch is discharged toward the malfunctioning automatic switch And safety is improved.

It is also possible to have other effects besides the enumerated effects of automatic opening, spring shrinking or extension stability and safety enhancement of the mentioned automatic switch valve.

1 is a perspective view showing an automatic breaker of a fault section equipped with an automatic breaker valve.
2 is a perspective view of an automatic switch valve according to an embodiment of the present disclosure;
Fig. 3 is an exploded perspective view of the automatic shutoff valve of Fig. 1; Fig.
4 is a cross-sectional view taken along line II-II 'of FIG. 3;
5 is a cross-sectional view taken along line I-I 'of FIG. 1;
6 is a cross-sectional view showing an example of another state of Fig. 5;
7 is a perspective view showing a valve for an automatic switch according to another embodiment of the present disclosure.
Figs. 8 and 9 are cross-sectional views illustrating the operation of the valve for automatic opening and closing of the apparatus shown in Fig. 7;

Hereinafter, the configuration, operation, and effects of the automatic switch valve according to the preferred embodiment will be described with reference to the accompanying drawings. For reference, in the following drawings, each component is omitted or schematically shown for convenience and clarity, and the size of each component does not reflect the actual size, and the same reference numerals denote the same components throughout the specification. And reference numerals for the same components in individual drawings are omitted.

As shown in Fig. 2, the automatic valve A1 includes a first plunger 200 and a main body 400. As shown in Fig.

The first plunger 200 is formed in a cylindrical shape, and a part of the first plunger 200 is engaged with the housing 11, and the inner space is passed through from one end to the other end to form a passage. The other end of the first plunger 200 is inserted into the main body 400 and is bolted to the coupling portion inside the main body 400.

The main body 400 is formed to open at one end to the inner space and is coupled to the first plunger 200 through a structure surrounding a part of the other end of the first plunger 200. The first plunger 200 and the main body 400 are spaced apart from each other by a predetermined distance.

The first plunger 200 includes a center frame 210, an outlet 220, an enclosure engaging portion 230, a hollow 240 and a body engaging portion 250.

The center frame 210 is disposed at the center of the first plunger 200 and is disposed between one end of the first plunger 200 coupled to the enclosure 11 and the other end of the first plunger 200 coupled to the body 400. [ As shown in FIG.

The discharge port 220 is connected to the inner space of the first plunger 200 through the side surface of the center frame 210 and the enclosure coupling part 230 is disposed at one end of the first plunger 200, Lt; / RTI >

The hollow 240 is connected to the discharge port 220 as an internal space penetrating from one end to the other end of the first plunger 200. The main body coupling part 250 is disposed at the other end of the first plunger 200 and is bolted to a part of the internal space of the main body 400.

Accordingly, the beak or moisture inside the enclosure 11 moves to the hollow 240 through the enclosure engaging part 230, and when the pressure of the beak or moisture is higher than the predetermined value, the pressure inside the hollow 240 increases, 220).

As shown in FIG. 3, the automatic valve A1 includes a second plunger 300 and a spring 500.

The second plunger 300 is disposed between the first plunger 200 and the main body 400. One end of the second plunger 300 is inserted into the other end of the hollow 240 and moves by a predetermined distance, 240 and the discharge port 220 connected to the discharge port 220. As shown in FIG.

The other end of the second plunger 300 extends toward the inside of the main body 400 while being inserted into the spring 500. When the main body coupling part 250 and the main body 400 are coupled, And the aspiration or moisture generated in the inside of the enclosure 11 pushes the second plunger 300 through the hollow 240 and the second plunger 300 moves toward the main body 400, 240 along the outer circumference of the discharge port 220.

The second plunger 300 includes a sealing engagement portion 310, a projection 320, a spring engagement portion 330, and a sealing member 340.

The spring coupling portion 330 is formed to extend to the other end of the second plunger 300 and is inserted into one end of the spring 500. The protrusion 320 is extended from the spring coupling part 330 so as to extend outward by a predetermined distance toward one end.

The sealing member 340 is formed so as to surround the side surface of the sealing engagement portion 310 and is in close contact with the protrusion 320. The sealing member 340 is formed to extend from the protrusion 320 toward the one end, .

As shown in FIG. 4, the first plunger 200 further includes an inclined surface 260.

The inclined surface 260 is formed toward the main body 400 while a part of the inner surface of the central frame 210 inside the hollow 240 protrudes toward the center of the inner surface.

The hollow 240 is formed to extend toward the main body 400 through the inclined surface 260 and the sealing member 340 and the sealing engagement portion 310 contact the inclined surface 260 to seal the hollow 240 .

The sealing member 340 and the sealing member 340 which are disposed in close contact with the inclined surface 260 after the hollow 240 is closed and the beak or moisture generated in the enclosure 11 reaches the inclined surface 260 along the hollow 240, (310).

The beak or moisture reaching the predetermined pressure or higher pushes the sealing engagement portion 310 toward the body 400 from the hollow 240 formed between the inclined surfaces 260 and is discharged to the outside through the discharge port 220 .

