KR101820628B1 - Seismic Retrofit Construction Method of Buildings and Seismic Retrofit Structure Manufactured by Such Method - Google Patents

Abstract

The present invention provides a seismic reinforcement construction method of a building, minimizing damage to columns and beams inside the building, which are applied as a lateral force resistant structure in seismic reinforcement, to minimize damage to the building in a case of occurrence of an earthquake by a seismic reinforcement structure installed to resist against earthquake force in the building and to keep human lives in the building safe while maintaining strength of an existing building; and a seismic reinforcement structure manufactured thereby. Accordingly, provided are excellent effects of allowing the building to effectively handle the damage from the earthquake, minimizing the damage to the building in a case of the occurrence of the earthquake by the seismic reinforcement structure installed in the building, and keeping the human lives inside the building safe. According to the present invention, the seismic reinforcement structure comprises both side column reinforcement bodies, a beam reinforcement body, and a slab reinforcement body.

Description

Technical Field [0001] The present invention relates to a seismic retrofit construction method and a seismic retrofit structure manufactured by the method,

The present invention relates to a seismic strengthening construction method for a building and a seismic reinforcement structure manufactured by the method. More specifically, the present invention minimizes damages to columns and beams in a building, which acts as a lateral force- A seismic retrofitting structure constructed by reinforcing the seismic force in the building while maintaining the strength of the building, minimizing damage to the building when an earthquake occurs, To an earthquake-proof reinforcement structure.

Generally, openings such as windows and doors are installed in a building to provide a view to the occupants and to make the occupant's life more comfortable. A hole or void space of a predetermined size or more is secured in the opening, , Aluminum chassis and so on.

However, these openings are known to have a higher stress concentration in buildings than other parts, and in particular, it has been found that openings are very vulnerable to earthquakes in the event of an earthquake.

Furthermore, in the case of a reinforced concrete building completed before 1989, when seismic design criteria were established, seismic performance is not sufficient, and structural damage caused by openings can cause great damage in case of earthquake.

In order to minimize human and material damage from these earthquakes, diverse vibration suppression devices are installed in openings of buildings, structural members such as columns and beams, and seismic strengthening methods using such vibration suppression devices are currently being applied to new construction and remodeling works It is generally used.

The damper is provided with a braced damper in a diagonal direction on the opening frame which is a structural member, and minimizes building damage by reducing the kinetic energy for reducing the seismic deformation response of the building by the firing hysteresis behavior and damping during repeated earthquake loading .

However, such a general vibration damping device requires, firstly, a structural member (for supporting a damper) having a large rigidity such as a column or a beam for installing a damper, which is not only difficult to construct but also requires a separate installation space Second, it is difficult to install a vibration suppression system because it is difficult to secure a separate installation space for a damper, and it is not economically feasible to install a reinforced concrete building in a low-rise building, Third, in particular, when a brace type damper is installed, the visibility of the opening is obscured to deteriorate the livability and deteriorate the appearance of the building.

In order to solve such a problem, Patent No. 10-1165320 has proposed a patent named 'Seismic Retrofit Method for Reinforced Concrete Building Openings', which patent is related to a vertical column, an upper layer and a lower layer slab, 1A, a quadrangular-shaped steel frame 210 is installed inside the opening, and the lower part of the steel frame is fixed to the lower slab 140 by a fixture 220, And the upper surface of the steel frame 210 is supported by the upper slab or beam. The steel frame 210 is supported at both ends between the vertical columns 120, An upper steel frame 211 installed to support the upper surface of the upper slab or the lower surface of the beam; A pair of vertical steel frames 212 spaced apart from both vertical columns and extending downward from an upper steel bottom; A lower steel frame 213 connected to the lower vertical steel frame so as to be fixed to the lower slab by a fixture; And a braced steel frame 214 installed on the inner lower portion of the vertical steel frame and on the upper portion of the lower steel frame. However, the above method has been proposed in order to reinforce the opening seam reinforcement of the reinforced concrete building, And the beams 130 and the upper and lower slabs 110 and 140 so as to be fixed without moving the steel frame 210. The anchor bolts 150 are vertically spaced apart from each other by a plurality of anchor bolts 150 The anchor bolts 150 are fixed to the vertical columns 120 and the beams 130 while the vertical columns 120 and the beams 130 are collided with reinforcing bars installed inside the beams 130, The vertical pillars 120 and the beams 130 are damaged when the anchor bolts 150 are fixed to the vertical pillars 120 and the beams 130. This results in a problem that the lifetime of the building is remarkably shortened Especially 20 Vertical post 120 and the beam 130 of the above structure is easily damaged since the store impacts rather there is a problem in that thereby more shorten the service life than the design.

