KR101382914B1 - Seismic reinforcement device - Google Patents

Abstract

The present invention relates to a seismic reinforcement device, comprising a supporting unit including a vertical member of which one side is fixed to the ground and the other side is installed along a structure to be vertical to the ground and a horizontal member which is connected to the vertical member and is installed horizontal to the ground along the structure; and a damping unit including a damping member, which is connected to the horizontal member in one side and is connected to a horizontal beam of the structure in the other side for absorbing a seismic wave transferred to the structure. One side of the damping unit is coupled with a bracket, which is coupled with a web on the side of the horizontal member whose cross section is H-shaped, and is fixed to the web on the side of the horizontal member. The other side is coupled with a bracket, which is coupled with the side of the horizontal beam, and is fixed to the side of the horizontal beam. The seismic reinforcement device according to an embodiment of the present invention is easily installed on the exterior wall of the structure without dismantling or repairing the structure, thereby enabling simple construction and reducing construction time.

Description

Earthquake Reinforcement Device {SEISMIC REINFORCEMENT DEVICE}

The present invention relates to an earthquake-resistant reinforcement apparatus, and more particularly, to a seismic reinforcement apparatus in which a pillar and a damper are installed on an exterior wall of a building without dismantling or repairing the building.

Conventional earthquake-resistant reinforcing methods include steel frame method, steel brace method and the like.

First, the steel frame method is a method of inserting a rigid steel frame into an existing concrete frame and joining and arranging it through an anchor bolt. Therefore, the steel frame needs to be inserted into an existing concrete frame and thus requires a long construction period and is not easy to install. There was.

In addition, the steel brace method has a problem that the seismic resistance performance can be reduced due to the buckling of the brace during the earthquake as a method of fixing the steel structure by using an anchor to the existing concrete frame and installing the steel brace inside.

The present invention has been proposed to solve at least one of the problems described above, and an object of the present invention is to provide an earthquake-proof reinforcing device that can be easily installed without dismantling or repairing a building.

In addition, the present invention is to provide an earthquake-proof reinforcement device that can secure a field of view as the steel frame structure is not installed in the window of the building when installed in the building as one side.

The present invention as one side for achieving the above object is a vertical member and one side is fixed to the ground and the other side is installed vertically with the ground along the building, the horizontal member is connected to the vertical member and installed horizontally along the ground along the building And a damping part having a damping member having one side connected to the horizontal member and the other side connected to a horizontal beam of the building and having a damping member absorbing seismic waves transmitted to the building, wherein the damping part has a cross section on one side thereof. The seismic reinforcement is fixed to the side web of the horizontal member in combination with the bracket coupled to the side web of the horizontal member provided in the H shape, the other side is fixed to the side of the horizontal beam in combination with the bracket coupled to the side of the horizontal beam Provide the device.

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Preferably, the damping unit may be provided so that one side thereof is connected to the horizontal beam provided in the plurality of layers, respectively.

Also preferably, the seismic reinforcing device may be provided to be installed at the front and the rear corresponding to the existing building.

Preferably, the support portion may be provided with greater rigidity than the building.

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Also preferably, the damping unit may be provided as a steel damper having a 'ㅒ' shape.

According to one embodiment of the present invention as described above, by simply installing a seismic reinforcement on the building outer wall without dismantling or repairing the building provides a simple construction and shortening the construction period.

And, according to an embodiment of the present invention, it is possible to install the earthquake-resistant reinforcement device without leaving the occupants in the building provides a possible parallel work in the residence.

In addition, according to an embodiment of the present invention, the seismic reinforcement device installed may be installed without disturbing the view of the occupant of the building, thereby providing an effect capable of securing a view through the window of the occupant.

1 is a perspective view of a building equipped with a seismic reinforcing device according to an embodiment of the present invention.
2 to 4 are cross-sectional views illustrating various embodiments of portion A of FIG. 1.
5 is a plan view of a damping unit according to an embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will now be described in detail with reference to the accompanying drawings.

First, the embodiments described below are suitable embodiments for understanding the technical features of the present invention. It should be understood, however, that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

1 to 2, the earthquake-resistant reinforcement device 200 according to an embodiment of the present invention is one side is fixed to the ground and the support portion 210 is installed spaced apart from the outer wall 112 of the building 110, One side is connected to the support portion 210 and the other side is configured to include a damping unit 220 having a damping member connected to the building 110 to absorb the support wave.

First, the building 110 has a horizontal beam 111 installed therein in parallel with the ground, and the building outer wall 112 is formed between the horizontal beam 111 and the beam. By the way, although the horizontal beam 111 may be provided as a reinforced concrete beam (RC beam), as long as it is provided with a horizontal support portion 210 material for supporting a building can be also known configuration.

