KR20180062660A - Seismic reinforcement method of buildings - Google Patents

Abstract

The present invention provides a seismic reinforcement method of a building, which comprises the following steps of: processing a surface on an external side surface of a column of a building; coupling reinforcement fiber in a state of surrounding the reinforcement fiber along the external side surface of the column; and coupling and installing a protective cover to surround an external side surface of the reinforcement fiber to protect the reinforcement fiber.

Description

Seismic reinforcement method of buildings

The present invention relates to a seismic strengthening method of a building reinforcing a seismic performance to prevent a column and a beam of a building from being collapsed by an external force such as an earthquake.

Recently, the incidence of earthquakes is increasing in Korea, so it is no longer a safe zone from earthquakes. If an earthquake occurs in a large city or the like in such a situation, considerable damage is expected in the case of concrete structures designed and constructed before mandatory seismic design is introduced.

Therefore, in order to prevent damage of life and property due to collapse of concrete structure (column, beam, etc.) due to sudden external force such as earthquake and aging, it is necessary to construct an earthquake resistant structure.

Conventionally, as a method for seismic strengthening of a building, a reinforced concrete is overlaid on a wall, a column and a beam, a reinforcing wall is additionally provided between a column and a column or a wall, a reinforcement is applied to a necessary portion by using a steel plate, However, when an existing building or a facility is subjected to seismic retrofitting, there is a great restriction on the usability of the existing building, and a large amount of reinforcement cost is required. Here, the method of reinforcing the strength of the members by using the steel plate is the most applied method for the structural reinforcement and the earthquake-proof reinforcement, or the problem that the steel plate itself has a large load, which is difficult to construct, have.

Such a conventional building seismic reinforcing structure is disclosed in Korean Patent Registration No. 10-1070257 (September 28, 2011) and Korean Patent Registration No. 10-1397800 (May 2014.05.14).

An object of the present invention is to provide an earthquake-proof reinforcement method of a building which can easily facilitate an earthquake-proof reinforcement work of an existing building and which has a limited usability.

The present invention relates to a method of manufacturing a building, comprising the steps of: processing a columnar outer surface of a building; coupling the reinforcing fiber in a wrapped state along the outer surface of the column; wrapping the outer surface of the reinforcing fiber with a protective cover to protect the reinforcing fiber The present invention provides an earthquake-proof reinforcement method of a building,

According to another aspect of the present invention, there is provided a method for manufacturing a column, comprising the steps of: machining a column top outer side surface of a building and a beam outer side surface portion coupled with the column top; And joining the reinforcing fibers to connect the outer side surfaces of the beams so that the outer side surfaces of the reinforcing fibers are covered with a protective cover so as to protect the reinforcing fibers.

A method of reinforcing an earthquake-resistant structure of a building according to the present invention comprises the steps of attaching the reinforcing fiber to the outer surface of a column or a portion to which a column and a beam are coupled with a first adhesive, and then protecting the outer surface of the reinforcing fiber with a protective cover 2, it is possible to easily strengthen the reinforcement work for the joining portions of the column and the column and the beam of the existing building.

1 is a flowchart illustrating a seismic strengthening method of a building according to an embodiment of the present invention.
2 is a state diagram of the step S200 shown in FIG.
3 is a state diagram of step S300 shown in FIG.
4 is a cross-sectional view of a column reinforced by a seismic strengthening method of a building according to an embodiment of the present invention.
5 is a flowchart illustrating a seismic strengthening method of a building according to another embodiment of the present invention.
6 is a state diagram of the step S210 shown in FIG.
7 is a state diagram of the step S310 shown in FIG.
8 is a cross-sectional view of a reinforced structure of a building according to another embodiment of the present invention in a reinforced state of a joining part of a column and a beam.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 is a flowchart illustrating a seismic strengthening method of a building according to an embodiment of the present invention. Referring to FIG. 1, a method of reinforcing an earthquake-proof structure of a building according to an embodiment of the present invention includes the steps of: (a) constructing the exterior surface of a column 100 of a building, (b) combining reinforcing fibers S200, and

The outer surface of the column 100 is processed so that the reinforcing fibers 200 to be described later are stably coupled to the outer surface of the column 100. [ Perform machining operations on the side surface.

