KR100980387B1 - Vibration Damper Structure for Access Floor - Google Patents

Abstract

The present invention relates to a seismic isolating structure of an access floor against earthquake, and to configure a support portion at the bottom of the support floor of the access floor to reduce the vertical vibration to bear the shock, while connecting the bottom of the support to each other by X letter to bear the horizontal vibration. I would have to.

Description

 Vibration Damper Structure for Access Floor

The present invention relates to a base isolation structure of an access floor against earthquakes. Access floor is installed in the office where computers, monitors, faxes, and copiers are widely used such as computer room, traffic control room, etc. to handle data line and power line connecting these devices. Also called (O / A Floor). In other words, the access floor refers to the raised floor that is proposed to secure a more comfortable and efficient office space in the information age where the use of computers is increased. The present invention relates to an isolating structure of an access floor in which the lower end of the support floor of the access floor is made of an elastic body such as rubber, while the lower ends of the support floors are connected to each other in an X-shape to avoid vibration of the earthquake.

Despite the denial of relevant authorities, the misconception that our country is safe from earthquakes was dominated. However, in light of the January 1995 earthquake in Kobe and the recent earthquake in Sichuan, China, there is a growing awareness that we should be prepared for an earthquake. On the other hand, large buildings and bridges in Korea have seismic or vibration suppression structures, but the preparations for earthquakes in small and medium-sized buildings and access floors are still rudimentary. Therefore, it is urgently necessary to provide a damping or isolating structure for the access floor.

 In general, earthquake-resistant, vibration-proof, or seismic-proof structures are structures that protect the structure from earthquakes by blocking ground motion transmitted to the structure. That is, it is a structure that must support the load of the structure in the vertical direction, and have sufficient deformation capacity and energy dissipation capacity when vibration occurs in the vertical or horizontal direction to absorb and reduce the vibration energy. Conventionally, as a seismic isolation device for a structure, a lead isolation support, a friction type port support, and the like have been widely used. Such a seismic isolation device has a problem of restoring the original deformation of the residual deformation, and can cope with the vibration in the vertical direction to some extent, but does not effectively absorb the vibration in the horizontal direction. Since seismic waves vibrate along the surface as well as in the vertical and horizontal directions, a seismic structure is required to withstand vibration in any direction.

In order to achieve the above object, the present invention is to install a seismic cover at the upper end of the access floor to reduce the horizontal vibration of the earthquake, and the bottom of the support floor of the access floor is made of a rubber-like elastic body in any direction It is composed of movable supporting parts to reduce the vertical vibration and horizontal vibration so that it can take the impact of the earthquake, while connecting the lower part of each support with X-shape with the lower reinforcement to bear the horizontal vibration. To avoid the impact from the horizontal.

The present invention made as described above can be attenuated or extinguished by absorbing the impact of the earthquake vertically descending the support member, and the X-shaped connection of the lower portion of each support absorbs the shock of the earthquake coming horizontally to attenuate or dissipate As a result, damage from earthquakes can be minimized.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail.

In general, there are seismic, damping, and isolating structures that can reduce the damage of buildings from earthquakes.

Seismic structure is a concept that includes broadly damping and seismic isolation, but narrowly constructs structure so that structure resists against seismic force when earthquake force is applied to structure. In other words, it means that the strength of the material such as strength and toughness of the material is increased to counter the seismic force.

On the other hand, the damping structure is provided with a vibration sensing device of the structure itself, a method of reducing the vibration of the structure by applying a control force corresponding to the vibration of the structure inside or outside the structure, and a forced control force inside or outside the structure Although it does not apply, it is a structure that controls the structure by changing the rigidity or damping of the structure instantaneously according to the characteristics of the input vibration.

In comparison, seismic isolation means a structure to avoid the damage of earthquakes. Earthquakes are shaking earth. Therefore, it is a structure that separates the shaking ground from the structure, and transmits less amount of ground shake to the building by installing a ball bearing, a spring, a dustproof rubber pad, etc. as a vibration shock absorber between the structure and the ground. In short, the seismic wave of the short period is strong and the long period of the earthquake is weak, which makes the structure's vibration period long.

The present invention relates to a seismic isolation structure of an access floor, in order to reduce the horizontal vibration of the earthquake by installing a seismic cover at the top end of the access floor in order to transmit less ground shake to the access floor. The support member at the bottom of the supporter is composed of a rubber-like elastic body to form a shock absorber to reduce the vertical vibration to take the impact, while connecting the lower part of each support with X-shape to reduce the horizontal vibration. And to minimize the impact from the horizontal to avoid.

