KR101289555B1 - Rack for fulfilling earthquake-proof function - Google Patents

Abstract

According to the present invention, a plurality of seismic devices are integrally coupled to the bottom by a seismic device coupling bar and aligned at specific intervals, and the plurality of enclosures are seated at a predetermined distance on the upper surfaces of the plurality of seismic devices, but the upper surfaces of adjacent enclosures are coupled to the housing coupling bars. Regarding the enclosure with a seismic function for
The plurality of seismic devices 100 are integrally coupled to the floor by the seismic device coupling bar 110 to be aligned at specific intervals, and the plurality of enclosures 200 are seated on the upper surfaces of the plurality of seismic devices 100 at specific intervals. ,
The upper surface of the adjacent housing 200 is characterized in that coupled to the housing coupling bar (300).
Such a present invention is a plurality of seismic device 100 is integrally coupled by the seismic device coupling bar 110 on the bottom is aligned at a specific interval and the plurality of enclosures 200 is specified on the upper surface of the plurality of seismic devices (100) Seated at intervals, but combines the upper surface of the adjacent enclosure 200 with the housing coupling bar 300, there is an effect that the plurality of enclosure 200 is more securely protected from earthquakes.

Description

Rack for fulfilling earthquake-proof function

The present invention relates to an enclosure having a seismic function, and in particular, a plurality of seismic devices are integrally coupled to the bottom by an earthquake coupling bar and aligned at specific intervals, and the plurality of enclosures are seated on the upper surface of the plurality of seismic devices at specific intervals. However, the present invention relates to a enclosure having a seismic function for coupling the upper surface of an adjacent enclosure to the enclosure coupling bar.

In general, forensic structures are provided with seismic devices for protection from earthquakes. At this time, there are many kinds of seismic devices, and select the appropriate one and apply it to the structure.

However, it is not easy to apply a seismic device such as a plurality of adjacently arranged enclosures to protect a plurality of adjacently arranged enclosures from earthquakes.

For example, when a plurality of enclosures arranged adjacent to each other in the horizontal direction are shaken at different periods in different directions due to an earthquake, adjacent enclosures collide with each other and are damaged. In this case, the plurality of enclosures may have different weights due to the different facilities therein.

In addition, even if the earthquake-resistant function, which is a powerful shock mitigation means, is transmitted to the protected object even if the seismic device and the protected object are not fixed to the plurality of enclosures. There is a problem that can be separated or conducted from the seismic device by the impact of 1/10 to 4/10.

The present invention has been made in order to solve the above problems, a plurality of seismic devices are integrally coupled to the bottom by a seismic device coupling bar is aligned at a specific interval and a plurality of enclosures are seated at a specific interval on the upper surface of the plurality of seismic devices. It is an object of the present invention to provide an enclosure having a seismic function for coupling the upper surface of an adjacent enclosure to the enclosure coupling bar.

In order to achieve this object,

According to an aspect of the present invention,
The plurality of seismic devices 100 are integrally coupled to the floor by the seismic device coupling bar 110 to be aligned at specific intervals, and the plurality of enclosures 200 are seated on the upper surfaces of the plurality of seismic devices 100 at specific intervals. But

The upper surface of the adjacent enclosure 200 is coupled to the enclosure coupling bar 300 or the adjacent wall surface of the enclosure 200 and the enclosure 200 to each other to strengthen the binding force between the enclosure 200, the earthquake-resistant device 100 and The enclosure 200 installed on the seismic device 100 is fixed by bolts or bands 130 so that the seismic device 100 and the enclosure 200 become as one body, the enclosure 200 and the earthquake-resistant device 100 in a row of arrangements. It is characterized in that the entire structure has a structure like one body to effectively respond to the earthquake shock transmitted to the earthquake-resistant device 100 to the enclosure structure combined with the earthquake-resistant device 100.
In addition, it is characterized in that it is integrated with the earthquake-resistant device 100 having a structure that is coupled to the '''square structure of the' ㅁ 'square seismic device coupling bar 110.
In addition, it characterized in that it further comprises a cable tray 400 which is fixedly supported by a plurality of tray fixing (410) portion on the plurality of enclosures (200).