Particularly, since the anchor bolt 150 is installed inside the vertical column 120 and the beam 130 of the building through the H beams such as the upper steel frame 211 and the vertical steel frame 212, There is a problem that the anchor bolt 150 is very difficult to install.

1B and 1C, the method further comprises a step of forming a beam of the bolt head protrusion 251a by the connecting coupling piece 251 in the middle of the upper steel frame 211 and the lower steel frame connected to each other by the H beams 130, a styrofoam blocking agent 251b is inserted in front of and behind the upper steel frame 211 to block the leakage of the epoxy resin when the epoxy resin (E) is bonded to fill the gap between the epoxy resin However, since the amount of the epoxy resin is reduced by the width of the styrofoam blocking agent 251b, the effect of bonding is reduced to half. When a gap is formed between the epoxy resins, the epoxy resin E flows down There is a problem that an expensive epoxy resin is wasted.

10-1165320

An object of the present invention is to solve such a problem, and it is an object of the present invention to solve the above-mentioned problems, and to provide a seismic resistant structure having a structure resistant to seismic forces, The present invention also provides an earthquake-proof reinforcement construction method of a building that minimizes damage to a building when an earthquake occurs due to the reinforcement structure and safely maintains the life in the building, and an earthquake-proof reinforcement structure of the building manufactured by the method.

This object of the present invention is attained by a structure in which a structure including an H-shaped section cut into pieces to be installed in a window of a building is carried in, a reinforcing body including a H-shaped steel is connected with a bolt, A step of welding the unit reinforcing member assembled in this way to an opening where reinforcement of a building is required; and a step of fixing the anchor fixing hole A step of drilling the concrete across the existing reinforced concrete beam and the reinforcing bars in the column so as not to interfere with the sides of the beams and pillars which are not in contact with the H-shaped steel of the reinforcing body, A step in which the reinforcing plate is welded to both ends of the edge surface of the reinforcing member after the holes are superimposed on each other, A step of inserting an anchor bolt on the reinforcing body and the reinforcing body so that the reinforcing body is not released to the outside of the opening face of the structure made up of the pillar and the beam and the step of injecting epoxy into the gap where the reinforcing body and the pillar, And a step of injecting epoxy into the gap in the stopper to fix the reinforcing member and the pillars and the beams of the building to prevent the damage of the building from being damaged. It is accomplished by the seismic retrofitting method.

The above object of the present invention is achieved by a stiffener according to the present invention comprises a double column reinforcing body provided on a column, a beam and a slab and having a connecting portion formed in the middle thereof, a beam strengthening body and a slab reinforcing body, And an anchor bolt fixing hole formed in the beam and the pillar so as to penetrate through the width of the beam and the pillar, and an anchor bolt fixing hole communicating with the hole for fixing the anchor bolt, And anchor bolts for fixing the reinforcement members or the column reinforcement members to the ankle bolt fixing holes and the fixing holes through the anchor bolt fixing holes and the fixing holes, And an epoxy stopper which is fixed on an upper edge surface formed in the middle of the reinforcement member and to which the epoxy is filled, Containing the epoxy adhesive layer is achieved by the earthquake-proof reinforcement structure of the building according to the invention.

The seismic retrofitting method of a building according to the present invention and the seismic retrofitting structure of a building manufactured by the method include the steps of bringing a structure including an H-shaped steel piece cut into pieces to be installed in a window of a building, Assembling a necessary reinforcing body with a bolt and joining a part of the existing building to be in contact with the beam without using a bolt by welding, installing the reinforcing body thus assembled in an opening where building reinforcement is required, A step of drilling through the hole for fixing the anchor to prevent the reinforcing member from interfering with the reinforcement of the beam and the column so as to securely fix the reinforcing member to the installed opening, and a step of reinforcing the reinforcing plate in which the anchor fixing hole is formed, And anchoring bolts are inserted into the fixing holes of the attached reinforcing plate, A step of inserting an epoxy into the upper end of the reinforcing member fixed to the opening and attaching a stopper for preventing an epoxy leakage to fix the reinforcing member and the beam; And the step of fixing the reinforcing member and the beam of the building by the curing epoxy adhesive layer while the epoxy is cured, thereby minimizing the damage to the pillars and beams supporting the building, Since the columns and beams and reinforcements of the building are strongly adhered by the epoxy resin, the ability to resist the seismic force is greatly improved, so that the structure can effectively cope with the damage from the earthquake, and the seismic reinforcement structure Minimize damage to buildings in the event of It said there is a good effect to secure lives in the building.

