KR101155995B1 - Switchboard having earthquake-proof device - Google Patents

Abstract

PURPOSE: A high voltage switchboard, a low voltage switchboard, a cabinet panel, and a MCC(Motor Control Center) having an earthquake resistant device is provided to protect a switchboard from external vibration by remarkably reducing impacts delivered to the switchboard. CONSTITUTION: An earthquake resistant device(100) in a switchboard supports to separate an electric device(200) from a floor side. The earthquake resistant device holds up the electric apparatus of medium to large sizes installed on the floor side of a high voltage switchboard, a low voltage switchboard, a cabinet panel, and a MCC(Motor Control Center) in a standing state. The earthquake resistant device includes a plurality of floor fixing frames(110) fixed on the floor side, a supporting board(120) combined with a lower portion of the switchboard, and a plurality of damping units(130) flexibly holing up the supporting board. The damping units include a buffer member combined with a ball-stud, a base block, and a lower portion of the base block.

Description

Switchgear with a seismic device (high voltage switchgear, low pressure switchgear, distribution board, mcc) {SWITCHBOARD HAVING EARTHQUAKE-PROOF DEVICE}

The present invention relates to a switchgear (high voltage switchgear, low-voltage switchgear, distribution board, MCC) having a seismic device, more specifically, high voltage switchgear, low-voltage switchgear, distribution boards, standing in the bottom surface such as motor control center (MCC) The present invention relates to a switchgear (high voltage switchgear, low pressure switchgear, distribution board, MCC) provided with an earthquake-proof device capable of protecting an electrical device (distribution board) to be installed from vibration caused by an earthquake or the like.

Due to natural disasters such as earthquakes and typhoons, which are becoming more frequent, the collapse of structures and the resulting economic losses are increasing. As a result, efforts are being made to secure the stability of structures worldwide. In particular, important structures such as power plants or bridges, and large buildings such as high-rise buildings can have enormous casualties and economic losses in case of destruction, so the seismic design standards for them are being strengthened in Korea.

If the strength of the earthquake is below a certain level, the building itself may be damaged by the vibration of the building, but various electrical devices or objects therein may fall or collide with each other. In particular, medium and large electric devices such as control panels are made of electrical components such as control circuits, elements, and switches that are vulnerable to external vibrations, and thus, mechanical structural strength is very weak. Therefore, the medium-large electric device should be installed in a seismic structure to reduce the risk of damage caused by the vibration of the building.

As a technique for protecting an electric device from seismic waves, Korean Patent Publication No. 2011-87748 (published on Aug. 3, 2011) discloses a seismic device for an electric device. The seismic device disclosed in the above publication is provided with supports which are entered from the bottom surface on both sides of the housing of the electric apparatus, and a horizontal axis is provided from the support toward the side wall of the enclosure, and is elastically axially and in the rotational direction between the horizontal axis and the side wall of the enclosure. It consists of a configuration in which the elastic flexible member having a.

The conventional seismic device is provided with a support on both sides of the enclosure of the electrical device, by connecting the enclosure and the support to the elastic flexible member, the complex motion including the axial translation and rotation by the elastic force of the elastic flexible member This becomes possible. Therefore, by absorbing external vibration energy such as earthquake waves in the elastic flexible member, it is possible to protect the electric device from vibration.

However, in the above-described conventional earthquake resistance device for electric devices, a pair of supports fixed to the bottom surface are coupled to both sides of the electric device to support the electric device in a floating state from the bottom surface, and thus the electric device is likely to be in an unstable state. That is, the electric device can be easily tilted by rotating the horizontal axis as the center axis of rotation. In particular, in the case of heavy electric equipment, the support or the horizontal axis should have a very large strength, and the elastic strength of the elastic flexible member should be very large, thereby increasing the installation cost.

The present invention has been made in view of this point, and an object of the present invention is to provide a switchgear (high voltage switchgear, low voltage switchgear, distribution board, MCC) having a seismic device that can effectively protect the switchgear from external vibration by a simple structure. It is.

A switchgear (high voltage switchgear, low pressure switchgear, distribution board, MCC) equipped with a seismic device according to the present invention for achieving the above object is to support the switchboard to be spaced apart from the floor surface to reduce the vibration applied to the switchboard on the floor surface. In order to achieve the above, the seismic device includes at least one bottom fixing frame fixed to the bottom surface and a plurality of damping mechanisms coupled to the bottom fixing frame and supporting the bottom surface of the switchboard. The damping mechanism includes a ball stud having a screw shaft inserted into an insertion hole provided in a lower surface of the switchboard and a ball provided at one end of the screw shaft, and a base block coupled to the bottom fixing frame with a socket to which the ball pivots. Include.

