KR200465840Y1 - Vacuum interupter for a vacuum circuit breaker - Google Patents

Abstract

The vacuum interrupter of the vacuum circuit breaker according to the embodiment of the present invention, the body portion made of a hollow cylindrical ceramic tube; Plates that respectively shield the upper and lower openings of the body portion; An electrode portion extending through the plate and into the body portion; A seal cup attached to an end portion of the body portion and the play, and part of which extends inside the body portion; And an arc shield surrounding the electrode portion in the body portion, wherein the seal cup extends in the longitudinal direction of the body portion inside the body portion to prevent creeping discharge inside the body portion. And a seal cup portion extending radially from one end of the end shield portion and fixed to the plate and the body portion, wherein the end shield portion extends in the longitudinal direction of the body portion in a cylindrical shape, and the other end is rounded inward. Characterized in forming.

Description

Vacuum interupter for a vacuum circuit breaker

The present invention relates to a vacuum interrupter of a vacuum breaker.

In general, circuit breakers and switchgear are devices that directly control the power supply to the load by opening and closing the electric circuits in the power system, ranging from load current to fault current, and switchgear that opens and closes the load current. It is widely used.

These breakers are classified into hydraulic breakers, air breakers, gas breakers and vacuum breakers according to the insulating medium of the core. Among these, the vacuum circuit breaker is small, has high reliability, has excellent frequency opening and closing properties, and is easy to maintain, and has been widely used in medium voltage to high voltage large capacity.

On the other hand, the vacuum interrupter is used as a breaker of the vacuum circuit breaker, and is installed inside the housing assembly to open and close the driver to change the opening and closing state of the high voltage circuit by detecting the current or voltage generated on the high voltage line of the high voltage circuit in the current transformer. The linear reciprocating motion of the actuator provides power to and shuts off while the movable terminal of the vacuum interrupter body installed on one side thereof is in contact with and disconnected from the fixed terminal of one side.

1 is a cross-sectional view showing a conventional vacuum interrupter.

Referring to FIG. 1, a conventional vacuum interrupter 1 includes a cylindrical portion 15 formed by a combination of an upper ceramic tube and a lower ceramic tube, and a fixed side plate for sealing an upper end and a lower end of the cylindrical part 15. 11) and an upper part assembled between the movable side plate 19 and the upper end of the fixed side plate 11 and the cylindrical part 15 and between the movable side plate 19 and the lower end of the cylindrical part 15, respectively. A seal cup 11 and a lower seal cup 19, a fixed electrode portion 14 positioned in the cylindrical portion 15 through the fixed side plate 11, and the movable side plate 19; It includes a movable electrode portion 20 which is positioned in the cylindrical portion 15 through the through, and an arc shield surrounding the fixed electrode portion 14 and the movable electrode portion 20.

In detail, the fixed electrode 17 and the movable electrode 18 are formed at the ends of the fixed electrode 14 and the movable electrode 20, respectively.

Conventional vacuum interrupter (1) having the above configuration has the following problems.

In detail, since there is no structure for preventing the surface discharge (surface discharge) inside the ceramic tube, there is a disadvantage in that the ceramic tube cannot be stably protected.

In addition, the addition of such a creepage discharge structure has a number of parts for manufacturing a vacuum interrupter, not only increases the welding cost for fixing the part, but also has a disadvantage in that the manufacturing process is long.

The present invention is proposed to improve the above disadvantages, and an object of the present invention is to provide a vacuum interrupter capable of simplifying parts and reducing manufacturing costs and manufacturing processes by improving the structure of the vacuum interrupter.

Vacuum interrupter of the vacuum breaker according to an embodiment of the present invention for achieving the above object, the body portion consisting of a hollow cylindrical ceramic tube; Plates that respectively shield the upper and lower openings of the body portion; An electrode portion extending through the plate and into the body portion; A seal cup attached to an end portion of the body portion and the play, and part of which extends inside the body portion; And an arc shield surrounding the electrode portion in the body portion, wherein the seal cup extends in the longitudinal direction of the body portion inside the body portion to prevent creeping discharge inside the body portion. And a seal cup portion extending radially from one end of the end shield portion and fixed to the plate and the body portion, wherein the end shield portion extends in the longitudinal direction of the body portion in a cylindrical shape, and the other end is rounded inward. Characterized in forming.

According to the vacuum interrupter of the vacuum circuit breaker according to the embodiment of the present invention constituting the configuration as described above, by providing a structure to prevent the surface discharge inside the ceramic tube, there is an advantage that can more stably protect the ceramic tube.

Further, by integrating the seal cup and the structure to prevent the surface discharge into a single component, there is an advantage that the function of the seal cup to maintain the vacuum tightness and to prevent the surface discharge inside the ceramic to improve the insulation performance.

In addition, since the number of parts is simplified from two to one, not only the manufacturing process of the vacuum interrupter is shortened but also the manufacturing cost is reduced.

1 is a cross-sectional view showing a conventional vacuum interrupter.
Figure 2 is a side cross-sectional view showing a vacuum interrupter of a vacuum breaker according to an embodiment of the present invention.
Figure 3 is a longitudinal cross-sectional view of the seal cup according to an embodiment of the present invention.
4 is an enlarged cross-sectional view of the portion H of FIG. 2.

Hereinafter, a vacuum interrupter of a vacuum circuit breaker according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a side cross-sectional view showing a vacuum interrupter of a vacuum breaker according to an embodiment of the present invention.

