KR102030958B1 - Electric control box having earthquake proof function - Google Patents

Abstract

The present invention relates to an electric control body having an earthquake-proof function, capable of smoothly preventing the occurrence of secondary damage from a power failure and a fire occurring as various electric and electronic facilities installed on an installation plate are damaged in case of an earthquake by using an earthquake-proof unit. The electric control body includes: a case having an open front side, having an installation space formed therein, and including a door installed to open or close the open front side; an installation plate installed in the case in response to the open front side of the case, including an upper curved protrusion formed by curving the upper part inwards, and in which power distribution components are installed; a horizontal earthquake-proof part installed between the rear side of the installation plate and the inner surface of the case, and having a horizontal earthquake-proof property while elastically supporting the installation plate on the case in a horizontal direction; and a vertical earthquake-proof part installed between the upper curved protrusion and the inner surface of the case, and having a vertical earthquake-proof property while elastically supporting the installation plate on the case in a vertical direction.

Description

ELECTRIC CONTROL BOX HAVING EARTHQUAKE PROOF FUNCTION}

The present invention relates to an electrical control enclosure, and more particularly, to include a seismic means so that the secondary damage such as power failure and fire caused by the breakdown of various electrical and electronic equipment installed in the installation plate during an earthquake can be smoothly prevented. The present invention relates to an electrical control enclosure having a seismic function.

In general, the electric control enclosure is provided with an installation plate inside the enclosure such as an electric control panel, a control box, a distribution box, a control box, a distribution panel, an electric enclosure, a distribution enclosure, a control enclosure, and the like. This will be installed.

For example, an electrical control enclosure such as a distribution panel is provided with various circuit breakers and switchgear in the enclosure to draw power from outside and to selectively supply power. Such a distribution panel includes a housing for preventing electric shock and safety accidents caused by various electricity in order to prevent the line from being exposed to the outside.

In particular, the distribution panel includes a circuit breaker in order to achieve electrical safety by cutting off the current supply in the event of overload in the process of distributing the main power drawn from the outside to each electric load. Such breakers may include a main breaker connected to the main input terminal and a plurality of branch breakers respectively connected to an electrical load.

Such an electrical control enclosure has an exterior type which is directly fixed to a wall through a built-in type embedded in the wall of the building and anchor bolts, and there is a ground type that is installed on the ground. However, in the case of the external type of the electrical control enclosure is fixed to the wall because the back of the enclosure is fixed to the wall using a bolt structure that penetrates the wall when the enclosure is fixed to the wall when installed. This structure may appear to be a stable structure at first glance because the electrical control enclosure is in close contact with the wall, but has a disadvantage of being vulnerable to vibration or moisture.

In particular, since the electrical control enclosure such as a distribution board is tightly fixed to the wall through the bolt structure, when vibration is transmitted through the wall during the earthquake, the vibration is transmitted to the inside of the enclosure through the bolt structure fixed to the wall. As a result, vibrations are transmitted to the inner structure of the enclosure, which causes screws or other structures to fix various electrical and electronic components, control components, and circuit devices to be released from their positions, and there is a concern that secondary damage may occur due to power failure and fire. .

Registered Patent No. 1139226 "Divided Distribution Board with Seismic and Dustproof Functions" (2012.04.10.)

Accordingly, the present invention has been made to solve the conventional problems as described above,

An object of the present invention is to provide a seismic control means having an earthquake-proof function to prevent the occurrence of secondary damage such as power failure and fire caused by the destruction of various electrical and electronic equipment installed on the mounting plate during the earthquake occurs In providing.

In order to achieve the above object, the "electric control enclosure having a seismic function" according to the present invention includes a case in which a front surface is opened, an installation space is formed therein, and a door is installed to open and close the opened front surface. ; An installation plate provided in a plate shape in an inner side of the case and having an upper bent jaw formed at an upper end thereof bent inward to correspond to an open front surface of the case; A horizontal seismic unit installed between the rear surface of the mounting plate and the inner surface of the case, the horizontal mounting unit being elastically supported in the horizontal direction with respect to the case and having a seismic resistance in the horizontal direction; A vertical seismic part installed between the upper bent jaw and the inner surface of the case and having the seismic resistance in the vertical direction while being supported elastically in the vertical direction with respect to the case; It is characterized by including.