And, referring to Figure 1, the support portion 210 is provided with a horizontal member 211 and a vertical member 212.

First, the vertical member 212 is fixed to the ground and the other side is installed vertically along the building 110 in a state in which a predetermined distance is spaced so that the damping unit to be examined below and the building 110 is coupled.

In this case, the vertical member 212 is preferably installed between the window and the window when the window is installed in the building 110 to ensure the visibility of the occupants.

The horizontal member 211 is connected to the vertical member 212 and is horizontally spaced apart from the ground by a predetermined distance such that the damping unit 220 is installed like the building 110 and the vertical member 212. Is installed.

In addition, the vertical member 212 is installed for each floor when the building 110 is provided in a plurality of floors, such as the vertical member 212 is installed between the window and the window of the building 110 to secure the visibility of the occupants It is preferable to be.

1 and 2, the seismic reinforcing device 200 attenuates the periodic difference between the vibration generated in the building 110 and the vibration generated in the support part 210 by the support wave transmitted when an earthquake occurs. A damping unit 220 having a damping unit to be provided is provided.

Referring to Figure 4, the damping unit 220 is a steel damper having a '구비' shape is shown. However, the damping unit 220 has one side connected to the support unit 210 and the other side connected to the building 110 to attenuate the vibration difference between the support unit 210 and the building 110 when transmitting seismic waves.

By the way, although the damping member is a steel damper having a 'ㅒ' shape is shown in Figures 2 to 4, but also known damping unit is employed as long as it is provided as a member for damping vibration between the support portion 210 and the building. Can be.

In addition, the damping unit 220 has one side connected to one side of the building 110 and the other side connected to the support unit 210. 2 to 4, the damping unit 220 is connected to the horizontal beam 111 provided at one side of the building 110 and the other side is connected to the horizontal member 211 of the support unit 210. .

In this case, the connection relationship between the horizontal member 211 and the horizontal beam 111 will be described according to each embodiment. 2 to 4, the horizontal member 211 is illustrated as an H beam, but the horizontal member 211 is not limited to the cross-sectional shape of the member to be installed.

≪ Example 1 >

Referring to FIG. 2, one side of the damping unit 220 may be fastened to an upper portion of the horizontal member 211, and the other side thereof may be provided to be connected to a side surface of the building outer wall 112 of the horizontal beam 111. .

That is, the damping unit 220 is fastened by a fastening means 10 such as a bolt / nut or an anchor to an upper flange 211a, one side of which is an upper portion of the horizontal member 211, and the other side of the damping unit 220. A bracket 20 protruding from the side surface 111b of the 111 to the horizontal member 211 so that the damping unit 220 can be connected, the damping unit 220 on one side of the bracket 20 The other side of can be combined.

Thus, the bracket 20 is fastened by the side of the horizontal beam 111 and the fastening means 10, the damping unit 220 connects the horizontal member 211 and the horizontal beam 111. .

By the way, the seismic reinforcement device 200 according to an embodiment of the present invention, unlike connecting one side of the damping unit 220 to the side of the horizontal member 211 to be examined below, the upper flange (211a) The damping unit 220 is provided in the construction is relatively simple.

<Example 2>

Referring to FIG. 3, one side of the damping unit 220 is fastened to a side surface of the horizontal member 211, and the other side of the damping unit 220 is connected to a side surface 111b of the building outer wall 112 of the horizontal beam 111. Can be.

However, the damping unit 220 has a bracket 20 for attaching the damping unit 220 to the side web 211b of the horizontal member 211 so that one side thereof is fastened to the side surface of the horizontal member 211. ).

In this case, the bracket 20 is fastened by the fastening means 10 to one side of the horizontal member 211 and one side of the damping unit 220 by the bracket 20 and the fastening means 10. It is connected to and fastened to the side 111b of the horizontal beam 111.

By the way, the seismic reinforcement device 200 according to an embodiment of the present invention by installing the horizontal member 211 and the horizontal beam 111 at the same height, the vibration difference between the support portion 210 and the building 110. The attenuation effect on can be further increased.

&Lt; Example 3 >

Referring to FIG. 4, one side of the damping unit 220 is coupled to an upper portion of the horizontal member 211, and the other side thereof is provided to be coupled to an upper side and a side surface of the horizontal beam 111.

