KR20170101034A - Seismic Reinforcing Structure of Opening of Building And Reinforcing Method Using Reinforcing Structure - Google Patents

Abstract

The present invention relates to a reinforcing structure for an opening using a hinge type brace structure, capable of inducing structural stability and reinforcing the cross section of an opening by being installed in the opening of a building in a link shape, and a method for reinforcing an opening by using the same. According to an embodiment of the present invention, the opening comprises a pillar, a beam, or a slab. The reinforcing structure of the opening using the hinge type brace structure comprises: a reinforcing frame formed of an H-beam in the shape of a square frame and connected to a fixing channel having a U-shaped cross section as an end of a vertical connection unit is inserted in a fixed depth into the outer surface of the opening, wherein the reinforcing frame comprises a horizontal connection unit having an anchor hole at fixed intervals in the longitudinal direction, and the vertical connection unit vertically extended from both ends in the width direction of the horizontal connection unit; a support angle including a main body of the L-shaped cross section, wherein a connection piece having a connection hole penetrated at the center in a diagonal direction is connected to an outer corner of the main body of the support angle to be parallel; a brace in which one end of a link is connected to the connection piece of the support angle by a hinge by using a fixing unit, wherein the brace comprises the link formed of steel and having the connection hole penetrated on one end, and a corner angle formed in the L-shaped cross section with a vertical surface and a horizontal surface and having an inner corner connected to the other end of the link; and a friction damper connected by being inserted between the link and the connection piece as the connection hole is penetrated at the center, by comprising a friction pad and a friction plate formed of stainless steel formed on both sides of the friction pad. The corner angle of the brace is connected to an anchor bolt of the corner of the opening.

Description

Technical Field [0001] The present invention relates to an opening reinforcement structure using a hinge-type brace structure, and a reinforcement method using the hinge-

The present invention relates to an opening reinforcing structure using a hinge brace structure and a method of reinforcing an opening using the hinge brace structure. More particularly, the present invention relates to a hinge- The present invention relates to an opening reinforcement structure using a brace structure and an opening reinforcement method using the same.

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). 7, a structure for reinforcing the inner pillars 1 and the beams 2 bonded to the inner pillars 1 on both sides of the existing building is characterized in that both side fixing members 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 it can not absorb the impact applied to the window frame at the time of construction, in particular, the structure which does not resist in the out-of-plane direction and the opening where the window is installed.

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

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide an opening reinforcing structure using a hinge brace structure and an opening reinforcing method using the hinge brace structure, When the stress is applied, a horizontal resistance is generated in the friction damper to attenuate the horizontal load, thereby securing the structural stability and usability of the structure, and absorbing the compressive stress by inducing deformation of the hinged diagonal member in the region where the compressive stress is concentrated. The present invention provides an opening reinforcing structure using a hinge-type brace structure capable of minimizing stress concentrated on a column and inducing structural stability, and an opening reinforcement method using the same.

In addition, by fixing the fixed channel on the outer side of the opening, the cross section of the opening is reinforced and the fastening force is increased to induce the shear of the two sides, while the fixed channel receives the shear resistance and the high shear strength and shear rigidity So that it is possible to effectively increase the shear reinforcement effect and thereby reduce the depth at which the anchor is embedded so as to reduce the interference with other members such as the stud of the old concrete or the reinforcement bar, Another object of the present invention is to provide an opening reinforcement structure using a structure and an opening reinforcement method using the same.

It is another object of the present invention to provide an opening reinforcing structure using a hinge-type brace structure capable of holding a window frame intact in a reinforcing frame by forming a rectangular reinforcing frame in the opening portion, have.

The present invention provides a reinforcement structure for an opening comprising a column and a beam or a slab, comprising: a horizontal coupling portion having anchor holes formed at regular intervals in the longitudinal direction; and a vertical coupling portion extending in the vertical direction at both ends in the width direction of the horizontal coupling portion, A reinforcing frame formed of H-shaped steel and formed into a square frame shape, the fixed channel being formed to have a cross section, the end portion of the vertical coupling portion being inserted into the outer side surface of the opening portion at a predetermined depth; A supporting angle in which a coupling piece having a coupling hole formed at a central portion in an oblique direction at an outer edge of the main body is coupled in parallel; And a corner angle formed by a steel material and formed with a cross section having a vertical plane and a horizontal plane and having an inner edge joined to the other end of the link, wherein one end of the link is connected to the engagement piece of the support angle A brace hinged to the fixing means; And a frictional damper formed of a friction plate formed of stainless steel and formed on both sides of the friction pad and the friction pad, the friction damper having a coupling hole formed at its center and inserted and coupled between the engaging piece and the link, And the corner angle of the diagonal member is coupled to the anchor bolt of the hinge brace structure.

