KR20160090688A - Auxiliary cover structure for air circuit breaker - Google Patents

Abstract

The present invention relates to an auxiliary cover structure of an air circuit breaker. More specifically, in the auxiliary cover structure of the air circuit breaker including: a casing which comprises a fixed contact and a movable contact inside, and generates arc and arc scattering in accordance with separation between the fixed contact and the movable contact; a main cover combined with a front side of the casing; and an auxiliary cover combined with the front side of the casing near the main cover, the auxiliary cover has a plurality of first discharging holes formed at a lower part to discharge the arc and the arc scattering to the outside, and a plurality of reinforced protrusions formed around an inner edge to reinforce the strength of the auxiliary cover. The present invention has the effect of preventing the auxiliary cover from being damaged due to the arc and the arc scattering by reducing pressure applied to the auxiliary cover through the high temperature and high pressure arc and arc scattering, by discharging the arc and the arc scattering to the outside through the first discharging hole by comprising the plurality of first discharging holes at the lower part of the auxiliary cover.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an auxiliary cover structure for an air circuit breaker,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an auxiliary cover structure of an air circuit breaker, and more particularly, to an auxiliary cover structure of an air circuit breaker that enhances strength and smoothly discharges arc and arc products generated inside the air circuit breaker.

Generally, the air circuit breaker is an industrial power device that automatically cuts off a line when an accident current such as an overcurrent or a short-circuit current occurs in a low-voltage transmission / distribution line, and turns off the arc generated when the line is cut by using compressed air.

The front face of the air circuit breaker is provided with a cover for protecting internal components.

The cover includes a main cover covering a mechanism mechanism at a front surface of the air circuit breaker, and an auxiliary cover disposed adjacent to the main cover.

  The main function of the main cover and the auxiliary cover is to prevent the inside of the air circuit breaker from being visible. In addition, when an accident occurs in the electric cable, which is a mission of the air circuit breaker, This prevents arc and arc-induced high-temperature, high-pressure arc products from being ejected to the front.

1 is a front view showing a state in which a conventional main cover and an auxiliary cover are combined. FIG. 2 (a) is a front view showing a front surface of a conventional auxiliary cover, and FIG. 2 3 is a process diagram illustrating the process of coupling the auxiliary cover to the front of the air circuit breaker. FIG. 4 is a view illustrating a process in which an arc is generated in the air circuit breaker and pressure is applied to the auxiliary cover And FIG. 5 is a schematic perspective view showing a state in which the vicinity of the edge of the auxiliary cover is broken due to the arc and arc dispersion.

As shown in FIGS. 1 to 5, the conventional auxiliary cover 30 has a rectangular hexagonal shape with one side open, and the material thereof is made of a metal plate or a plastic injection molding.

The auxiliary cover 30 protects the air circuit breaker 10 from an external shock or interference as well as an invisible barrier in the air circuit breaker 10, And the arc product passes through the through hole 11 and is discharged to the side of the auxiliary cover 30, the arc and the arc product impact the auxiliary cover 30 and the pressure increases, so that the auxiliary cover 30 can easily There was a problem that it was broken.

In addition, although the impact is applied to the auxiliary cover 30 through the arc and arc product, the edge portion is damaged, and the auxiliary cover 30 is easily separated from the air circuit breaker 10.

SUMMARY OF THE INVENTION The present invention has been devised to solve the problems as described above, and it is an object of the present invention to provide an auxiliary cover structure of an air circuit breaker which enhances strength and smoothly discharges arcs and arc products generated in the air circuit breaker .

According to an aspect of the present invention, there is provided an electronic device including: a casing having a stationary contactor and a movable contactor therein, the arc and arc artefacts being generated by separation of the stationary contactor and the movable contactor; A main cover coupled to a front surface of the casing; And an auxiliary cover coupled to the front surface of the casing so as to be positioned adjacent to the main cover, wherein the auxiliary cover includes a plurality of members such that arc and arc products are discharged to the outside, And a plurality of strength reinforcing protrusions are formed in the vicinity of the inner edge to reinforce the strength of the auxiliary cover.