Figs. 1A, 1B, and 1C are a perspective view schematically showing a state in which a conventional building has an earthquake-proof structure, a front view of the reinforcement, and a longitudinal section of the reinforcement taken along line II
Fig. 2 is a process chart of a seismic retrofitting method of a building of the present invention
3 is a schematic front view of an anti-seizure structure of a building according to a first embodiment of the present invention
4 is a schematic front view of a reinforcing member of a seismic reinforcing structure of a building according to a first embodiment of the present invention
5 is a schematic longitudinal section view of a reinforcement taken along line II-II in Fig. 3
Fig. 6 is a schematic longitudinal sectional view of the reinforcing member taken along line III-III in Fig. 3
Fig. 7 is a schematic exploded perspective view of a reinforcing member of a seismic reinforcing structure of a building
Fig. 8 is a schematic longitudinal sectional view of a reinforcement taken along the line IV-IV in Fig. 4
9A and 9B are front views of a seismic strengthening structure of a building according to another embodiment of the present invention

As shown in FIG. 2, the method of the present invention is a method of cutting an H-shaped steel according to a portion to be installed in an opening of a building, and using a bolt A step of forming a unit reinforcing body by welding so as to form a unit reinforcing body; a step of fitting the reinforcing body assembled with the unit reinforcing body to the inside of the opening formed of a column and a beam requiring reinforcement of the building; A step of drilling the concrete so as not to interfere with the reinforcing bars on the sides of the beam and the pillar which do not contact the H-shaped steel of the reinforcing member, and the step of piercing the anchor fixing hole with the perforated portion A step in which a reinforcing plate in which a fixing hole is formed is welded to both ends of the edge surface of the reinforcing member after the holes are superimposed on each other, A step of inserting an anchor bolt into the fixing hole of the plate to firmly fix the reinforcement member so as not to be released to the outside of the opening face made of the beam and the column; and a step of injecting epoxy into the gap where the reinforcing member and the pole, A step of attaching a stopper 5 for preventing an epoxy leakage to fix the body, a column and a beam, and a step of injecting the epoxy into a gap in the epoxy leakage preventing stopper 5 to fix the reinforcement to the column and the beam of the building In the step of forming the reinforcing member, the reinforcing member is welded to the H-shaped steel so as to be assembled with the unit reinforcing member in the shape of a letter, and is transported to the site. At the site, the end of the reinforcing member The whole reinforcements are made in the same rectangular shape as the openings to be reinforced by connecting the parts to each other through the connecting reinforcing members, And joining the connecting reinforcing member connecting portion to the edge surface of the reinforcing member which can contact the upper surface of the reinforcing member by welding without using a bolt.

The reinforcing member is connected to the upper portion of the upper portion of the connection reinforcing member by a connection reinforcing member at a middle portion of the reinforcing member spaced apart from each other, Is welded by a bolt without using a bolt.

As shown in Fig. 3, the seismic-strengthening structure A of the building according to the first embodiment of the present invention is a space composed of a column G1, a beam G2 and a slab G3 of a building G (EN) A seismic reinforcing structure (A) for a building is provided inside an opening (G0) requiring reinforcement. The seismic reinforcing structure (A) of the building comprises a reinforcement body (1), a double - column reinforcing body (1 ') and a slab reinforcement body .

As shown in FIG. 9A, it is easy to carry in the field and can be reinforced only by the H-shaped steel, as shown in FIG. 9A, and may be joined in a 'C' shape so that there is no joint part in the middle of the column. The reinforcement plate 14 may be welded to both side surfaces of the reinforcement main body 11 of the H-shaped section, or a square pipe steel may be used.

(A) of the building according to the first embodiment of the present invention is characterized in that the reinforcing member (1, 1, 1 ") is made of H-shaped steel and is hereinafter referred to as reinforcing member And the seismic strengthening structure A of the building is installed and welded in a rectangular shape so as to be installed inside the opening G0 and is disposed in the opening G0.