The pressure inside the enclosure 11 is reduced so that the second plunger 300 moves to the original position due to the elasticity of the spring 500 and the sealing member 340 comes into close contact with the inclined surface 260, 240).

The main body 400 includes an inner engaging portion 410, a body inclined surface 420, and a spring fixing portion 430.

The inner coupling portion 410 is disposed in the inner space of the main body 400 and is formed to be bolted to the main body coupling portion 250 of the first plunger 200 inserted into the main body 400.

The main body slope 420 is inclined toward the other end of the main body 400 from the inner coupling part 410. The spring fixing part 430 is formed to extend from the other end of the inner space toward one end, And the spring 500 is fixed.

Accordingly, the second plunger 300 moving to the main body 400 through the beak or moisture is stably contracted and moved by the spring fixing part 430, and the spring coupling part 330 moves by a predetermined distance, The spring 500 and the spring coupling part 330 are prevented from being separated from the inside of the main body 400 by excessive pressure of the beating or moisture while contacting the fixing part 430. [

As shown in FIG. 5, the main body 400 further includes a discharge passage 440.

The main body coupling portion 250 of the first plunger 200 is bolted to the inner coupling portion 410 of the main body 400 and one end of the second plunger 300 is inserted into the other end of the hollow 240, Is inserted into the main body (400) while being inserted into the spring (500).

The discharge passage 440 is formed between the side surface of the first plunger 200 and the inner space of the main body 400 while the main body engaging portion 250 is engaged with the inner engaging portion 410, And is connected to the outer space.

The discharge port 220 is connected to the discharge passage 440 and the hollow 240 inside the first plunger 200 in which the second plunger 300 is disposed is connected to the discharge passage 440 through the discharge port 220 .

Therefore, the beating or moisture generated in the enclosure 11 pushes the sealing engagement portion 310 and the sealing member 340, which are disposed between the inclined surfaces 260 along the hollow 240, toward the main body 400, 260 to the discharge port 220 and discharged to the outside through the discharge passage 440. [

As shown in FIG. 6, the second plunger 300 moves toward the main body 400 with the pressure of beak or moisture generated in the inside of the enclosure 11, and the spring 500 contracts.

The moisture or moisture moving through the hollow 240 toward the inside of the main body 400 along the inclined surface 260 moves to the discharge port 220 through the sealing engagement portion 310 and the sealing member 340 and flows into the discharge passage 440 To the outside space.

In this case, the spring coupling part 350 moves toward the spring fixing part 230 while being inserted into the spring 500, and the pressure of the spring fixing part 430 suddenly increases so that the spring coupling part 350 Is prevented from moving excessively toward the main body 400, and guides the spring 500 to stably contract.

The discharge passage 440 is formed to open toward the other end of the main body 400 along the inner side surface of the main body 400 so that the aspiration or moisture moves upward through the enclosure 11 and flows through the valve A1 for automatic opening / And is discharged toward the upper plate 12. [

Therefore, the beak or moisture moves along the inclined surface 260, is discharged to the side of the second plunger 300 through the discharge port 220, and is again discharged to the discharge passage 300 disposed between the main body 400 and the second plunger 300 Since the discharge direction is guided by the guide member 440 and moves toward the upper plate 12, it prevents accident or accidental contact with the human body.

The main body 400 and the first plunger 200 can be easily attached and detached through the inner engaging portion 410 and the second plunger 300 can be easily attached and detached thereby facilitating the replacement of the sealing member 340 , Moisture, or foreign contaminants that may remain in the hollow (240).

The spring fixing part 430 may be removed along the length of the spring coupling part 330 formed on the second plunger 300. In this case, the spring coupling part 330 contacts the inside of the main body 400 Thereby restricting excessive contraction movement of the second plunger 300.

7 according to the present embodiment is substantially the same as the valve A1 for an automatic opening and closing of the automatic switch in FIG. 1 except for the second plunger 600, so that the same reference numerals and names are used, The description will be omitted.

7, the automatic valve A2 includes a second plunger 600, and the second plunger 600 includes a steel ball 610. As shown in Fig.

The ball valve A2 for the automatic opening and closing valve has a circular ball shaped steel ball 610 which is different from the structure of the second plunger 300 of FIG. 1 inserted into the hollow 240, A portion of the hemisphere contacts the sloped surface 260 inside the hollow 240 to seal the hollow 240.

A part of the other hemisphere of the steel ball 610 is inserted into one end of the spring 500 so that when the steel ball 610 moves toward the main body 400, the spring 500 presses the main body 400 with the pressure of the steel ball 610 Lt; / RTI >

The steel ball 610 can seal the hollow 240 without mounting a separate sealing member, which increases the durability and has an advantage in that it is simple in structure and easy in the production of a mold. When the beaker or moisture is present in the curved surface of the steel ball 610 So that it is easily discharged to the discharge port 220.