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According to the present invention, a plurality of seismic devices 100 are integrally coupled to each other by a seismic device coupling bar 110 and aligned at specific intervals, and a plurality of enclosures 200 are disposed on specific surfaces of the plurality of seismic devices 100. While seated in, but coupled to the upper surface of the adjacent enclosure 200 by the housing coupling bar 300, there is an effect that the plurality of enclosure 200 is more securely protected from earthquakes.

In addition, the seismic device coupling bar 110 is a square, the seismic device coupling bar 110 is coupled to the seismic device 100 portion is formed by the U-shaped groove 140 so that the seismic device coupling bar 110 is seated. The stability of the coupling force of the plurality of seismic devices 100 is improved.

In addition, because the front and rear ends of the upper surface of the adjacent enclosure 200 is coupled to the housing coupling bar 300, a plurality of enclosures 200 are integrally coupled so that collision does not occur between the adjacent enclosures 200. There is also an advantage.

In addition, the lower body of the housing 200 is provided with a support body 210 made of legs or wheels and the ring 120 is installed on the side of the earthquake-resistant device 100, the band 130 penetrates the ring 120 Bundled across the outer surface of the enclosure support 210, the enclosure 200 is not separated from the earthquake-resistant device 100.

In addition, since the cable tray 400 is fixedly supported by the plurality of tray fixing portions 410 on the plurality of enclosures 200, the cable tray 400 is also protected from the earthquake together with the plurality of enclosures 200.

1 is a perspective view showing an embodiment of a housing having a seismic function according to the present invention.
2 is a perspective view illustrating an example in which the seismic device connecting bar illustrated in FIG. 1 couples a plurality of seismic devices.
3 is a perspective view illustrating an example in which a cable tray is coupled to a plurality of enclosures.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing an embodiment of a housing having a seismic function according to the present invention, a seismic device 100, seismic device connection bar 110, ring 120, band 130, enclosure 200 , The housing support 210, and the housing coupling bar 300. The seismic device 100 may be implemented by applying a ball & cone, a ball bearing, a ball caster, rubber lamination, a spring, a rail, and the like.

The present invention configured as described above will be described below with reference to FIGS.

2 is a perspective view illustrating an example in which the seismic device connection bar 110 illustrated in FIG. 1 couples the plurality of seismic devices 100.

3 is a perspective view illustrating an example in which the cable tray 400 is coupled to the plurality of enclosures 200.

In Figures 1 to 3, first, a plurality of seismic devices 100 on the bottom is integrally coupled by the seismic device coupling bar 110 is aligned at a specific interval. At this time, the front and rear ends of the plurality of seismic devices 100 are integrally coupled by the seismic device coupling bar 110. In addition, the seismic device coupling bar 110 is divided into a plurality, so that each seismic device coupling bar can be coupled to the adjacent enclosure 200 integrally.

The plurality of enclosures 200 are seated on the upper surface of the plurality of seismic devices 100 at specific intervals. At this time, each enclosure 200 is seated over the upper surface of the adjacent seismic device (100).

The coupling force of the plurality of enclosures 200 is improved by coupling the enclosure coupling bar 300 to the front and rear ends of the upper surface of the adjacent enclosure 200. At this time, the housing coupling bar 300 may be one-piece or short in length as shown in FIG.

The above-described seismic device coupling bar 110 will be described in more detail with respect to combining the plurality of seismic devices 100.

That is, the seismic device coupling bar 110 is a quadrangle, the portion of the earthquake-resistant device 100 is coupled to the seismic device coupling bar 110 is formed of the U-shaped groove 140 so that the seismic device coupling bar 110 is seated.

