KR20190104959A - Distribution box of earthquake-proof type - Google Patents

Abstract

The present invention relates to an earthquake-proof distribution box which comprises: a lattice-shaped framework (110); and a cover plate (120) for finishing the outer surface of the framework (110).

Description

Seismic Distribution Box {DISTRIBUTION BOX OF EARTHQUAKE-PROOF TYPE}

The present invention relates to an earthquake-proof distribution box, and more particularly, it is fixed to the corner portion of the frame, and configured to enable a solid binding of the upper frame and the pillar and the lower frame and the pillar, so as to withstand external forces such as earthquakes or typhoons. It relates to a seismic distribution box characterized in that.

1 is a front view illustrating a state in which a bracket of a type A is supported on a corner portion of a distribution box frame by the background art, and FIG. 2 illustrates a process of mounting a type bracket on a corner portion of a distribution box frame according to the background art. One is a local perspective view, Figure 3 is a local perspective view showing a state in which the brackets of the a-shape is mounted on both sides of the corner portion of the distribution box frame according to the background art, looking at the distribution box according to the background art.

In general, the distribution box is composed of a frame (F) to have a grid shape, the outer surface of the frame (F) is covered with an iron plate. And the corner portion of the frame (F) is a bracket (1) of the a-type is mounted to serve to support the frame (F).

The configuration of the bracket 1 is as follows.

The L-shaped body 10 to which two plates 13 are connected is configured, and ribs 17 are formed on both sides of the body 10 to support each plate 13. In addition, bolt holes 15 penetrate the plate 13 at both sides thereof.

The bracket 1 is mounted to the corner of the frame (F) is as follows.

The corner portion of the distribution box frame F is a portion in which one side bar (B) and the other side bar (B) are coupled at right angles, and the distribution box bracket (1) is brought into close contact with both side bars (B). At this time, the through hole is formed in the bar (B) to correspond to the bolt hole (15). Therefore, after the bolt (L) is inserted into the spring washer (W) to allow the bolt (L) to pass through the through hole through the bolt hole (15). At this time, the bolt (L) is fastened to the nut in a state in which the nut is inserted into the bar (B) to correspond to the through hole, thereby supporting both the bars (B) firmly. The bar (B) is configured so that the nut can be easily disposed inside, such as an angle of the a-shape or a hollow pipe shape or profile. At this time, the spring washer (W) to prevent the phenomenon that the bolt (L) is loosened by the vibration applied to the distribution box frame (F) by applying a force to push the head of the bolt (L).

However, according to the background art, there were the following problems.

First, when an earthquake occurs, the distribution box swings severely to the side or up and down. At this time, the distribution box has a problem in that the frame (F) of the distribution box is deformed or collapsed, as the bracket (1) installed on both sides is separated from the bar (B) in the direction of the arrow (K). And each bar (B) forming the corner portion is rotated in the direction of the arrow (W, R), there was also a problem that the frame (F) is deformed or collapsed.

Second, when mounting the bracket (1), there was a hassle to be equipped with a bolt (L) by separately provided with a spring washer (W). Therefore, the work was troublesome and inconvenient. In particular, when the bracket (1) is detached and then fixed again due to maintenance, the bolt (L) is often fastened in a state where the spring washer (W) is lost, which causes the bolt (L) to be easily loosened and distributed. There was a problem that the strength of the molten skeleton (F) is lowered and the support function cannot be properly performed.

Korea Patent Registration No. 10-1027917 (April 01, 2011)

Seoul Metal Homepage http://www.seoulheatsink.co.kr/products/pro01.htm?useful_second_prim=8

The seismic distribution box according to the present invention is intended to solve the following.

First, by fixing the three bars (BAR) forming the corner portion of the distribution box frame at the same time, and configured to be firmly supported so that the bar does not rotate, it is possible to solve the phenomenon that the shape is deformed or collapsed even if an earthquake occurs.