Also, a reinforcement member is coupled to the inner edge of each of the reinforcing frames so as to connect the vertical surface and the horizontal plane of the reinforcing frame, thereby providing an opening reinforcing structure using the hinge-type brace structure.

Also, it is intended to provide an opening reinforcing structure using a hinge-type brace structure, wherein the link of the brace is a plate-like plate.

Also, it is intended to provide an opening reinforcing structure using a hinge-type brace structure, wherein a pair of plates in a plate-like shape are arranged parallel to each other.

Further, it is intended to provide an opening reinforcing structure using a hinge-type brace structure, in which a buckling prevention plate is configured so that the link interconnects a pair of plates.

Further, it is intended to provide an opening reinforcing structure using a hinge-type brace structure in which a plurality of plastic induction holes are formed through the link of the brace.

Also, it is intended to provide an opening reinforcing structure using a hinge-type brace structure, wherein the friction pad of the friction damper is a highly damped rubber.

Also, in the fixed channel, the end portion of the vertical coupling portion is inserted at a predetermined depth in a state where the outer surface of the opening portion and the lower surface of the horizontal coupling portion are spaced apart by a predetermined distance, and the concrete is filled in the space between the outer side surface of the opening portion and the horizontal coupling portion And an opening reinforcing structure using the hinge-type brace structure.

Also, it is intended to provide an opening reinforcing structure using a hinge-type brace structure in which at least one concrete filling hole is formed at a predetermined position of a horizontal joint portion of a fixed channel.

Also, the horizontal joint portion of the fixed channel is provided with a widened portion having a shape widened inwardly of a predetermined length at both ends in the lengthwise direction, to provide an opening reinforcing structure using the hinge-type brace structure.

(A) a reinforcing frame made of H-shaped steel and formed into a square frame shape; A supporting angle in which a coupling piece having a coupling hole formed at a central portion in an oblique direction at an outer edge of the main body is coupled in parallel; And a corner angle formed by a steel material and formed with a cross section having a vertical plane and a horizontal plane and having an inner edge joined to the other end of the link, wherein one end of the link is connected to the engagement piece of the support angle A brace hinged to the fixing means; And a frictional damper formed of a friction plate formed of stainless steel and formed on both sides of the friction pad and the friction pad and having a coupling hole formed at the center thereof and inserted and coupled between the engaging piece and the link, Pre-fabricating a fixed channel having a U-shaped cross-section including a horizontal coupling portion formed with anchor holes at intervals and a vertical coupling portion extending in a vertical direction at both ends in the width direction of the horizontal coupling portion; (b) drilling anchor holes in the outer side surface of the opening at regular intervals in the widthwise direction to form an anchor hole having a certain depth in the longitudinal direction on both sides in the width direction around the anchor hole; (c) injecting a filler into the anchor holes and the fixture; (d) inserting an end of the vertical joining part into a fixing hole and inserting an anchor bolt into the anchor hole to fix the fixed channel; and (e) joining a corner angle of the brace to the anchor bolt. [7] In order to accomplish the above object, the present invention provides a method of reinforcing an opening using a hinge brace structure.

Also, in the step (a), it is desired to provide a method of reinforcing an opening using a hinge-type brace structure, wherein the link of the brace is a plate-like plate.

In addition, in the step (a), it is desired to provide a method of reinforcing an opening using a hinge-type brace structure, wherein a pair of plates in a shape of a plate are arranged in parallel.

In addition, in the step (a), the link is provided with a buckling prevention plate so as to interconnect the pair of plates, thereby providing a method of reinforcing the opening using the hinge-type brace structure.

Also, in the step (a), a plurality of plastic induction holes are formed in the link of the brace, and a method of reinforcing the brace using the hinge brace structure is provided.

