KR101482433B1 - Access floor structure of vibration reducing type - Google Patents

Abstract

The present invention relates to an access floor structure capable of reducing vibration. The double-layered floor structure includes a plurality of upper panels; a plurality of lower base members supporting the upper panels from the bottom; a damper-type vibration-proof member installed below the lower base members and having a resilient bending portion which is resiliently bent when a load is transmitted from the upper panel, thereby dispersing the energy and thus damping the vibration transferred from the upper panel; and a support part installed to a connecting portion of the lower base members to support the vibration-proof member from the bottom. The damper-type vibration-proof member has an upper joint portion formed in a plate shape and joined to the lower base member, a lower joint portion positioned below the upper joint portion, formed in a plate shape and joined to the top surface of the support part, and a resilient bent portion connecting the upper and lower joint portions and having a width narrower than those of the upper and lower joint portions.

Description

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

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vibration reduction type double bottom structure, and more particularly, to a vibration reduction type double bottom structure having improved vibration reduction performance.

Generally, a floor of a residential building or an office building is formed by placing a mortar on a concrete slab to form a ground surface, and laying a floor material such as a tile on the ground surface. On the floor, various office equipment and advanced equipment such as electricity, electronics, and computer equipment are placed in the space. At this time, when the electric wires supplying power to these devices are installed to be exposed to the outside, the interior of the building becomes dirty and dirty. In addition, there is a problem in that there is a high possibility of a safety accident due to unprotected leftover of electric wires and communication lines.

Accordingly, recently, an access floor is formed on the floor of an office building to provide a double floor system capable of accommodating equipment such as wiring and an air conditioner in a space between the upper plate and the floor surface. This allows the interior aesthetics of the building to be firm and prevent safety accidents. That is, the above-mentioned access floor system is a double floor which is proposed for securing a comfortable and efficient office space in the information age where the computer utilization is increased.

Such a dual floor system consists of an upper structure and a supporting structure, wherein the upper structure has a panel structure of various cross sections, and the dynamic load is transferred to the supporting structure, and the supporting structure can again transmit the load to the floor surface of the building floor.

However, vibration caused by dynamic load such as walking load and impact load may affect sensitive equipment.

Recently, as the market for double floor system of precision industrial structure has grown, vibration reduction performance of double bottom structure itself is emphasized.

Conventionally, techniques for reducing vibration of such a double floor system are mostly applied between the upper structure and the supporting structure, or applied between the supporting structure and the floor surface.

However, in the case of applying the anti-vibration rubber, the details of the connection with the structure of the double floor system made of a metal material can be complicated, and there is a problem that the responsiveness according to various dynamic loads is insufficient.

In addition, there is a problem that it is difficult to secure durability in a semi-permanent manner due to the corrosion of the vibration proof rubber.

The present invention has been proposed in order to solve the above-mentioned conventional problems, and its object is to reduce vibration by absorbing and dissipating dynamic energy, and to provide various dynamic loads depending on applications and operating loads of a double- A vibration reduction type double bottom structure capable of constructing an optimized vibration reduction system that can cope with the above problems.

Another object of the present invention is to provide a vibration reduction type double bottom structure which can simplify the details of the joining portions of the respective members, simplify field construction, and ensure semi-permanent durability.

According to an aspect of the present invention, there is provided a liquid crystal display comprising: a plurality of upper panels; A plurality of lower supporting members for supporting the plurality of upper panels from below; A damper-type dustproof member installed at a lower portion of the lower supporting member to dissipate energy by an elastic bending portion bent elastically and flexibly when a load is transmitted from the upper panel, ; And a support portion provided at a connection portion to which the plurality of lower support members are connected and supporting the damper-type prevention member from below, wherein the damper-type support member is in the form of a plate, An upper joining portion to be joined; A lower joining portion located at a lower portion of the upper joining portion and having a plate shape and joined to an upper surface of the supporting portion; And the elastic bending portion connecting the upper joining portion and the lower joining portion and having a smaller width than the upper joining portion and the lower joining portion.