2, the vacuum interrupter 100 of the vacuum breaker according to the embodiment of the present invention, the body portion consisting of a combination of the upper ceramic tube 103 and the lower ceramic tube 102, and the upper ceramic tube 103 The arc flange 104 fixed between the lower ceramic tube 102 and the arc shield 106 disposed on the inner space of the body by the arc flange 105. Include. In detail, the arc shield 106 is surrounded by a cylindrical shape inside the body portion spaced apart from the inner circumferential surface of the body portion, and serves to adsorb metal vapor generated during the blocking operation of the vacuum interrupter 100. . Thus, the arc shield 106 protects the body, ie the upper ceramic tube 103 and the lower ceramic tube 102 from metal vapor.

Meanwhile, the arc shield 106 is fixed in a welded state to the arc flange 105. In detail, the arc flange 105 and the arc shield 106 are welded by melting a metal called a braze filler. Then, the arc flange 105 and the arc shield 106 joined by welding are assembled between the upper ceramic tube 103 and the lower ceramic tube 102, and then welded again so that the arc shield 106 is fixed. do. Then, the arc shield 106 is placed in the inner space of the body portion spaced apart from the inner peripheral surface of the body portion. Here, the body portion may be formed by the combination of the upper ceramic tube 103 and the lower ceramic tube 102, but is not limited thereto, and may be formed of a single cylindrical ceramic tube.

In addition, the vacuum interrupter 100 is fixed to the upper surface of the upper ceramic tube 103 and the lower surface of the lower ceramic tube 102, respectively, a pair of bent several times located in the inner space of the body portion The seal cup 120 further includes. In detail, the fixed side plate 101 is formed on the upper surface of the seal cup 120 assembled to the upper ceramic tube 103 and the lower surface of the seal cup 120 assembled to the lower ceramic tube 102 among the pair of seal cups 120. ) And the movable side plate 109 are fixed by welding, respectively.

In addition, the vacuum interrupter 100 penetrates the fixed side plate 101 and enters into the body portion, and passes through the movable side plate 109 to the inside of the body portion. It further includes a movable electrode unit 110 to be introduced. In detail, the fixed electrode 107 and the movable electrode 108 are formed in the fixed electrode unit 104 and the movable electrode unit 110, respectively.

3 is a longitudinal sectional view of the seal cup according to the embodiment of the present invention.

Hereinafter, the seal cup fixed to the upper ceramic tube 103 will be described as an example.

Referring to FIG. 3, the seal cup 120 according to the embodiment of the present invention includes an end shield portion 121 and an end shield portion 121 to prevent creeping discharge inside the ceramic tube to improve insulation performance. It consists of a seal cup portion 122 which extends integrally from one end of 121 and maintains vacuum tightness.

In detail, the end shield portion 121 extends a predetermined length in a cylindrical shape and is bent round inward at the end. The end shield portion 121 performs a function of improving the insulation performance by preventing the surface discharge inside the body portion.

In addition, the seal cup 122 is bent in the radial direction of the end shield 121 from the other end of the end shield 121, the "b" is further bent in the longitudinal direction of the end shield 121 To form a cross section.

In detail, an end of the seal cup portion 122 is fixed to the body portion, and the fixed side plate 101 (or the movable side plate 109) is fixed to the upper surface (or lower surface) of the seal cup portion 122 by welding. do. The end shield portion 121 is provided inside the body portion from the fixed side plate 101 or the movable side plate 109 to prevent surface discharge inside the body portion, thereby improving insulation performance.

In addition, since the seal cup 120 including the seal cup part 122 and the end shield part 121 is provided, the number of parts is reduced and manufacturing cost and manufacturing time are reduced.

4 is an enlarged cross-sectional view of the portion H of FIG. 2.

Referring to Figure 4, the seal cup 120 according to an embodiment of the present invention has a structure and assembly position for preventing the surface discharge is as follows.

First, the round edge of the end shield 121 is preferably formed in the radius of curvature B of the lower end in the range of 2mm ~ 10mm. And, the distance (C) ratio (C / A) from the inner peripheral surface of the body portion to the center of the radius of curvature B from the longitudinal end of the body portion to the radial distance (A) from the end shield portion 121 It is good to set it as 3 or more.

In addition, the angle at which the imaginary line L connecting the center of the radius of curvature B at the inner edge of the longitudinal end of the body portion and the inner peripheral surface of the body portion is within 30 degrees.

Claims (4)

A body portion formed of a hollow cylindrical ceramic tube;
Plates that respectively shield the upper and lower openings of the body portion;
An electrode portion extending through the plate and into the body portion;
A seal cup attached to an end of the body portion and the plate, the seal cup extending in a portion of the body portion; And
An arc shield surrounding the electrode part in the body part;
The seal cup,
An end shield portion extending from the body portion in a length direction of the body portion to prevent surface discharge inside the body portion;
A radially extending from one end of the end shield portion is formed integrally with the end shield portion, and comprises a seal cup portion fixed to the plate and the body portion,
The end shield portion has a cylindrical shape extending in the longitudinal direction of the body portion, the other end is a vacuum interrupter of the vacuum breaker, characterized in that the form is rounded inwardly. The method of claim 1,
The radius of curvature (B) of the rounded portion of the end shield portion is not less than 2mm, less than 10mm vacuum interrupter of the vacuum breaker. The method of claim 2,
The distance (A) from the longitudinal end of the body portion to the center of the radius of curvature divided by the radial distance (C) from the inner circumferential surface of the body portion to the end shield portion is 3 or more, the vacuum of the vacuum breaker Interrupter. The method of claim 2,
And an imaginary line (L) connecting the center of the radius of curvature (B) at the inner edge of the longitudinal end of the body portion with the inner circumferential surface of the body portion is within 30 degrees.

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