KR100991851B1 - Earthquake retrofit structure for brick wall and construction method thereof - Google Patents

Abstract

PURPOSE: An earthquake-proof reinforcement structure for a masonry structure and a construction method thereof are provided to improve earthquake-resistance properties in repairing or remodeling construction without additional equipment. CONSTITUTION: An earthquake-proof reinforcement structure for a masonry structure comprises a stiffener(100), a frame(200), and frame fixing anchors(300). The stiffener is adhered to a brick wall(BW). The frame is adhered to the surface of the brick wall which is in contact with a column(C) and a beam(B). Multiple anchor holes are drilled in the frame. The frame fixing anchors fix the frame to the column, the beam, and the brick wall.

Description

Earthquake Retrofit Structure For Brick Wall And Construction Method Thereof}

The present invention is in the masonry tank formed of a brick wall surrounded by the frame, such as pillars and beams commonly used as a structure in the RC structure such as apartment houses, by using the reinforcement of the masonry tank to have a seismic performance by tightly binding the brick wall to the structure. It relates to a seismic reinforcement structure and its construction method.

In order to reduce the volume of structures in RC structures such as apartment houses, constructions using bearing walls have recently increased. However, in order to achieve flexibility, such as expansion of the interior space, construction of masonry tanks using brick walls with insulation materials installed between exterior bricks and internal bricks is being performed in parallel.

In the case of the masonry, the hollow is formed inside the brick wall because the insulating material is installed between the external brick and the internal brick.

Because of the hollow, the external brick, the internal brick and the heat insulating material behave independently because they are installed separately from each other.

Therefore, when a displacement such as horizontal load, ground subsidence or contraction expansion of a structure occurs such as an earthquake, there is a serious structural problem such as not only the crack of the brick wall but also the conduction of the brick wall itself.

For the above reasons, even in the case of a brick wall which is a non-structured structure, such as a column and a beam, it is required to secure structural stability that flexibly responds to external shocks such as earthquakes or displacement of the structure. In addition, in order to improve the seismic performance of existing structures, seismic reinforcement should be applied to walls as well as structural members such as beams and columns.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, it is to provide a seismic reinforcement structure and construction method of the masonry to integrally couple to the structure by tying and strengthening the outside and the inside of the brick wall.

Second, it is to provide seismic reinforcement structure and construction method of masonry to improve seismic performance of masonry by simply applying it without additional equipment in the construction or repair of existing buildings.

Third, since the standardized members are constructed by the industrialized binding method, an unskilled worker is to provide a seismic reinforcement structure of an excellent masonry structure and excellent construction method that can be installed quickly while maintaining a predetermined quality.

In order to solve the above technical problem, the present invention provides a masonry in which a brick wall (BW) surrounded by a column (C) and a beam (B) is formed.

Reinforcement 100 is attached to the brick wall (BW) in close contact with the brick wall (BW) to the contact surface in contact with the pillar (C) and the beam (B) in the building; A plurality of frames 200 in which the brick wall BW is installed in close contact with the contact surfaces contacting the pillars C and the beams B, and a plurality of anchor holes are drilled; And a plurality of frame fixing anchors 300 for fixing the frame 200 to the pillars C, the beams B, and the brick wall BW through the anchor holes. 200 provides the seismic reinforcement structure of the masonry nails, characterized in that the frame fixing anchor 300 is fixed to the brick wall (BW) while biting the reinforcing material (100).

In addition, the reinforcement 100 is fixed to the brick wall (BW) by a plurality of reinforcement fixing anchors 400 which are installed at a predetermined interval between each other; characterized in that it further comprises, or the reinforcement 100 is a linear member A grid is formed by arranging a plurality of grids so that they cross each other with two or more rows in a diagonal direction, which is a direction in which tensile stress is generated, in the brick wall BW, and the reinforcement fixing anchor 400 at the intersection of the grids. Characterized in that it is installed, the frame fixing anchor 300 and the reinforcement fixing anchor 400 for fixing the frame 200 of the frame fixing anchor 300 to the brick wall (BW) the brick wall (BW) It provides a seismic reinforcement structure of the masonry, characterized in that installed through.

