KR101810334B1 - The vibration isolation device of distribution panel - Google Patents

Abstract

The present invention relates to a switchboard isolation device. According to an embodiment of the present invention, the switchboard isolation device comprises an upper plate (11), a lower plate (15), an anti-vibration rubber pad (21), a coil type spring (23), a fixing bolt (25), and a fixing nut (29). The switchboard isolation device according to the present invention can prevent vibration generated from the coil type spring.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vibration isolation device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an isolation device provided under an electric distribution board (including a high-voltage distribution board, a low-voltage distribution board, a motor control board (MCC board) and a distribution board) And to protect the switchboard by buffering it as much as possible.

Generally, the magnitude of the seismic force that affects the building when an earthquake occurs varies depending on the structural characteristics such as the height, shape, or material of the building, and the earthquake is more likely to occur in a high- It can affect.

Fields requiring on-line / real-time processing systems, such as industrial information processing control devices, OA devices and related auxiliary facilities In particular, in fields where utility is high such as electric power, nuclear power, water treatment, aviation, railroad, etc., Is growing even higher.

In addition, earthquake disaster countermeasures (Law No. 9636) and earthquake disaster countermeasures enforcement ordinance (Presidential Decree No. 21362) require mandatory seismic measures for all public buildings and facilities.

In this case, the vibrations are directly transmitted to the enclosure of the telecommunication equipment or the enclosure of the transmission and reception cabinet, so that the high-priced equipment installed inside the telecommunication equipments and the switchgear Various devices may be damaged.

As a result, telecommunication equipments and switchgear installed on the floor of the building should be equipped with not only vibration proof but also seismic performance.

However, in the conventional structure, a vibration structure for separating a vibration source from a telecommunication equipment or a switchboard by attaching a spring under a telecommunication equipment or a switchboard for vibration isolation, a vibration structure according to a resonance frequency of the spring when a vibration or an impact is applied to the spring, Can be transmitted to the switchboard.

In addition, there is a problem in that the durability of the anti-vibration rubber pad deteriorates over time as the structure of the anti-vibration rubber pad under the telecommunication equipment or the transmission and distribution panel deteriorates over time.

On the other hand, in the prior art of the present invention, a "seismic isolation device for a switchboard" of the patent registration number "10-1418247" is filed and registered. In the seismic isolation device for a switchgear, A vibration spring in the form of a compression spring is mounted on the inner space of the receiving cylinder, and a supporting base to be coupled with the power distributing board is mounted on the free end of the mounted vibration damping spring. So that a limited upper, lower, left, and right limited flow operation is possible.

Korea Patent Registration No. 10-1081571 (2011.11.08) Korea Patent Registration No. 10-1418247 (2014.07.10) Korea Patent Registration No. 10-1633921 (Jul.

Accordingly, the present invention provides an apparatus for inspecting an electric panel of a switchboard that can effectively absorb vibrations or shocks transmitted to an electric power distribution board (including a high voltage switchboard, a low voltage switchboard, an MCC panel, and a distribution board) There is a purpose of.

It is still another object of the present invention to provide a seismic isolation device for an electric distribution board having a coil spring and an anti-vibration rubber pad for vibration, wherein when a vibration or an impact is transmitted to the seismic isolation device, It is an object of the present invention to provide an isolation board isolation device capable of preventing the durability of a vibration-proof rubber pad from deteriorating according to long-term use of a vibration-proof rubber pad.

Another object of the present invention is to provide an apparatus for inspecting an AC of a switchboard, which can reduce deterioration of seismic performance due to aging compared with a third-party seismic product using a spring.