Second, when fixing the bracket to the corner portion of the distribution box frame to provide a separate spring washer to solve the hassle of having to insert a bolt.

Third, when the bracket for the distribution box is removed and then fixed again due to the maintenance, the bolts are often fastened in a state where the spring washer is lost. As a result, the bolts are easily loosened, thereby lowering the strength of the distribution box frame and supporting the function. It helps to solve problems that cannot be done properly.

In order to solve the said subject, the seismic distribution box by this invention is comprised as follows.

A grid-like frame, and a cover plate for closing the outer surface of the frame,

The frame is arranged in the lower portion of the lower frame is connected to the four bars (BAR) connected in a quadrangular, the upper pole connected to the four vertex portion of the lower frame, and connected to the upper end of the pillar and the lower frame In the distribution box corresponding to the four bars comprising a top frame connected in a square;

It includes a support for simultaneously binding the bar and the bar connected to both sides of the pillar forming the corner portion of the frame,

The support part may include a bracket fixed to the bar and the bar connected to both sides of the pillar at the same time, a first support bar extending in an oblique direction to both sides of the bracket, and connected to the first support bar and fixed to the bar and the bar at one side. And a second supporter bar.

The bracket includes an a-shaped body covering the pillar, side covers on both sides extending directly from one side end of the body, and ribs connecting the side covers and the body on both sides, and the first support. The bar is characterized in that connected to the rib.

In addition, the body, a bolt hole penetrated through the side cover, a bolt penetrating the pillar and the bar through the bolt hole, and a nut fastened to the bolt inside the bar and the pillar.

In addition, it includes a bolt hole penetrating the rib, a bolt penetrating the cover plate through the bolt hole, and a nut fastened to the bolt to closely contact the rib and the cover plate.

In addition, a flange formed at both ends of the second support bar and one side is in close contact with the pillar and the other side is in close contact with the bar, bolt holes penetrated through the flange, bolts penetrating the pillar and bar through the bolt hole, And a nut fastened to the bolt in the bar and the pillar.

In addition, one side is fixed to the body and the side cover and the flange so as to be disposed on the side of the bolt hole and the other side includes an upwardly lifted leaf spring, the leaf spring is characterized in that the lifter in the direction of rotation of the bolt .

The apparatus may further include a tension spring connected to the first support bar and the second support bar such that the first support bar and the second support bar are connected to each other.

The seismic distribution box according to the present invention has the following effects by the above solution.

First, the seismic distribution box can increase the strength of the frame by simultaneously binding the support portion of the column and the bar and the cover plate connected to both sides of the pillar. Therefore, even if an earthquake occurs, the seismic distribution box may be prevented from being deformed or collapsed.

Second, the loosening of the bolt is prevented by the leaf spring, and it is possible to solve the inconvenience of having a spring washer separately, and to prevent the phenomenon of losing the spring washer even when the support part is separated and then re-bonded for maintenance purposes. It can be effective.

Figure 1 is a front view showing a state in which the bracket of the a-shaped bracket is supported on the corner portion of the distribution box frame according to the background art.
Figure 2 is a local perspective view showing a process of mounting a bracket of the a-shape in the corner portion of the distribution box frame according to the background art.
Figure 3 is a local perspective view showing a state in which the brackets of the a-shape is mounted on both corners of the distribution box skeleton according to the background art.
Figure 4 is a perspective view showing a seismic distribution box according to the present invention.
5 is a perspective view showing a state in which the cover is removed from the seismic distribution box according to the present invention.
Figure 6 is a local perspective view showing that the support is fixed to the corner formed by the lower frame and the pillar in the seismic distribution box according to the present invention.
Figure 7 is a local perspective view showing that the support is fixed to the corner formed by the upper frame and the pillar in the seismic distribution box according to the present invention.
8 is a perspective view showing a support configured of the seismic distribution box according to the present invention.
Fig. 9 is a local perspective view showing the bracket of the support part constituted by the seismic distribution box according to the present invention.

