KR101877014B1 - Seismic reinforcing structure - Google Patents

Abstract

The present invention provides a seismic reinforcing structure, which is installed in a corner portion at an internal side of an opening space of a building structure to buffer and absorb earthquake vibration generated in an up and down direction, a left and right direction, and a front and rear direction. Therefore, in case of an earthquake, the building structure can be protected.

Description

{SEISMIC REINFORCING STRUCTURE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an earthquake-proof reinforcement structure, and more particularly, to an earthquake-proof reinforcement structure provided in an inner corner portion of an opening space of a building structure to have a structure capable of absorbing and absorbing earthquakes generated in vertical, And more particularly, to an improved seismic reinforced structure capable of protecting building structures when they occur.

In general, existing building structures such as schools, multi-tenants, and buildings have insufficient seismic design to safeguard the building structure from earthquakes. As a result of the collapse of the building structure, There is a need to reinforce the structure to resist the earthquake.

Therefore, unlike the seismic design method, recently, seismic retrofit method is being studied to reinforce existing structures or facilities.

Among these seismic retrofitting methods, there is a method of protecting a pillar vulnerable to an earthquake by adding a structure for wrapping a column of an architectural structure, or a method of protecting an open space vulnerable to an earthquake by installing a separate beam at the rim of the opening space such as a window or a door Is being developed.

For example, Korean Patent No. 10-1791248 and No. 10-1168670 disclose an anti-seismic steel structure for supporting an opening space of an architectural structure.

However, in the conventional anti-seismic steel structure disclosed in the above patent, earthquake motions occurring in the up-and-down direction and the left-right direction of the building structure when the earthquake occurs are protected by the resistance of the anti-seismic steel structure to protect the building structure. However, There is a problem that the building structure is easily collapsed if the earthquake vibration occurs in the forward and backward direction. In other words, since the earthquake can occur in any direction when an earthquake occurs, it is necessary to develop an advanced steel structure for the earthquake motions that occur not only in the vertical direction and the lateral direction but also in the longitudinal direction.

1) Korean Registered Patent No. 10-1791248 (Registered on October 23, 2017), title of invention: "Progressive Steel Structure in Masonry Wall" 2) Korean Registered Patent No. 10-1168670 (Registered Date: July 19, 2012), Title of the invention: "Seismic Retrofit Structure" 3) Korea Patent No. 10-1573060 (Registered Date: Nov. 24, 2015), Title of the invention: "Seismic Retrofit of Open Space of Buildings and Seismic Retrofit Method Using the Same" 4) Korean Patent No. 10-1547109 (Registered on Aug. 19, 2015), Title of the invention: "Seismic Retrofit Method of Buildings Utilizing Outframe and High-

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems, and an object of the present invention is to provide a structure of a building structure, which is installed at an inner corner portion of an opening space thereof to buffer and absorb earthquakes generated in vertical and horizontal directions, The present invention provides an earthquake-proof reinforcement structure capable of protecting an architectural structure against earthquakes in any direction when an earthquake occurs.

The above object is achieved by an earthquake-proof reinforcement structure provided on an inner corner portion of an opening space such as a window space or an entrance space of a building structure, absence; Shaped first cushion portion formed in a diagonal direction and inclined downward at one end of the first cushion portion and a first cushion portion of a plate-like first cushion portion formed in a diagonal downward inclination at a lower end portion of the first cushion portion, A first reinforcing member having a first coupling portion and a first coupling portion formed with a plurality of coupling holes for bolt coupling; A plate-like second cushioning portion formed symmetrically with respect to the first reinforcing member and the first connecting portion, a plate-like second cushioning portion, a plate-shaped second cushioning portion formed at an end of the second cushioning portion in a diagonal direction, And a plate-like second connection portion formed to be inclined upward in the diagonal direction from the upper end of the second buffer portion and coming into close contact with the first connection portion, and the second coupling portion and the second coupling portion have a second coupling portion A reinforcing member; And a tension plate formed integrally with the plate member, the plate member being fixed to the plate member by a bolt, the tension member being integrally formed integrally with the plate member in a downward direction at an end of the fixing member, The first and second reinforcing members of the first reinforcing member and the second reinforcing member of the first reinforcing member are engaged with each other to form a bolt- The first reinforcing member and the second reinforcing member are fixed to the inner side surface of the opening space in a bolt manner while the steel plate member is fixed to the inner side surface of the opening space, The first reinforcing member has a tension in the left-right direction (horizontal direction) by the first cushioning portion with respect to the first connecting portion, and the second reinforcing member is tensioned by the first cushioning portion in the second And the tension of the third reinforcing member is provided on the outer surface of the first engaging portion of the first reinforcing member in a direction perpendicular to the longitudinal direction of the first engaging portion And the second reinforcing member is provided with a tension in the forward and backward directions by the tension portion, and the tension of the third reinforcing member is provided on the outer surface of the second reinforcing member, The coupling part is fixedly connected to the first coupling part in a direction perpendicular to the longitudinal direction of the first coupling part and the second coupling part in a bolt fastening manner through a coupling hole so that the coupling part is tensioned in the forward and backward direction by the tension part, The assembled seismic member assembly is placed on the inner corner of the opening space and the fixed portion of the third reinforcement member provided on the first reinforcement member and the second reinforcement member is disposed on the corresponding steel plate Wherein the first and second reinforcing members are installed in such a manner that the first and second reinforcing members are fixed to each other by a bolt fastening method through a coupling hole. When the vibration proof member assembly is installed at an inner corner portion of the opening space, The buffer part is formed to be inclined in the diagonal direction so that an earthquake-proof compensation space is formed between the corner part of the corner and the earthquake-proof member assembly, the end part of the steel plate member is provided so as to be spaced apart from the inner surface of the opening space in the earthquake- Wherein the first reinforcing member and the second reinforcing member are configured so as to have a buffering force without being interfered with each other when they are moved by earthquake-induced vibration, wherein a corner reinforcing member is further provided in the vibration- , And a deformable portion formed in a shape of "a" at one end of the deformed portion and inserted into the corner portion of the corner, And a tight contact portion formed integrally with the other end portion of the deformation portion and fixed to the first buffer portion and the second buffer portion so as to be able to absorb the vibration energy while deforming and restoring the deformation portion when earthquake- The present invention relates to an earthquake-proof reinforcement structure.

