KR101139226B1 - Distributing board including quake-proof performance - Google Patents

Abstract

PURPOSE: An earthquake-proof and vibration-proof incoming/distributing cabinet panel is provided to minimize damage due to external shock by the formation of a device for preventing vibration transfer to the lower part of a body frame thereof. CONSTITUTION: An elastic support(10) is formed in the lower part of a body frame(100) to reduce vibration transfer from a bottom(1). The elastic support comprises an upper plate fixed to the body frame, a lower plate fixed to the bottom, a rubber for the connection between the upper and lower plates, and a laminating plate made of metal materials. An auxiliary vibration-proof unit(20) is installed on both sides of the lower part of the body frame. The top of the auxiliary vibration-proof unit is coupled with the body frame by a first fastening bolt(21).

Description

DISTRIBUTING BOARD INCLUDING QUAKE-PROOF PERFORMANCE}

The present invention relates to a distribution panel, and more particularly, to adversely affect internal components such as damage to internal components by external vibration or shock in power control devices such as a distribution panel, a distribution panel, a distribution panel, and a motor control panel (MCC) that control supply of high voltage electricity. The present invention relates to a distribution board supporting structure having improved seismic and dustproof functions.

In general, a switchgear, a switchgear, a distribution board, a motor control panel (MCC) is a device that receives a high-voltage or extra-high voltage electricity supplied by the power company and converts it into a voltage used by the customer to distribute the load to the load facility.

The water distribution panel has a partition structure called cubicles on the surface.Inside the control panel, it protects and monitors power devices such as high voltage switchgear, current transformer, high voltage circuit breaker, transformer, low voltage circuit breaker and magnet. Electrical components such as relays and instruments are mounted. Inside the cubicle, in addition to the power devices, busbars connecting the power devices according to the power system and wirings for the measurement and monitoring of the power devices are arranged, and the outside of the cubicle is installed on the floor, and between the power devices on the floor. Holes for monitoring wiring and load facility wiring are formed. If external vibration or shock occurs due to the earth's crust due to the reason why the control panel is installed on the ground, the power devices inside the control panel, wirings connecting the power devices, and electrical parts such as protection relays are damaged or damaged. It is easy to do so, and the interruption generated may cause interruption of power supply and fire.

In order to solve this problem, an internal shock absorber must be installed to protect the switchboard from vibration or shock caused by an earthquake or the like. However, in the case of a conventional water distribution panel, a shock absorber is installed directly in a cubicle. As a result, the load applied by the heavy-weight switchgear has been identified as a cause of deteriorating the function of the shock absorber or easily being damaged, and thus, there is a demand for technology development to more effectively secure the shockproof of the switchgear.

The present invention has been proposed to improve the above-mentioned conventional problems, and by minimizing the adverse effects of external shock such as earthquakes on power equipment installed in the switchboard by configuring a device that can effectively prevent vibration transmission in the lower part of the main frame of the distribution panel. The purpose is to make it possible.

The present invention for achieving the above object, in the earthquake-resistant and dust-proof function distribution panel is installed in the lower portion of the main body frame to reduce the vibration transmission from the bottom surface, the elastic support is fixed to the main body frame An upper plate to be provided; A lower plate which is fixedly coupled to the bottom surface; An elastic rubber configured to connect the upper plate and the lower plate; It is characterized in that the plurality of the elastic rubber to maintain a predetermined interval and comprises a configuration comprising a metal plate embedded buried.

The switchgear dustproof structure of the present invention is fixed to the bottom surface by the lower elastic bearing to reduce the transmission of external vibration, such as earthquake, thereby exhibiting the effect of preventing adverse effects of the power equipment inside the switchboard.

1 is a front view of the installation state of the switchboard according to an embodiment of the present invention.
Figure 2 is a side view of the installation state of the switchboard according to an embodiment of the present invention.
Figure 3 is a perspective view of the lower frame configuration of the switchgear of the present invention.
Figure 4 is a structural diagram of the elastic bearing component in the present invention.
Figure 5 is a cutaway portion of the elastic bearing in the present invention.
Figure 6 is a cross-sectional view of the elastic bearing in the present invention.
Figure 7 is a perspective view of the secondary dustproof component in the present invention.
Figure 8 is a side structure of the auxiliary dustproof according to another embodiment of the present invention.
9 is a cross-sectional structural view of the elastic support according to another embodiment of the present invention.
10 is an enlarged view of a portion A of FIG. 9;
11 is an exploded view of the main parts of the elastic support according to another embodiment of the present invention.

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

First, looking at the vibration reducing device installation structure of the switchboard according to an embodiment of the present invention through Figures 1 to 3, the bottom surface (1) and a predetermined height in the lower portion of the main body frame 100 forming the outer frame of the switchboard It can be seen that four elastic feet 10 are installed at each corner so that they can be supported.

That is, the elastic support 10 in the present invention is the upper plate 11 is fixed to the main body frame 100, as shown in Figure 4 to 6, and the lower plate is fixed to the bottom (1) ( 12), the elastic rubber 13 is formed by connecting the upper plate 11 and the lower plate 12 and a plurality of laminated metal plate 14 of the metal material which is embedded in the elastic rubber 13 is provided with a predetermined interval therebetween Will be constructed.

The laminated plate 14 is to prevent the sudden expansion of the elastic rubber 13 to increase the resistance to the vertical and horizontal flow force to perform the function of preventing the occurrence of breakage of the elastic rubber (13).