In order to accomplish the above object, the present invention provides an apparatus for inspecting an electrical equipment of an ASSEMBLY, comprising an upper frame fixed to the underside of an ASSEMBLY (including a high voltage switchboard, a low voltage switchboard, an MCC panel and a distribution board) The upper frame is mounted on the four corners of the upper surface of the lower frame and is supported by the upper frame on which the switchboard is mounted so as to absorb the vibration or impact transmitted from the ground, And an upper plate having an upper surface in contact with the lower surface of the upper frame and three upper bolt holes penetrating therethrough; A bottom plate having a bottom surface facing the upper surface of the lower frame and three lower bolt holes penetrating the upper bolt hole in a position facing the upper bolt hole in a vertical direction; In the form of a rubber sheet which is elastically contracted, expanded or restored, two or more sheets are laminated between the upper plate and the lower plate, a pad through bolt hole is provided at a position facing one upper bolt hole, and the other two bolt holes are opposed to each other A vibration-proof rubber pad having two coil spring through-holes larger than the diameter of the upper bolt hole; A coil spring which is fitted in two coil spring through holes formed in the anti-vibration rubber pad as a coil spring and is elastically contracted and expanded or restored in a state in which the lower surface thereof is in contact with the upper surface of the lower plate and the upper surface thereof is in contact with the lower surface of the upper plate; Upper and lower bolt holes and pad through bolt holes communicating with each other in the vertical direction, upper and lower bolt holes and coil type springs which are fitted in the upper and lower frames or are vertically communicated with each other, A fixing bolt protruding out of the upper frame; And a fixing nut which is fastened to the fixing bolts exposed to the outside of the upper frame and adjusts a height interval between the upper and lower plates. When vibration or impact is transmitted from the ground to the lower frame, a vertical displacement exceeding a certain range, The coil spring and the anti-vibration rubber pad between the upper and lower plates are elastically expanded or contracted to absorb the vibration transmitted to the switchboard, and the anti-vibration rubber pad covering the coil spring absorbs the resonance of the coil spring This prevents the vibration due to the resonance frequency of the coil spring from being transmitted to the switchboard.

When the vibration or impact is transmitted from the ground, the coil-shaped spring sandwiched between the upper and lower plates and the vibration-proof rubber pad, which is formed by stacking several sheets, are shrunk or expanded, Absorbed.

In addition, when the coil spring is resonated by vibration or impact, the vibration-proof rubber pad surrounding the outer circumferential surface of the coil spring catches the coil spring to be resonated to block the vibration generated from the coil spring.

In addition, since the vibration absorbing pad and the coil spring simultaneously absorb the vibration or impact transmitted from the ground, the stress applied to the vibration-proof rubber pad or the coil spring can be dispersed

Therefore, the present invention can more effectively absorb the vibration or shock transmitted to the switchboard.

Further, in the present invention, the vibration-proof rubber pad covers the resonance phenomenon of the coil spring when the vibration or impact is transmitted to the seismic isolation device, and the coil spring prevents the durability of the vibration- You can give.

Further, the present invention can reduce deterioration of seismic isolation performance due to aging compared with a third-party seismic product using a spring.

FIG. 1 is a view showing an electric distribution board equipped with the present invention,
2 is an exploded view of the switchboard, upper and lower frames and the present invention,
3 is a combined perspective view of the present invention,
4 is an exploded perspective view of the present invention,
5 is a plan view of the upper plate,
6 is a state view of the present invention in which it is fixed to upper and lower frames;

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

1 to FIG. 4, an upper frame 3 (see FIG. 1) fixed to the underside of an electric distribution board (including a high voltage switchboard, a low voltage switchboard, an MCC panel, And a lower frame 5 fixed to the ground while being separated from the upper frame 3 by a predetermined height. The upper frame 3 and the lower frame 5 are attached to the upper frame 4, The upper surface of which is in contact with the bottom surface of the upper frame 3 and the lower surface of the upper frame 3 is in contact with the lower surface of the upper frame 3, An upper plate 11 through which upper bolt holes 9 are inserted; A lower plate 15 having a plate shape having a bottom surface facing the upper surface of the lower frame 5 and three lower bolt holes 13 penetrating the upper bolt holes 9 at positions facing each other in the vertical direction; Two or more sheets are laminated between the upper plate 11 and the lower plate 15 in the form of a rubber plate which is elastically contracted and expanded or restored and a pad through bolt hole 17 is provided at a position facing one of the upper bolt holes 9 (21) having two coil spring through holes (19a, 19b) larger than the diameter of the upper bolt hole (9) at a position facing the other two upper bolt holes (9); And is inserted into two coil spring through holes 19a and 19b formed in the anti-vibration rubber pads 21 as coil springs, respectively. In the state where the lower surface is in contact with the upper surface of the lower plate 15 and the upper surface thereof is in contact with the lower surface of the upper plate 11 A coil-shaped spring (23) elastically contracted and expanded or restored; Upper and lower bolt holes 9 and 13 and a pad through bolt hole 17 communicating with each other in the vertical direction and upper and lower bolt holes 9 and 13 inserted into upper and lower frames 3 and 5, 13, a coil spring 23, a fixing bolt 25 fitted to the upper and lower frames 3, 5 and having a bolt protruding outside the upper frame 3; And a fixing nut 29 fastened to the fixing bolt 25 exposed to the outside of the upper frame 3 to adjust a height interval between the upper and lower plates 11 and 15, When the vibration or impact is transmitted, the vertical moment of inertia exceeding a predetermined range and the seismic force are overcome by the internal force of the fixing bolt 25 and the coil spring 23 between the upper and lower plates 11 and 15 and the anti- Shaped spring 23 absorbs the vibration transmitted to the switchboard 1 while elastically expanding or contracting and restoring or restoring the elasticity of the coil spring 23. The anti-vibration rubber pad 21 wrapping the coil spring 23 blocks the resonance of the coil spring 23, Thereby preventing transmission of vibration due to the resonant frequency of the switchboard 1 to the switchboard 1.