Further, the strength reinforcing protrusions are characterized by being lattice-like or radial-shaped.

The auxiliary cover may include: a front plate having the strength reinforcing protrusion formed near the edge thereof; Wherein the front plate is formed to be folded inward along a rim of the front plate and the lower plate is formed with a frame having a first discharge hole formed therein and the thickness of the front plate gradually increases toward the upper portion of the first discharge hole do.

The auxiliary cover may include: a front plate having the strength reinforcing protrusion formed near the edge thereof; A plurality of second discharge holes are formed in an upper portion of the rim plate and a thickness of the front plate is set to be greater than a thickness of the front plate, Is gradually increased from the first discharge hole and the second discharge hole toward the center.

The longitudinal lengths of the first discharge hole and the second discharge hole are gradually reduced toward both sides at a predetermined distance from the center.

As described above, the auxiliary cover structure of the air circuit breaker according to the present invention includes a plurality of first discharge holes at the lower portion of the auxiliary cover to discharge the arc and arc product to the outside through the first discharge hole, It is possible to reduce the pressure applied to the auxiliary cover through the non-product, thereby preventing the auxiliary cover from being broken due to the arc and arc products.

In addition, strength reinforcement protrusions are formed in the vicinity of the inner edge of the auxiliary cover to prevent the vulnerable portion from being easily broken when an impact is applied to the auxiliary cover through the arc and arc dispersion at high temperature and high pressure.

In addition, instead of increasing the thickness of the auxiliary cover in order to reinforce the strength of the auxiliary cover, strength reinforcement protrusions for reinforcing the strength only on the weak portion are formed, thereby enhancing the strength of the auxiliary cover and reducing the overall manufacturing cost.

Also, the thickness of the front plate constituting the auxiliary cover is adjusted to effectively discharge arc and arc products through the first discharge hole and the second discharge hole.

1 is a front view showing a state in which a main cover and an auxiliary cover are coupled to a conventional air circuit breaker;
2A is a front view showing a front surface of a conventional auxiliary cover;
Fig. 2B is a front view showing an inner side surface of a conventional auxiliary cover; Fig.
3 is a process diagram showing a process in which the auxiliary cover is coupled to the front surface of the air circuit breaker.
4 is a schematic perspective view showing that an arc is generated in a state where the auxiliary cover is coupled to the air circuit breaker, and pressure is applied to the auxiliary cover.
5 is a schematic perspective view showing a state in which the vicinity of the edge of the auxiliary cover is broken due to arc and arc dispersion.
FIG. 6A is a front view showing an inner surface of the auxiliary cover according to the first embodiment, which is coupled to the air circuit breaker according to the present invention; FIG.
FIG. 6B is a front view showing an inner surface of the auxiliary cover according to the second embodiment, which is coupled to the air circuit breaker according to the present invention. FIG.
7 is a schematic perspective view showing a state in which an arc and an arc dispersion impact an auxiliary cover in a state where an auxiliary cover is coupled to the air circuit breaker according to the present invention.
FIG. 8 is a front view showing a position where an impact is applied to an auxiliary cover coupled to an air circuit breaker according to the present invention through an arc and an arc product. FIG.
9A is a cross-sectional view illustrating an auxiliary cover according to a third embodiment coupled to an air circuit breaker according to the present invention.
FIG. 9B is a cross-sectional view illustrating the auxiliary cover according to the fourth embodiment coupled to the air circuit breaker according to the present invention. FIG.

