KR101554092B1 - Reinforcing brace structure of building - Google Patents

Abstract

The present invention relates to a structure capable of minimizing stress concentrated on pillars and beams and inducing structural stability by inducing deformation and absorbing stress when subjected to external stress such as compression or tensile, Link brace structure for reinforcement.
In a preferred embodiment of the present invention, a reinforcing frame is formed in a square frame shape of an H-shaped steel; An elastic pad formed at each corner of the reinforcing frame; A support angle and a corner angle having a lattice section and a link formed of a steel material so as to connect an outer edge of the support angle and an inner edge of the corner angle, wherein the support angle is coupled to each edge of the reinforcement frame, And a brace formed in an oblique direction at an edge.

Description

{Reinforcing brace structure of building}

More particularly, the present invention relates to a bridge brace structure for building reinforcement, and more particularly, to a bridge brace structure for building reinforcement, which is installed in a bracing form in an opening of a building to induce deformation when subjected to external stress such as compression or tensile stress, To minimize structural stresses and to induce structural stability.

Recently, the openings of the buildings have been formed larger than the conventional ones, and accordingly, when the external force such as the earthquake or the like acts, the stress acts on the structural members such as the columns, thus posing a problem of safety of the building. Therefore, a reinforcing structure capable of transmitting and absorbing a force, a load, and the like is required for the opening made up of the column and the beam or slab, but there is a problem that a proper reinforcing structure can not be installed due to the installation of a window.

As a background technique of the present invention, there is a patent registration No. 1136914 entitled " Reinforcing structure of column inside a building and remodeling method "(Patent Document 1). 6, a structure for reinforcing the internal pillars 1 on both sides of the existing building and the beams 2 joined thereto is characterized in that both side fixing members (not shown) provided on the inner side surfaces of the both side internal pillars 1 A lower fixation member 20a provided on the bottom surface of the upper beam 2a among the beams 2 coupled to the both inner pillars 1; A lower fixing member 20b provided on the upper surface of the beam 2b and fixed by the side fixing members 10, the upper fixing member 20a and the lower fixing member 20b, the body 220, And a protrusion 230 protruding inward from an upper portion of the body 220. The width of the body 220 of the PC panel 200 is greater than the width of the inner pillar 1, And the height of the body portion 220 of the PC panel 200 is substantially equal to the distance between the upper and lower beams 2a and 2b The protrusions 230 of the PC panel 200 are fixed by the upper fixing member 20a and the upper fixing member 20a and the lower fixing member 20b Shaped fixing member 100 includes an existing building joining part 110 which is in surface contact with the internal column 1 or the beam 2, A plurality of existing building coupling through holes 111 are formed in the existing building coupling portion 110 of the 'C' shaped fixing member 100, and a PC panel coupling portion 120 coupled to the PC panel 200. [ A plurality of coupling holes 3 are formed in the inner column 1 or the beam 2 and a plurality of existing holes 3 connected to the plurality of existing building coupling holes 111 and the coupling holes 3 are formed. Wherein the upper fixing member 20a has a length substantially equal to a width of the upper end of the protrusion 230 of the PC panel 200, The fixing member 20b is installed in an edge region of the beam 2 so that its length is substantially equal to the width of the lower end of the body 220 of the PC panel 200. [ . "

However, although the above-mentioned background technique has an effect of reinforcing a column of an existing building, it is installed only on a side of a column, and therefore, when a side pressure is generated, stress is not effectively transmitted or absorbed In addition, there is a problem in that when the opening is provided with the window, the impact applied to the window frame can not be absorbed.

Patent Registration No. 1136914 "Reinforced Structures and Remodeling Methods of Columns in Buildings"

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a bracing structure in which stresses of openings of schools, Therefore, there is a very useful effect of minimizing the stress concentrated on the column and beam and inducing the structural stability. Also, it is possible to maintain a window frame inside the reinforcement frame or to newly install the reinforcement frame And to provide a link brace structure for reinforcement.

The present invention relates to an H-shaped steel frame having a reinforcing frame formed into a square frame shape; An elastic pad formed at each corner of the reinforcing frame; A support angle and a corner angle having a lattice section and a link formed of a steel material so as to connect an outer edge of the support angle and an inner edge of the corner angle, wherein the support angle is joined to each corner of the reinforcement frame, And a brace formed in an oblique direction at an edge of the bridge brace structure.

Also, a reinforcement member is coupled to the inner edge of each reinforcing frame so as to connect the vertical surface and the horizontal plane of the reinforcing frame.

The present invention also provides a link brace structure for reinforcing a building, wherein the elastic pad is an elastomer.

