KR101962740B1 - Fixing structure of original electrical cabinet with isolation device - Google Patents

Abstract

The present invention relates to a fixing structure of a nuclear plant electrical cabinet with a vibration isolation device which reduces a transferred earthquake force and safely protects an apparatus and a component located on the inside. The fixing structure of a nuclear plant electrical cabinet with a vibration isolation device comprises: a fixing frame uprightly installing the cabinet main body, connected with a ′ㄷ′shaped steel in the same as horizontal sectional shapes of a cabinet main body in order to maintain a shape of the main body and provided to an internal lower part of the cabinet main body; and a vibration isolation device built in an edge of the fixing frame to reduce a vibration transferred from the ground when an earthquake occurs. Therefore, the fixing structure of a nuclear plant electrical cabinet with a vibration isolation device protects an important apparatus and components, built in a lot of electrical / measurer cabinets which are installed on the nuclear plant, from the vibration when the earthquake occurs.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric cabinet,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fixing structure for a circular electric cabinet having a vibration isolation device, To a fixing structure of an original electric cabinet having a vibration isolating device in a cabinet having a built-in cabinet.

In Korea, which has been regarded as a safe zone for earthquakes, it has become recognized that the earthquake in Gyeongju, which occurred in 2016, is no longer a safe zone for earthquakes. As a result of the 2011 East Japan Tsunami and Fukushima Nuclear Power Plant accidents, domestic nuclear power plants have been strengthened in terms of seismic design requirements for nuclear power plants in accordance with the safety first priority policy, and seismic performance is evaluated for installed equipment / components.

Nuclear power plants have many electrical / instrument cabinets, which contain important components that perform safe operation and shutdown functions. They must maintain structural integrity and functionality in the event of an earthquake, as well as perform their respective inherent functions without malfunctions.

  Generally, the conventional cabinet is used by fixing the lower part with anchor bolts, but the earthquake vibrations are transmitted without adding and subtracting, and damage to the internal parts and the soundness of the cabinet itself are problematic.

The present invention improves the existing cabinet structure so as to reduce the seismic force transmitted directly to the bottom of the cabinet through the anchor bolt by installing a seismic device at the lower part of the cabinet.

Korean Registered Patent No. 10-1081571 (November 8, 2011) Korean Registered Patent No. 10-1154847 (Jun. 18, 2012)

It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a structure for safely protecting devices and parts located therein by attenuating transmitted seismic forces, comprising a fixed frame and a circular And a fixing structure of a dedicated electric cabinet.

It is another object of the present invention to provide a cabinet in which the cabinet body is installed upright and connected to the cabinet body by a ' And a fixing structure of the original electric cabinet having the isolation device.

It is still another object of the present invention to provide an electric cabinet having a seismic isolation device in which a seismic isolation device built-in position C in which the seismic isolation device is installed is formed at each corner where the ' And the like.

 Yet another object of the present invention is to provide a fixing structure of an original electric cabinet having an isolator that is built in an edge of the fixed frame and is configured to attenuate vibrations transmitted from the ground when an earthquake occurs have.

It is still another object of the present invention to provide a seismic isolation device in which the seismic isolation device is composed of a lower plate incorporated in a seismic isolation device built-in position C at each corner of the fixed frame, And a vibration isolating rubber disposed between the lower plate and the upper plate and having a buffer spring incorporated therein for attenuating vibrations transmitted through the buffer spring.

It is still another object of the present invention to provide a fixing structure of an original electric cabinet having an anti-vibration device that is filled with filled rubber of a gel state, which is softer than the anti-vibration rubber, to seal the anti-vibration rubber.

In order to achieve the above object, a fixing structure of a circular electric cabinet with a base isolation device according to the present invention is characterized in that it has a structure for securely protecting devices and parts located therein by reducing transmitted seismic force, And an isolation device.

Another feature of the fixing structure of the original electric cabinet having the isolation device of the present invention is that the fixing frame is formed so that the cabinet body is installed upright and the shape of the main body is maintained, And is formed on the inner lower side of the cabinet body.

Another feature of the fixing structure of the original electric cabinet having the isolation device of the present invention is that the fixed frame is provided with an optical isolator device built-in position C Is formed.

 Another feature of the fixing structure of the original electric cabinet having the vibration isolation device of the present invention is that the vibration isolation device is built in the corner of the fixed frame so that vibration transmitted from the ground is attenuated when an earthquake occurs.

Another feature of the fixing structure of the original electric cabinet having the vibration isolating device of the present invention is that the vibration isolating device is built in the vibration isolating device built-in position C at each corner of the fixed frame, A bottom plate and an upper plate coupled to the cabinet, and a buffer spring is embedded between the lower plate and the upper plate to damp vibrations transmitted from the lower plate to the upper plate, and the vibration rubber is formed by wrapping the buffer springs.