In addition, the lower side of the main body frame 100 is further provided with an auxiliary dustproof opening 20 which forms a semi-ellipse shape of which one side is open, the auxiliary dustproof openings 20 on both sides are installed so that the open portions face in opposite directions to each other. The upper part of each of the auxiliary dustproof sphere 20 is fixed and coupled by the main frame 100 and the first fastening bolt 21, the bottom of the auxiliary dustproof sphere 20 is the bottom surface (1) and the second It is to be fixed by the fastening bolt 22.

It will be described the operation and effects related to the vibration prevention of the switchgear main body frame 100 of the present invention constituting such an installation structure.

In the present embodiment, the switchboard main body frame 100 is supported by the elastic support 10 and the auxiliary dustproof outlet 20 at a predetermined height while being fixedly installed, and has an external flow force such as an earthquake. When generated, the vibration transmitted through the bottom surface 1 is attenuated by the elastic support 10 and the auxiliary dustproof outlet 20, so that rapid flow generation can be prevented.

That is, in the four elastic bearings 10 installed at each corner, the vibration transmitted through the lower plate 12 is absorbed by the elastic rubber 13, thereby preventing the transfer to the upper plate 11 side and the laminated plate. By 14, the vibration in the vertical and horizontal directions is attenuated, so that a more stable switchboard supporting state can be maintained.

In addition, since the two auxiliary dustproof openings 20 installed in opposite directions on each side have an open structure on one side, a damping function for catching a sudden vertical flow of the main body frame 100 is performed, thereby ensuring stability of the switchboard. It can be seen that can be maximized.

On the other hand, Figures 8 to 11 show the structure of the elastic support 10 and the auxiliary dustproof sphere 20 according to another embodiment of the present invention.

That is, as shown in the center of the elastic rubber 10, the center column 15 for connecting the upper plate 11 and the lower plate 12 is configured to stand in the vertical direction, the center of each of the laminated plate 14 Through grooves (14a) is formed so that the support (15) can be penetrated, the center column 15 is composed of a plurality of reinforcement discs 16 at regular intervals, the reinforcement disc 16 is a laminated plate 14 Located between, it can be seen that the diameter (D) of the reinforcement disc 16 is formed larger than the diameter (d) of the through groove (14a).

When such a structure is achieved, the center column 15 performs the central axis function of the elastic rubber 13 to improve the reinforcement function by the horizontal flow force of the earthquake load, so that the elastic rubber 13 is torn. The occurrence of breakage can be prevented, and the reinforcement disc 16 is supported between the laminated plates 14 to prevent adverse effects due to vertical earthquake loads.

In particular, since the diameter (D) of the reinforcement disk 16 is formed to be larger than the diameter (d) of the through groove (14a), the spacing between the laminated plates 14 can be stably maintained by the reinforcement disk (16). It can be seen that.

In addition, the auxiliary anti-vibration opening 20 is connected to the elastic spring 23 for supporting the upper and lower portions of the open portion with a predetermined elastic force, the elastic spring 23 is a bellows tube 24 to prevent external exposure It was configured to be wrapped by). Reference numerals 20a and 20b indicate bolt fastening holes, respectively.

When the elastic spring 23 is configured as described above, the opening of the auxiliary dustproof opening 20 is connected and supported by the elastic spring 23 to prevent deformation of the auxiliary dustproof opening 20 according to the sudden vertical flow force. The elastic spring 23 is protected by the bellows tube 24 which can be stretched and stretched to prevent defects caused by the inflow of foreign matter.

10: elastic bearing 11: upper plate
12: lower plate 13: elastic rubber
14: laminated plate 14a: through groove
15: center holder 16: reinforcement disc
20: auxiliary dustproof hole 21, 22: fastening bolt
23: elastic spring 24: bellows tube
100: main frame

Claims (5)

In the lower part of the main body frame 100, in the earthquake-proof and dust-proof switchgear is provided with an elastic support 10 for reducing the transmission of vibration from the bottom surface (1),
The elastic support 10, the upper plate 11 is fixed to the main body frame 100 and; A lower plate 12 fixedly coupled to the bottom surface 1; An elastic rubber (13) configured to connect the upper plate (11) and the lower plate (12); The elastic rubber 13 is composed of a laminated plate 14 of a metallic material provided with a plurality of embedded at regular intervals,
Auxiliary dustproof holes 20 forming a semi-ellipse shape of which one side is opened are further installed on both lower sides of the main body frame 100, but the auxiliary dustproof holes 20 on both sides are installed so that the open portions face opposite directions. The upper part of each of the auxiliary dustproof holes 20 is fixedly coupled by the main frame 100 and the first fastening bolt 21, and the lower part of the auxiliary dustproof holes 20 is connected to the bottom surface 1 and the second fastening. Earthquake-resistant and dust-proof switchgear panel characterized in that the coupling is fixed by the bolt (22). The method according to claim 1,
In the center of the elastic rubber 13, the center column 15 connecting the upper plate 11 and the lower plate 12 is erected in a vertical direction, and the center column 15 is formed at the center of each laminated plate 14. Earthquake-resistant and dust-proof switchgear panel characterized in that the through groove (14a) is formed to be penetrated. The method according to claim 2,
The center column 15 is composed of a plurality of reinforcement discs 16 at regular intervals, the reinforcement disc 16 is located between the laminated plate 14, the diameter (D) of the reinforcement disc 16 Earthquake-resistant and dustproof switchboards characterized in that formed larger than the diameter (d) of the through groove (14a). delete The method according to claim 1,
The auxiliary anti-vibration opening 20 is connected to the elastic spring 23 for supporting the upper and lower portions of the open portion with a predetermined elastic force, the elastic spring 23 is a bellows tube 24 to prevent external exposure Earthquake-resistant and dustproof function distribution panel characterized in that it is provided to be wrapped by.

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