The steel ball 610 may be manufactured through a polymer material having high heat resistance, a metal or a ceramic material, and may be fabricated through a polymer material that is not reacted to bequests or moisture inside the enclosure 11 when manufactured through a polymer.

8 and 9, when the first plunger 200 is coupled to the main body 400 and the pressure of the inside or the inside of the enclosure 11 is lower than a predetermined value, the steel ball 610 is inclined 260 and keep the hollow 240 closed.

A portion of one hemisphere of the steel ball 610 is inserted into the hollow 240 formed between the inclined surfaces 260 so that a part of one hemisphere of the steel ball 610 is inserted into the hollow 240 in a protruding manner toward the inside of the enclosure 11. [ Respectively.

The surface of one hemisphere of the steel ball 610 is formed in a curved surface shape and the inclined surface 260 is formed in a shape that surrounds one hemisphere of the steel ball 610 inside the hollow 240 in a curved surface, (240) is effectively sealed and the bequest or moisture is blocked by steel ball (610).

Referring to FIG. 9, when the beak or moisture pressure generated in the enclosure 11 reaches a predetermined value, the beard or moisture pushes out a part of one hemisphere of the steel ball 610, 500 to move to the discharge port 220 along the space generated while moving toward the main body 400.

The beak or moisture is moved toward the discharge port 220 along the surface formed by the curved surface of the steel ball 610 and the beard or moisture moving through the discharge port 220 is discharged to the outside through the discharge passage 440.

Therefore, the valve A2 for automatic opening and closing is formed in a simple structure, and the hollow 240 can be sealed without adding a separate sealing member, thereby increasing the durability. By replacing the main body 400, Or the spring 500 can be easily replaced.

The beep or moisture generated inside the enclosure 11 moves along the slope 260 to the discharge port 220 and moves toward the surface of the top plate 12 through the discharge passage 440, It is possible to prevent personal injury from occurring.

While the preferred embodiments of the present invention have been described with reference to the accompanying drawings, it is to be understood that the embodiments shown in the drawings and the drawings are only exemplary embodiments of the present invention and that all the technical ideas of the present invention It is to be understood that various equivalents and modifications may be substituted for those at the time of the present application. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive and the scope of the invention is indicated by the appended claims rather than the foregoing description, All changes or modifications that come within the spirit and scope of the following claims are to be construed as being included within the scope of the present invention.

100, 120: valve for automatic opening and closing valve 200: first plunger
300: second plunger 400: main body
500: spring

Claims (13)

A valve for an automatic shut-off valve connected to an enclosure of an automatic shut-
A first plunger formed in a cylindrical shape, a first end portion of the first plunger being engaged with the outer case, and a hollow portion being formed at one end thereof to the other end thereof;
A second plunger inserted into the other end of the hollow, one end sealing the hollow;
A spring inserted in the hollow and surrounding a portion of the other end of the second plunger; And
And a main body coupled to the first plunger so as to surround a part of the other end of the first plunger.
The apparatus according to claim 1, wherein the first plunger includes:
And an inclined surface formed toward the main body with a part of the inner side surface protruding toward the center of the inside of the hollow.
The apparatus of claim 2, wherein the first plunger includes:
And a body coupling portion that is bolted to the inside of the main body at a portion of the other end.
The apparatus as claimed in claim 3,
An inner engaging portion that is bolted to the main body engaging portion; And
And a discharge passage formed between the side surface of the first plunger and the inside surface of the main body to be opened toward an outer space at one end thereof.
The method of claim 4, wherein the first plunger
Further comprising a discharge port disposed between the inclined surface and the main body coupling portion and penetrating the side surface to connect the hollow and the discharge passage.
6. The method of claim 5, wherein the second plunger
A spring coupling portion extending to the other end and inserted into the spring; And
And a protrusion formed at one end of the spring coupling portion so that an outer diameter thereof is extended and extended.
7. The apparatus of claim 6, wherein the second plunger comprises:
Further comprising a sealing engagement portion formed in the protruding portion so that the outer diameter of the protruding portion is reduced toward one end.
8. The method of claim 7, wherein the second plunger
Further comprising a sealing member disposed between the inclined surface and the protruding portion so as to surround the sealing engagement portion to seal the hollow.
9. The method of claim 8,
Wherein the foreign matter moves to the discharge passage through the discharge port along the sealing member and the inclined surface when the foreign matter inside the enclosure pushes the sealing engagement portion from the hollow.
6. The method of claim 5, wherein the second plunger
And a steel ball which is formed in a ball shape and in which a part of one hemisphere closely contacts the inclined surfaces to seal the hollow.
The golf ball according to claim 10,
And a part of the other hemisphere is formed to be inserted into one end of the spring.
12. The method of claim 11,
Wherein when the foreign substance in the enclosure pushes the steel ball from the hollow, the foreign matter moves along the steel ball and the slope to the discharge passage through the discharge port.
The apparatus of claim 1,
And a spring fixing part extending from the inner space to one end and inserted into the other end of the spring.

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