Hereinafter, with reference to the accompanying drawings look at an embodiment of the present invention and use cases for solving the above problems.

Figure 4 is a perspective view showing a seismic distribution box according to the present invention, Figure 5 is a perspective view showing a state in which the cover removed from the seismic distribution box according to the present invention, Figure 6 is a lower frame and pillar in the seismic distribution box according to the present invention. This is a local perspective view showing that the support is fixed to the corner to form, Figure 7 is a local perspective view showing that the support is fixed to the corner formed by the upper frame and the pillar in the seismic distribution box according to the present invention, Figure 8 is Fig. 9 is a perspective view showing the support part constituted by the seismic distribution box, and Fig. 9 is a local perspective view showing the bracket of the support part constituted by the seismic distribution box according to the present invention.

In general, the distribution box accommodates a water distribution facility, and includes a grid-shaped frame 110, and a cover plate 120 finishing the outer surface of the frame 110. And the front is opened without a cover plate 120 and the door 130 is installed so that it can be opened and closed.

The frame 110 is arranged in the lower portion is composed of a lower frame 111 is connected to the four bars 112, BAR in a rectangular shape, connected to the four vertices of the lower frame 111 is built up The pillar 113 is comprised. The upper frame 114 is connected to the upper end of the pillar 113 and corresponds to the lower frame 111, and four bars 115 are connected in a rectangle. Of course, each pillar 113 is connected to the vertex portion of the upper frame 114 is configured.

The seismic distribution box 100 according to the present invention is mounted to each corner portion (C) of the frame 110, the support portion 200 for simultaneously binding the bars (112, 115) connected to both sides of the pillar and the pillar. As a result, the seismic strength of the distribution box can be improved. The corner portion C is disposed between the upper frame 114 and the pillars 113 in four places, and is arranged in four places between the lower frame 111 and the pillars 113, so that the support 200 is lowered as shown in FIG. It is arranged in the corner portion (C) of, and is arranged in the upper corner portion (C) as shown in FIG.

To this end, the present invention allows the support 200 to be configured as follows.

5 to 7, the support part 200 includes a bracket 210 that is simultaneously fixed to bars 112 and 115 connected to both sides of the pillar 113 and the pillar 113. In addition, a first support bar 220 extending in an oblique direction to both sides of the bracket 210 is configured, and is connected to the first support bar 220 to the pillars 113 and the bars 112 and 115 on one side. The second support bar 230 is fixed to the) is configured.

The bracket 210 is to cover the pillar 113, the body 211 is bent the plate to form a. Since the pillar 113 is formed of a square bar, the a-shaped body 211 may be matched, of course. In addition, a plate-shaped side cover 213 extending from one side end of the body 211 to both side bars 112 and 115 is configured. That is, when the bracket 210 is installed in the corner portion C of the lower portion of the frame 110, the side cover 213 is connected to the lower end of the body 211, the bracket 210 is the frame 110 When installed in the corner portion (C) of the upper portion of the side cover 213 is configured to be connected to the upper end of the body 211.

And since the plate-shaped ribs 215 connecting the body 211 and the side cover 213 is configured to be able to firmly support the body 211 and the side cover (213).

The first support bar 220 is connected to the rib 215 and is formed at both ends of the second support bar 230 so that one side is in close contact with the pillar 113 and the other side of the bars 112 and 115. Since the flange 231 is in close contact is configured to enable a solid support.

In addition, bolt holes H1 and H2 penetrated through the body 211 and the side cover 213 are configured, and the pillars 113 and the bars 112 and 115 through the bolt holes H1 and H2. Bolts B1 and B2 penetrating are formed. A nut N is fastened to the bolts B1 and B2 in the bars 112 and 115 and the pillars 113.