Another feature of the fixing structure of the original electric cabinet having the vibration isolating device of the present invention is that the vibration proof rubber is filled with a filled rubber filled with raw gum, which is softer than the vibration proof rubber, and is sealed.

As described above, since the stationary frame of the circular electric cabinet equipped with the isolation device according to the present invention is formed by connecting the 'C' shaped steel, it is possible to install a seam anywhere on the whole groove. Therefore, it is possible to install a large number of seismic isolation devices corresponding to the weight of the cabinet, and it is excellent in earthquake response ability.

In addition, the seismic isolation device of the electric cabinet having the isolation device according to the present invention improves the damping force by filling the damping springs together with the buffer springs, so that the structural integrity and the functionality Can be secured.

1 is a schematic three-dimensional perspective view of a circular electric cabinet equipped with a seismic isolation device according to the present invention.
FIG. 2 is a schematic enlarged view showing a fixing frame and a fixing structure of a conventional circular cabinet; FIG.
3 is a schematic cross-sectional view showing the fixing structures AA and BB of the fixed frame and the seismic isolation device of the original electric cabinet equipped with the seismic isolation device according to the present invention.
FIG. 4 is an enlarged schematic cross-sectional view showing a state in which the seismic isolation device of FIG. 3 is seated in a cabinet.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and are herein described in detail.

It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terms or words used in the present invention are used only to describe specific embodiments and are not intended to limit the present invention. It should be construed in the meaning and concept consistent with the technical idea of the present invention based on the principle that the concept of the term can be appropriately defined in order to explain the invention in the best way.

Specific features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings.

FIG. 1 is a schematic perspective view of a circular electric cabinet having an isolation device according to the present invention, FIG. 2 is a schematic enlarged view showing a fixed frame and a fixing structure of a conventional circular private cabinet, FIG. 3 is a schematic cross-sectional view showing the fixing structure of the fixed frame and the seismic isolation device of the original electric cabinet provided with the seismic isolation device according to the invention, and Fig. 4 is an enlarged view of the state in which the seismic isolation device of Fig. 3 is seated in the cabinet Fig.

Referring to FIG. 2, the conventional fixed frame and fixed structure of the original cabinet have the same cross-sectional shape as the horizontal cross-sectional shape of the cabinet body so that the cabinet body is installed upright and the main body shape is maintained. The anchor embedding plate (1.2) is formed as a 'U' shaped steel in each corner portion of the concrete, and the cabinet is mounted on the anchor embedding plate (1.2) And a bolt (1.11) is tightened to fix the bolt (1.11). Therefore, vibration is transmitted as it is when an earthquake occurs, and there is a problem in safety management of devices and parts located inside.

Referring to FIGS. 1 and 3, a fixing structure of a circular electric cabinet having a seismic isolation device according to the present invention is a structure for safely protecting devices and components located therein by reducing transmitted seismic forces, 100, and an isolation device 200.

The fixing frame 100 of the fixing structure of the original electric cabinet having the isolator according to the present invention has the same horizontal sectional shape as that of the cabinet body so that the cabinet body is installed upright and the shape of the main body is maintained And is formed in the inner lower portion of the cabinet body by being connected to the frame 103.

In the fixed frame 100 of the fixed structure of the original electric cabinet equipped with the isolator according to the present invention, the seismic isolation device 200 is installed in each corner where the 'U' shaped steel 103 is connected The seismic isolation device built-in position C is formed.

 The vibration isolating device (200) of the fixed structure of the electric cabinet having the original electric cabinet according to the present invention is built in the corner of the fixed frame so that vibration transmitted from the ground is attenuated when an earthquake occurs.

The above-described seismic isolation device 200 of the fixed structure of the original electric cabinet provided with the seismic isolation device according to the present invention is built in the seismic isolation device built-in position C at each corner of the fixed frame 100, And a top plate 202 coupled to the cabinet. A buffer spring 204 is embedded between the bottom plate 201 and the top plate 202 to damp the vertical vibration transmitted to the bottom plate 201, The vibration damping action of the horizontal vibration is carried out by the anti-vibration rubber 203 wrapped around the buffer spring 204 and formed into a cylindrical shape.

The vibration damping rubber 203 is filled with a filler 203.1 made of gelled raw rubber which is softer than the vibration damping rubber 203 to seal the buffer rubber 203 together with the buffer spring 204 to damp vertical vibration. The upper plate 202 and the lower plate 201 of the anti-vibration rubber 203 are formed with grooves for the ends of the springs to engage with each other. The upper plate 202, the lower plate 201, And the O-ring 205 is engaged to seal the O-ring 205. [

The original electric cabinet having the above-described configuration of the seismic isolation device according to the present invention is fixed as follows.