The position of the fixing nut 29 fastened on the fixing bolt 25 can be adjusted by adjusting the distance between the upper and lower plates 11 and 15 according to the degree of tightening and loosening of the fixing nut 29.

For example, if the fixing nut 29 is loosely fastened, the power distribution board 1 may have a problem of slipping even on a small impact, whereas when the fixing nut 29 is tightened too tightly, the stacked vibration proof rubber pad 21 and the coil- The position of the fixing nut 29 on the fixing bolt 25 should be appropriately adjusted.

The lower plate 15 is coupled to the lower frame 5 to withstand the external force due to the self weight and seismic force of the switchboard 1 and to transmit the self weight and seismic force of the switchboard 1 to the lower frame 5.

An anti-vibration rubber pad 21, which is formed by stacking a plurality of sheets between the upper plate 11 and the lower plate 15, is transmitted to the switchboard 1 by attenuating the vertical displacement generated by the vibration or shock transmitted from the ground by the vibration absorbing force Reduce impact and restore displacement.

The coiled spring 23 inserted in the laminated vibration damping rubber pad 21 attenuates the vertical displacement generated by vibration or seismic force by the elasticity of the coil spring 23 like the laminated vibration damping rubber pad 21 Thereby reducing the impact transmitted to the switchboard 1 and restoring the displacement, while maintaining the durability of the anti-vibration rubber pad 21. [

As shown in Fig. 4, a vibration proof rubber pad fitting groove 27 is formed in the upper surface of the upper plate 11 and the upper surface of the lower plate 15, in which the vibration proof rubber pads 21 are fitted.

The upper and lower bolt holes (9, 13) are machined in the anti-vibration rubber pad fitting groove (27).

The anti-vibration rubber pad fitting groove 27 in which the anti-vibration rubber pad 21 is fitted prevents the anti-vibration rubber pad 21 from coming off.

The vibration damping rubber pad 21 is preferably a synthetic rubber made by emulsion polymerization of chloroprene, and is made of chloroprene rubber having weather resistance, ozone resistance, and bending resistance.

The vibration damping rubber pad 21 preferably has a tensile strength of 20 MPa or more, an elongation of 500% or more, a hardness of 60 Hs or more, and a compression set tearing rate of 35% [100 ± 1) ° C, 22Hr] or less.

The thickness of the upper plate 11 and the lower plate 15 is preferably 10 mm or more and the depth of the vibration proof rubber pad fitting groove 27 is preferably 5 mm or more.

The upper plate 11 and the lower plate 15 are in a pentagonal shape, and one side of the cabinet is at right angles, and the other side of the right and left cabin faces is an oblique side.

At this time, either one of the edges of the upper plate 11 or the lower plate 15, at which one internal angle is at right angles, is in contact with the edge of the upper frame 3 or the lower frame 5, respectively.