Hereinafter, an auxiliary cover structure of an air circuit breaker according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 6A is a front view showing an inner side surface of the auxiliary cover according to the first embodiment of the present invention, FIG. 6B is a front view of the auxiliary cover according to the second embodiment of the present invention, 7 is a schematic perspective view showing a state in which an arc and an arc dispersion impact an auxiliary cover in a state where the auxiliary cover is coupled to the air circuit breaker according to the present invention, and FIG. 8 is a schematic front view FIG. 9A is a sectional view showing an auxiliary cover according to a third embodiment of the present invention, which is coupled to the air circuit breaker according to the present invention, and FIG. 9A is a cross- 9b is a sectional view showing an auxiliary cover according to a fourth embodiment coupled to the air circuit breaker according to the present invention.

6A to 8, the air circuit breaker with the auxiliary cover according to the present invention includes components such as a fixed contact (not shown) and a movable contact (not shown) inside the casing 500 And a main cover (not shown) and an auxiliary cover 100 are coupled to the casing 500 to protect internal components.

At this time, the auxiliary cover 100 is coupled to the casing 500 so as to be positioned adjacent to the main cover, so that the arc and arc generated when the stationary contactor and the movable contactor, which are provided in the casing 500, Thereby preventing the non-product from being ejected to the outside.

As shown in FIG. 7, when a fault current flows into the air circuit breaker and the fixed contact and the movable contact are separated from each other, an arc And the arc product is generated. The generated arc and arc product are ejected from the casing 500 to the side of the auxiliary cover 100 to apply an impact to the inside of the auxiliary cover 100 and increase the internal pressure .

At this time, arc and arc discharge are discharged to the outside through the first discharge hole 110, and the magnitude of pressure applied to the auxiliary cover 100 through arc and arc discharge is reduced.

In addition, the first discharge holes 110 are formed to have the same length in the longitudinal direction at the central portion, but at a certain point, the length in the longitudinal direction becomes shorter toward both sides, and at the point where the discharge amount of the arc and arc- The size of the discharge hole 110 is increased and the size of the first discharge hole 110 is reduced at a position where the discharge amount is located in a small amount so that the size of the first discharge hole 110 is matched with the discharge amount .

In addition, a plurality of radial-shaped strength reinforcing protrusions 120 are formed near the inner edge of the auxiliary cover 100.

In the conventional case, when the arc and arc artefacts generated when the stationary contactor and the movable contactor are separated from each other are ejected from the casing 500, the center portion is impacted by the arc and arc artefacts The auxiliary cover 100 may be cracked and may be broken in the vicinity of the edge where the auxiliary cover 100 is coupled to the casing 500. However, the strength reinforcement protrusion 120 may be formed in the vicinity of the weakened portion Even if an impact is applied to the auxiliary cover 100 through the arc product, the vicinity of the edge of the auxiliary cover 100 is broken, thereby preventing the auxiliary cover 100 from being separated from the casing 500.

Also, if the thickness of the auxiliary cover 100 is increased to increase the manufacturing cost, the manufacturing cost increases. However, since the plurality of the strength reinforcing protrusions 120 are formed only in the vicinity of the edge of the auxiliary cover 100, So that the entire structure can be simplified.

As shown in FIG. 6B, the auxiliary cover according to the second embodiment of the present invention has a first discharge hole 210 formed in a lower portion of the auxiliary cover 200 in the same manner as in the first embodiment, The strength reinforcing protrusions 220 may be formed in the vicinity of the protrusion 220. The strength reinforcing protrusions 220 may have a lattice shape.

However, the shape of the strength reinforcing protrusions 120 and 220 is not limited to a radial shape or a lattice shape, and may be formed in various shapes to enhance strength according to the structure of the auxiliary covers 100 and 200.

9A, the auxiliary cover 300 according to the third embodiment of the present invention includes a front plate 310, a frame plate 320 formed to extend from the edge of the front plate 310 to be bent, .

At this time, a plurality of strength reinforcing protrusions 313 are formed near the inner edge of the front plate 310, and the first exhaust hole 311 is formed below the edge plate 320.

The thickness T1 of the front plate 310 is gradually increased from the first discharge hole 311 to the upper end so that an arc and an arc arc are discharged from the casing 500, The arc discharge causes the front plate 310 to be impacted and then discharged through the first discharge hole 311 effectively.