The bottom fixing frame further includes a pair of side surfaces provided at both sides of the bottom surface thereof, and the base block and the buffer member are inserted into a coupling groove between both sides of the bottom fixing frame to be fixed to the bottom fixing frame. Can be.

The bottom fixing frame may be coupled to a fixing member which contacts the outer surface of the base block to prevent the base block from moving in the coupling groove.

The damping mechanism may further include a shock absorbing member coupled to a lower end of the base block and disposed on a bottom surface of the bottom fixing frame.

The damping mechanism may further include a height adjusting nut screwed to the screw shaft to support the lower surface of the switchboard, and a fixing nut coupled to the screw shaft to press the lower surface of the switchboard toward the height adjusting nut.

A switchgear (high voltage switchgear, low pressure switchgear, distribution board, MCC) having a seismic device according to the present invention includes a plurality of through holes through which the screw shaft penetrates and a receiving groove accommodating an upper portion of the bottom fixing frame. It may further include a support for supporting the lower surface.

The switchgear (high pressure switchgear, low-pressure switchgear, distribution board, MCC) with a seismic device according to the present invention is external to the ball stud holding the switchboard is pivotally coupled to the base block coupled to the floor fixed frame fixed to the floor of the building, When the impact is applied, the ball studs swing to absorb external shocks. Therefore, the shock transmitted to the switchboard can be greatly reduced, thereby protecting the switchboard from external vibration.

In addition, the switchgear (high voltage switchgear, low pressure switchgear, distribution board, MCC) equipped with the seismic device according to the present invention is absorbed by the external studs by the ball stud, the shock absorbing member coupled to the bottom fixed frame is delivered to the switchboard by buffering the external shock It is possible to further reduce the impact.

In addition, the switchgear (high voltage switchgear, low pressure switchgear, distribution board, MCC) equipped with the seismic device according to the present invention can adjust the lower surface of the switchboard by turning the height adjustment nut screwed to the ball stud, it is possible to easily adjust the horizontal of the switchboard have.

1 is a perspective view of a switchgear (high pressure switchgear, low pressure switchgear, distribution board, MCC) having a seismic device according to an embodiment of the present invention.
2 is an exploded view of a part of a switchboard (high pressure switchboard, low pressure switchboard, distribution board, MCC) having the seismic device shown in FIG.
FIG. 3 is an exploded perspective view showing a damping mechanism of a switchboard (high pressure switchboard, low pressure switchboard, distribution board, MCC) provided with the seismic device shown in FIG. 2.
4 is a cross-sectional view of a part of a switchboard (high pressure switchboard, low pressure switchboard, distribution board, MCC) having the seismic device shown in FIG.

Hereinafter, with reference to the accompanying drawings, it will be described in detail with respect to the switchgear (high voltage switchgear, low pressure switchgear, distribution board, MCC) equipped with a seismic device according to the present invention.

In describing the present invention, the sizes and shapes of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation. In addition, terms that are specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. These terms are to be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the contents throughout the present specification.

1 is a view showing a state of supporting various switchboards with a switchgear (high voltage switchgear, low pressure switchgear, distribution board, MCC) equipped with a seismic device according to an embodiment of the present invention, Figure 2 is a seismic device shown in FIG. A part of the switchgear (high voltage switchgear, low voltage switchgear, distribution board, MCC) provided is shown disassembled.

1 and 2, the earthquake-resistant device 100 of the switchboard (high-voltage switchboard, low-pressure switchboard, distribution panel, MCC) equipped with a seismic device according to an embodiment of the present invention is installed on the floor of various buildings Support the device 200 spaced apart from the floor. The seismic device 100 of the distribution board (high voltage switchgear, low voltage switchgear, distribution board, MCC) with the seismic device according to the present invention is a standing state on the bottom surface such as high voltage switchgear, low voltage switchgear, distribution board, motor control center (MCC). By holding a medium-large electrical device (distribution board; 200) installed as a protection to the switchboard 200 from vibrations generated on the floor of the building by an earthquake or the like.

As illustrated in FIG. 2, the seismic device 100 of the switchboard (high voltage switchgear, low pressure switchgear, distribution board, MCC) equipped with an earthquake proofing device according to an embodiment of the present invention has a plurality of floor fixings fixed to the bottom surface. The frame 110, a pedestal 120 coupled to the lower surface of the switchboard 200, and a plurality of damping mechanisms 130 that elastically support the pedestal 120. The damping mechanism 130 is disposed at one corner of the pedestal 120 to support the pedestal 120 in parallel with the bottom surface.