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Preferably, the elastic bent portion may be bent into an arc shape.

Preferably, the damper-type anti-vibration member may be made of a vibration-damping alloy for damping vibration.

Preferably, the damper-type anti-vibration member may be provided on the upper portion of the support portion.

Preferably, the damper-type anti-vibration member is formed with a fastening hole in the upper joint portion and the lower joint portion so as to be fastened to the lower support member and the support portion by fastening means.

According to the vibration-reduced double bottom structure of the present invention, since the deformation is concentrated on the elastic bending portion of the damper-type anti-vibration member, the dynamic energy is absorbed and dissipated, And by adjusting the width of the elastic bending portion and the number of damper-type vibration-proofing members, it is possible to construct an optimized vibration reduction system that can cope with various dynamic loads depending on the application and the operation load of a building to which the double bottom structure is applied .

Further, according to the embodiment of the present invention, since the damper-type anti-vibration member is made of a metal material, it is possible to integrate the lower support member with the lower support member so that the details of the joining portion of each member can be simplified, It is possible to obtain a simple effect and to provide an excellent effect of ensuring semi-permanent durability.

Further, according to the embodiment of the present invention, since the material itself of the damper-type anti-vibration member is made of the anti-vibration alloy absorbing the energy, the damping performance is improved as the deformation degree of the damper- The effect of maximizing the vibration damping performance of the double floor structure can be provided.

1 is a perspective view showing an installation state of a vibration reduction type double bottom structure according to an embodiment of the present invention.
2 is an exploded perspective view of a vibration reduction type double bottom structure according to an embodiment of the present invention.
3 is a side view showing a state of engagement of a damper-type anti-vibration member according to an embodiment of the present invention.
4 is a perspective view showing a damper-type anti-vibration member applied to a vibration-reduced double bottom structure according to an embodiment of the present invention.
5 is a top view of Fig.

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

First, the embodiments described below are embodiments suitable for understanding the technical features of the vibration reduction type double bottom structure of the present invention. However, the technical features of the present invention are not limited by the embodiments to which the present invention is applied or explained in the following embodiments, and various modifications are possible within the technical scope of the present invention.

1 to 3, the vibration reduction type double bottom structure 100 according to an exemplary embodiment of the present invention includes a plurality of upper panels 110 and a plurality of upper panels 110, A damper-type anti-vibration member 150 provided at a lower portion of the lower supporting member 130, and a supporting portion 170 for supporting the damper-type preventing member from the lower portion of the lower supporting member 130 Lt; / RTI >

The upper panel 110 may include a plurality of upper panels 110, which may be assembled to form a bottom surface, and may be spaced apart from the base surface to form a double bottom together with the base surface.

The lower supporting member 130 may be provided to support the plurality of upper panels 110 from below. In this case, the lower supporting member 130 may be formed in a rail shape and may be coupled to a lower portion of a rim of the upper panel 110 to support the upper panel 110. At this time, the method of joining the lower supporting member 130 and the upper panel 110 may be applied without limitation, and may be bolted by the fastening means 157, for example, as shown in the illustrated embodiment. However, the coupling method is not limited thereto.

The vibration reduction type double bottom structure 100 according to an embodiment of the present invention may further include a damper type anti-vibration member 150 that elastically supports the lower support member 130 from below.

The damper-type anti-vibration member 150 is installed at a lower portion of the lower supporting member 130, and when the load is transmitted from the upper panel 110 through the lower supporting member 130, And the elastic bending portion 151 may be provided.

1 and 2, the damper-type anti-vibration member 150 is installed at a corner of the plurality of adjacent upper panels 110, Lt; / RTI > In addition, the plurality of lower supporting members 130 may be disposed adjacent to each other to connect and support the ends of the lower supporting member 130.

In addition, the damper-type anti-vibration member 150 may include an elastic bending portion 151 formed to be bent so that the elastic bending portion 151 may be flexed when a load is applied thereto.