The step of machining the outer surface of the column 100 of the building will be described in more detail. A step of grinding the outer surface of the column 100, a step of grinding the column 100 of the building And washing the side surface. The operation of grinding the outer surface of the column 100 may further include the step of grinding the outer surface of the column 100 with the reinforcing fiber 200 when the reinforcing fiber 200 is coupled to the outer surface of the column 100, The edge of the column 100 can be rounded or the surface of the column 100 can be removed from the surface of the column 100 in a stable manner, So that the reinforcing fibers 200 can be stably bonded through the first adhesive 210.

The step of cleaning the outer surface of the column 100 of the building subjected to the grinding operation removes foreign matter such as dust generated during the grinding operation from the outer surface of the column 100 of the building. At this time, it is preferable to wash the outside surface of the column 100 of the building with spraying the washing liquid, but an additional process is required to dry the washing liquid absorbed on the outside surface of the column 100 of the building. The compressed air may be sprayed onto the outside surface of the column 100 of the building to be grinded so as to omit the drying process so as to remove dust or foreign matter.

2, the reinforcing fiber 200 is coupled to the outer surface of the column 100 (S200). That is, the reinforcement fibers 200 are further coupled to the outer surface of the column 100 of the building to reinforce the strength of the column 100. Here, the reinforcing fiber 200 may be selected from any one of glass fiber, carbon fiber and aramid fiber so as to reinforce the strength of the column 100, but not limited thereto, and glass fiber, carbon fiber, aramid fiber It goes without saying that a plurality of these may be used in combination.

First, the first adhesive 210 is applied to the outer surface of the column 100. The first adhesive 210 is applied to the outer surface of the column 100, The first adhesive 210 may be made of a polyurethane adhesive having good elasticity and good resistance to chemicals and chemicals. However, the first adhesive 210 is not limited thereto. In this way, when the polyurethane adhesive is used as the first adhesive 210, sufficient adhesion is provided even when foreign matter such as residual dust adheres to the outer surface of the column 100, or when fine protrusions remain.

After the first adhesive 210 is applied to the outer surface of the column 100 as described above, the reinforcing fiber 200 is applied to the outer surface of the column 100 coated with the first adhesive 210 Respectively. At this time, the reinforcing fiber 200 may be attached to the outer surface of the column 100 so as to be obliquely or horizontally wrapped.

The reinforcing fiber 200 is attached to the outer surface of the column 100 by the first adhesive 210 applied to the outer surface of the column 100. However, The reinforcing fiber 200 is first fixed on the outer surface of the column 100 and then the reinforcing fiber 200 is fixed on the outer surface of the column 100. [ The first adhesive 210 or the synthetic resin is applied to the outer surface of the reinforcing fiber 200 after the bolts are fastened to the column 100 or attached to the column 100 using a tape So that the outer surface of the column 100 can be kept wrapped.

3, the reinforcing fiber 200 may be attached to the outer surface of the column 100 in a state where the reinforcing fiber 200 is wrapped around the outer surface of the column 100, So that the protective cover 300 is coupled to be installed to protect the same fluid (S300). That is, the protective cover 300 is fixedly coupled to the outer surface of the column 100 while being arranged to surround the reinforcing fiber 200. Here, the protective cover 300 includes a first cover member 310 and a second cover member 320. When the first cover member 310 and the second cover member 320 are arranged opposite to each other on the outer side of the column 100, Sectional shape or a cross-sectional shape of a " C "

The step of attaching the protective cover 300 to protect the reinforcing fiber 200 will be described in more detail. First, the outer surface of the reinforcing fiber 200, which is installed to surround the outer surface of the pillar 100, The second adhesive 220 is applied. Here, it is preferable that the second adhesive 220 uses the same polyurethane adhesive as the first adhesive 210 described above, but it is not limited thereto.

After the second adhesive 220 is applied to the outer surface of the reinforcing fiber 200 as described above, the first cover member 310 and the second cover member 320 may be formed to cover the reinforcing fiber 200, To be bonded to the outside of the reinforcing fiber (200). That is, the first cover member 310 and the second cover member 320 are attached to the outer surface of the reinforcing fiber 200 to which the second adhesive 220 is applied while being disposed opposite to each other.