In addition, the mounting plate of the "electric control enclosure having an earthquake-resistant function" according to the present invention, further comprises four circular through-holes formed to penetrate the four corners, the horizontal earthquake-resistant portion, through the circular through-holes Four horizontal bolts attached horizontally to the inner surface of the case and having threads formed on the outer circumferential surface thereof, first nuts screwed to the first horizontal bolt and closely attached to the inner surface of the case; A disc ring fitted to the first horizontal bolt to be in close contact with the front surface of the first nut, a horizontal spring fitted to the first horizontal bolt so that the rear end is in close contact with the disc ring, and the front end of the horizontal spring is in close contact A first contact disc and a mounting plate having a front surface closely adhered to a rear surface of the mounting plate and slidably fitted to the first horizontal bolt and having a diameter larger than that of the circular hole. A second contact disc having a rear surface closely adhered to the front surface and slidably fitted to the first horizontal bolt, and having a diameter larger than the diameter of the circular hole, and a tip of the first horizontal bolt adhered to the front surface of the second contact disc. It characterized in that it comprises a second nut, which is screwed on.

In addition, the vertical seismic portion of the "electric control enclosure having an earthquake-resistant function" according to the present invention, a rectangular contact plate which is provided in close contact with the rear surface of the installation plate to the lower portion of the upper bending jaw, and the upper end of the rectangular contact plate The upper projection jaw formed bent inward and in close contact with the lower surface of the upper bending jaw, the lower projection projection attached to the lower rear surface of the rectangular contact plate and protrudes horizontally to correspond to the upper projection jaw, the upper bending jaw Vertical bolts are provided vertically and slidably penetrate the upper and lower projection jaw in the center of the upper surface of the upper surface of the vertical bolt, the upper end is screwed to the lower end of the vertical bolt and the lower projection A first fixing nut provided in close contact with each other, a vertical spring disposed between the upper protrusion protrusion and the lower protrusion protrusion while being fitted to the first fixing nut; A second fixing nut screwed to the vertical bolt protruding to an upper portion of the upper bent jaw, a fitting member into which the vertical bolt is inserted into an upper portion of the second fixing nut, and the vertical bolt to an upper portion of the fitting member. A third fixing nut which is screwed to an upper end of the fixing member to fix the fitting member together with the second fixing nut, a vertical placement plate vertically attached to the rear surface of the fitting member, and the vertical placement plate on both sides of the fitting member; A pair of vertical holes formed perpendicularly to the pair of second horizontal bolts slidably inserted vertically into the vertical holes, horizontally attached to the inner surface of the case, and having a thread formed on an outer circumferential surface thereof; And a fourth fixing nut screwed to the second horizontal bolt in front of the mounting plate.

In addition, the "electric control enclosure having a seismic function" according to the present invention, through the upper projection and the lower projection slidably through the upper end on both sides of the upper bent jaw slidably inserted a plurality of vertically. A plurality of elastic force adjustment springs having a vertical pin, disposed between the upper protrusion jaw and the lower protrusion jaw, and selectively fitted to the vertical pin to adjust the elastic bearing force of the vertical seismic part; It further comprises.

In addition, the case of the "electric control enclosure having a seismic function" according to the present invention, is formed to penetrate through the back of the case corresponding to the back of the vertical seismic portion so that the elastic force adjustment spring can be installed through the back And a cover plate detachably mounted to the rear surface of the case so as to cover the rear through hole and the rear through hole, wherein the square contact plate is disposed below the lower protrusion jaw so as to be supported while the vertical pin is penetrated. The lower end of the rectangular contact plate is horizontally bent and further comprises a secondary projection jaw formed to protrude, wherein the upper projection jaw, the upper projection jaw is fastened through the upper bending jaw from both sides of the lower side to the upper It further comprises a pair of mounting portion for mounting on the lower surface of the upper bent jaw.

As described above, the present invention includes a seismic means, which can prevent the occurrence of secondary damage such as a power failure and a fire that occurs when various electric and electronic equipments installed on the mounting plate are damaged during an earthquake, and thus safety in use This has the effect of remarkably improving.