In addition, an example in which the plurality of enclosures 200 described above are further seated on the upper surfaces of the plurality of seismic devices 100 is as follows.

That is, the lower body of the housing 200 is provided with a support body 210 made of legs or wheels, and install a ring 120 on the side of the earthquake-resistant device 100, and penetrates the band 130 through the ring 120 Bundled across the outer surface of the enclosure support 210, the enclosure 200 is not separated from the earthquake-resistant device 100.

It is preferable that the lower surface of the enclosure 200 and the upper surface of the seismic device 100 are tightened by fixing bolts 105 so that the enclosure 200 is not separated from the seismic device 100.

Meanwhile, the cable tray 400 is fixedly supported by the plurality of tray fixing parts 410 on the plurality of enclosures 200. In this case, the cables used in the plurality of enclosures 200 and the like are laid in the bundle or in the cable tray 400.

As described above, in the present invention, the plurality of seismic devices 100 are integrally coupled by the seismic device coupling bar 110 to be aligned at specific intervals, and the plurality of enclosures 200 are specified on the upper surfaces of the plurality of seismic devices 100. Seated at intervals, but coupled to the upper surface of the adjacent enclosure 200 by the housing coupling bar 300, there is an advantage that the plurality of enclosures 200 are more securely protected from earthquakes.

In addition, the seismic device coupling bar 110 is a square, the seismic device coupling bar 110 is coupled to the seismic device 100 portion is formed by the U-shaped groove 140 so that the seismic device coupling bar 110 is seated. Also, there is an advantage in that the stability of the coupling force of the plurality of seismic devices 100 is improved.

In addition, because the front and rear ends of the upper surface of the adjacent enclosure 200 is coupled to the housing coupling bar 300, a plurality of enclosures 200 are integrally coupled so that collision does not occur between the adjacent enclosures 200. .

In addition, the lower body of the housing 200 is provided with a support body 210 made of legs or wheels and the ring 120 is installed on the side of the earthquake-resistant device 100, the band 130 penetrates the ring 120 Bundled across the outer surface of the enclosure support 210, the enclosure 200 is not separated from the earthquake-resistant device 100.

In addition, since the cable tray 400 is fixedly supported by the plurality of tray fixing portions 410 on the plurality of enclosures 200, the cable tray 400 is also protected from the earthquake together with the plurality of enclosures 200.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

100: seismic device
110: seismic device connection bar
120: ring
130: Band
140: c-home
150: fixing bolt
200: enclosure
210: housing support
300: combined bar
400: cable tray
410: Treygo Government

Claims (6)

The plurality of seismic devices 100 are integrally coupled to the floor by the seismic device coupling bar 110 to be aligned at specific intervals, and the plurality of enclosures 200 are seated on the upper surfaces of the plurality of seismic devices 100 at specific intervals. But
The upper surface of the adjacent enclosure 200 is coupled to the enclosure coupling bar 300 or the adjacent wall surface of the enclosure 200 and the enclosure 200 to each other to strengthen the binding force between the enclosure 200, the earthquake-resistant device 100 and The enclosure 200 installed on the seismic device 100 is fixed by bolts or bands 130 so that the seismic device 100 and the enclosure 200 become as one body, the enclosure 200 and the earthquake-resistant device 100 in a row of arrangements. ) The enclosure having an earthquake-resistant function, characterized in that the entire structure as a body to effectively respond to the earthquake shock transmitted to the earthquake-resistant device 100 in the enclosure structure combined with the earthquake-resistant device (100).
The method of claim 1,
Enclosure having an earthquake-resistant function, characterized in that the 'ㄷ' shaped groove 140 is integrated with the earthquake-resistant device 100 having a structure in which the 'ㅁ' square of the seismic device coupling bar 110 is coupled.
delete delete delete The method of claim 1,
And a cable tray 400 which is fixedly supported by a plurality of tray fixing portions 410 on the plurality of housings 200.

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