The reinforcing member 1 is assembled with a bending reinforcement member 1a in a state in which the H-shaped steel is assembled in a form of a fixing bolt or welding and is transported to the site. The bending reinforcement member 1, which is provided at the corner of the opening G0, And the upper horizontal reinforcing surface facing the opening G0 of the bending reinforcing member 1a connected to the connection fixing portion 15 (11a) has a structure in which welding is performed without using a bolt.

A connection fixing part 15 is formed in the middle of the reinforcing member 1 to connect and fix the reinforcing member 1 disconnected from each other as shown in FIG. The connection fixing part 15 is fixed to the intermediate and lower horizontal reinforcing faces of the reinforcing member 1 which are in contact with each other so as to connect the reinforcing members 1 to each other with the fixing plate 151, the fixing bolts 152 and the nuts 153 11a '.

Since two reinforcing main bodies 11 such as H-shaped steel are connected and fixed by the fixing plate 151 and the fixing bolts 152, a plurality of short-length H-shaped steel pipes can be used Therefore, it becomes possible to recycle.

4 and 8, the upper horizontal reinforcing face 11a facing the opening G0 of the reinforcing body 1 is formed at the edge of the horizontal reinforcing face 11a of the one reinforcing body 1, And a supporting thin plate 11b is disposed on the bottom surface of the horizontally reinforcing surface 11a of the opposed reinforcing member 1 so as to prevent the molten member from leaking to the lower portion, The welded portion 11c can be formed up to substantially the same level as the height between the support thin plate 11b and the horizontal reinforcing surface 11a so that the flattened state can be maintained without any excessively protruded portion. The upper horizontal reinforcing surface 11a opposed to the opening G0 has a structure in which a protrusion such as the fixing bolt 152 and the nut 153 formed on the lower surface of the reinforcing member 1 is not formed.

The seismic reinforcing structure A of the building formed in the longitudinal direction including the reinforcing member 1, the column reinforcing member 1 ', and the slab reinforcing member 1 " thus formed is the same as that shown in Fig. 3 Are arranged on the installation space of the opening G0 defined by the column G1 and the beam G2 of the building G and the slab G3.

As shown in Fig. 3, the seismic strengthening structure A of the building according to the first embodiment of the present invention is constructed in such a manner that an opening G0 such as the column G1 and the beam G2 of the building G, A reinforcing main body 11 provided with welded horizontally reinforced surfaces 11a and an anchor bolt fixing hole 12 formed in the side of the beam and the column which are not attached by epoxy of the beam G2 and the column G1, A fixing hole 31 is formed so as to be connected to the anchor bolt fixing hole 2 so that the anchor bolt is fixed and the reinforcing main body 11 of the bolster reinforcing member 1 and the column reinforcing member 1 ' A reinforcing plate 3 attached to both side surfaces of the anchor bolt fixing hole 1 and the anchor bolt fixing hole 2 and the fixing hole 31 to fix the reinforcing member 1 or the pillar reinforcing member 1 ' And an epoxy bolt 4 fixed longitudinally to an edge surface 11ab of an upper horizontal reinforcing surface 11a formed between the reinforcing main body 11 of the reinforcement member 1 and an epoxy- And a leak-proof stopper (5).

A supporting cross bar 6 and a cross bar support 61 for preventing deformation of the column reinforcing member 1 'are provided between the column reinforcing members 1' on both sides, A structure for reinforcing the strength of an anti-seismic reinforcement structure (A) of a building according to the present invention, while having a structure capable of preventing deformation of the seismic reinforcement structure (A) .

The beam reinforcing member 1, the column reinforcing member 1 'and the slab reinforcing member 1 "are used by connecting the middle of the same H beam. In this embodiment, The structure of the reinforcement member 1 is considered to be explained only with respect to the structure of the reinforcement member 1. [

However, the present invention is not limited to this. In order to reinforce the strength of the reinforcement member 1, as shown in Fig. 9B , It will be appreciated that the reinforcing plate 14 may be welded to both sides of the H-shaped beam strengthening main body 11 or a square pipe steel or similar structure may be used although not shown.

As shown in Fig. 3, the seismic reinforcing structure A of the building including the above-described reinforcing member 1, the pillar reinforcing member 1 'and the slab reinforcing member 1 " Is disposed on the installation space of the column G1 and the opening G0 defined by the beam G2 and the slab G3.