1 is a schematic perspective view showing an electrical control enclosure according to the present invention;
2 is a schematic partial exploded rear perspective view showing the electrical control enclosure according to the present invention;
Figure 3 is a schematic front view of the main portion showing the electrical control enclosure according to the present invention,
4 is a schematic rear view showing the main part of the electrical control enclosure according to the present invention;
5 is a schematic exploded perspective view showing a horizontal seismic part of the electrical control enclosure according to the present invention;
6 is a side cross-sectional view of FIG.
7 is a schematic exploded perspective view showing a vertical seismic portion of the electrical control enclosure according to the present invention;
8 is a schematic front perspective view showing a vertical seismic part of the electrical control enclosure according to the present invention;
9 is a schematic rear perspective view showing a vertical seismic part of the electrical control enclosure according to the present invention;
10 is a schematic front view of FIG. 9;

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the present invention may be embodied in many different forms and should not be limited to the described embodiments.

1 to 10 are schematic views showing an electrical control enclosure according to the present invention. As shown in the drawing, the electric control enclosure having a seismic function according to the present invention has an open front and empty case 10, an installation plate 20 provided inside the case 10, and the case. The horizontal seismic unit 30 is installed between the case 10 and the mounting plate 20 to have the seismic resistance in the horizontal direction, and the case 10 and the mounting plate 20 have the seismic resistance in the vertical direction. It includes a vertical seismic portion 40 is installed, and a plurality of elastic force control spring 50 is fitted to the vertical pin 51 is installed in the vertical seismic portion 40.

The case 10 is a front door is opened, the installation space is formed therein, the door 11 is installed so as to open and close the open front, while providing a place where the installation plate 20 is installed to cover it It protects you. The door 11 is to open and close the open front of the case 10.

Here, the electric control enclosure is provided with an installation plate 20 inside the case 10, such as an electric control panel, a control box, a distribution box, a control box, a distribution panel, an electric enclosure, a distribution enclosure, a control enclosure, and the like. 20) various control parts, electrical and electronic parts, etc. are installed.

The case 10 has a rear through-hole 12 formed to penetrate the rear surface of the case 10 corresponding to the rear surface of the vertical seismic portion 40 so that the elastic force control spring 50 can be installed through the rear surface of the case 10. And a cover plate 13 detachably mounted to the rear surface of the case 10 so as to cover the rear through hole 12.

The back through hole 12 serves to provide a passage for assembling or disassembling the elastic force control spring 50 to the vertical seismic portion 40 through the back of the case 10, the cover plate (13) is to cover and close the back through hole (12).

The installation plate 20 has a top bending jaw 21 is formed in a plate shape in the inside of the case 10 and the upper end is bent inward to correspond to the open front of the case 10, the breaker It serves to provide a place where power distribution parts such as distributors and switchgear are installed.

The upper bent jaw 21 serves to provide a place where the vertical seismic portion 40 is mounted so that the upper end of the installation plate 20 can be easily mounted to the vertical seismic portion 40. The upper bent jaw 21 is formed to penetrate up and down of the plurality of installation holes (21a) so that the vertical bolt 44 and the vertical pin 51 provided in the vertical seismic portion 40 is fitted.

The installation plate 20 further includes four circular through holes 22 formed to penetrate through the four corner portions thereof. The circular through hole 22 is to allow the installation plate 20 to move smoothly up and down while being supported by the horizontal seismic portion 30 while providing a place where the horizontal seismic portion 30 is mounted.

The horizontal seismic unit 30 is installed between the rear surface of the mounting plate 20 and the inner surface of the case 10, the mounting plate 20 relative to the case 10, that is, the front and rear It is to be elastically supported in the direction while having a horizontal shock resistance.

As described above, the horizontal seismic unit 30 penetrates the circular through hole 22 and is horizontally attached to the inner surface of the case 10 and four first horizontal bolts 31 are formed on the outer circumferential surface thereof. The first nut 32 is screwed to the first horizontal bolt 31 and provided to be in close contact with the inner surface of the case 10, and the first horizontal bolt to be in close contact with the front surface of the first nut (32) 31 is inserted into the disc ring 33, the horizontal spring 34 to be fitted to the first horizontal bolt 31 so that the rear end is in close contact with the disc ring 33, and the front end of the horizontal spring 34 The first contact disc 35 having a back surface closely adhered to the back surface of the installation plate 20 and slidably fitted to the first horizontal bolt 31 and having a diameter larger than that of the circular through hole 22. ), The rear surface is in close contact with the front surface of the installation plate 20 and slidably fitted to the first horizontal bolt 31 The second contact disc 36 having a diameter larger than the diameter of the circular through hole 22 and the second screwed to the front end of the first horizontal bolt 31 to be in close contact with the front surface of the second contact disc 36 A nut 37.

