KR101811287B1 - Switching board with elastic twisting earthquake resistant construction - Google Patents

Abstract

The present invention relates to a switchgear having an elastic twisting earthquake-proof structure. According to an embodiment of the present invention, the switchgear having an elastic twisting earthquake-proof structure comprises a supporting plate (10), a base plate (20), and a plurality of twisting elastic bodies (30). The switchgear having an elastic twisting earthquake-proof structure according to the present invention can minimize damage when shock due to an earthquake is applied.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an elastic twisting earthquake resistant construction,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switchboard having an elastic twist-proof earthquake-resistant structure, and more particularly, to a switchboard having an elastic twist-proof earthquake- Thereby minimizing the damage by absorbing and mitigating the impact from an earthquake.

In general, the switchgear is a device that supplies high-voltage power that is transmitted from a power plant, downs it to low pressure, and distributes power to various facilities. Accordingly, various devices including a transformer, a converter, a breaker, an earth leakage detector, and the like are built in the switchgear and are susceptible to external vibration because there are many current contacts in each device.

As an example, in a variety of industrial buildings as well as various buildings including residential buildings such as apartments, the switchboard is an essential device, and if the power supply is stopped due to abnormalities in the power switchboard, considerable damage and inconvenience may result. Therefore, a means for protecting the switchgear from external vibrations is needed.

As a vibration source affecting the above-mentioned switchboard, a typical example is an earthquake. In addition to the earthquake, there may be various vibrations generated in equipment installed in the switchboard, and there is vibration generated in other installation environments of the switchboard.

In the vibration source, there is a P wave whose oscillation direction and a propagation direction coincide with each other, an S wave whose oscillation direction is vertical to the oscillation direction, and a surface wave where oscillations of horizontal and vertical directions are mixed. At this time, the P wave induces a horizontal vibration in the switchboard, the S wave induces a vertical vibration, and the surface wave induces a vibration in which the horizontal direction and the vertical direction are mixed.

Therefore, in order to prepare for the vibration of the earthquake, a means for attenuating or absorbing both vertical and horizontal vibrations is required.

As an example of prior art for attenuating or isolating the vibration of the above-mentioned earthquake, Japanese Patent Application No. 10-1081571 discloses a fixing plate, an elasticity adjusting member provided with a seismic spring, a supporting member having an insertion portion and a screw groove formed therein, And a fastening bolt for moving the bolt to the center, however, most of the techniques including the above techniques are for attenuating vibration in the vertical direction, and the vibration in the horizontal direction is actively attenuated There is a problem that it can not be absorbed.

Registration No. 10-1081571

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method for preventing the above-mentioned problems from occurring by causing an earthquake to cause a twisting phenomenon, And to minimize the damage by absorbing and mitigating the impact of the shock absorbing structure of the present invention.

According to an aspect of the present invention, there is provided a support structure comprising: a support plate fixed to a bottom of a receiving groove formed in a paper surface; A support plate 20 spaced apart from the upper portion of the support plate 10 and adapted to support a lower portion of the switchboard 70; And a plurality of warp elastic members 30 provided in a spaced space between the support plate 10 and the support plate 20. The warp elastic members 30 are disposed on the support plate 10 and the support plate 20, A plurality of fixing brackets 12 fixed to the upper surface of the support plate 10 are provided at equal intervals on virtual circumferences 93 at positions where they are formed at the same radius from the center, And the other end of the hinge band 31 is connected to the lower surface of the receiving plate 20 in a state where the angle of the supporting plate 10 is 35 to 60 degrees with respect to the horizontal direction, And an elastic member 35 is provided between the movable bracket 22 and the upper surface of the support plate 10 so that the vibration of the switchboard 70 is transmitted to the support plate 10 20, the support plate 20 is lowered by the elastic member 35, The horizontal distance between the fixing bracket 12 and the moving bracket 22 is enlarged by the entire radius so that the supporting plate 20 is elastically twisted on the supporting plate 10. [ Lt; / RTI >

In this case, the twist elastic body 30 is provided at each corner of the support plate 10 and the support plate 20, and is formed by separating regions provided with the twist elastic body 30.