Also, it is desired to provide a bridge brace structure for reinforcing a building, wherein the brace is formed such that the cross-sectional size of the link gradually increases from the support angle to the corner angle direction.

The link brace structure for reinforcing a building is characterized in that the link of the brace is formed by arranging one plate in the form of a plate or two plates in a plate shape in parallel.

In the case of a single plate, shear connectors are formed at both sides of the plate at regular intervals to synthesize concrete. In the case of two plates, shear connectors are formed at regular intervals on one side of the plate facing each other And the concrete is filled between the plates, thereby providing a link brace structure for building reinforcement.

The link brace structure for reinforcing a building is characterized in that the link of the brace is formed by a rectangular steel pipe and is filled with concrete.

The link brace structure for building reinforcement of the present invention is installed in the form of a brace where the stresses of the openings of the existing RC buildings such as schools are concentrated, and when the external stress such as compression or tensile is applied, the brace is plastic- There is a very useful effect of minimizing the stress concentrated on the beam and inducing the structural stability and it is possible to form a separate reinforcing frame so that the window frame can be maintained inside the reinforcing frame or a new effect can be obtained have.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view schematically showing an embodiment in which a link brace structure for reinforcing a building of the present invention is installed in an opening; FIG.
2 is a perspective view of a link brace structure for building reinforcement of the present invention.
3 to 5 are a perspective view and a cross-sectional view of a modified embodiment of the brace 30 of the present invention.
6 is a side view of an embodiment in which a reinforcing structure of a conventional column in a building is applied.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

Hereinafter, the technical structure of the present invention will be described in detail with reference to the preferred embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view schematically showing an embodiment in which a link brace structure for reinforcing a building of the present invention is installed in an opening; FIG.

1, a link brace structure 1 for reinforcing a building according to the present invention comprises a reinforcing frame 10 formed in a frame shape made of H-shaped steel at a central portion thereof, The bridge brace structure 1 for reinforcing a building is provided at an opening formed of a column C and a beam or a slab for reinforcement of a conventional RC structure such as a school, The tensile force T and the compressive force C are shared between the braces 30 formed at the respective corners of the reinforcing frame 10. [ That is, when receiving external stress such as compression or tensile stress, the elastic pad 20 is deformed and absorbed first, and the link 33 of the secondary bracing 30 is plastically deformed to absorb the stress, So that stability can be induced.

2 is a perspective view of a link brace structure for building reinforcement of the present invention.

2, the link brace structure 1 for reinforcing a building according to the present invention comprises a reinforcing frame 10 in the form of a frame-like four-corner frame and a brace (not shown) formed in an oblique direction at the corner of the outer surface of the reinforcing frame 10 And an elastic pad 20 formed at a joint portion between the brace 30 and the reinforcing frame 10.

The reinforcement frame 10 is made of H-shaped steel and can be formed in a frame-like rectangular frame shape so that a conventional window frame is maintained in the internal space 11 when the conventional building is reinforced or installed in an opening of a new- And a window can be installed in the internal space 11 newly.

It is preferable that the reinforcing frame 10 is made of H-shaped steel having large second-order cross-sectional modulus and economical efficiency. Since the reinforcing frame 10 is formed in the shape of a quadrangular frame, the coupling between the vertical member and the horizontal member can be combined using various known joining methods such as welding and bolting.

Since the reinforcing frame 10 is formed by using H-shaped steel to form a quadrangular frame, a plate-like plate or a bent plate (not shown) is formed on each inner edge of the reinforcing frame 10 to connect the vertical surface and the horizontal plane of the reinforcing frame 10 Shaped reinforcement members 12 made of steel or the like can be combined to reinforce the respective corners.

Each of the four corners outside the reinforcing frame 10 is connected to a brace 30 and each corner of the reinforcing frame 10 between the brace angle 31 of the brace 30 and the reinforcing frame 10 engaging portion The elastic pad 20 is formed.

The elastic pad 20 deforms and absorbs the stress primarily when the elastic pad 20 is subjected to external stress such as compression or tensile at the opening of the building.

The elastic pad 20 can use various known products such as a high-damping rubber for absorbing vibration energy, and an elastomer remarkable in elasticity.

An elastomer is also called an elastomer, and is a polymer compound that has a property of stretching several times when pulled by an external force and returning to its original length when an external force is removed.

The brace 30 includes a support angle 31 for engagement with the reinforcing frame 10, a link 33 at one end in a diagonal line at the support angle 31 and a link 33 at the other end of the link 33, And a corner angle 32 coupled to the edge of the opening formed by the beam c or the slab.