Also, in the step (a), the friction pad of the friction damper is a highly damped rubber, and a method of reinforcing the opening using the hinge-type brace structure is provided.

In the step (d), the fixed channel may be formed such that the end of the vertical coupling part is inserted at a predetermined depth in a state where the outer surface of the opening part and the lower surface of the horizontal coupling part are spaced apart from each other by a predetermined distance, The present invention provides a method of reinforcing an opening using a hinge brace structure, wherein a space between an outer surface of the opening and a horizontal engaging portion is filled with concrete.

Also, at least one concrete filling hole may be formed at a predetermined position of the horizontal joining portion of the fixed channel between the step (d) and the step (e) to fill the concrete with the concrete filling hole. To provide a method of reinforcing the openings.

In addition, in the step (a), the horizontal joining portion of the fixed channel is formed with a widened portion having a shape widened inwardly of a predetermined length at both ends in the lengthwise direction, thereby providing a method of reinforcing an opening using the hinge brace structure.

The opening reinforcing structure using the hinge-type brace structure of the present invention and the opening reinforcement method using the hinge-type brace structure of the present invention are installed in a place where the stress of the opening portion of the existing building is concentrated, and generate horizontal resistance in the friction damper when receiving external stress such as compression or tensile, By damping the load, it is possible to secure the structural stability and usability of the structure. By inducing the deformation of the hinged diagonal member in the place where the compressive stress is concentrated, it absorbs the compressive stress, minimizes the stress concentrated on the column, So that the fixed channel is embedded in one side of the opening and fixed to the outer side of the opening to reinforce the cross section of the opening and to increase the clamping force to induce the two side shear so that the fixed channel is subjected to shear resistance So that shear strength and shear stiffness can be exerted. This has the effect of the increase may be effective, and this due to the anchor to an efficient construction reduces interference with other members such as studs or halyeol bangjigeun obtain the concrete by reducing the depth to which the purchase.

In addition, a square reinforcing frame is formed in the opening, so that a window frame can be retained intact in the reinforcing frame or newly installed.

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.
1 is a view schematically showing an opening reinforcing structure using a hinge-type brace structure of the present invention.
2 is a perspective view of a fixed channel of the present invention.
3 is a cross-sectional view taken along line AA of FIG.
4 is a perspective view of the hinge-type brace structure of the present invention.
5 is a perspective view of a modified embodiment of the brace of the present invention.
FIG. 6 is a front view and a cross-sectional view showing a method of reinforcing an opening using the hinge-type brace structure of the present invention according to the order of construction.
FIG. 7 is a side view of an embodiment in which a reinforcing structure of a conventional column inside 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.

1 is a view schematically showing an opening reinforcing structure using a hinge-type brace structure of the present invention.

As shown in FIG. 1, the opening reinforcing structure using the hinge-type brace structure of the present invention reinforces an opening made up of the column 8 and the beam or slab 9 for reinforcement of existing RC structures such as schools, The fixing channel 40 is formed on the outer surface of the fixed channel 40 and the hinge-type brace structure 1 is coupled to the central portion.

When the stress F such as earthquake is generated, the hinge-type brace structure 1 is provided with the fixing channel 40 in the opening portion, and friction of the brace 30 formed at each corner of the reinforcing frame 10 The frictional resistance is generated in the damper 50 and the horizontal load is damped by using the frictional resistance so as to ensure the structural stability and usability of the structure. The fixed channel 40 receives the shear resistance, And the shear stiffness can be exerted to effectively increase the shear reinforcement effect.

FIG. 2 is a perspective view of a fixed channel of the present invention, and FIG. 3 is a sectional view taken along line A-A of FIG.

2A, the fixed channel 40 is a channel shape having a generally U-shaped cross section and includes a horizontal coupling portion 41 and a vertical coupling portion 42 extending in the vertical direction at both ends in the width direction of the horizontal coupling portion, Anchor holes 411 are formed in the horizontal joint portion 41 at regular intervals in the longitudinal direction so that the anchor bolts can be easily engaged.