The elastic bending part 151 may be made of a thin steel plate and is easily deformed by flexure so that the elastic bending part 151 can be flexibly moved in a dynamic manner such as a walking load or an impact load transmitted from the upper panel 110 to the lower supporting member 130. [ It is possible to attenuate the vibration by dissipating the vibration energy according to the load.

Accordingly, the vibration reduction type double bottom structure 100 according to the embodiment of the present invention can be configured to be capable of vibration reduction corresponding to various dynamic loads by the damper type anti-vibration member 150.

However, the bent shape of the elastic bending portion 151 is not limited to the illustrated embodiment. If the dynamic load is transmitted to the damper-type anti-vibration member 150, Shape.

The support portion 170 may be installed at a connection portion of the plurality of lower support members 130 and may support the damper-type vibration prevention member 150 from the lower side.

The support part 170 is installed at a connection part of the lower supporting member 130 to support a corner connection part of the upper panel 110 and can support the damper- have.

The support portion 170 may include an upper support plate 171, a support head 173, a vertical support plate 175, and a lower support plate 177, as in the embodiment shown in FIG.

The upper support plate 171 is coupled to a lower surface of the damper-type anti-vibration member 150 and has a relatively wide plate shape to firmly support the damper-type anti-vibration member 150 and the upper panel 110 . The support head 173 is coupled to the lower portion of the upper support plate 171. A vertical support 175 is integrally coupled to the lower surface of the support head 173 and a lower support plate 177 can be integrally combined. The lower support plate 177 may be installed to be in contact with the base surface.

Although not shown, the vertical support table 175 is adjustably provided, and can be adjusted to suitably adjust the height according to the field conditions. At this time, the lower support plate 177 may be integrally coupled to the lower end of the vertical support table 175 by welding or the like, and the upper panel 110 may be fixed to the base plate (not shown) .

4 and 5, the damper-type anti-vibration member 150 includes an upper joining portion 153 and a lower joining portion 153. The upper joining portion 153 is formed in a plate shape and is joined to the lower supporting member. A lower joining part 155 formed in a plate shape and joined to the upper surface of the supporting part 170 and a lower joining part 155 joining the upper joining part 153 and the lower joining part 155, And the elastic bending portion 151 formed to have a thinner width than the lower bonding portion 155.

That is, the elastic bending portion 151 is formed at a connection portion between the upper joining portion 153 and the lower joining portion 155, and the width W1 of the elastic bending portion 151 is greater than the width W1 of the upper joining portion 153, And the width W2 of the lower joining portion 155. In addition, Accordingly, when a dynamic load is applied to the damper-type anti-vibration member 150, deformation is concentrated on the elastic bending portion 151 by the bending shape and width of the elastic bending portion 151, . Therefore, in the double bottom structure 100, the vibration is reduced by the damper-type anti-vibration member 150.

Further, the damper-type anti-vibration member 150 may be provided on the support portion 170 in plurality.

That is, the upper surface of the support part 170 may be formed of two or more members in consideration of the connected state of the lower supporting member 130 and a load acting thereon.

Accordingly, the damper-type anti-vibration member 150 may have a width of the elastic bending portion 151 and a number of the damper-type anti-vibration members 150 in consideration of the increase / decrease of the dynamic load acting on the double bottom structure 100 It is possible to construct a vibration reduction system optimized for the use of the building to which the double bottom structure 100 is applied and the working load.

Meanwhile, the elastic bending portion 151 may be formed to be bent in an arc shape.

Accordingly, when the load is transmitted, the elastic bending portion 151 is uniformly stressed without concentrating the stress on any local portion of the elastic bending portion 151, so that permanent deformation and fracture can be prevented. Can be provided.

Meanwhile, the damper-type anti-vibration member 150 may be made of a vibration-damping alloy for damping vibration.