That is, when the link brace structure 1 for reinforcing a building according to the present invention is installed in the opening of a building, the reinforcing frame 10 is located at the center and the corner angles 32 of the braces 30 are engaged with the corners .

The other end of the brace 30 that is not engaged with the reinforcing frame 10 is anchored to the corner of the building opening made of a column and a beam or a slab so that the corner angle of the brace 30 And a plurality of anchor coupling holes 323 may be formed in the corner angle 32 so as to communicate with the edges of the opening of the building.

The link 33 of the brace 30 is formed such that the cross section of the bridge 33 gradually increases in size from the supporting angle 31 toward the corner angle 32 so that the strength of the stress transmitted from the column of the building opening and the beam or slab Thereby facilitating the transfer.

The link 33 allows the elastic pad 20 to deform and absorb the stress primarily when the building is subjected to external stress such as compression or tensile force and the link 33 of the secondary brace 30 is plastically deformed, Absorption.

The link 33 is formed of a steel material, and may be formed of a plate-like plate. Alternatively, a steel material having various cross-sections may be used.

3 to 5 are a perspective view and a cross-sectional view of a modified embodiment of the brace 30 of the present invention.

3, the link 33 of the brace 30 is formed into a single plate 331, and the concrete 332 is formed on both sides of the plate 331. The compressive stress and the tensile stress are divided . And a shear connection member 331a such as a stud bolt or a reinforcing bar is formed on both sides of the plate 331 at regular intervals for the bonding force and the combination of the steel material and the concrete.

4, the link 33 of the brace 30 is formed by arranging two plate-shaped plates 331 in parallel, and a concrete 332 is formed between the plates 331 and 331 The concrete 332 and the steel plate 331 can be used simultaneously to effectively share the axial stress and the tensile stress. At this time, a shear connection member 331a such as a stud bolt, a reinforcing bar or the like is formed at a predetermined interval on the inner surface of the plate 331 (331) facing each other for bonding force and composing of the steel and concrete.

5, the link 33 of the brace 30 may be formed of a rectangular steel pipe and the concrete 332 may be filled in the bracket 30 for the same reason as described above. In filling the inner concrete, since the concrete 332 is filled in the closed rectangular steel pipe, the shear connecting material 331a may be formed inside the square steel pipe, or may be omitted.

The link brace structure for building reinforcement of the present invention having the above-described structure is installed in the form of a brace where the stresses of the openings of the existing RC buildings such as schools are concentrated, and when the external stress such as compression or tensile is applied, the brace is plastic- And it is very effective to minimize the stress concentrated on the column and beam and to induce the structural stability. It is also possible to form a separate reinforcement frame so that the window frame can be maintained inside the reinforcement frame or newly installed There is a very useful effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

1: Link brace structure for building reinforcement
10: reinforcement frame
11: Internal space
12: reinforcing member
20: Elastic pad
30: Brace
31: Base angle
32: Corner angle
33: Link
331: Plate
331a: Shear connector
332: Concrete

Claims (7)

A reinforcing frame 10 having a frame shape of four angles with an H-shaped steel;
An elastic pad (20) provided outside each corner of the reinforcing frame (10);
A corner angle 32 and a corner angle 32 which are configured to connect the outer edge of the support angle 31 to the inner edge of the corner angle 32 and to connect the corner angle 32 to the support angle 31. [ The supporting angle 31 is connected to each corner of the reinforcing frame 10 via the elastic pad 20 so that the size of the reinforcing frame 10 And a brace (30) formed in a diagonal direction at four corners of the brace structure (10). The method according to claim 1,
Wherein a reinforcing member (12) is coupled to an inner edge of each reinforcing frame (10) so as to connect a vertical plane and a horizontal plane of the reinforcing frame (10). The method according to claim 1,
Wherein the elastic pad (20) is an elastomer. delete The method according to claim 1,
Wherein the link (33) of the brace (30) is formed by arranging one plate-like plate (331) or two plate-like plates (331) in parallel. The method of claim 5,
When the plate 331 is formed of a single plate 331, shear connectors 331a are formed on both sides of the plate 331 at regular intervals and the concrete 332 is synthesized,
When the plate 331 is formed of two plates 331, the sheathed connection members 331a are formed at regular intervals on the opposite side of the plate 331 and the concrete 332 is filled between the plates 331 and 331 Link brace structure for structural reinforcement characterized by. The method according to claim 1,
Wherein the link (33) of the brace (30) is formed by a rectangular steel pipe and is filled with concrete (332).

Images