The first horizontal bolt 31 serves to support the rear end is attached to the inner surface of the case 10 while providing a place where the general components including the first nut 32 is screwed or fitted. .

The first nut 32 is moved back and forth along the first horizontal bolt 31 in a state where the horizontal spring 34 is fixed by the second nut 37, the horizontal spring 34 of the It is to be able to adjust the elastic support.

The disc ring 33 serves to prevent the horizontal spring 34 from being caught by the first nut 32 when the first nut 32 is rotated. The horizontal spring 34 is to add the elastic support force in the horizontal direction to the installation plate 20 in the case 10 to have a horizontal earthquake resistance.

The first contact disc 35 and the second contact disc 36 support the mounting plate 20 in a slidable manner so that the mounting plate 20 is supported in the horizontal direction by the horizontal spring 34. To move up and down. The second nut 37 is screwed to an end of the first horizontal bolt 31 to fix the horizontal spring 34 to the first horizontal bolt 31 together with the second close contact disk 36. Play a role.

The vertical seismic part 40 is installed between the upper bent jaw 21 and the inner surface of the case 10, the mounting plate 20 is elastically in the vertical direction with respect to the case 10 It is to be supported and have a vertical shock resistance.

The vertical seismic part 40 is a square contact plate 41 is provided to be in close contact with the rear surface of the installation plate 20 to the lower portion of the upper bending jaw 21, the upper end of the rectangular contact plate 41 It is formed to be bent inwardly and the upper projection jaw 42 is in close contact with the lower surface of the upper bending jaw 21, and is attached to the lower rear surface of the square contact plate 41 to correspond to the upper projection jaw 42 Horizontally protruding the lower protruding jaw 43 and the upper protruding jaw 42 and the lower protruding jaw 43 in the center of the upper surface of the upper bent jaw 21 so as to slide vertically and the thread on the outer peripheral surface A first fixing nut 45 which is screwed to a lower end of the vertical bolt 44 and a lower end of the lower protrusion jaw 43 is formed to be in close contact with the vertical bolt 44 to be formed; Vertically disposed between the upper projection jaw 42 and the lower projection jaw 43 in the state of being fitted to the fixing nut 45 A second fixing nut 47 screwed to a pring 46, the vertical bolt 44 protruding upward from the upper bent jaw 21, and the vertical portion above the second fixing nut 47. The fitting member 48 into which the bolt 44 is fitted is screwed to the upper end of the vertical bolt 44 to the upper portion of the fitting member 48, and the fitting member 48 together with the second fixing nut 47. The third fixing nut (49) for fixing the, the vertical placement plate (49a) vertically attached to the rear surface of the fitting member 48, and the vertical placement plate (49a) on both sides of the fitting member 48 A pair of vertical through holes 49b formed perpendicular to the pair, and a pair of vertical holes slidably inserted into the vertical holes 49b and horizontally attached to the inner surface of the case 10 and having a thread formed on the outer circumferential surface thereof. Second fixing bolt 49c and a fourth fixing nut 49 screwed to the second horizontal bolt 49c in front of the vertically disposed plate 49a. d).

The square contact plate 41 serves to provide a place where all the components of the vertical seismic part 40 are installed while allowing the vertical seismic part 40 to be disposed on the rear surface of the installation plate 20. .

The square contact plate 41 further includes an auxiliary projection jaw 41a formed to protrude by bending the lower end of the square contact plate 41 horizontally to the lower portion of the lower projection jaw 43. The auxiliary projection jaw (41a) is to allow the vertical pin 51 to be more firmly supported while the lower end of the vertical pin (51).

The upper projection jaw 42 is in close contact with the lower surface of the upper bending jaw 21 to facilitate the coupling of the mounting plate 20 and the square contact plate 41 while the upper end of the vertical spring 46 It serves to support and to be installed so as to vertically penetrate the upper end of the vertical bolt 44 and the vertical pin (51).

The upper projection jaw 42 is a pair of mounting portion for mounting the upper projection jaw 42 to the lower surface of the upper bending jaw 21 while being fastened through the upper bending jaw 21 from both sides of the lower surface (42a) is further included. The mounting part 42a is composed of a bolt and a nut, and the upper surface of the upper protrusion jaw 42 is attached to the lower surface of the upper bending jaw 21 in a state where they are attached to the rectangular contact plate on the mounting plate 20. It serves to assemble by combining 41.