1. Manufacturing of Fixing Frame (100)

end. Shaped frame 103 to form a fixed frame and to be coupled to the lower portion of the cabinet body.

I. At each of the corners where the 'C' shaped steel 103 is connected, a seismic countermeasure built-in position C is formed.

(At this time, the seismic isolation device built-in position (C) may be formed in addition to the edge portion according to the load of the device / part contained in the cabinet.)

All. A plurality of fastening holes 103.3 for fastening the seismic device to the upper plate 103.1 of the 'c' shaped steel 103 and a plurality of fastening holes 103.3 for fastening the seismic device to the anchor filler plate 1.2 can be attached and detached A plurality of work holes 103.2 are formed.

2. Coupling of the isolation device 200

end. A plurality of coupling holes 103.3 for coupling the seismic isolation device are formed on the ceiling portion (upper plate 103.1) of the seismic isolation device built-in position (C).

I. The upper plate 202 of the seismic isolation device is fixed to the cabinet by fastening the bolts 104 to the ceiling portion.

(At this time, the total height of the isolation device is formed higher than the height of the failure frame, so that the cabinet is not closed to the floor.)

3. Securing the cabinet

end. The lower plate 201 of the above-mentioned vibration isolating device is fastened to the anchor embedding plate (1.2) of the concrete installed in the fixed position of the cabinet.

I. Tighten the anchor bolt (101) vertically using the work hole (103.2) inside the cabinet.

(There are cases where a plurality of seismic isolation devices are connected to the anchor embedding plate 1.2 according to the working environment, and then the cabinets are fixed and fastened using the work hole 103.2.)

4. Removal / Maintenance / Disassembly

end. The anchor bolt 101 is dismantled using the work hole 103.2 inside the cabinet.

I. The removal of the cabinet for the maintenance of the isolation device is done by laying down or tilting the cabinet.

(In some cases, the bolts 104 fastened to the upper plate 202 of the seismic isolation device are released according to the working environment and the cabinets are moved upward to separate them, and the seismic isolation devices and the cabinets are separately maintained)

A circular electric cabinet having such a constitution of a seismic isolation device according to the present invention has the following advantages.

First, since the stationary frame of the original electric cabinet provided with the isolator according to the present invention is formed by connecting the 'C' shaped steel, it is possible to install a seam anywhere in the whole groove.

Therefore, it is possible to install a large number of seismic isolation devices corresponding to the weight of the cabinet, and it is excellent in earthquake response ability.

In addition, the seismic isolation device of the electric cabinet having the isolation device according to the present invention improves the damping force by filling the damping springs together with the buffer springs, so that the structural integrity and the functionality Can be secured.

1: Cabinet
1-1: Body
1.1: Fixed frame
1.11: Bolt
1.2: anchor buried plate
10: Electric cabinet
100: Fixed frame
101: Anchor bolt
103: 'c' section steel
103.1: Top plate
103.2: Working Ball
103.3: Fasteners
104: Cabinet fixing bolt
C: Built-in isolation device position
200: Isolation device (energy absorbing material)
201: Lower plate
202: top plate
203: Anti-vibration rubber
203.1: filler
204: Buffer spring
205: O ring

Claims (4)

The present invention relates to a structure for securing an original electric / instrument cabinet having a seismic isolation device for safely protecting important devices and parts located therein by reducing the transmitted seismic force,
A fixed frame 100 provided at an inner lower portion of the cabinet body by being connected to the cabinet body by a 'C' shaped steel 103 like a horizontal cross-sectional shape of the cabinet body so that the cabinet body is installed upright and the shape of the main body is maintained;
And an isolation device (200) built in an edge of the fixed frame and configured to attenuate vibrations transmitted from the ground when an earthquake occurs,
In the stationary frame 100, a seismic countermeasure device built-in position C in which the seismic isolation device 200 is installed is formed at each corner where the 'U' shaped steel 103 is connected,
The vibration isolator 200 includes a lower plate 201 and a top plate 202 coupled to the cabinet, the vibrator being installed in the vibration isolator built-in position C at each corner of the fixed frame 100, And a vibration damping rubber 203 enclosing the buffer spring 204 and having a buffer spring 204 for damping vibrations transmitted between the lower plate 201 and the upper plate 202, The anti-vibration rubber (203) is filled with a filler (203.1) in the form of raw gum, which is softer than the anti-vibration rubber (203)
A plurality of coupling holes 103.3 for coupling the seismic isolation device 200 and a plurality of coupling holes 103 for coupling the seesaw device 200 to the anchor embedding plate 1.2 A plurality of work holes 103.2 capable of attaching /
Wherein an O-ring (205) is coupled to the upper plate (202), the lower plate (201), and the vibration proof rubber (203)


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