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When the seismic reinforcement structure according to the present invention is installed at the inner corner portion of the opening space of the building structure, the seismic vibration generated in the vertical direction, the lateral direction, and the longitudinal direction is buffered and absorbed. It has the effect of buffering and absorbing it so that the building structure can be held without falling down.

Further, the seismic strengthening structure according to the present invention has an effect of being easy to install and maintenance.

1 is a perspective view showing a structure of an anti-seizure structure according to the present invention,
2 is a front view showing a state in which an anti-seismic reinforcement structure according to the present invention is installed on an architectural structure;
Fig. 3 is a side sectional view of Fig. 2,
4 to 6 are operation diagrams for explaining an operation state of the seismic strengthening structure according to the present invention,
7 is a partial sectional view showing a state in which a corner reinforcement member is added in the present invention.

The present invention will now be described in detail with reference to the accompanying drawings.

1 to 3, an anti-seismic reinforcement structure according to the present invention is installed at an inner corner portion of an opening space 10 such as a window space or an entrance / exit space of an architectural structure. The steel plate member 100 and the anti- (200).

Here, the steel plate member 100 is a steel plate having a predetermined thickness, is closely attached to the inner surface of the opening space 10, and is fixed to the wall or the column by a bolt (B) method to support the opening space 10.

The first and second reinforcing members 220 and 230 may include a first reinforcing member 210, a second reinforcing member 220, and a third reinforcing member 230.

The first reinforcing member 210 includes a horizontal plate-like first coupling portion 212 and a plate-like first buffer portion 214 formed to be inclined downward in the diagonal direction at one end of the first coupling portion 212 And a plate-shaped first connection part 216 formed to be inclined downward in the diagonal direction at the lower end of the first buffer part 214. A plurality of coupling holes (H) for coupling the bolts (B) are formed through the first coupling portion (212) and the first coupling portion (216).

Next, the second reinforcing member 220 is formed symmetrically with respect to the first reinforcing member 210 and the first connecting portion 216. A plate-like second buffer portion 224 formed to be inclined upwards in the diagonal direction at one end of the second coupling portion 222; a second buffer portion 224 And a plate-shaped second connection portion 226 which is formed to be inclined upward in the diagonal direction from the upper end of the first connection portion 224 and is in close contact with the first connection portion 216. A plurality of coupling holes (H) for bolt connection are formed through the second coupling portion (222) and the second coupling portion (226). At this time, the coupling hole H between the first coupling portion 216 and the second coupling portion 226 needs to be formed at a corresponding position for coupling the bolt B nut.

Here, it is preferable that the first reinforcing member 210 and the second reinforcing member 220 use the same parts. In order to facilitate understanding of the present invention, the first reinforcing member 210 and the second reinforcing member 220, (220). However, depending on the shape of the opening space 10, a product having a different length of the first coupling portion 212 or the second coupling portion 222 may be used.