That is, when the damping unit 220 is fastened to the horizontal beam 111, unlike the first and second embodiments, the damping unit 220 has a shape in which the horizontal beam 111 protrudes toward the support unit 210. When the upper surface 111a of the horizontal beam 111 is exposed to the outside, the other side of the damping unit 220 coupled to the horizontal beam 111 is the upper surface 111a of the horizontal beam 111. It may be provided to be in contact with the side 111b and fastened and fixed by the fastening member.

Thus, the seismic reinforcing device 200 according to an embodiment of the present invention is the damping unit 220 is connected to the horizontal member 211 and the horizontal beam 111 even without using the bracket 20 It can be tightened to reduce the manufacturing cost and simplify the installation.

In addition, as in the second embodiment, the horizontal member 211 and the horizontal beam 111 may be installed at the same height to further increase the attenuation effect on the vibration difference between the support part 210 and the building 110. .

Meanwhile, referring to FIG. 1, the above-described support part 210 and the damping part 220 may be installed to correspond to the front and rear of the building 110.

That is, when the seismic reinforcing device 200 is installed on one side of the building 110, the seismic reinforcing device 200 may be further installed on the rear opposite side of the building 110.

Thus, when the earthquake wave is generated, the seismic reinforcement devices 200 installed at the front and rear of the building 110 interlock with each other and attenuate the vibration caused by the transmitted earthquake waves, thereby minimizing damage caused by the earthquake waves.

In addition, referring to FIG. 1, a plurality of seismic reinforcement devices 200 may be provided in a building according to the size of the building 110.

Hereinafter, the effect of the seismic reinforcing device 200 according to an embodiment of the present invention will be described in detail.

When the seismic wave is transmitted to the building 110, the building 110 and the support 210 vibrate in horizontal and vertical directions. However, the vibration in the vertical direction due to the seismic wave has a small vibration width that vibrates up and down when considering the size and weight of the building 110. On the other hand, the vibration in the horizontal direction due to the support wave has a large impact on the building 110 relatively.

When the seismic wave is transmitted to the building 110 provided with the seismic reinforcing device 200 according to an embodiment of the present invention, and the building 110 vibrates in the horizontal direction, the building 110 has the existing frame 210. ) It is relatively weak in rigidity, so it shakes slowly.

On the other hand, the seismic reinforcement device 200 is designed to have a rigidity larger than the building 110 to have a long period of time and slowly shake in the horizontal direction.

By the way, the damping unit 220 is one side is connected to the building 110 and the other side is connected to the support 210, the building by connecting the building 110 and the support 210, the vibration frequency is different when transmitting the seismic wave By attenuating the vibration transmitted to 110 it is possible to minimize the damage caused by the earthquake wave.

On the other hand, referring to Figure 1, the seismic reinforcement device 200 according to an embodiment of the present invention, unlike the way to add the seismic reinforcement-related facilities by disassembling or dismantling the existing building, the outer wall ( The support part 210 and the damping part 220 may be connected to 112 to be simply installed.

Therefore, the installation work is possible without the eviction of the occupants during the installation of the earthquake-resistant reinforcement device 200 is possible parallel installation work. In addition, by installing the support 210 between the windows of the building 110 provides an effect capable of installing the seismic reinforcing device 200 without disturbing the occupant's view.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It is intended that the person skilled in the art know easily.

100: seismic reinforcement building 110: building
111: horizontal beam 111a: protrusion surface
200: seismic reinforcing device 210: support portion
211: horizontal member 211a: upper flange
211b: side web 212: vertical member
220: damping part

Claims (14)

One side is fixed to the ground and the other side is a vertical member installed perpendicular to the ground along the building, and the support portion including a horizontal member connected to the vertical member and installed horizontally along the ground along the building; And
A damping part having one side connected to the horizontal member and the other side connected to a horizontal beam of the building and having a damping member for absorbing seismic waves transmitted to the building;
Are configured to include
The damping unit,
One side is coupled to the bracket coupled to the side web of the horizontal member having a H-shaped cross section is fixed to the side web of the horizontal member, the other side is coupled to the bracket coupled to the side of the horizontal beam to the side of the horizontal beam Set seismic enhancer. delete delete The method of claim 1,
The damping part is seismic reinforcement device, characterized in that the one side is connected to each of the horizontal beam provided in a plurality of layers. The method of claim 1,
The damping part and the support part is seismic reinforcement device, characterized in that installed in the front and rear corresponding to the building, respectively. The method of claim 1,
The support portion is seismic reinforcement device characterized in that the rigidity is provided larger than the building. delete delete delete delete delete delete delete The method of claim 1,
The damping part is a seismic reinforcement device characterized in that it is provided with a steel damper having a 'ㅒ' shape.

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