The fixed channel 40 includes a horizontal coupling portion 41 and a vertical coupling portion 42 extending in the vertical direction at both ends in the width direction of the horizontal coupling portion 41 to form a fixed channel 40 having a U- An end portion of the vertical coupling portion 42 is inserted at a predetermined depth from the outer side of the opening portion and is coupled to the outer side surface of the opening portion by using the anchor bolt to reinforce the outer side surfaces of the rectangular opening portion with the fixed channel 40, (40) is provided in a quadrangular frame shape.

The fixed channel 40 is provided on the outer surface of the opening so as to reinforce the end face of the opening portion so that one side of the vertical coupling portion 42 is embedded and fixed to increase the axial end face of the anchor bolt 44, The anchor bolt 44 can be formed on the outer side surface of the opening portion 42. [0053] In addition, since the anchor bolt 44 is formed on the outer surface of the opening portion, It reduces the depth embedded in the concrete to reduce the interference with other members such as the inner studs and the reinforcement bar so that efficient construction can be done.

At this time, in the fixed channel 40, the end portion of the vertical coupling portion 42 is inserted at a predetermined depth in a state where the outer surface of the opening portion and the lower surface of the horizontal coupling portion 41 are spaced apart from each other by a predetermined distance, And the concrete C is filled in the space between the outer surface of the opening portion and the horizontal joining portion 41 to fill the space between the fixing channel 40 and the outer surface of the opening portion to further reinforce the outer surface of the opening portion .

Particularly, as shown in FIG. 2B, the horizontal coupling portion 41 of the fixed channel 40 has a wider portion 41a widened inwardly of a predetermined length at both ends in the longitudinal direction, So that the fastening force of the anchor bolt 44 can be increased to induce the two sheave front ends.

2B, when the wider portion 41a is formed in the horizontal joining portion 41, the vertical joining portion 42 extends in the vertical direction at the widthwise end of the horizontal joining portion 41, The widths of the vertical engagement portions 42 of the end portions are differently formed.

The widened portion 41a is formed in a widened shape extending from both end portions in the longitudinal direction of the horizontal joining portion 41 to a predetermined length inwardly. The widened portion 41a is provided with a corner angle 32, The wider portion 41a may be formed only at a portion where the corner angle 32 is joined to widen the bonding area.

4 is a perspective view of the hinge-type brace structure of the present invention.

4, the hinge-type brace structure 1 of the present invention includes a reinforcing frame 10 formed in a frame shape made of H-shaped steel at the central portion thereof, a support angle 10 And one end of which is hinged to the supporting angle 20 and the other end of which is connected to an opening made up of the column 8 and the beam or slab 9 so that the brace 30 is bent in each oblique direction of the framed reinforcing frame 10 And is joined to the inner edge of the opening to share the compressive force. That is, when the external stress is applied, the stress is generated in the friction damper 50 of the brace 30 to damp the horizontal load to ensure the structural stability and usability of the structure.

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 being economical. 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 in the frame shape of the quadrangular frame, the supporting angle 20 having the LZ section is formed to join the braces 30 to the respective outer edges to facilitate the coupling. The supporting angle 20 and the edge of the reinforcing frame 10 can be joined by various known methods such as welding or bolting. The reinforcing frame 10 formed of the supporting angle 20 and the H- A separate coupling plate may be attached to facilitate coupling.

Since the reinforcement frame 10 is coupled to form a quadrangular frame by using H-shaped steel, a plate-like plate or a plate-like plate is provided on each inner edge of the reinforcement frame 10 to connect the vertical surface and the horizontal plane of the reinforcement frame 10 It is possible to combine the reinforcing members 12 having various shapes made of steel, such as bent pipes, to reinforce the corner portions.

The support angle 20 has a main body 21 having a lance section and a coupling piece 22 in an oblique direction at an outer edge of the main body 21. The coupling piece 22 is hinge- Therefore, two holes are formed parallel to the outer edge of the main body 21 by passing through the coupling hole 221.

The braces 30 are hingedly connected by a diagonal line at the foot angle 20. [

The brace 30 is made up of a link 33 made of a plate-like or rectangular steel plate-like steel material and a corner angle 32 joined to the other end surface of the link. At one end of the link 33, a coupling hole 311 is formed so as to be hinged to the supporting angle 20. One end of the link 33 is inserted between the engaging pieces 22 and 22 of the supporting angle 20 so that the engaging hole 221 of the engaging piece 22 and the engaging hole 311 of the link 33 And are hinged to each other by fixing means 23 such as a bolt.