5, the upper bolt hole 9 includes a first upper bolt hole 9a passing through an edge of the upper plate 11 at a right angle to the inner side of the upper plate 11, A second upper bolt hole 9b passing through the upper plate 11 at a position spaced a predetermined distance apart in the lateral direction from the first upper bolt hole 9a formed in the upper plate 11, The first upper bolt hole 9a and the second upper bolt hole 9b and the second upper bolt hole 9b are formed by a first upper bolt hole 9a and a third upper bolt hole 9c passing through the upper plate 11 at a position spaced a predetermined distance apart in the longitudinal direction. And the third upper bolt hole 9c is arranged in a right triangle shape in the upper plate 11. [

The upper openings of the two coil-shaped springs 23 face the second upper bolt hole 9b and the third upper bolt hole 9c, respectively.

It is preferable that the height of the stack of the vibration proof rubber pads 21 coincides with the height of the coil spring 23.

The limit of the repulsive force of the coil spring 23 is limited up to the height of the stacking of the vibration proof rubber pads 21 in order to maintain the durability of the vibration proof rubber pads 21. [

For example, if the limit of the repulsive force of the coil spring 23 is greater than the stacking height of the anti-vibration rubber pad 21, the anti-vibration rubber pad 21 can not absorb the vibration, If the limit of the repulsive force of the coil spring 23 is smaller than the stacking height of the anti-vibration rubber pad 21, there arises a problem in the durability of the anti-vibration rubber pad 21, The performance of the overall vibration damping and vibration absorption is deteriorated.

The anti-vibration rubber pad 21 has a pentagonal shape, and one side of the cabinet has a right angle, and the other side of the anti-vibration rubber pad 21 has a right angle.

The anti-vibration rubber pad fitting groove 27 also has a pentagonal shape, and one side of the cabinet is at right angles, and the other side of the anti-vibration rubber pad fitting groove 27 is a right side.

At this time, the area of the anti-vibration rubber pad fitting groove 27 is made larger than the area of the anti-vibration rubber pad 21 so that the anti-vibration rubber pad 21 can be easily fitted into the anti-vibration rubber pad fitting groove 27.

The coil spring 23 is preferably a cylindrical compression spring type so as to uniformly receive a compression load due to a seismic force in the direction of the coil center line.

The fixing bolts 25 and the fixing nuts 29 are formed by vertically arranging the upper and lower plates 11 and 15 and the vibration proof rubber pads 21 together with the upper and lower frames 3 and 5, At the same time, the vibration-proof rubber pads 21 and the coil-shaped spring 23 are prevented from departing from each other, and the conduction moment applied to the present invention is exerted by the strength to limit the vertical displacement of the present invention.

When a vibration or an impact is transmitted from the ground, a coil spring 23 inserted between the upper and lower plates 11 and 15 and a plurality of anti-vibration rubber pads 21 are stacked Absorbs vibration transmitted to the switchboard 1 while being shrunk or expanded or restored.

When the coil spring 23 is resonated by vibration or impact, the anti-vibration rubber pad 21 surrounding the outer circumferential surface of the coil spring 23 catches the coil spring 23 to be resonated, Thereby preventing the vibration generated from the spring 23.

The vibration absorbing rubber pad 21 and the coil spring 23 simultaneously absorb the vibration or shock transmitted from the ground so that the stress applied to the vibration proof rubber pad 21 or the coil spring 23 can be dispersed

Therefore, the present invention can more effectively absorb vibrations and shock transmitted to the switchboard 1.

In the present invention, the vibration-proof rubber pad 21 covers the resonance phenomenon of the coil-shaped spring 23 when vibration or impact is transmitted from the ground, and the coil-shaped spring 23 covers the vibration- The durability of the anti-vibration rubber pad 21 is prevented from being lowered.

Further, the present invention can reduce deterioration of seismic isolation performance due to aging compared with a third-party seismic product using a spring.

In addition, the present invention improves the durability of the anti-vibration rubber pad 21 by inserting the coil spring 23 in the anti-vibration rubber pad 21 having a plurality of laminated layers, It is advantageous in that the structure is simple and the production cost is low because the safety of the power distribution board 1 can be secured by the strength of the fixing bolt 25 and the conduction moment due to the seismic force.