In addition, in the method for constructing the seismic reinforcement structure of the masonry, (1) the drilling position of the anchor hole for installing the frame fixing anchor 300 in consideration of the reinforcement state of the column (C) and beam (B) And a preparation step of determining the installation position of the reinforcement 100; (2) reinforcing material attachment step of attaching the reinforcing material 100 to the brick wall (BW); (3) a frame anchor hole drilling step of drilling a plurality of anchor holes in the frame 200 in accordance with the drilling position of the anchor hole determined in the preparation step (1); And, (4) the frame fixing anchor installation step of installing the frame 200 by using the frame fixing anchor 300; provides a construction method of the seismic reinforcement structure of the masonry, comprising a.

According to the present invention, the following effects are expected.

First, it provides a seismic reinforcement structure and construction method of the masonry to integrally couple to the structure by tying and strengthening the outside and the inside of the brick wall.

Second, it provides seismic reinforcement structure and construction method of masonry to enhance seismic performance of masonry by simply applying it without additional equipment in the construction or repair of existing buildings.

Thirdly, since the standardized member is constructed by the industrialized binding method, it provides an economical and constructive seismic reinforcing structure and construction method thereof, in which unskilled workers can be quickly installed while maintaining a predetermined quality.

1 is a front view of the seismic reinforcing structure of the masonry of the present invention.
FIG. 2 is a cross-sectional view taken along line AA ′ in FIG. 1.
3 is a cross-sectional view taken along line BB ′ of FIG. 1.
4 is another embodiment of a frame of the present invention.
Figure 5 is a flow chart of the first embodiment in the construction method of the seismic reinforcement structure of the masonry of the present invention.
Figure 6 is a flow chart of the second embodiment and the third embodiment in the construction method of the seismic reinforcing structure of the masonry tank of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

One. Masonry  Seismic Reinforcement Structure

1 is a front view of the seismic reinforcing structure of the masonry tank of the present invention, Figure 2 is a cross-sectional view of AA 'in Figure 1, Figure 3 is a cross-sectional view of BB' in FIG.

The seismic reinforcing structure of the masonry tank of the present invention is a masonry tank formed with a brick wall (BW) surrounded by a column (C) and a beam (B),

Reinforcement 100 is attached to the brick wall (BW) in close contact with the brick wall (BW) to the contact surface in contact with the pillar (C) and the beam (B) in the building; A plurality of frames 200 in which the brick wall BW is installed in close contact with the contact surfaces contacting the pillars C and the beams B, and a plurality of anchor holes are drilled; And a plurality of frame fixing anchors 300 for fixing the frame 200 to the pillars C, the beams B, and the brick wall BW through the anchor holes. 200 is fixed to the brick wall (BW) with a frame fixing anchor 300 while biting the reinforcing material (100).

In addition, by fixing the reinforcement 100 to the brick wall (BW) a plurality of reinforcement fixing anchors 400 which are installed at a predetermined interval between each other; may further include,

The reinforcement 100 is formed as a linear member to form a grid by arranging a plurality of grids to cross each other by two or more rows in one unit diagonally in the direction in which the tensile stress occurs in the brick wall (BW) to form a grid (grid) of the grid Characterized in that the reinforcement fixing anchor 400 is installed at the intersection,

The frame fixing anchor 300 and the reinforcing member fixing anchor 400 is installed through the brick wall (BW), or is fixed to the filler without penetrating,

The frame 200 may include a main body 220 having a fixed slot 221 and an anchor slot 223, and a plurality of anchor holes 213 formed therein to support plates on which nuts are joined to some of the anchor holes 213. 210 is composed of the main body 220 and the support plate 210 are coupled to each other by a bolt,

The reinforcing material 100 may be sandwiched between the main body 220 and the support plate 210.

The reinforcing material 100 is in close contact with the brick wall (BW) such that the brick wall (BW) in the building to the contact surface contacting the pillar (C) and the beam (B) using a temporary adhesive to the main adhesive using an adhesive or the like. By attaching, it is possible to use a reinforcing fiber material such as carbon fiber (aramid fiber), aramid fiber (glass fiber sheet), which is used as a conventional reinforcement material, and if the durability and workability is guaranteed, also materials such as metal or synthetic resin Available.