The upper horizontal reinforcing surface 11a of the reinforcing main body 11 and the beam G2 of the building G are spaced apart from each other and the seismic reinforcing structure A of the building separated from the building G, Two or more holes 2 for fixing the anchor bolts are drilled in the side surface of the beam G2 of the building G so as to integrally join with the gates G. [

The reinforcing plate 3 on which the fixing holes 31 are formed is disposed on the side of the reinforcing plate 1 so that the fixing holes 31 are aligned with the holes 2 for fixing the anchor bolts drilled in the beams G2. Fix to both sides.

The chemical liquid is injected into the fixing hole 31 of the reinforcing plate 3 of the reinforcing plate 3 with the reinforcing plate 3 fixed thereon so as to surround the beam G2 to insert the anchor bolt 4 When the anchor bolts 4 are fixed, the seismic reinforcing structure A of the building of the present invention is securely fixed on the beams G2 and the columns G1 of the building G without movement.

The horizontal reinforcing surface 11a of the reinforcing main body 11 and the beam G2 of the building are spaced apart from each other. The spaced space is filled with a gel-type epoxy resin and cured to improve the bonding strength .

8, the stopper 5, which is bent upward in front of and behind the upper horizontal reinforcing face 11a, is positioned before and after the edge face 11ab of the horizontal reinforcing face 11a, And the epoxy resin E is filled in the upper portion of the upper horizontal reinforcing surface 11a defined by the stopper 5, the filled epoxy resin is filled in the space defined by the stopper 5.

The epoxy resin is filled in the space of the stopper 5 by connecting an inflow hose 51 having a small leak hole formed at the lower end of the stopper 5 to introduce the epoxy resin into the upper end of the stopper 5, 52 is connected to the outlet hose 52. When the epoxy resin flows through the outflow hose 52, the filling of the space defined by the stopper 5 is completed and the epoxy resin is injected and cured by stopping the filling of the epoxy, The adhesive layer E is formed and cured in a space between the reinforcing member 1 and the beam G2 of the building G to integrally bond the reinforcing member 1 and the beam G2 of the building G It is fixed without movement.

The cured epoxy adhesive layer (E) cured in the space between the reinforcement member (1) and the beam (G2) of the building (G) has a bonding strength ten times or more higher than that of the concrete, Is installed in the installation space of the building (G).

The filling of the epoxy resin is a filling of a space between the reinforcing member 1 and the beam G2 of the building G. The filling of the space between the reinforcing member 1 and the column G1 of the building G 3, a stopper 5 extending in the longitudinal direction is fixed between the column G1 and the reinforcing member 1, and a partition is provided at a predetermined height to connect the inflow hose from the lower portion to the epoxy resin And the injection of the epoxy resin is interrupted when the epoxy resin flows out by connecting the outflow hose to the upper part of the structure G. In this way, a cured epoxy adhesive layer is formed between the reinforcing member 1 and the column G1 of the building G, Is formed.

As described above, the seismic retrofitting work of the building according to the present invention and the seismic retrofitting structure of the building manufactured by the method have the structure including the H-shaped steel cut to fit the part where the window of the building is installed, Assembling a reinforcing member requiring a connection such as a bolt, joining a portion of the existing building that is in contact with the beam with welding without using a bolt, and installing the reinforcing member thus assembled in an opening where reinforcement of the building is required And a step of drilling through the hole for fixing the anchor so as not to interfere with the reinforcing bars of the beam and the column to securely fix the hole for installing the reinforcing member in the opening, And a step of inserting an anchor bolt after injecting the chemical liquid onto the fixing hole of the attached reinforcing plate A step of preventing the epoxy reinforcement member from being released to the outside of the opening face made of the column and the beam and attaching the epoxy leakage preventing stopper for fixing the reinforcement member and the column and the beam by injecting epoxy into the upper end of the reinforcement member fixed to the opening And a step of injecting the epoxy into the stopper and fixing the reinforcing member and the pillars and beams of the building by the cured epoxy adhesive layer while the epoxy is cured. Thus, in order to fix the reinforcing member and the pillars and beams of the building with the anchor, The existing columns and beams are reinforced by the epoxy resin while maintaining the strength of the existing building by minimizing the damage to the existing pillars and beams by placing an excessive number of anchor holes in the pillars and beams supporting the building. The ability to resist seismic forces is greatly enhanced by being bonded. The structure can effectively cope with the damage from the earthquake, and the damage to the building can be minimized when the earthquake occurs by the earthquake-proof reinforcement structure installed in the building, thereby safely protecting the life in the building safely.

The seismic strengthening construction method of a building according to the present invention and the seismic reinforcement structure of a building manufactured by the method can repeatedly perform the same method repeatedly in the field of general construction work, This is an invention that is industrially applicable.