That is, the damper-type anti-vibration member 150 may be made of an Fe-Mn alloy, a Mn-Cu alloy (for example, Sonoston), a Cr-Al-Fe alloy (sementaloy), an Fe-Cr-Al alloy, and the like.

As described above, since the damper-type anti-vibration member 150 is made of a metal material, it is possible to perform processing or bonding integrated with the lower supporting member 130, so that the details of the joining portion of each member can be simplified, The effect of simplifying construction can be obtained. In addition, since the damper-type anti-vibration member 150 is made of a metal material, the double bottom structure 100 has the advantage that corrosion is minimized and semi-permanent durability can be secured.

Since the material of the damper-type anti-vibration member 150 is made of a vibration-damping alloy that absorbs energy, the damping performance of the damper-type anti-vibration member 150 is improved by the elastic bending portion 151 So that the effect of maximizing the vibration damping performance of the double bottom structure 100 can be provided.

The damper-type anti-vibration member 150 is fastened to the upper joining portion 153 and the lower joining portion 155 by fastening means 157 and 156 to be fastened to the lower supporting member and the supporting portion 170 by fastening means 157, May be formed.

2 to 4, the fastening holes 154 formed in the upper joint 153 are connected to the fastening holes 157 of the fastening plate 140 and the bolt holes of the lower fastening member, And the fastening hole 157 formed in the lower joining part 155 is in communication with the bolt hole formed in the support plate 171 and the support head 173 so that the fastening unit 157 can be fastened .

However, the manner of coupling the damper-type anti-vibration member 150 with the lower supporting member and the supporting unit 170 is not limited to the above, and various modifications are possible. For example, the damper-type anti-vibration member 150 may be integrally joined to the at least one member of the support portion 170 and the lower supporting member 130 by welding.

According to the vibration-reduced dual floor structure of the present invention, since the deformation is concentrated on the elastic bending portion of the damper-type anti-vibration member, the dynamic energy is absorbed and dissipated, By adjusting the width of the elastic bend and the number of damper-type anti-vibration members, it is possible to construct an optimized vibration reduction system that can cope with various dynamic loads depending on the application and the operation load of the structure to which the double bottom structure is applied have.

In addition, since the damper-type anti-vibration member is made of a metal material, the lower supporting member can be integrated with the lower supporting member, so that the details of the joining portion of each member can be simplified and the field construction can be simplified. It is possible to provide an excellent effect of securing semi-permanent durability.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention, It will be appreciated that those skilled in the art will readily understand the present invention.

100: vibration reduction type double bottom structure 110: upper panel
130: bottom support member 140: engaging plate
150: Damper-type anti-vibration member 151: Elastic bend
153: upper joint 155: lower joint
170: Support part 171:
173: Support head

Claims (6)

delete A plurality of upper panels;
A plurality of lower supporting members for supporting the plurality of upper panels from below;
A damper-type dustproof member installed at a lower portion of the lower supporting member to dissipate energy by an elastic bending portion bent elastically and flexibly when a load is transmitted from the upper panel, ; And
And a support portion provided at a connection portion to which the plurality of lower support members are connected and supporting the damper-type prevention member from below,
The damper-
An upper joining part formed in a plate shape and joined to the lower supporting member;
A lower joining portion located at a lower portion of the upper joining portion and having a plate shape and joined to an upper surface of the supporting portion; And
And the elastic bending portion connecting the upper joining portion and the lower joining portion and having a smaller width than the upper joining portion and the lower joining portion.
3. The method of claim 2,
Wherein the elastic bending portion is bent in an arc shape.
4. The method according to any one of claims 2 to 3,
Wherein the damper-type anti-vibration member is made of a vibration-damping alloy for damping vibration.
3. The method of claim 2,
Wherein the damper-type anti-vibration member comprises a plurality of damper-type anti-vibration members provided on the upper portion of the support portion.
3. The method of claim 2,
Wherein the damper-type anti-vibration member has a fastening hole formed in the upper joint portion and the lower joint portion so as to be fastened to the lower support member and the support portion by fastening means.

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