The reinforcing material 100 is composed of a linear member such as a wire and arranged a plurality of so as to cross each other in a diagonal direction that is a direction in which the tensile stress occurs in the brick wall (BW) by one unit in a grid (grid) Forming and installing the stiffener fixing anchor 400 at the intersection of the grid is preferable when considering the structural performance and workability. Specifically, the reinforcement 100, which is the minimum linear member, may be installed in the longitudinal direction only in the direction in which the tensile stress occurs in the brick wall BW to prevent unnecessary waste of the reinforcement 100, and the reinforcement 100 crosses each other. Only by installing the reinforcement fixing anchor 400 to the point can further increase the performance of the reinforcement.

The frame 200 is formed with a plurality of anchor holes, the brick wall (BW) is in close contact with the contact surface contacting the pillar (C) and the beam (B) in the building is provided with a plurality. At this time, the frame 200 is fixed to the frame fixing anchor 300 to the brick wall (BW) while biting the reinforcing material (100).

In addition, the frame 200 has a main body 220 having a fixed slot 221 and an anchor slot 223 as shown in FIG. 4, and a plurality of anchor holes 213 are formed in a part of the anchor hole 213. Nut is composed of a support plate 210 is bonded to the main body 220 and the support plate 210 is coupled to each other by a bolt, the reinforcement 100 can be pinched between the main body 220 and the support plate 210 and binding force In order to increase the contact surface of the main body 220 and the support plate 210 can be roughly finished.

The frame fixing anchor 300 is fixed to the pillar (C), beam (B) and the brick wall (BW) by fixing the frame 200 through the anchor hole, a plurality of anchor bolts, anchor nuts and The concept includes a washer, etc.

The reinforcing member fixing anchor 400 is to fix the reinforcing material 100 to the brick wall (BW) is a plurality of mutually installed at a predetermined interval is a concept including an anchor bolt, an anchor nut and a washer, such as installation accessories.

The frame fixing anchor 300 and the reinforcing member fixing anchor 400 may be installed to penetrate the brick wall BW. In this case, the binding force between the reinforcing member 100 and the brick wall BW is further improved.

However, the method may expose the frame fixing anchor 300 and the reinforcement fixing anchor 400 to the exterior of the building, which may be aesthetic problem, in preparation for such a case, the frame fixing anchor 300 as shown in the bottom enlarged view of FIG. ) And the reinforcement fixing anchor 400 does not penetrate the external stucco bricks of the brick wall (BW) and adopts a chemical anchor method for fixing with fillers, while having excellent structural performance and fixing frame anchors 300 outside the building. The reinforcement fixing anchor 400 may not be exposed.

2. Masonry  Construction method of seismic reinforcement structure

Figure 5 is a flow chart of the first embodiment in the construction method of the seismic reinforcement structure of the masonry tank of the present invention, Figure 6 is a flow chart of the second embodiment and the third embodiment in the construction method of the seismic reinforcement structure of the masonry tank of the present invention.

In the construction method of the seismic reinforcement structure of the masonry tank of the present invention, the first embodiment is a method for constructing the seismic reinforcement structure of the masonry tank of the present invention,

(1) a preparation step of determining a drilling position of the anchor hole for installing the frame fixing anchor 300 and a reinforcing member 100 in consideration of the reinforcement of the pillars C and the beam B; (2) reinforcing material attachment step of attaching the reinforcing material 100 to the brick wall (BW); (3) a frame anchor hole drilling step of drilling a plurality of anchor holes in the frame 200 in accordance with the drilling position of the anchor hole determined in the preparation step (1); And (4) a frame fixing anchor installation step of installing the frame 200 using the frame fixing anchor 300.

In the preparation step (1) in consideration of the reinforcement state of the pillar (C) and the beam (B) to determine the drilling position of the anchor hole for installing the frame fixing anchor 300 and the installation position of the reinforcing material 100 Say step. At this time, the frame fixing anchor 300 to be installed later does not interfere with the reinforcing bars of the pillars C and the beam B, and sets anchoring lengths of the frame fixing anchors 300 in accordance with structural performance to drill the anchor holes.

The (2) reinforcing material attaching step refers to attaching the reinforcing material 100 to the brick wall (BW). As described above, when the linear member is used as the reinforcing material 100, a plurality of grids are arranged to intersect each other with one or more rows in a diagonal line, which is a direction in which tensile stress is generated, on the brick wall BW. ) And installing the reinforcement fixing anchor 400 at the intersection of the grid is preferable when considering the structural performance and workability.