A: Seismic strengthening structure G: Building
G0: opening G1: column
G2: beam E: cured epoxy bonding layer
1: Reinforcing body 2: Anchor bolt fixing hole
3: reinforcement plate 4: anchor bolt
5: Stopper 11: H-shaped steel reinforcement body
14: reinforcing plate 15: connection fixing part
31: Fixed ball

Claims (6)

In the seismic retrofitting construction method of a building,
A method of constructing an earthquake-
A step of cutting the H-shaped steel to fit the part to be installed in the opening of the building, and joining the part of the building opposite to the column and the beam by welding without using a bolt to form a unit reinforcing body,
Installing a reinforcing member assembled with a unit reinforcement member inside an opening formed of a column and a beam requiring reinforcement of a building;
Drilling the concrete so as not to interfere with the reinforcing bars on the side surfaces of the beam and the column that do not contact the H-shaped steel of the reinforcing member, so that the reinforcing member is securely fixed to the opening made up of the column and the beam;
A step in which a reinforcing plate in which a hole for fixing the anchor fixing hole and a fixing hole penetrating therethrough is welded on both ends of the edge surface of the reinforcing member after the holes are overlapped with each other,
Inserting an anchor bolt into the fixing hole of the attached reinforcing plate to firmly fix the reinforcing member so as not to be detached outside the opening face made of the beam and the column,
Attaching a stopper (5) for preventing an epoxy leakage to fix the reinforcing member, the column, and the beam by injecting epoxy into a gap where the reinforcing member and the column contact each other,
The epoxy is injected into the gap in the epoxy leakage preventing stopper 5 to fix the reinforcing member to the column and the beam of the building,
In the step of forming the reinforcing member, the reinforcing member is welded to the H-shaped steel to be assembled with the unit reinforcing member in the shape of a letter, and is transported to the site. At the site, the end of the reinforcing member The reinforcing members are connected to each other by a connecting reinforcing member to form an overall rectangular reinforcing member having the same shape as the opening to be reinforced, Wherein the bolts are welded to each other without using bolts. In an earthquake-proof reinforcement structure (A) for a building,
An earthquake-proof reinforcement structure (A) of the building includes a reinforcement body (1) provided in an opening (G0) of a building (G)
On the adjoining surfaces of the reinforcing members (1) adjacent to each other, the connection fixing portions (15) are formed,
Anchor bolt fixing holes 2 are formed in the beams G2 and G1 of the opening G0 of the building G and on the sides of the beams G2 and G1 that are not attached by epoxy, ,
A reinforcing plate 3 communicating with the anchor bolt fixing hole 2 and formed with fixing holes 31 to fix the anchor bolts and attached to both sides of the reinforcing member 1,
Anchor bolts 4 passing through the holes 2 for fixing the anchor bolts and the fixing holes 31 to fix the reinforcing member 1 to the opening G0,
An epoxy leakage preventing stopper 5 fixed on the horizontal reinforcing face 11a of the reinforcing member 1 on the upper portion of the connection fixing portion 15 formed in the middle of the reinforcing member 1 and filled with epoxy,
And a cured epoxy bonding layer (E) in which the epoxy filled in the epoxy leakage preventing stopper (5) is hardened and the reinforcing body (1) and the opening (G0) of the building (G)
The upper horizontal reinforcing face 11a facing the opening G0 of the reinforcing body 1 on which the epoxy bonding layer E is formed is formed to have the same shape as the edge face 11a of the horizontal reinforcing face 11a of the one reinforcing body 1, The support thin plate 11b is disposed on the bottom surface of the horizontally reinforcing surface 11a of the opposed reinforcing member 1 so as to prevent the molten metal from leaking to the lower portion, And a welded portion (11c) is formed to the upper surface of the thin plate (11b) and the horizontal reinforcing surface (11a). delete delete 3. The method of claim 2,
A stopper 5 bent upward in front of and behind the upper horizontal reinforcing face 11a is attached to the front and rear faces of the horizontal reinforcing face 11a and an epoxy resin E is fixed to the upper horizontal reinforcing face (11a), the filled epoxy resin is filled in the space defined by the stopper (5). 3. The method of claim 2,
Characterized in that a reinforcement plate (14) is welded to both sides of the H-shaped reinforcement body (11) or a square pipe steel is used to reinforce the strength of the reinforcement body (1) .

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