In addition, a bolt hole H3 penetrating the rib 215 is configured, and a bolt B3 penetrating the cover plate 120 is formed through the bolt hole H3, and the bolt B3 is attached to the bolt B3. A nut (not shown) which is fastened to closely contact the rib 215 and the cover plate 120 is configured.

In addition, a bolt hole H4 penetrates the flange 231, and a bolt B4 penetrates the pillar 113 and the bars 112 and 115 through the bolt hole H4. Nuts (not shown) that are fastened to the bolts B4 are formed inside the columns 112 and 115 and the pillars 113.

8 and 9, one side A of the body 211, the side cover 213, and the flange 231 is disposed on the side of the bolt holes H1, H2, H3, and H4. Fixed and the counterpart side (B) is composed of a leaf spring 240 lifted upwards. One side of the leaf spring 240 may be attached by rivets or welding. In addition, the leaf spring 240 is disposed to face both sides, is configured to be lifted in the rotational direction of the bolt (B1, B2, B3, B4). Accordingly, when the bolts B1, B2, B3, and B4 are fastened, the heads of the bolts B1, B2, B3, and B4 compress the leaf spring 240.

In addition, a tension spring (not shown) connected between the first support bar 220 and the second support bar 230 is configured such that the first support bar 220 and the second support bar 230 are connected to each other. Therefore, both flanges 231 of the second support bar 230 may be maintained in close contact with the pillar 113 and the bars 112 and 115.

In the seismic distribution box 100 according to the present invention, the body 211 of the bracket 210 is fixed to the pillar 113, the side cover 213 is fixed to both sides of the pillar 113, bar 112. , 115). The body 211 and the side cover 213 are supported by the rib 215. Therefore, the phenomenon in which the bars 112 and 115 connected to both sides of the pillar 113 are separated. In addition, the second support bar 230 is connected to the pillars 113 and the bars 112 and 115, and the second support bar 230 moves toward the rib 215. By tensioning, the second support bar 230 may firmly support the pillars 113 and the bars 112 and 115. In particular, when a tension spring (not shown) is interposed between the second support bar 230 and the first support bar 220, the second support bar 230 is pulled toward the rib 215 so that both flanges ( 231 may improve the degree of close contact with the pillars 113 and the bars 112 and 115. Therefore, it is possible to maintain the perpendicularity between the pillar 113 and the bars 112 and 115. Therefore, the seismic distribution box 100 may be prevented from being deformed or collapsed by an earthquake.

In addition, the rib 215 may be connected to the cover plate 120 to improve the degree to which the cover plate 120 is attached to the frame 110. That is, the cover plate 120 is not only attached to the frame 110 but also fixed to the rib 215, so that the cover plate 120 cooperates with the strength of the frame 110. Therefore, since the support part 200 simultaneously binds the pillars 113 forming the corner portion C of the frame 110 and the bars 112 and 115 and the cover plate connected to both sides of the pillars 113 at the same time, the background art. It enables a more robust structure.

In addition, the leaf spring 240 is disposed on the side of each of the bolt holes (H1, H2, H3, H4) as one side (A) is fixed and the other side (B) is lifted upwards, so the bolt ( When the B1, B2, B3, B4 is rotated and fastened, the heads of the bolts B1, B2, B3, and B4 press the leaf spring 240 downward, and the leaf spring 240 is the bolt B1. , B2, B3, B4) will be pushed upwards. Therefore, since a force is applied to the head, loosening of the bolts B1, B2, B3, and B4 is prevented. And since it is not necessary to provide a separate spring washer, the operation is easy, and can prevent the phenomenon of losing the spring washer during maintenance.

The embodiments described in the present specification and the accompanying drawings merely illustrate some of the technical ideas included in the present invention. Therefore, the embodiments disclosed in the present specification are not intended to limit the technical spirit of the present invention, but to explain, it is obvious that the scope of the technical idea of the present invention is not limited by these embodiments. Modifications and specific embodiments that can be easily inferred by those skilled in the art within the scope of the technical spirit included in the specification and drawings of the present invention should be construed as being included in the scope of the present invention.