The third reinforcing member 230 includes a horizontal plate-like fixing portion 232 that is engaged with the bolt B by being interposed in the steel plate member 100 and a second plate portion 232 which is rounded downward from the end portion of the fixing portion 232 And a second reinforcing member 210 extending horizontally in parallel with the fixing portion 232 at a lower end of the tension portion 234 and being integrally formed with the first reinforcing member 210, And a coupling portion 236 that is engaged with the second coupling portion 222 of the coupling portion 220 and is bolted to the coupling portion. A plurality of coupling holes (H) for coupling the bolts (B) are formed through the fixing part (232) and the coupling part (236). At this time, the coupling hole H between the coupling portion 236 and the first coupling portion 212 or the second coupling portion 222 needs to be formed at a corresponding position for bolt-nut coupling.

The method of installing the seismic strengthening structure according to the present invention will be described. First, the steel plate member 100 is fixed to the inner surface of the opening space 10 by bolts (B). Then, the assembly 200 is assembled. That is, the first reinforcing member 210 and the second reinforcing member 220 are placed so that the first connecting portion 216 and the second connecting portion 226 face each other and the bolts B are fastened through the corresponding fastening holes H, As shown in Fig. The first reinforcing member 210 has a tension in the lateral direction (horizontal direction) by the first cushioning portion 214 with respect to the first connecting portion 216 and the second reinforcing member 220 has a tension in the left and right direction (Vertical direction) by the second buffer part 224 based on the first buffer part 226. The tension member 234 of the third reinforcing member 230 is disposed on the outer surface of the first coupling member 212 of the first reinforcing member 210 in a direction perpendicular to the longitudinal direction of the first coupling member 212 And the second engaging portion 222 of the second reinforcing member 220 is fixed to the outer surface of the second engaging portion 222 by a bolt B fastening method through a corresponding engaging hole H, 3 The binding portion 236 is pushed in such a manner that the tension portion 234 of the reinforcing member 230 lies in a direction orthogonal to the longitudinal direction of the second engaging portion 222, And they are fixedly connected to each other. Then, the tension member 234 of the third reinforcing member 230 has a tension in the forward and backward directions. After assembling the seismic member assembly 200, the assembled seismic member assembly 200 is placed on the inner corner of the opening space 10, and the first and second reinforcement members 210 and 220 The installation work is completed by fastening the fixing portions 232 of the third reinforcing members 230 installed respectively by the bolts B through the coupling holes H corresponding to the corresponding steel plate members 100.

The first and second reinforcing members 220 and 220 of the first reinforcing member 210 and the second reinforcing member 220 of the first and second reinforcing members 210 and 220 may be formed in the inner corner of the opening space 10, The shock absorbing portion 224 is inclined in a diagonal direction so that an earthquake-proof compensation space S is formed between the corner portion of the corner and the earthquake-proof member assembly 200. At this time, the steel plate member 100 is installed so as to be spaced apart from the inner side surface of the opening space 10 in the earthquake-proof compensation space S, so that the first reinforcing member 210 and the second reinforcing member 220 So that they are not interfered with each other and have a buffering force.

Meanwhile, although not shown, after the vibration-proof member assembly 200 is installed, the outer surface may be closed through the closing member so as to have a clean appearance when viewed from the outside.

When the earthquake-proof reinforcement structure according to the present invention is installed in the opening space 10 of the building structure by such a method, when the earthquake-induced vibration is applied to the building structure by the earthquake, the earthquake- do.

4, the first coupling part 212 of the first reinforcing member 210 moves left and right with respect to the first coupling part 216, while the first coupling part 212 of the first reinforcing member 210 moves left and right with respect to the first coupling part 216, 1 buffer portion 214, the vibration energy generated in the left-right direction is absorbed. 5, the second engaging portion 222 of the second reinforcing member 220 moves up and down with reference to the second connecting portion 226, and the second engaging portion 222 of the second reinforcing member 220 moves upward and downward with respect to the second connecting portion 226, The vibration energy generated in the up and down direction is absorbed by the deformation of the buffer portion 224. 6, the fixed portion 232 of the third reinforcing member 230 is moved forward and backward with respect to the coupling portion 236, and the front and rear portions of the tension member 234 are moved forward and backward by the deformation of the tension portion 234, To absorb the vibration energy generated in the direction.

As described above, the seismic strengthening structure according to the present invention protects the building structure by buffering and absorbing vibrational energy applied in the left, right, top, bottom, and back and forth directions.

7, the corner reinforcement member 300 may be additionally provided in the earthquake-proof compensation space S. In addition, as shown in FIG.

That is, the corner reinforcement member 300 includes a deformation portion 310 disposed in a direction orthogonal to the first buffer portion 214 and the second buffer portion 224, and a deformation portion 310 disposed at one end of the deformation portion 310, A corner support portion 320 formed integrally with the other end of the deformation portion 310 so as to be inserted into a corner portion of the earthquake-proof compensation space S and inserted into the first buffer portion 214 and the second buffer portion 214, And a tightly coupled part 330 fixed to the buffer part 224.