A corner angle 32 is coupled to the other end of the link 33, which is coupled to the corner of the opening formed by the column c of the building and the beam or slab.

That is, when the hinge-type brace structure 1 of the present invention is installed in the opening of the building, the reinforcing frame 10 is located at the center and the corner angles 32 of the braces 30 are coupled to the corners at inner corners of the opening .

Since the corner angle 32 is connected to the corner of the opening of the building made up of the column and the beam or slab by an anchor or the like, the corner angle 32, which is coupled with the corner of the opening, And coupling. At this time, a plurality of anchor coupling holes 323 may be formed in the corner angle 32.

At this time, a frictional damper 50 is provided between the engaging piece 22 and the link 31 to attain structural stability and usability of the structure by attenuating the horizontal load using frictional resistance.

The friction damper 50 is made of a friction pad 51 made of stainless steel or the like and a friction plate 52 made of stainless steel formed on both sides of the friction pad 51 so that the engagement hole 53 can be made to pass through So,

A frictional resistance is generated between the friction pad 51 and the friction plate 52 when the link 31 rotates at the engagement piece 22. [

In particular, the friction pad 51 may be made of highly damped rubber to effectively absorb vibration energy.

The link 33 of the brace 30 is formed such that the cross section of the brace 30 gradually increases in size from the supporting angle 20 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 So that when the building is subjected to external stress such as compression, the link 33 is plastically deformed to absorb the stress.

Particularly, the firing can be guided through the firing induction hole 331 in the link 33.

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 such as a steel having an asymmetric cross-section may be used.

5 is a perspective view of an alternative embodiment of the brace 30 of the present invention.

5, the link 33 of the brace 30 may be formed of a pair of plates 33a, 33b having two plate-like plates arranged parallel to each other. A separate anti-buckling plate 34 may be provided so as to interconnect the plates 33a and 33b in the vertical direction so as to prevent buckling of the brace 30 to resist the out-of-plane direction.

6 is a view showing an opening reinforcement method using the hinge-type brace structure of the present invention according to the order of construction.

In the opening reinforcing method using the hinge-type brace structure of the present invention, the hinge-type brace structure 1 and the fixing channel 40 are prepared in advance (a).

Since the hinge-type brace structure 1 and the fixed channel 40 have been described in detail above, the description thereof will be omitted.

Thereafter, as shown in FIG. 6A, the anchor holes 71 and the fixing holes 72 are formed on the outer surface of the opening portion (b).

The anchor holes 71 are formed in the outer surface of the opening portion at predetermined intervals so as to insert the anchor bolts 44 at the center in the width direction at regular intervals and are formed in the longitudinal direction on both sides in the width direction centering on the anchor holes 71 The fixing port 72 having a certain depth is formed vertically.

The fixing port 72 is a portion to which a vertical coupling portion 42 of a fixed channel 40 to be described later is inserted and fixed so that the vertical coupling portion 42 can be vertically drawn. When the wider portion 41a is formed in the fixing portion 71, the width of the fixing portion 71 may be different from that of the fixing portion 71 in the longitudinal direction center portion and the longitudinal direction opposite ends.

Particularly, the fixed channel 40 may be formed such that the end portion of the vertical coupling portion 42 is inserted at a certain depth in a state where the outer surface of the opening portion and the lower surface of the horizontal coupling portion 41 are spaced apart from each other by a predetermined distance.

6B, a filler 7 such as various injection materials is injected into the anchor hole 71 and the fixing hole 72 (c).

The filler 7 is injected to fix the anchor bolt 44 and the fixed channel 40 to be described later.

6C, the fixing channel 40 is inserted into the fixing hole 72 at the end of the vertical coupling part 42 and the anchor bolt 44 is inserted into the anchor hole 71, Thereby fixing the fixed channel 40 (FIG.

Since the anchor bolts 44 can be used in various types of anchor bolts and must be assembled to the anchor holes 71 in the spherical concrete, which is the outer surface of the opening, it is preferable to use a bonded anchor or an expansion anchor ) Should be used.