100: seismic distribution box 110: skeleton
111: lower frame 112: bar
113: pillar 114: upper frame
115: bar 120: cover plate
130: door 200: support
210: bracket 211: body
213: Side cover H1, H2, H3, H4: Bolt hole
B1, B2, B3, B4: Bolt 220: First support bar
230: second support bar 240: leaf spring
N: Nut

Claims (1)

Lattice frame 110,
It includes a cover plate 120 for closing the outer surface of the frame 110,
The frame 110,
The lower frame 111, which is arranged at the bottom and has four bars 112 and BAR connected in a rectangle,
A pillar 113 connected to four vertex portions of the lower frame 111 and erected upwards,
It is connected to the top of the pillar 113 and corresponding to the lower frame 111 includes four bars 115, the upper frame 114 connected in a square,
In the distribution box is configured to be connected to each of the pillars 113 to the vertex portion of the upper frame (114);
It includes a support portion 200 for simultaneously binding the bars 113, 115 connected to both sides of the pillar 113 and the pillar 113 forming the corner portion (C) of the frame 110,
The support part 200,
Bracket 210 which is simultaneously fixed to the bars (112, 115) connected to both sides of the pillar 113 and the pillar 113,
A first support bar 220 extending in an oblique direction to both sides of the bracket 210;
A second support bar 230 connected to the first support bar 220 and fixed to the pillars 113 and the bars 112 and 115 on one side;
The bracket 210 is,
A-shaped body 211 to cover the pillar 113,
Side covers 213 on both sides extending from one end of the body 211 to both side bars 112 and 115;
And ribs 215 connecting the side cover 213 and the body 211 on both sides,
The first support bar 220 is connected to the rib 215,
Bolt holes H1 and H2 penetrated through the body 211 and the side cover 213,
Bolts B1 and B2 penetrating the pillars 113 and the bars 112 and 115 through the bolt holes H1 and H2,
And nuts (not shown) fastened to the bolts B1 and B2 in the bars 112 and 115 and the pillars 113.
A bolt hole H3 penetrating through the rib 215,
A bolt B3 penetrating the cover plate 120 through the bolt hole H3;
A nut (not shown) fastened to the bolt B3 to closely contact the rib 215 and the cover plate 120.
A flange 231 formed at both ends of the second support bar 230, one side of which is in close contact with the pillar 113, and the other side of which is in close contact with the bars 112 and 115;
A bolt hole H4 penetrated through the flange 231,
A bolt B4 penetrating the pillar 113 and the bars 112 and 115 through the bolt hole H4;
A nut (not shown) fastened to the bolt B4 in the bars 112 and 115 and the pillar 113,
One side A is fixed to the body 211 and the side cover 213 and the flange 231 so that the bolt hole H1, H2, H3, H4 is disposed on the side, and the opposite side B is upward. Raised leaf spring 240,
One side of the leaf spring 240 is attached by riveting or welding, the leaf spring 240 is disposed to face both sides, is configured to be lifted in the rotation direction of the bolts (B1, B2, B3, B4) By rotating and fastening the bolts B1, B2, B3, and B4, the heads of the bolts B1, B2, B3, and B4 press the leaf springs 240 downward, and the leaf springs 240 are The heads of the bolts B1, B2, B3, and B4 are pushed upwards, and a force is applied to the heads.
A tension spring (not shown) connected between the second support bar 230 and the first support bar 220 is configured to pull the second support bar 230 toward the rib 215 so that both flanges 231 are formed. It is possible to improve the degree of close contact with the pillars 113 and the bars (112, 115) to maintain the right angle formed by the pillars 113 and the bars (112, 115),
The rib 215 is connected to the cover plate 120, seismic distribution box characterized in that the cover plate 120 can improve the degree of attachment to the frame (110).

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