The support plate 20 is positioned lower than the paper 2 and the fixing member 52 is installed in the inner side of the edge of the receiving groove 3 where the support plate 20 is located, An anti-shock spring 54 is fixed to the lower surface of the stationary body 52 so as to abut against the side of the upper surface of the support plate 20 so that the lower surface of the stationary body 52 and the upper surface of the support plate 20 And the impact is prevented by the elasticity of the power transmission / reception unit 70 due to the impact prevention springs 54 provided.

In addition, an anti-shock pad 55 is further provided on the lower end surface of the anti-shock spring 54.

The elastic guard 51 is attached to the upper surface of the fixing member 52 so that one side portion of the elastic guard 51 is brought into close contact with one side portion of the switchboard 70, The impact of the switchboard 70 is relieved in the event of the occurrence of warpage, and foreign matter is prevented from flowing into the receiving groove 3 formed in the paper surface 2.

The operation plate 61 is provided on the support plate 10 on which the slide pad 37 of the elastic member 35 is disposed and the slide pad 37 is provided on the lower end surface of the elastic member 35 , And a movement guide groove (62) is formed on the operation plate (61) so as to limit a movement section of the sliding pad (37) due to an elastic twisting operation of the support plate (20).

An elastic member 85 having the same construction as that of the elastic member 35 is further provided between the fixing bracket 12 and the lower surface of the support plate 20.

A projecting portion 29 is formed on the edge of the support plate 20 and a groove portion 79 is formed on a lower surface of the switchboard 70 corresponding to the position of the projecting portion 29, .

According to the present invention, when an impact is applied to a switchboard installed on the ground, a warp phenomenon occurs in which an up-down operation and a rotary operation are simultaneously generated elastically in a switchboard, thereby absorbing and mitigating shocks to minimize damage There is an effect.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
Fig. 2 is a plan view showing a twist operation state according to the present invention. Fig.
Fig. 3 is an example of a fixed installation of a switchboard according to the present invention
Fig. 4 is a view showing an operating state of a switchboard due to an earthquake according to the present invention
5 and 6 are views showing a modified example of the twist elastic body according to the present invention
7 is a view showing an embodiment of an anti-shock spring and an anti-shock pad of a receiving plate according to the present invention
Fig. 8 is a view showing an example of the installation and use of the elastic guard according to the present invention
FIG. 9 is a view showing an example of a combined state of a switchboard and a support plate by a protruding portion and a groove portion structure according to the present invention
Fig. 10 is a view showing a modified example of the twist elastic body according to the present invention

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

The present invention minimizes the damage by absorbing and mitigating the shock from the earthquake by causing a warping phenomenon in which the up and down operation and the rotating operation are generated at the same time when the impact is applied to the switchboard installed on the ground by the earthquake The present invention relates to a switchboard having an elastic twisted earthquake-proof structure, and includes a support plate 10, a support plate 20, and a twist elastic body 30 with reference to FIGS. 1 to 10.

3, the support plate 10 is fixed to the bottom of the receiving groove 3 formed on the paper surface 2 and is mainly composed of a concrete structure, an iron plate, or a steel frame structure. A support plate (20) is spaced apart from the support plate (10). At this time, the support plate 20 is configured to support the lower portion of the switchboard 70.

The space between the support plate 10 and the support plate 20 is provided with a twist elastic body 30 for realizing the elastic twist-proof structure of the present invention.

2, the warp elastomers 30 are equally spaced on an imaginary circumference 93 at positions which are formed at the same radii at the respective centers of the support plate 10 and the support plate 20, 2 and may be the edge side of the support plate 10 and the support plate 20, or may be the edge side as shown in Fig. At this time, the support plate 10 and the support plate 20 are formed in a generally quadrangular shape in accordance with the shape characteristics of the power transmission board 70, and can be formed by separating regions provided with the twist elastic body 30, It applies to all sides. The warp elastic body 30 is preferably composed of 3 to 8 pieces.