As the expansion anchor, a sleeve anchor, a shell expansion anchor, a wedge anchor, a rock / concrete expansion anchor, a drop in anchor, a sleeve anchor, a sleeve anchor, , Self drilling anchors, stud anchors, undercut anchors, and so on.

Since the fixed channel 40 has been described above in detail, a detailed description thereof will be omitted.

When the end of the vertical engaging portion 42 is inserted at a predetermined depth in a state where the outer surface of the opening portion and the lower surface of the horizontal engaging portion 41 are spaced from each other by a predetermined distance, So that the space between the engaging portions 41 is filled with the concrete C.

In filling the concrete C, at least one concrete filling hole 412 is formed at a predetermined position of the horizontal joining portion 41 of the fixed channel 40 so that the concrete C ) May be injected to facilitate charging.

Finally, as shown in FIG. 6D, the corner angle 32 of the brace 30 is engaged with the anchor bolt 44, so that the hinge brace structure 1 is installed in the opening to reinforce the opening (e).

The opening reinforcing structure using the hinge-type brace structure according to the present invention and the opening reinforcing method using the hinge-type brace structure according to the present invention are installed at the places where the stresses of the openings of the existing building are concentrated. When the external stress such as compression or tensile is applied, , The structural stability and usability of the structure can be ensured by damping the horizontal load, and by inducing the deformation of the hinged diagonal member in the place where the compressive stress is concentrated, the stress concentrated on the column is minimized by absorbing the compressive stress There is a very useful effect that can induce the structural stability. In addition, one side of the fixed channel is fixed to the outer side of the opening to reinforce the cross section of the opening, and the clamping force is increased to induce the two side shear, Shear resistance and high shear strength and shear stiffness And there is an effect that enables an efficient construction and can increase the shear reinforcing effect effectively, which results obtain by decreasing the depth to which the anchor is embedded by reducing interference with other members such as a stud or a Concrete halyeol bangjigeun.

In addition, a square reinforcing frame is formed in the opening, so that a window frame can be retained intact in the reinforcing frame or newly installed.

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: Hinge brace structure
10: reinforcement frame
11: Internal space
12: reinforcing member
20: Elastic pad
30: Brace
31: Base angle
32: Corner angle
33: Link
40: Fixed channel
50: Friction damper
51: Friction pad
52: Friction plate

Claims (19)

