KR100323742B1 - structure of supporting mechanisn in vaccum-type MCCB - Google Patents

Abstract

The present invention relates to a structure of a support mechanism of a vacuum circuit breaker which is installed in an enclosure of a vacuum circuit breaker and serves to mount or separate the circuit breaker from the enclosure, and improves the support structure of the enclosure and the support mechanism to move the vacuum breaker forward and backward. This is to make the movement in and out of the flexible and to prevent deformation of the support mechanism and the enclosure.

The present invention provides a sliding plate (7) in which one end portion (7a) is coupled to the enclosure (1) while moving left and right in accordance with the movement of the handle (9) on both sides of the support (6). It is a support mechanism of the vacuum circuit breaker structure that the shaft 14 is coupled to the enclosure while moving up and down in accordance with the movement of the handle to support the support and the enclosure by the sliding plate and the shaft.

Description

Structure of supporting mechanisn in vaccum-type MCCB}

The present invention relates to a structure of a support mechanism that is installed in the enclosure of the vacuum circuit breaker and serves to mount or separate the circuit breaker from the enclosure. More particularly, the movement of the vacuum circuit breaker in and out of the front and rear directions It is to be flexible and to prevent deformation of the support mechanism.

1 is a schematic configuration diagram of a vacuum circuit breaker, in which a support mechanism is mounted on an enclosure 1 and a vacuum breaker 2 is coupled to a support mechanism, and the support mechanism is moved forward and backward by a rotation operation of the handle 3. Move.

2 and 3, the support mechanism is provided with a lower carriage 5 to which the vacuum circuit breaker 2 is mounted and coupled, a support 6 installed on the front side of the lower carriage, and both sides of the support. A slide plate 7 mounted to allow both end portions 7a to protrude to the outside of the support, and is inserted into the support through a long hole 8 formed on the front surface of the support and fixed to each slide plate to provide a slide plate. A handle 9 for moving, a guide pin 10 and a spacer 11 for guiding the movement of the slide plate, and a force in one direction is always applied to the slide plate so that the end of the slide plate protrudes outward of the support. It is composed of a spring 12 or the like.

Therefore, in the state shown in FIG. 3, when the handles 9 installed on both sides are moved to the inside (center side of the support), each slide plate 7 fixed to the handle 9 moves together and the outside of the support 6 at the same time. The end portion 7a of the slide plate 7 protruding to the side is immersed into the support 6 so that the support mechanism portion is separated from the enclosure 1, and when the handle 9, which has been moved inward, is released, the compressed spring ( By the force of 12, the slide plate 7 is again protruded to the outside of the support 6 and inserted into a groove (not shown) formed in the enclosure 1 so that the support mechanism is mounted to the enclosure 1.

In addition, when the support mechanism is coupled to the handle 3 in a state in which the support mechanism is mounted on the enclosure 1, the vacuum circuit breaker 2 moves forward or rearward according to the rotational direction thereof.

However, the conventional structure as described above is a structure in which only both end portions of the support mechanism portion, that is, both end portions 7a of the slide plate 7 are supported on the enclosure 1, and thus the support mechanism portion is mounted on the enclosure 1. When the vacuum circuit breaker 2 is moved back and forth by rotating the handle 3, the contact force of the contact portion 4 of FIG. 1 and the load of the vacuum circuit breaker 2 are concentrated only at the center portion where the handle 3 is positioned. There is a problem that warpage occurs in the central portion of (6) and excessive deformation is applied to the handle 1 due to an excessive force applied to the handle 3 due to the bending of the support as described above.

SUMMARY OF THE INVENTION An object of the present invention is to provide a support mechanism structure of a vacuum circuit breaker which prevents warpage from occurring in the support mechanism due to a load generated when the vacuum circuit breaker is mounted on or detached from the enclosure and facilitates the movement of the vacuum circuit breaker. It is to.

In accordance with an embodiment of the present invention for achieving the above object in the movement of the handle to the support in installing a sliding plate which is coupled to the enclosure while one side end is moved to the left and right in accordance with the movement of the handle on the inside of the support; There is provided a support mechanism structure of the vacuum circuit breaker, which is provided with a shaft coupled to the enclosure while moving up and down so that the support and the enclosure are supported by the sliding plate and the shaft.