Here, the deforming portion 310 may be formed into a rod shape or a plate shape. The corner supporting portion 320 may be inserted into the corner supporting portion 320 in a manner to be closely attached to the corner supporting portion 320, or may be fixed to the corner supporting portion 320 by bolts. The tight contact part 330 may be fixed to the first buffer part 214 and the second buffer part 224 in a bolt manner, but it is preferable that the tight contact part 330 is configured to be coupled in a sliding manner as shown in the drawing. That is, the latching protrusions 334 having the latching grooves 336 are formed in the first buffering part 214 and the second buffering part 224, and the latching pieces 332 are formed at the end of the fastening part 330 And the engaging pieces 332 are pushed into the engaging grooves 336, as shown in Fig.

When the corner reinforcement member 300 constructed as described above is installed together with the earthquake-proof reinforcement structure in the opening space 10 of the building structure, when the earthquake vibration occurs due to the earthquake, the deformation portion 310 is deformed and restored, The seismic performance will be further improved.

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 appended claims. Anyone who can afford it will know.

10: opening space 100: steel plate member
200: an anti-vibration member assembly 210: a first reinforcing member
212: first coupling portion 214: first buffering portion
216: first connection part 220: second reinforcing member
222: second coupling portion 224: second buffering portion
226: second connecting portion 230: third reinforcing member
232: Fixing portion 234: Tension portion
236: Coupling unit 300: Corner reinforcing member
H: Coupled ball S: Earthquake-proof compensation space

Claims (3)

An earthquake-resistant reinforcement structure provided on an inner corner portion of an opening space such as a window space or an entrance / exit space of an architectural structure,
A steel plate member closely attached to an inner surface of the opening space and fixed in a bolt manner to support the opening space; Shaped first cushion portion formed in a diagonal direction and inclined downward at one end of the first cushion portion and a first cushion portion of a plate shape formed in a diagonal downward inclination at a lower end portion of the first cushion portion, A first reinforcing member having a first coupling portion and a first coupling portion formed with a plurality of coupling holes for bolt coupling; A plate-like second cushioning portion formed symmetrically with respect to the first reinforcing member and the first connecting portion, a plate-like second cushioning portion, a plate-shaped second cushioning portion formed at an end of the second cushioning portion in a diagonal direction, And a plate-like second connection portion formed to be inclined upward in the diagonal direction from the upper end of the second buffer portion and coming into close contact with the first connection portion, and the second coupling portion and the second coupling portion have a second coupling portion A reinforcing member; And a tension plate formed integrally with the plate member, the plate member being fixed to the plate member by a bolt, the tension member being integrally formed integrally with the plate member in a downward direction at an end of the fixing member, The first and second reinforcing members of the first reinforcing member and the second reinforcing member of the first reinforcing member are engaged with each other to form a bolt- And a reinforcing member,
The first reinforcing member and the second reinforcing member are fixed to each other by a bolt method through a coupling hole in a state in which the first connecting portion and the second connecting portion are placed in an interview state, The first reinforcing member is tensioned in the left-right direction (horizontal direction) by the first cushioning portion with respect to the first connecting portion, and the second reinforcing member is tensioned by the second cushioning portion in the vertical direction And the tensioning portion of the third reinforcing member is placed on the outer surface of the first engaging portion of the first reinforcing member so as to be in a direction orthogonal to the longitudinal direction of the first engaging portion, And the tensioning portion of the third reinforcing member is provided on the outer surface of the second engaging portion of the second reinforcing member in the longitudinal direction of the second engaging portion, The coupling portion is fixedly coupled to the coupling portion through a coupling hole so as to be placed in the direction of the coupling, and the coupling portion is fixed to the coupling portion in a forward and backward direction by a tension portion to assemble the coupling portion. And the fixing portions of the third reinforcing members provided respectively to the first reinforcing member and the second reinforcing member are fixed to the corresponding steel plate members by a bolt fastening method through engagement holes,
When the above-mentioned vibration-proof member assembly is installed in the inner corner portion of the opening space, the first buffer portion of the first reinforcing member and the second buffer portion of the second reinforcing member are formed to be inclined in the diagonal direction, And the end portion of the steel plate member is provided so as to be spaced apart from the inner side surface of the opening space in the seismic compensation space so that the first reinforcing member and the second reinforcing member are not interfered with each other when they move by earthquake vibration, Respectively,
A corner reinforcement member is additionally provided in the earthquake-proof compensation space,
The corner reinforcement member includes a deformed portion arranged in a direction orthogonal to the first buffer portion and the second buffer portion, a corner support portion formed in an "a" shape at one end of the deformed portion and inserted into a corner portion of the corner, And a tight contact portion integrally formed at the other end portion of the deformation portion and fixed to the first buffer portion and the second buffer portion so as to absorb the vibration energy while deforming and restoring the deformation portion when earthquake- .
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