The frame anchor hole drilling step (3) refers to the step of drilling a plurality of anchor holes in the frame 200 in accordance with the drilling position of the anchor hole determined in the (1) preparation step. The anchor hole of the frame 200 may be drilled at the time of manufacturing the factory, but preferably drilled in the field according to the circumstances of the construction site.

The (4) frame fixing anchor installation step refers to the step of installing the frame 200 using the frame fixing anchor 300.

In the construction method of the seismic reinforcement structure of the masonry tank of the present invention, the second embodiment is a method for constructing the seismic reinforcement structure of the masonry tank of the present invention,

(1) a preparation step of determining a drilling position of the anchor hole for installing the frame fixing anchor 300 and a reinforcing member 100 in consideration of the reinforcement of the pillars C and the beam B; (2) reinforcing material attachment step of attaching the reinforcing material 100 to the brick wall (BW); (3) a frame anchor hole drilling step of drilling a plurality of anchor holes in the frame 200 in accordance with the drilling position of the anchor hole determined in the preparation step (1); (4) a frame fixing anchor installation step of installing the frame 200 using the frame fixing anchor 300; And (5) installing the reinforcement fixing anchor 400 to install the reinforcing member fixing anchor to fix the reinforcing member 100 to the brick wall BW.

Steps (1) to (4) are the same as in the first embodiment, and thus description thereof is omitted.

The (5) reinforcement fixing anchor installation step refers to the step of fixing the reinforcement 100 to the brick wall (BW) by installing the reinforcement fixing anchor 400, the reinforcement fixing anchor 400 is the brick wall (BW). It can be installed through).

The third embodiment in the construction method of the seismic reinforcement structure of the masonry tank of the present invention is a method for constructing the seismic reinforcement structure of the masonry tank of the present invention,

(1) a preparation step of determining a drilling position of the anchor hole for installing the frame fixing anchor 300 and a reinforcing member 100 in consideration of the reinforcement of the pillars C and the beam B; (2) attaching the reinforcing material 100 to the brick wall (BW), and arranged a plurality of so as to cross each other in a diagonal line that is a direction in which tensile stress occurs in the brick wall (BW) in one unit Reinforcing material attachment step of forming a grid; (3) while drilling a plurality of anchor holes in the frame 200 in accordance with the drilling position of the anchor hole determined in the (1) preparation step, the frame 200 of the frame fixing anchor 300 to the brick wall (BW) Anchor hole to be installed in the frame fixing anchor 300 to be fixed to the frame anchor hole drilling step for drilling through the brick wall (BW); (4) a frame fixing anchor installation step of installing the frame 200 using the frame fixing anchor 300; And (5) a reinforcement fixing anchor installation step of fixing the reinforcing material 100 to the brick wall BW by allowing the reinforcing material fixing anchor 400 to be installed through the brick wall BW. It features.

Since the other steps except for the reinforcing material attaching step (2) are overlapped with the above-described first and second embodiments, description thereof will be omitted.

In the (2) reinforcing material attaching step, the reinforcing material 100 is attached to the brick wall (BW), so as to cross each other in a unit of two or more rows diagonally in a direction in which tensile stress is generated in the brick wall (BW). It refers to the step of placing a plurality to form a grid (grid). As described above, when the linear member is used as the reinforcing material 100, a plurality of grids are arranged to intersect each other with one or more rows in a diagonal line, which is a direction in which tensile stress is generated, on the brick wall BW. ) And installing the reinforcement fixing anchor 400 at the intersection of the grid is preferable when considering the structural performance and workability.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

B: Bo
C; Pillar
BW: Brick Wall
100: reinforcement
200: frame
210: support plate
211: nuts
213: anchor hole
220: main body
221: fixed slot
223: anchor slot
300: frame fixed anchor
400: fixed anchor anchor

Claims (6)