A flange portion (not shown) having a fastening hole is formed at both sides of the first cover member 310 and the second cover member 320 so that the first cover member 310 and the second cover member 320 The first cover member 310 and the second cover member 320 are coupled to each other through the bolts and the nuts in a stable engagement state As shown in FIG.

After the protective cover 300 is installed to protect the outer surface of the reinforcing fiber 200, the second adhesive 220 (see FIG. 2) is inserted between the inner surface of the protective cover 300 and the outer surface of the reinforcing fiber 200. So that the protective cover 300 and the reinforcing fiber 200 can be stably held in a coupled state.

The first cover member 310 and the second cover member 320 of the protective cover 300 are coupled to the outer surface of the reinforcing fiber 200 through the second adhesive 220 The present invention is not limited thereto and the first cover member 310 and the second cover member 320 of the protective cover 300 may be attached to the outer surface of the reinforcing fiber 200 to which the second adhesive 220 is not applied The first cover member 310 and the second cover member 320 are brought into close contact with the outer surface of the reinforcing fiber 200 while the bolts (not shown) are tightly fastened to the column 100, To the column 100, as shown in FIG. In addition, the second adhesive 220 may be inserted between the outer surface of the reinforcing fiber 200 and the inner surface of the protective cover 300, as described above.

4, the reinforcing fibers 200 are coupled to the outer surface of the column 100 with the first adhesive 210, and then the reinforcing fibers 200 The protection cover 300 is attached to the outer surface of the reinforcing fiber 200 with the second adhesive 220 so as to protect the pillar 100 of the existing structure, have.

5 is a flowchart illustrating a seismic strengthening method of a building according to another embodiment of the present invention. 5, a method of reinforcing an earthquake-proof structure of a building according to another embodiment includes: a step of forming an outer side surface of a column 100a of a building and an outer side surface processing S110 of the beam 110a, a reinforcing fiber coupling S210, And performs installation (S310).

First, the outer surface of the outer surface of the beam 110a coupled with the outer surface of the column 100a of the building and the upper surface of the column 100a is processed (S110). That is, the reinforcing fiber 200a, The outer side surface of the column 100a and the outer side surface of the beam 110a are stably bonded to the upper outer side surface of the column 100a and the outer side surface of the beam 110a .

The step of machining the outer surface of the outer surface of the beam 110a combined with the outer surface of the column 100a and the upper surface of the column 100a will be described in more detail. (100a) of the building and grinding the outer surface of the beam (110a) by grinding the outer surface of the beam (110a) and the outer surface of the beam (110a) do. The grinding of the outer side surface of the column 100a and the outer side surface of the beam 110a may be performed by grinding the reinforcing fiber 100a on the outer surface of the upper end of the column 100 and the outer surface of the beam 110a, The reinforcing fibers 200a may be rounded at the corner of the upper end of the column 100a so that the reinforcing fibers 200a can stably contact the outer surface of the upper end of the column 100a and the outer surface of the beam 110a, The upper surface of the column 100a and the surface of the beam 110a can be removed and the outer surface of the upper surface of the column 100a and the surface of the beam 110a can be roughened, So that the reinforcing fibers 200a can be stably bonded through the first adhesive 210a.

The step of washing the outer surface of the upper end of the column 100a and the surface of the outer surface of the beam 110a of the building subjected to the grinding operation may be performed by grinding a foreign object such as dust generated during the grinding operation, The upper outer side surface and the outer side surface of the beam 110a. At this time, it is preferable that the upper outer side surface of the column 100a of the building and the outer side surface of the beam 110a are washed while spraying the cleaning liquid, but the outer surface of the column 100a of the building and the outer surface of the beam 110a The outer surface of the upper end of the column 100a of the building subjected to the grinding operation and the outer surface of the beam 110a, It is also possible to spray dust on the side surface to remove dust or foreign matter.

6, when the upper outer surface of the column 100a and the outer surface of the beam 110a are completed, the reinforcing fibers 200a are disposed on the upper and outer surfaces of the column 100a, And is coupled to an outer side portion of the beam 110a coupled with an upper end of the column 100a (S210). That is, the reinforcing fibers 200a are additionally coupled to the upper outer side surface portion of the column 100a and the outer side surface portion of the beam 110a to which the upper end of the column 100a of the building is coupled with the beam 110a, Thereby reinforcing the strength of the joining portion of the joining portion 100a and the joining portion 110a. Here, the reinforcing fiber 200a may be selected from any one of glass fiber, carbon fiber and aramid fiber so as to reinforce the strength of the joint between the upper end of the column 100a and the beam 110a, but not limited thereto Of course, a plurality of glass fibers, carbon fibers, and aramid fibers may be used in combination.