The bottom fixing frame 110 has a lower surface 111 placed on the bottom surface and a pair of side surfaces 112 disposed vertically on both sides of the lower surface 111. Between the pair of side surfaces 112 is provided with a coupling groove 113 for receiving the lower end of the damping mechanism 130. In the middle of the coupling groove 113, a plurality of fixing members 115 are disposed in contact with the lower end of the damping mechanism 130 accommodated in the coupling groove 113 to prevent the damping mechanism 130 from moving in the coupling groove 113. . Although not shown in detail in the drawing, the floor fixing frame 110 may be fixed to the bottom surface of various buildings through fixing means such as anchor bolts.

Pedestal 120 has a shape corresponding to the shape of the bottom surface of the switchboard 200. The pedestal 120 includes a pair of frame cover portions 121 and a pair of connecting portions 126 connecting the two frame cover portions 121 to cover the upper portion of the bottom fixing frame 110. The frame cover portion 121 includes an upper surface 122 contacting the lower surface of the switchboard 200 and a pair of side surfaces 123 disposed vertically on both sides of the upper surface 122. An accommodation groove 124 may be provided between the two side surfaces 123 to accommodate a portion of the upper portion of the bottom fixing frame 110. The width of the receiving groove 124 is greater than the width of the bottom fixing frame 110, a gap is provided between the side 112 of the bottom fixing frame 110 and the side 123 of the frame cover portion 121. The upper surface 122 of the frame cover portion 121 is provided with a through hole 125 through which the ball stud 131 of the damping mechanism 130 to be described later can pass.

As shown in FIGS. 2 to 4, the damping mechanism 130 supports the pedestal 120 to hold the switchboard 200 placed on the pedestal 120 so as to be spaced apart from the floor surface. The damping mechanism 130 includes a ball stud 131, a base block 138 to which the ball stud 131 is pivotally coupled, and a shock absorbing member 140 coupled to the bottom surface of the base block 138.

The ball stud 131 includes a screw shaft 132 and a ball 133 provided at one end of the screw shaft 132. The screw shaft 132 passes through the through hole 125 of the pedestal 120 and is inserted into the insertion hole 211 of the switchboard 200. A male thread is provided on an outer circumferential surface of the screw shaft 132, and the height adjusting nut 134 and the fixing nut 135 are screwed to the screw shaft 132.

The height adjustment nut 134 supports the pedestal 120. Therefore, by turning the height adjustment nut 134 screwed to the screw shaft 132 to move the height adjustment nut 134 along the screw shaft 132 can adjust the height of the pedestal 120 and the switchboard 200 placed thereon. have. The fixing nut 135 is coupled to the screw shaft 132 to press the lower surface 210 of the switchboard 200 toward the height adjustment nut 134. Accordingly, when the fixing nut 135 is moved by moving the fixing nut 135 toward the height adjusting nut 134, the lower surface 210 of the switchboard 200 may be firmly fixed to the pedestal 120.

A pair of elastic compression members 136 and 137 are disposed between the height adjusting nut 134 and the fixing nut 135. The elastic compression members 136 and 137 are formed in a shape in which a central portion thereof is drilled to be fitted to the screw shaft 132. The first elastic compression member 136 is interposed between the height adjustment nut 134 and the pedestal 120, the second elastic compression member 137 is between the fixing nut 135 and the lower surface 210 of the switchboard 200. Intervened in

When the fixing nut 135 is tightened, the first elastic compression member 136 and the second elastic compression member 137 are elastically compressed. In this case, the first elastic compression member 136 applies an elastic force to the height adjustment nut 134 to suppress the rotation of the height adjustment nut 134, and the second elastic compression member 137 applies an elastic force to the fixing nut 135 The rotation of the fixing nut 135 is suppressed. Various elastic washers or springs may be used as the elastic compression members 136 and 137.

The base block 138 has a socket 139 into which the ball 133 of the ball stud 131 is inserted. The ball stud 131 is pivotally coupled to the base block 138 by inserting the ball 133 into the socket 139. The base block 138 is inserted into the coupling groove 113 of the bottom fixing frame 110. At this time, the outer surface of the base block 138 is in contact with the fixing member 115 fixed to both sides 112 and the front or rear, bottom fixing frame 110 of the bottom fixing frame 110. Accordingly, the base block 138 inserted into the coupling groove 113 of the bottom fixing frame 110 is fixed to the coupling groove 113 without moving.