1. Switchboard 3. Upper frame
5. Lower frame 9. Upper bolt hole
9a. The first upper bolt hole 9b. The second upper bolt hole
9c. Third upper bolt hole 11. Top plate
13. Lower bolt hole 15. Lower plate
17. Pad through bolt hole 19a. Coil spring through hole
21. Antivibration Rubber Pad 23. Coil Spring
25. Fixing bolt 27. Dustproof rubber pad fitting groove
29. Fixing nut

Claims (4)

An upper frame 3 fixed to the lower surface of the switchboard 1 and a lower frame 5 fixed to the ground while being separated from the upper frame 3 by a predetermined height, Which is mounted on the four corners of the upper surface of the cabinet and which absorbs vibrations and shocks transmitted from the ground in a state where the cabin is supported by the upper frame on which the cabin is placed,
An upper plate 11 having an upper surface in contact with the lower surface of the upper frame 3 and three upper bolt holes 9 penetrating therethrough;
A lower plate 15 having a plate shape having a bottom surface facing the upper surface of the lower frame 5 and three lower bolt holes 13 penetrating the upper bolt holes 9 at positions facing each other in the vertical direction;
Two or more sheets are laminated between the upper plate 11 and the lower plate 15 in the form of a rubber plate which is elastically contracted and expanded or restored and a pad through bolt hole 17 is provided at a position facing one of the upper bolt holes 9 (21) having two coil spring through holes (19a, 19b) larger than the diameter of the upper bolt hole (9) at a position facing the other two upper bolt holes (9);
And is inserted into two coil spring through holes 19a and 19b formed in the anti-vibration rubber pads 21 as coil springs, respectively. In the state in which the lower face is in contact with the upper face of the lower plate 15 and the upper face thereof is in contact with the bottom face of the upper plate 11 A coil-shaped spring (23) elastically contracted and expanded or restored;
Upper and lower bolt holes 9 and 13 and a pad through bolt hole 17 communicating with each other in the vertical direction and upper and lower bolt holes 9 and 13 inserted into upper and lower frames 3 and 5, 13, a coil spring 23, a fixing bolt 25 fitted to the upper and lower frames 3, 5 and having a bolt protruding outside the upper frame 3;
And a fixing nut (29) fastened to the fixing bolt (25) exposed to the outside of the upper frame (3) to adjust a height interval between the upper and lower plates (11, 15)
When a vibration or an impact is transmitted from the ground to the lower frame 5, the vertical moment of inertia exceeding a predetermined range and the earthquake-induced conductive moment are overcome by the force of the fixing bolt 25 and the coil spring 23 between the upper and lower plates 11, And the vibration-proof rubber pad 21 absorbs the vibration transmitted to the switchboard 1 while being elastically expanded or restored. The vibration-proof rubber pad 21 wrapping the coil-shaped spring 23 absorbs vibration of the coil- Shaped spring 23 is prevented from being transmitted to the switchboard 1 due to the resonance frequency of the coil spring 23,
The upper plate 11 and the lower plate 15 have a pentagonal shape in which one of the cabinets is at right angles and the other of the right and left cabinets is at an oblique angle.
The upper bolt hole 9 has a first upper bolt hole 9a passing through one corner of the corner of the upper plate 11 whose interior angle is at right angles,
A first upper bolt hole 9a formed in the upper plate 11 and a second upper bolt hole 9b penetrating the upper plate 11 in a position spaced a predetermined distance apart in the lateral direction,
And a third upper bolt hole (9c) penetrating the upper plate (11) at a position spaced a predetermined distance apart in the longitudinal direction from the first upper bolt hole (9a) machined in the upper plate (11)
The first upper bolt hole 9a, the second upper bolt hole 9b and the third upper bolt hole 9c are arranged in a right triangle shape in the upper plate 11,
Characterized in that the upper openings of the two coil-shaped springs (23) face the second upper bolt hole (9b) and the third upper bolt hole (9c), respectively.
The method according to claim 1,
Wherein an anti-vibration rubber pad fitting groove (27) is formed on the bottom surface of the upper plate (11) and on the upper surface of the lower plate (15).
delete The method according to claim 1,
Characterized in that the stack height of the anti-vibration rubber pad (21) coincides with the height of the coil spring (23).

Images