1 is a schematic configuration diagram of a vacuum circuit breaker

Figure 2 is a perspective view of the lower carriage of the conventional vacuum breaker

Figure 3 is a partial cross-sectional view of Figure 2 showing a conventional support mechanism

4 is a partially cutaway plan view of a support mechanism showing the device of the present invention;

5 is a partial cutaway front view of a support mechanism showing the device of the present invention;

Figure 6 is a perspective view of the shaft and bushing applied to the present invention

Explanation of symbols for main parts of drawings

6 support 7 sliding plate

7a: end 9: handle

13: bushing 14: shaft

14a: protruding pin 16: operating plate

16a: slope

4 and 5 are a partially cutaway plan view and a front view of a supporting mechanism part showing the apparatus of the present invention, and FIG. 6 is a perspective view of the shaft and the bushing which are the constituent elements of the present invention.

In the structure of the support mechanism according to the present invention, the support 6 and the slide plate 7 is installed on both sides of the support and mounted so that both end portions 7a can protrude outward of the support, and formed on the support. A handle 9 inserted into the support through the hole 8 and fixed to each slide plate to move the slide plate, guide pins 10 and spacers 11 for guiding movement of the slide plate, and the slide The configuration of the spring 12 that applies a force so that the end of the plate protrudes outward of the support is the same as in the prior art.

Of course, the lower transportation is also the same as the configuration of FIG.

A bushing 13 is provided at a position symmetrically left and right with respect to the center of the support 6, and a shaft 14 and a spring 15 which are movable up and down are installed in the bushing 13. .

The shaft 14 is installed to protrude downward of the support 6, the protruding pin 14a is integrally formed on one side of the circumferential surface.

The spring 15 pushes the shaft 14 so that the shaft 14 protrudes below the support 6.

An operating plate 16 is fixed to each of the slide plates 7 to move together with the slide plate 7, and an inclined surface 16a connected to the protruding pin 14a of the shaft 14 to the operating plate 16. ) Is formed.

Therefore, the shaft 14 is moved up and down while being guided to the bushing 13 according to the movement of the operating plate 16. The operating plate 16 is the shaft 14 when the handle 9 is moved inward. It is immersed into the support 6 and fixed to a position where the shaft 14 can protrude below the support 6 when the handle 9 is released.

When the support mechanism of the present invention as described above moves both handles 9 in the state shown in Figures 4 and 5 and the handle 9 moves along the long hole 8 formed in the support 6 and at the same time The sliding plate 7 moves inwards while compressing the spring 12 so that the end portion 7a is immersed into the support 6, and when the sliding plate 7 is moved as described above, the operating plate 16 moves on the sliding plate. While moving together with (7), the inclined surface 14a is brought into contact with the protruding pin 16a formed on the shaft 16, and the shaft 14 is pulled upwards so that the lower end of the shaft 14 is immersed into the support 6. Therefore, the support mechanism is separated from the enclosure (1).

On the other hand, when the handle 9 is released in the above state, the sliding plate 7 and the handle 9 are moved to their original positions by the force of the spring 12 so that the end 7a is formed in the enclosure 1 (not shown). The support 6 is mounted to the enclosure 1 while being fitted to the cover 1).

Therefore, the support mechanism is a four-point support structure in which both ends of the two ends are supported by the sliding plate 7 as well as the center two points are supported by the shaft 14, and in this state, the support 6 is mounted on the enclosure 1. When the handle 3 is rotated, the vacuum circuit breaker 2 coupled to the lower carriage 5 moves forward or rearward according to the rotation direction of the handle 3.

According to the present invention, unlike the conventional structure in which the enclosure 1 and the support 6 are supported by two points at both ends of the sliding plate 7, two shafts 14 are provided at the central portion of the support 6. Since the enclosure (1) and the support (6) are supported by four points by both ends and the shaft (14) of the sliding plate (7), smooth movement is possible when moving the vacuum breaker back and forth, as well as It is possible to prevent the bending of the central portion of the support due to the load concentration.

In addition, since the bending of the support is prevented and the movement of the vacuum breaker is smoothed, it is possible to prevent deformation of the enclosure due to excessive manipulation.

Claims (3)

In the sliding support plate (7) in which one end portion (7a) is coupled to the enclosure (1) while moving left and right according to the movement of the handle (9) on both sides of the support (6), the handle ( 9) The support mechanism structure of the vacuum circuit breaker, characterized in that the support 14 and the enclosure is supported by the sliding plate and the shaft by installing a shaft 14 coupled to the enclosure while moving up and down in accordance with the movement. The actuating plate according to claim 1, wherein the actuating plate (16) having the inclined surface (16a) is fixed to the sliding plate (7), and the protruding pin (14a) is formed on the shaft (14) for connecting with the inclined surface of the operating plate. The structure of the supporting mechanism of the vacuum circuit breaker which moves the shaft up and down as the shaft moves. The structure of claim 2, wherein the shaft (14) is guided to the bushing (13) to move up and down.