Hereinafter, with reference to the drawings will be described in detail. 1 is a perspective view of an access floor of the present invention, FIG. 2 is a partially enlarged view of a seismic cover of the present invention, and FIG. 3 is an enlarged view of an access floor support of the present invention.

As shown in Figure 1, the access floor 100 of the present invention is composed of a floor plate 200 and a plurality of supports 300 for supporting the floor plate and the support portion which can move in any direction at the bottom of each support 300 320 is attached.

Meanwhile, as shown in FIG. 2, an end portion 210 of the floorboard 200 is formed with a seismic cover 250 having a shape of “C” or the like and a sponge, rubber, or spring in the seismic cover 250. The same elastic body 260 is embedded, the end portion 210 of the floorboard 200 is fitted to the seismic cover 250 to abut the elastic body 260, the seismic cover 250 abuts the building wall 400.

Therefore, when an earthquake occurs and the vibration comes from the horizontal, the floorboard 200 is shaken horizontally, but since the end 210 of the floorboard 200 is in contact with the elastic body 260 embedded in the seismic cover 250, the elastic body 260 ) Absorbs the impact from the horizontal and can attenuate or dissipate it.

On the other hand, the present invention is configured to support the lower portion of the support 300 to the support portion 320 also made of an elastic body to act as a buffer between the access floor and the ground absorbs the impact coming down vertically when an earthquake occurs attenuating or disappearing It was made. That is, as shown in Figure 3, the support 320 is composed of a cover 321 made of metal or strong plastic and a support member 322 made of a spring or strong rubber installed under the cover 321, front, rear, right and left 360 It is configured to move in any direction. As described above, the structure capable of moving the supporting part 320 in any direction is to make the supporting member 322 round like a ball and just cover the cover 321 or rotate the structure of the existing chair wheel by 360 ㅀ. Utilizing or loosely connecting the cover 321 and the support member 322 in a flexible line, there are many ways.

Therefore, the support part 320 can absorb the shock wave coming down vertically when an earthquake occurs, the support member 322 can absorb the support part 320 can move in any direction 360 ° shock wave coming from the horizontal Either way, you can absorb it and avoid the impact.

In addition, the present invention by connecting the lower portion of each support 300 to each other by the X-shape using the lower reinforcement 310 when the earthquake occurs so that can bear the earthquake shock wave coming from the horizontal with the combined force of each support 300 It was. That is, since the lower portion of the support 300 is connected to each other by the letter X as the lower reinforcing material 310, at least four units of the support 300, not one by one support 300 are united to accommodate the horizontal impact of the earthquake. In the event of an earthquake, it can withstand much of the impact from the horizon. In addition, since the support portion 320 is formed to move in any direction as described above, the support 300 is shocked from the horizontal by moving in the opposite direction in accordance with the shock coming from the horizontal while taking the impact from the horizontal It can effectively absorb. On the other hand, even if the support unit 320 is moved in the reverse direction, since each support 300 is connected to each other by the letter X, at least four units of support 300 are united to accommodate the horizontal impact of the earthquake, so the support 300 is The slight movements can effectively absorb the impact of earthquakes, allowing the access floor to remain stable.

1 is a perspective view of the present invention access floor

2 is a partially enlarged view of the seismic cover of the present invention

3 is an enlarged view of an access floor support of the present invention.

[Description of Drawings]

100: access floor 200: floorboard

210: floorboard end 250: seismic cover

260: elastic body

300: support 310: lower reinforcement

320: base portion 321: cover

322 support member

400: the wall

Claims (3)

An access floor composed of a floorboard and a plurality of supports supporting the floorboard, An end portion of the floorboard has a structure fitted to an earthquake-proof cover in which an elastic body is embedded; A support portion is installed at the bottom of the support, and each support lower portion is connected to each other by an X letter as a lower reinforcement material; Base isolation structure of access floor, characterized in that consisting of The method of claim 1, The base portion is seismic isolation structure of the access floor, characterized in that consisting of the cover and the support member The method of claim 2, The base member is made of a spring or strong rubber, and the base of the access floor, characterized in that made of a structure that can move in any direction, front, rear, left and right under the cover

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