The lower protrusion jaw 43 supports the lower end of the vertical spring 46 to support the vertical spring 46 together with the upper protrusion jaw 42 while the vertical bolt 44 and the vertical pin ( The lower end of 51) penetrates and supports them.

Corresponding to the installation hole 21a, it is preferable that holes having the same size as that of the installation hole 21a are formed in the upper protrusion jaw 42, the lower protrusion jaw 43, and the auxiliary protrusion jaw 41a.

The vertical bolt 44 serves to guide the vertical movement of the vertical spring 46 while providing a place where the vertical spring 46 is fitted and fixed, and at the same time includes the first fixing nut 45. It serves to provide a place for the screw to be fitted or fitted.

The first fixing nut 45 is to allow the lower end of the vertical bolt 44 to be fixed to the lower surface of the lower projection jaw 43, the vertical spring 46 in the case 10 By adding an elastic support force in the vertical direction to the mounting plate 20 to have a seismic resistance in the vertical direction.

The second fixing nut 47 is screwed to an upper portion of the vertical bolt 44 to fix a lower end of the fitting member 48, and the fitting member 48 is connected to the vertical bolt 44. While being fitted and assembled, it serves to provide a place where the vertical placement plate (49a) is attached. The third fixing nut 49 is screwed to the upper end of the vertical bolt 44 serves to fix the upper end of the fitting member 48.

The vertically disposed plate 49a serves to provide a place where the vertical through hole 49b is formed, and the vertical through hole 49b is disposed vertically with the second horizontal bolt 49c being movable up and down. It is to be installed in the plate (49a).

The second horizontal bolt 49c may be mounted on the inner surface of the case 10 in a state in which the vertical placement plate 49a is movable up and down, and the fourth fixing nut 49d may be mounted on the inner surface of the case 10. 2 is screwed to the horizontal bolt (49c) serves to fix the vertical placement plate (49a) to the second horizontal bolt (49c) to move up and down.

The elastic force adjustment spring 50 is slidably penetrates the upper projection jaw 42 and the lower projection jaw 43 in a state where the upper end is caught from both sides of the upper surface of the upper bending jaw 21 so that a plurality of springs are vertically fitted. With a vertical pin 51 and selectively fitted to the vertical pin 51 while being disposed between the upper projection jaw 42 and the lower projection jaw 43 can adjust the elastic bearing force of the vertical seismic portion (40) To ensure that

That is, the elastic force adjustment spring 50 is selectively fitted to the vertical pin 51 and in addition to the vertical spring 46 so as to selectively adjust the seismic resistance in the vertical direction according to the user's intention, the vertical bolt 44 It is to be able to selectively adjust the elastic force on both sides of the square contact plate 41 to the center.

Although preferred embodiments of the present invention have been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but it will be apparent to those skilled in the art that various modifications are possible without departing from the scope of the present invention.

10: case
11: door 12: rear through hole
13: cover plate
20: mounting plate
21: upper bent jaw 22: circular hole
21a: Installer
30: horizontal seismic unit
31: first horizontal bolt 32: first nut
33: disc ring 34: horizontal spring
35: first contact disk 36: second contact disk
37: second nut
40: vertical seismic unit
41: square contact plate 41a: auxiliary protrusion jaw
42: upper projection jaw 42a: mounting portion
43: lower projection jaw 44: vertical bolt
45: first fixing nut 46: vertical spring
47: second fixing nut 48: fitting member
49: third fixing nut 49a: vertical placement plate
49b: vertical through hole 49c: second horizontal bolt
49d: fourth fixing nut
50: elastic force adjustment spring
51: vertical pin

Claims (5)