The step of joining the reinforcing fibers 200a to the outer surface of the upper end of the column 100a and the outer surface of the beam 110a will be described in more detail. The first adhesive 210a is applied to the outer surface and the outer surface of the beam 110a. The first adhesive 210a may be made of a polyurethane adhesive having good quality and good stretchability while being resistant to chemicals and chemicals. However, the first adhesive 210a is not limited thereto. When a polyurethane adhesive is used as the first adhesive 210a, foreign matter such as residual dust is adhered to the outer surface of the column 100a and the outer surface of the beam 110a, or fine protrusions remain Even if it is enough, it gives enough adhesion.

After the first adhesive 210a is applied to the outer surface of the upper end of the column 100a and the outer surface of the beam 110a, the upper surface of the column 100a coated with the first adhesive 210a, So that the reinforcing fiber 200a is attached to the outer side surface and the outer side surface of the beam 110a. At this time, the reinforcing fiber 200a is attached so as to be connected to the outer surface of the beam 110a in a state of being obliquely or horizontally attached to the outer surface of the upper end of the column 100a.

The reinforcing fiber 200a is attached to the upper end of the column 100a and the first adhesive 210a applied to the outer surface of the beam 110a. However, the present invention is not limited thereto, The outer surface of the upper end of the column 100a and the surface of the outer surface of the beam 110a are covered with the reinforcement fibers 110a, A bolt is inserted between the column 100a and the beam 100a so that the reinforcing fiber 200a is fixed to the outer surface of the upper end of the column 100a and the outer surface of the beam 110a, The first adhesive 210a or synthetic resin is applied to the outer surface of the reinforcing fiber 200a after the operation of attaching the reinforcing fiber 200a to the column 100a or the beam 110a using a tape, , While the outer surface of the column (100a) is wrapped around the beam (110a) So that it can be held in the engaged state on the side surface.

After the reinforcing fibers 200a are coupled to the outer surface of the upper end of the column 110a and the outer surface of the beam 110a to which the column 100a and the beam 110a are coupled, , The protective cover 300a is coupled to the reinforcing fiber 200a so as to protect the reinforcing fiber 200a from external impact, fire or various kinds of dust or rain as shown in FIG. 7 (S310). That is, the protective cover 300a is fixedly coupled to the outer surface of the column 100a and the outer surface of the beam 110a while being arranged to surround the reinforcing fiber 200a. Here, the protective cover 300a includes a first cover member 310a and a second cover member 320a. When the first cover member 310a and the second cover member 320a are arranged opposite to each other on the outer side of the column 100a, A column connecting portion 311a having a semicircular cross-sectional shape or a cross-sectional shape corresponding to the cross-sectional shape of the beam 110a and the column connecting portion 311a vertically coupled to the upper end of the column connecting portion 311a, And may have a plate-shaped complementary joining portion 312a which is in close contact with the outer surface.

The step of attaching the protective cover 300a to protect the reinforcing fiber 200a will be described in more detail. First, the upper end of the pole 100a and the pillar 110a, The second adhesive 220a is applied to the outer surface of the reinforcing fiber 200a installed to surround the upper outer side surface of the beam 100a and the outer surface of the beam 110a. Here, it is preferable that the second adhesive 220a uses the same polyurethane adhesive as the first adhesive 210a, but it is not limited thereto.

After the second adhesive 220a is applied to the outer surface of the reinforcing fiber 200a, the first cover member 310a and the second cover member 320a are formed to cover the reinforcing fiber 200a, To be bonded to the outside of the reinforcing fiber 200a. That is, the first cover member 310a and the second cover member 320a are attached to the outer surface of the reinforcing fiber 200a coated with the second adhesive 220a so as to be opposed to each other. At this time, the column coupling portion 311a is attached to the outer surface of the reinforcing fiber 200a attached to the upper outer side of the column 100a, and the auxiliary coupling portion 312a is attached to the outer side of the beam 110a And is attached to the outer surface of the reinforcing fiber 200a.