9B, the auxiliary cover 400 according to the fourth embodiment of the present invention includes a front plate 410 and a frame plate 420 that is bent and extended from the edge of the front plate 410 .

At this time, a plurality of strength reinforcing protrusions 413 are formed near the inner edge of the front plate 410, and a first exhaust hole 411 is formed below the edge plate 420.

A second exhaust hole 415 is further formed at an upper portion of the rim 420 and a thickness T2 of the front plate 410 is larger than a thickness of the first exhaust hole 411 and the second exhaust hole 415 To gradually increase from the center to the center.

Accordingly, when the arc and the arc product are ejected from the inside of the casing 500, the inside of the front plate 410 is formed in an inclined state, so that the first discharge hole 411 and the second discharge hole 415 The arc and arc products are easily moved to the outside and discharged to the outside.

The first and second discharge holes 110, 210, 311 and 411 are formed at the bottom of the auxiliary covers 100, 200, 300 and 400 according to the present invention, 200, 300, and 400 through arc and arc products of high temperature and high pressure by reducing the pressure applied to the auxiliary covers 100, 200, 300, and 400, Thereby preventing the auxiliary covers 100, 200, 300, and 400 from being damaged due to the product.

The auxiliary covers 100, 200, 300 and 400 may be formed by forming strength reinforcement projections 120, 220, 313 and 413 in the vicinity of the inner edges of the auxiliary covers 100, 200, 300 and 400, 400 is prevented from being easily broken when an impact is applied to the area.

In order to reinforce the strength of the auxiliary covers 100, 200, 300 and 400, the thickness of the auxiliary covers 100, 200, 300 and 400 is not increased but the strength reinforcement protrusions 120, 220, 313, , 200, 300, 400), while reducing the overall manufacturing cost.

The thickness of the front plates 310 and 410 constituting the auxiliary covers 100, 200, 300 and 400 is adjusted so that the arc and the arc ratio of the first and second discharge holes 311 and 411, Thereby allowing the product to be effectively discharged.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

10: air circuit breaker 11: through hole
20: main cover 30, 100, 200, 300, 400: auxiliary cover
110, 210, 311, 411: first discharge holes 120, 220, 313, 413:
130: impact area 310, 410: front plate
320, 420: rim plate 415: second discharge hole

Claims (5)

A casing having a stationary contactor and a movable contactor therein, the arc and the arc artefact being generated by the separation of the stationary contactor and the movable contactor; A main cover coupled to a front surface of the casing; And an auxiliary cover coupled to the front surface of the casing so as to be positioned adjacent to the main cover,
Wherein the auxiliary cover
A plurality of first discharge holes are formed in the lower portion so that arc and arc discharge are discharged to the outside,
And a plurality of strength reinforcing protrusions are formed in the vicinity of the inner edge to reinforce the strength of the auxiliary cover. The method according to claim 1,
Wherein the strength reinforcing protrusions are lattice-shaped or radial-shaped. The method according to claim 1,
Wherein the auxiliary cover
A front plate having the strength reinforcing protrusion formed in the vicinity of an edge thereof; And a rim plate formed to be bent inward along a rim of the front plate and having a first discharge hole formed at a lower portion thereof.
Wherein the thickness of the front plate gradually increases from the first discharge hole toward the top. The method according to claim 1,
Wherein the auxiliary cover
A front plate having the strength reinforcing protrusion formed in the vicinity of an edge thereof; And a frame plate formed to be bent inward along a rim of the front plate and having a first discharge hole formed at a lower portion thereof,
A plurality of second discharge holes are further formed on the frame plate,
Wherein the thickness of the front plate gradually increases from the first discharge hole and the second discharge hole to a center portion thereof. The method according to claim 1 or 4,
Wherein a length of the first discharge hole and a length of the second discharge hole are gradually reduced toward both sides at a predetermined distance from the center portion.

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