2, the fixing bracket 12 is fixed to the upper surface of the supporting plate 10 and the fixing bracket 12 is fixed to the upper surface of the fixing bracket 12, One end of the hinge band 31 is connected to the pin 13 or shaft so as to be rotatable. The hinge base 31 connected to the fixing bracket 12 is fixed to the other end of the hinge base 31 in a state in which the support plate 10 is inclined at a predetermined angle within a range of an acute angle (23) or a shaft to the movable bracket (22) fixed to the lower surface of the support plate (20). At this time, it is preferable that the predetermined angle determined within the acute angle range is 35 to 60 degrees, which allows the horizontal distance between the fixing bracket 12 and the moving bracket 22 to be enlarged due to the turning radius of the hinge band 30 So that the support plate 20 is elastically twisted on the support plate 10.

An elastic member 35 is provided between the moving bracket 22 and the upper surface of the support plate 10 as shown in FIG. At this time, the elastic member 35 is mainly an elastic spring, and any member having an elastic operating structure such as an elastic pad may be used.

The present invention having the twist elastic body 30 having the above-described configuration is characterized in that, when an earthquake occurs in a state of the installed stationary state as shown in FIG. 2A and an impact is applied in either the vertical or horizontal direction, So that the switchboard 70 vibrates to the lower side while being shaken. The supporting plate 20 which receives the vibration is elastically lowered by the elastic member 35 provided at the lower portion of the moving bracket 22 and at the same time the hinge belt 31 rotatably installed on the fixing bracket 12, The horizontal distance between the fixing bracket 12 and the moving bracket 22 is extended from L1 shown in Fig. 2A to L2 shown in Fig. 2B due to the turning radius of the supporting plate 20, So that a warping phenomenon occurs elastically on the support plate 10. Such an elastic twist phenomenon absorbs and mitigates the impact of the earthquake in the transmission and distribution, thereby minimizing the damage.

As shown in FIG. 3, the support plate 20 may be located below the ground surface 2, and the support plate 20 may be provided at a position lower than the ground surface 2, (51) is provided on the lower surface of the fixing member (52) so as to abut against the upper edge side of the receiving plate (20) The spring 54 is fixed and the elastic force of the switchgear 70 is prevented by the shock prevention spring 54 provided between the lower surface of the fixing member 52 and the upper surface of the support plate 20 as shown in FIG. So that the shock can be prevented.

At this time, the impact prevention pad 55 is attached to the lower end surface of the shock-preventing spring 54 as shown in FIG. 7, so that the impact generated when the foot plate 20 is lifted can be more effectively prevented.

In another embodiment, the elastic guard 51 may be attached to the upper surface of the fixing body 52 as shown in FIGS. 3, 4, and 8. 8 (a), one side of the elastic guard 51 is brought into close contact with one side of the switchboard 70, so that the elastic warp of the switchboard 70 So as to mitigate the impact of the switchboard 70 when it occurs. The elastic guard 51 functions to prevent foreign matter from entering into the receiving groove 3 where the support plate 10, the support plate 20 and the twist elastic body 30 are installed.

5, the lower end surface of the elastic member 35, which is horizontally moved while being lowered by the hinge belt 31, is movable on the upper surface of the support plate 10 while reducing frictional resistance The operation plate 61 is provided on the support plate 10 on which the sliding pad 37 of the elastic member 35 is disposed and the sliding pad 37 is provided on the lower end surface of the elastic member 35. A movement guide groove 62 is formed on the operation plate 61 so as to limit a movement range of the slide pad 37 due to an elastic twisting operation of the support plate 20 and the slide pad 37 Is moved.

6, an elastic member 35 having the same configuration as that of the elastic member 35 is provided between the fixing bracket 12 and the lower surface of the support plate 20 in order to increase the vertical elastic force of the support plate 20, Member 85 may further be provided.

9, a protruding portion 29 is formed on the edge of the support plate 20 and a groove portion 79 is formed on the lower surface of the switchboard 70 corresponding to the position of the protruding portion 29, And the protrusions 29 and the groove portions 79 may be disposed opposite to each other.