The shock absorbing member 140 is made of a material having elastic force such as rubber or silicone, and is coupled to the lower surface of the base block 138 to cushion vibrations applied to the bottom fixing frame 110. The buffer member 140 is inserted into the coupling groove 113 of the bottom fixing frame 110 and placed on the bottom surface 111 of the bottom fixing frame 110.

As described above, the damping mechanism 130 supports the pedestal 120 coupled with the switchboard 200 while the base block 138 is coupled to the floor fixing frame 110 fixed to the floor of the building. . Since the ball stud 131 supporting the pedestal 120 is pivotally coupled to the base block 138, the ball stud 131 is shaken when the external shock is applied to absorb the external shock. Therefore, the shock transmitted to the switchboard 200 is greatly reduced. Furthermore, the shock transmitted to the switchboard 200 is further reduced by the buffer member 140 coupled to the bottom fixing frame 110 to cushion the external shock.

The damping mechanism 130 supports four corner portions of the pedestal 120 on which four switchboards 200 are placed. Therefore, by adjusting the height of each corner portion of the pedestal 120 by turning the height adjustment nut 134 of each damping mechanism 130, it is possible to level the pedestal 120 and the switchboard 200 placed thereon.

The specific configuration of the switchboard (high pressure switchboard, low pressure switchboard, distribution panel, MCC) with the seismic device according to the present invention is shown in the drawings and can be variously changed without being limited to the above. For example, the pedestal 120 may be omitted, in which case a plurality of damping mechanisms are directly coupled to the lower surface of the switchboard. In the damping mechanism, the height adjusting nut 134 or the fixing nut 135 may be omitted, and the structure or shape of the base block 138 or the buffer member 140 may be variously changed. The number of installation of the damping mechanism 130 is not limited to four, but may be variously changed. In addition, the installation number or structure of the bottom fixing frame 110, the coupling structure of the bottom fixing frame 110 and the damping mechanism 130 may be variously changed.

Embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art can improve and modify the technical idea of the present invention in various forms. Accordingly, these modifications and variations are intended to fall within the scope of the present invention as long as it is obvious to those skilled in the art.

100: seismic device
110: floor fixing frame 113: coupling groove
115: fixing member 120: support
121: frame cover 124: receiving groove
130: damping mechanism 131: ball stud
132: screw shaft 133: ball
134: height adjustment nut 135: fixing nut
136, 137: first and second elastic compression member
138: base block 139: socket
140: buffer member 200: switchboard

Claims (6)

A switchboard comprising a seismic device for supporting a switchboard so as to be spaced apart from a floor, thereby reducing vibration applied to the switchboard at the bottom surface.
The seismic device is,
A bottom fixing frame fixed to the bottom surface and including a pair of side surfaces provided on both sides of the bottom surface thereof;
A plurality of through holes formed therein, and receiving grooves for accommodating an upper portion of the bottom fixing frame are provided at both lower sides thereof, and an upper surface having a width corresponding to the entire lower surface of the switchboard and supporting the lower surface of the switchboard; And
A ball stud having a screw shaft inserted into an insertion hole provided in a lower surface of the switchboard through the through hole of the pedestal and a ball provided at one end of the screw shaft, and having a socket to which the ball is pivotally coupled to the bottom fixing frame. A base block, a buffer member coupled to a lower end of the base block and placed on a bottom surface of the bottom fixing frame, a height adjusting nut coupled to the screw shaft to support a bottom surface of the switchboard which is joined to an upper surface of the pedestal, Fixing nut coupled to the screw shaft for pressing the lower surface of the switchboard toward the height adjustment nut, a hole is formed in the center portion is interposed between the height adjustment nut and the pedestal to suppress the rotation of the height adjustment nut by elastic compression A first elastic compression member, and a through hole is formed in the center portion and the fixing nut and the power distribution Interposed, and when, by elastic compression and a second elastic pressing member to suppress the rotation of the fixing nut includes a plurality of damping mechanism which are respectively mounted to the base corner portion,
The base block and the buffer member,
The fixing member which is fixed to the bottom fixing frame by being inserted into the coupling groove between both sides of the bottom fixing frame, the bottom fixing frame is in contact with the outer surface of the base block to prevent the base block from moving in the coupling groove Switchgear with a seismic device characterized in that the. delete delete delete delete delete

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