In the masonry formed the brick wall (BW) surrounded by pillars (C) and beams (B),
Reinforcement 100 is attached to the brick wall (BW) in close contact with the brick wall (BW) to the contact surface in contact with the pillar (C) and the beam (B) in the building;
A plurality of frames 200 in which the brick wall BW is installed in close contact with the contact surfaces contacting the pillars C and the beams B, and a plurality of anchor holes are drilled; And,
And a plurality of frame fixing anchors 300 for fixing the frame 200 to the pillar C, the beam B, and the brick wall BW through the anchor hole.
The frame 200 is a seismic reinforcement structure of the masonry nail, characterized in that the frame fixing anchor 300 is fixed to the brick wall (BW) while biting the reinforcing material (100).
In claim 1,
Seismic reinforcement structure of the masonry tank further comprising a; a plurality of reinforcement fixing anchors 400 which are installed at a predetermined interval between each other by fixing the reinforcement 100 to the brick wall (BW).
In claim 2,
The reinforcement 100 is formed as a linear member to form a grid by arranging a plurality of grids to cross each other by two or more rows in one unit diagonally in the direction in which the tensile stress occurs in the brick wall (BW) to form a grid (grid) of the grid Install the reinforcement fixing anchor 400 at the intersection,
The frame fixing anchor 300 and the reinforcing member fixing anchor 400 is installed through the brick wall (BW), or is fixed to the filler without penetrating,
The frame 200 may include a main body 220 having a fixed slot 221 and an anchor slot 223, and a plurality of anchor holes 213 formed therein to support plates on which nuts are joined to some of the anchor holes 213. 210 is composed of the main body 220 and the support plate 210 are coupled to each other by a bolt,
Seismic reinforcement structure of the masonry structure, characterized in that the reinforcing material 100 is sandwiched between the main body 220 and the support plate 210.
In the method for constructing the seismic reinforcement structure of the masonry of claim 1,
(1) a preparation step of determining a drilling position of the anchor hole for installing the frame fixing anchor 300 and a reinforcing member 100 in consideration of the reinforcement of the pillars C and the beam B;
(2) reinforcing material attachment step of attaching the reinforcing material 100 to the brick wall (BW);
(3) a frame anchor hole drilling step of drilling a plurality of anchor holes in the frame 200 in accordance with the drilling position of the anchor hole determined in the preparation step (1); And,
(4) a frame fixing anchor installation step of installing the frame 200 using the frame fixing anchor 300;
Construction method of the seismic reinforcement structure of the masonry structure comprising a.
In the method for constructing the seismic reinforcement structure of the masonry of claim 2,
(1) a preparation step of determining a drilling position of the anchor hole for installing the frame fixing anchor 300 and a reinforcing member 100 in consideration of the reinforcement of the pillars C and the beam B;
(2) reinforcing material attachment step of attaching the reinforcing material 100 to the brick wall (BW);
(3) a frame anchor hole drilling step of drilling a plurality of anchor holes in the frame 200 in accordance with the drilling position of the anchor hole determined in the preparation step (1);
(4) a frame fixing anchor installation step of installing the frame 200 using the frame fixing anchor 300; And,
(5) the reinforcement fixing anchor installation step of fixing the reinforcement 100 to the brick wall (BW) by installing the reinforcement fixing anchor 400;
Construction method of the seismic reinforcement structure of the masonry structure comprising a.
In the method for constructing the seismic reinforcement structure of the masonry of claim 3,
(1) a preparation step of determining a drilling position of the anchor hole for installing the frame fixing anchor 300 and a reinforcing member 100 in consideration of the reinforcement of the pillars C and the beam B;
(2) attaching the reinforcing material 100 to the brick wall (BW), and arranged a plurality of so as to cross each other in a diagonal line that is a direction in which tensile stress occurs in the brick wall (BW) in one unit Reinforcing material attachment step of forming a grid;
(3) while drilling a plurality of anchor holes in the frame 200 in accordance with the drilling position of the anchor hole determined in the (1) preparation step, the frame 200 of the frame fixing anchor 300 to the brick wall (BW) Anchor hole to be installed in the frame fixing anchor 300 to be fixed to the frame anchor hole drilling step for drilling through the brick wall (BW);
(4) a frame fixing anchor installation step of installing the frame 200 using the frame fixing anchor 300; And,
(5) a reinforcement fixing anchor installation step of fixing the reinforcement 100 to the brick wall (BW) by allowing the reinforcement fixing anchor 400 to be installed through the brick wall (BW);
Construction method of the seismic reinforcement structure of the masonry structure comprising a.

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