A case 10 having a front surface open, an installation space formed therein, and a door 11 installed to open and close the opened front surface;
An installation plate provided with a plate shape in the inside of the case 10 corresponding to the open front of the case 10, having an upper end bending jaw 21 formed by bending the upper end inwards, the power distribution component is installed 20;
It is installed between the rear surface of the mounting plate 20 and the inner surface of the case 10, the mounting plate 20 is elastically supported in the horizontal direction with respect to the case 10 has a horizontal seismic resistance A horizontal seismic unit 30 to be provided;
It is installed between the upper bent jaw 21 and the inner surface of the case 10, so that the mounting plate 20 is elastically supported in the vertical direction with respect to the case 10 to have a seismic resistance in the vertical direction A vertical seismic unit 40; Including,
The mounting plate 20,
Further comprising four circular through holes 22 formed to penetrate the four corners,
The horizontal seismic unit 30,
Four first horizontal bolts 31 which penetrate the circular through hole 22 and are horizontally attached to the inner surface of the case 10 and have threads formed on the outer circumferential surface thereof;
A first nut 32 screwed to the first horizontal bolt 31 and provided to be in close contact with the inner surface of the case 10;
A disc ring 33 fitted to the first horizontal bolt 31 to be in close contact with the front surface of the first nut 32;
A horizontal spring (34) fitted to the first horizontal bolt (31) such that a rear end thereof is in close contact with the disc ring (33);
The front end of the horizontal spring 34 is in close contact with the front, the front is in close contact with the back of the mounting plate 20 and fitted to the first horizontal bolt 31 slidably and larger than the diameter of the circular through hole 22 A first contact disc 35 having a diameter,
A second close contact plate 36 having a rear surface in close contact with the front surface of the installation plate 20 and slidably fitted in the first horizontal bolt 31 and having a diameter larger than that of the circular through hole 22;
And a second nut 37 screwed to the front end of the first horizontal bolt 31 to be in close contact with the front surface of the second close contact disc 36.
The vertical seismic unit 40,
Square contact plate 41 which is provided in close contact with the rear surface of the installation plate 20 to the lower portion of the upper bending jaw 21,
An upper projection jaw 42 formed at an upper end of the square contact plate 41 and bent inward and in close contact with a lower surface of the upper bending jaw 21;
A lower projection jaw 43 attached to a lower rear surface of the square contact plate 41 and protruding horizontally to correspond to the upper projection jaw 42;
A vertical bolt 44 vertically provided to slidably penetrate the upper protruding jaw 42 and the lower protruding jaw 43 at the center of the upper surface of the upper bent jaw 21 and a thread formed on an outer circumferential surface thereof;
The first fixing nut 45 is screwed to the lower end of the vertical bolt 44 and the upper end is in close contact with the lower surface of the lower projection jaw 43, and
A vertical spring 46 disposed between the upper protrusion jaw 42 and the lower protrusion jaw 43 in a state of being fitted into the first fixing nut 45;
A second fixing nut 47 screwed to the vertical bolt 44 protruding to an upper portion of the upper bent jaw 21;
A fitting member 48 into which the vertical bolt 44 is inserted into the upper part of the second fixing nut 47;
A third fixing nut 49 screwed to an upper end of the vertical bolt 44 to an upper portion of the fitting member 48 to fix the fitting member 48 together with the second fixing nut 47;
A vertically placed plate 49a vertically attached to the rear surface of the fitting member 48;
A pair of vertical through holes (49b) formed on both sides of the fitting member 48 perpendicular to the vertical placement plate (49a),
A pair of second horizontal bolts 49c fitted to the vertical through hole 49b so as to be slidable up and down and horizontally attached to the inner surface of the case 10 and having a thread formed on the outer circumferential surface thereof;
And a fourth fixing nut (49d) which is screwed to the second horizontal bolt (49c) in front of the vertically placed plate (49a).
delete delete The method of claim 1,
The electrical control enclosure,
It has a vertical pin (51) to slidably penetrates the upper projection jaw 42 and the lower projection jaw 43 in a state in which the upper end is caught on both sides of the upper surface of the upper bending jaw (21), A plurality of elastic force adjustment springs disposed between the upper protrusion jaw 42 and the lower protrusion jaw 43 and selectively fitted to the vertical pins 51 to adjust the elastic bearing force of the vertical seismic part 40 ( 50);
Electrical control enclosure having a seismic function, characterized in that it further comprises.
The method of claim 4, wherein
The case 10,
A back through hole 12 formed to penetrate the back surface of the case 10 so as to correspond to the back surface of the vertical seismic part 40 so as to install the elastic force control spring 50 through the back surface thereof;
Further comprising a cover plate 13 detachably mounted to the back of the case 10 to cover the back through hole 12,
The square contact plate 41,
Further comprising an auxiliary projection jaw (41a) is formed so that the lower end of the square contact plate 41 is horizontally bent to protrude to the lower portion of the lower projection jaw 43 so that the vertical pin (51) is supported therethrough, ,
The upper projection jaw 42,
Further comprising a pair of mounting portions (42a) for mounting the upper projection jaw 42 to the lower surface of the upper bending jaw 21 while being fastened through the upper bent jaw 21 from both sides of the lower surface An electrical control enclosure having a seismic function, characterized in that.

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