According to the switchboard having the elastic twisting seismic resistant structure according to the present invention as described above, when an impact is applied to the switchboard 70 provided on the ground surface 2 due to earthquake, the switchgear 70 elastically moves up and down and rotates It is possible to minimize the damage by absorbing and mitigating the shock from the earthquake.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be clarified. Therefore, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

2: ground 3: receiving groove
10: Support plate 12: Fixing bracket
20: base plate 22: movable bracket
30: warp elastic body 31: hinge band
35: elastic member 70: switchgear
93: Virtual circumference

Claims (8)

A support plate 10 fixed to the bottom of the receiving groove 3 formed on the paper surface 2; A support plate 20 spaced from the upper portion of the support plate 10 and adapted to support a lower portion of the switchboard 70; And a plurality of warp elastic members 30 installed in the spacing space between the support plate 10 and the support plate 20,
The warp elastic body (30)
A plurality of fixing brackets 12 are installed on the imaginary circumference 93 having the same radius at the centers of the support plate 10 and the support plate 20 at equal intervals and fixed to the upper surface of the support plate 10 The hinge base 31 is rotatably connected to one end of the hinge base 31. The hinge base 31 is supported by the hinge base 31 in a state in which an angle of 35 to 60 degrees with respect to the horizontal direction of the support plate 10 is provided, And an elastic member 35 is provided between the moving bracket 22 and the upper surface of the support plate 10 so that the elastic member 35 is disposed on the lower surface of the support plate 10, When the shake of the switchboard 70 is transmitted to the support plate 20 due to the impact, the support plate 20 is lowered by the elastic member 35 and the fixing bracket 12 and the movable bracket The horizontal distance of the support plate 20 is expanded so that the support plate 20 is elastically twisted on the support plate 10 Switchgear having a resilient torsional vibration structure characterized in that the different configurations that occur.
The method according to claim 1,
The torsion elastic body (30) is provided at each corner of the support plate (10) and the support plate (20), and the torsion elastic body (30) .
3. The method according to claim 1 or 2,
The support plate 20 is positioned lower than the paper 2 and the fixing member 52 is installed in the inner side of the rim of the receiving groove 3 where the receiving plate 20 is located, 52 provided between the lower surface of the fixing body 52 and the upper surface of the support plate 20 so as to abut against the upper surface side of the support plate 20 on the lower surface of the support plate 52, Wherein the shock absorbing spring (54) is configured to prevent an impact upon rising due to elastic action of the power transmission / reception panel (70).
The method of claim 3,
And an anti-shock pad (55) is further provided on a lower end surface of the shock-resistant spring (54).
The method of claim 3,
The elastic guard 51 is attached to the upper surface of the fixing body 52 so that one side portion of the elastic guard 51 is brought into close contact with one side portion of the switchboard 70 to cause elastic distortion of the switchboard 70 And the shock absorbing structure of the city power transmission / distribution board (70) is relieved to prevent foreign matter from flowing into the receiving groove (3) formed in the ground surface (2).
3. The method according to claim 1 or 2,
The operation plate 61 is provided on the support plate 10 on which the sliding pad 37 of the elastic member 35 is disposed and the sliding pad 37 is provided on the lower end surface of the elastic member 35, Wherein a movement guide groove (62) is formed on the operating plate (61) so as to limit a moving section of the sliding pad (37) due to an elastic twisting operation of the receiving plate (20).
3. The method according to claim 1 or 2,
Wherein an elastic member (85) having the same constitution as the elastic member (35) is further provided between the fixing bracket (12) and the lower surface of the support plate (20).
3. The method according to claim 1 or 2,
A projecting portion 29 is formed on the edge of the support plate 20 and a groove portion 79 is formed on a lower surface of the switchboard 70 corresponding to the position of the projecting portion 29 to be fixedly supported by a mutual fitting structure And the elasticity of the elasticity of the elastic member is increased.

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