In the reinforcing structure of the openings made up of the columns (8) and the beams or slabs (9)
A horizontal coupling portion 41 in which anchor holes 411 are formed at regular intervals in the longitudinal direction and a vertical coupling portion 42 extending in the vertical direction at both ends in the width direction of the horizontal coupling portion, (40) is inserted into the outer surface of the opening portion with an end portion of the vertical engaging portion (42)
A reinforcing frame 10 made of H-shaped steel and formed into a square frame shape; A supporting angle 20 in which engaging pieces 22 and 22 having an engaging hole 221 formed in a central portion in an oblique direction at an outer edge of the main body 21 are coupled in parallel to each other, ; A link 31 formed of a steel material and having a coupling hole 311 at one end thereof and a vertical plane 321 and a horizontal plane 322 and has an inner edge joined to the other end of the link 31 A brace 30 composed of a corner angle 32 and one end of the link 31 hinged to the engaging piece 22 of the supporting angle 20 with the fixing means 23; The engagement hole 53 is formed at the center of the frictional pad 51 and the frictional pad 51 formed on both sides of the friction pad 51 so that the engagement piece 22 and the link 31 And a friction damper (50) sandwiched and coupled between the hinge brace structure (1)
And the corner angle (32) of the diagonal member (30) is coupled to the anchor bolt (44) at the corner of the opening. The method according to claim 1,
Wherein the reinforcement member (12) is coupled to the inner edge of each reinforcing frame (10) so as to connect the vertical plane and the horizontal plane of the reinforcing frame (10). The method according to claim 1,
Wherein the link (33) of the brace (30) is a plate-like plate. The method according to claim 1,
Wherein the link (33) of the brace (30) has a pair of plates (33a, 33b) in the form of a plate parallel to each other. The method of claim 4,
And the link (33) is constituted by the buckling prevention plate (34) so as to interconnect the pair of plates (33a) and (33b). The method according to claim 1,
Wherein the link (33) of the brace (30) is provided with a plurality of firing induction holes (331) through which the openings are reinforced. The method according to claim 1,
Wherein the friction pad (51) of the friction damper (50) is a highly damped rubber. The method according to claim 1,
The fixed channel 40 allows the end of the vertical coupling part 42 to be inserted at a certain depth in a state where the outer surface of the opening part and the lower surface of the horizontal coupling part 41 are spaced apart from each other by a predetermined distance,
And the concrete C is filled in the space between the outer side surface of the opening and the horizontal engaging portion 41. The opening reinforcing structure using the hinge brace structure. The method according to claim 1,
Characterized in that at least one concrete filling hole (412) is formed at a predetermined position of the horizontal joining portion (41) of the fixed channel (40). The method according to claim 1,
Wherein the horizontal joining portion (41) of the fixed channel (40) is formed with a wider portion (41a) having a widened width inwardly of a predetermined length at both longitudinal ends thereof. (a) a reinforcing frame 10 made of H-shaped steel and formed into a square frame shape; A supporting angle 20 in which engaging pieces 22 and 22 having an engaging hole 221 formed in a central portion in an oblique direction at an outer edge of the main body 21 are coupled in parallel to each other, ; A link 31 formed of a steel material and having a coupling hole 311 at one end thereof and a vertical plane 321 and a horizontal plane 322 and has an inner edge joined to the other end of the link 31 A brace 30 composed of a corner angle 32 and one end of the link 31 hinged to the engaging piece 22 of the supporting angle 20 with the fixing means 23; The engagement hole 53 is formed at the center of the frictional pad 51 and the frictional pad 51 formed on both sides of the friction pad 51 so that the engagement piece 22 and the link 31 And a friction damper 50 fitted and coupled between the horizontal coupling portion 41 and the horizontal coupling portion 41. The hinge-type brace structure 1 includes the horizontal coupling portion 41 having the anchor holes 411 formed at regular intervals in the longitudinal direction, And a vertical coupling part (42) extending in a direction perpendicular to the longitudinal direction of the fixed channel (40).
(b) The anchor holes 71 are drilled in the outer side surfaces of the openings at regular intervals in the center in the width direction, and the fixing holes 72 are formed at both sides in the width direction of the anchor holes 71, step;
(c) injecting filler (7) into anchor hole (71) and fixture (72);
(d) inserting the fixing channel 40 into the fixing hole 72 of the vertical coupling portion 42 and inserting and fixing the anchor bolt 44 into the anchor hole 71;
(e) joining the corner angle (32) of the brace (30) to the anchor bolt (44). The method of claim 11,
In step (a)
Wherein the link (33) of the brace (30) is a plate-like plate. The method of claim 11,
In step (a)
Wherein the link (33) of the brace (30) comprises a pair of plates (33a, 33b) in the form of a plate parallel to each other. The method of claim 11,
In step (a)
Wherein the link (33) comprises a buckling prevention plate (34) to interconnect the pair of plates (33a) (33b). The method of claim 11,
In step (a)
Wherein the link (33) of the brace (30) is provided with a plurality of firing induction holes (331) through which the openings are reinforced. The method of claim 11,
In step (a)
Wherein the friction pad (51) of the friction damper (50) is a highly damped rubber. The method of claim 11,
In step (d)
The fixed channel 40 allows the end of the vertical coupling part 42 to be inserted at a certain depth in a state where the outer surface of the opening part and the lower surface of the horizontal coupling part 41 are spaced apart from each other by a predetermined distance,
Between step (d) and step (e)
And the concrete C is filled in the space between the outer surface of the opening and the horizontal joining portion 41. The method of reinforcing an opening using a hinge brace structure according to claim 1, 18. The method of claim 17,
Between step (d) and step (e)
Wherein at least one concrete filling hole 412 is formed at a predetermined position of the horizontal joining portion 41 of the fixed channel 40 so as to fill the concrete C with the concrete filling hole 412. [ Opening Reinforcement Method Using Brace Structures. The method of claim 11,
In step (a)
Wherein the horizontal joining portion (41) of the fixed channel (40) is formed with a wider portion (41a) having a widened shape inwardly of a predetermined length at both longitudinal ends thereof.

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