The first cover member 310a and the second cover member 320a have flanges (not shown) formed with fastening holes on both sides of the rim. The first cover member 310a and the second cover member 320a The first cover member 310a and the second cover member 320a are coupled to each other through the bolts and the nuts in a stable engagement state by the fastening holes after the cover members 320a are disposed so as to face each other, As shown in FIG.

After the protective cover 300a is installed to protect the outer surface of the reinforcing fiber 200a, the second adhesive 220a is sandwiched between the inner surface of the protective cover 300a and the outer surface of the reinforcing fiber 200a. So that the protective cover 300a and the reinforcing fiber 200a can be stably held in a coupled state.

The first cover member 310a and the second cover member 320a of the protective cover 300a are coupled to the outer surface of the reinforcing fiber 200a through the second adhesive 220a The present invention is not limited thereto and the first cover member 310a and the second cover member 320a of the protective cover 300a may be attached to the outer surface of the reinforcing fiber 200a to which the second adhesive agent 220a is not applied The first cover member 310a and the second cover member 320a are fastened to the upper surface of the column 100a and the beam 110a while fastening bolts (not shown) 200a may be coupled to the column 100a and the beam 110a while being in close contact with the outer surface of the column 100a. In addition, as described above, the second adhesive 220a may be inserted between the outer surface of the reinforcing fiber 200a and the inner surface of the protective cover 300a.

8, the reinforcing fiber 200a may be attached to the upper end of the column 100a and the outer side surface of the portion 110a to which the beam 110a is coupled by the first adhesive 210a, The protective cover 300a is attached to the outer surface of the reinforcing fiber 200a by the second adhesive 220a so as to protect the reinforcing fiber 200a, It is possible to facilitate the strength reinforcement work for the upper portion and the joining portion of the beam 110a.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100, 100a: column 110a: beam
200, 200a: reinforcing fiber 210, 210a: first adhesive
220, 220a: second adhesive 300, 300a: protective cover
310, 310a: first cover member 320, 320a: second cover member

Claims (10)

Processing the columnar outer surface of the building;
Coupling the reinforcing fiber in a wrapped state along an outer surface of the column; And
And joining the outer surface of the reinforcing fiber so as to cover the reinforcing fiber with a protective cover to protect the reinforcing fiber. The method according to claim 1,
Wherein the reinforcing fiber is one of glass fiber, carbon fiber, and aramid fiber. The method according to claim 1,
The step of machining the columnar outer surface of the building comprises:
Grinding the outer surface of the column;
And washing the columnar outer surface of the building subjected to the grinding operation. The method according to claim 1,
The step of wrapping the reinforcing fiber along the outer surface of the column,
Applying a first adhesive to an outer surface of the column,
And attaching the reinforcing fiber to the surface of the column to which the first adhesive is applied. The method according to claim 1,
Wherein the protective cover includes a first cover member and a second cover member,
The step of covering the outer surface of the reinforcing fiber with the protective cover to protect the reinforcing fiber includes:
Applying a second adhesive to the outer surface of the reinforcing fiber,
And attaching the first cover member and the second cover member to the outer surface of the reinforcing fiber to which the second adhesive is applied so as to be in contact with each other while facing each other. Machining a columnar top outer surface of the building, and a beam outer surface portion surface associated with the column top;
Joining the reinforcing fibers to connect the upper outer side of the column and the outer side of the beam coupled with the upper end of the column; And
And joining the outer surface of the reinforcing fiber so as to cover the reinforcing fiber with a protective cover to protect the reinforcing fiber. The method of claim 6,
Wherein the reinforcing fiber is one of glass fiber, carbon fiber, and aramid fiber. The method of claim 6,
The step of machining the columnar top outer surface of the building, and the beam outer surface portion surface associated with the column top,
Grinding the outer surface of the column top and the surface of the beam outer surface joined with the column top;
And washing the column outer side surface and the beam outer side surface of the building subjected to the grinding operation. The method of claim 6,
The step of joining the reinforcing fibers to connect the upper outer surface of the column and the outer surface of the beam coupled with the upper end of the column,
Applying a first adhesive to an outer surface of the column top and an outer surface of the beam coupled with the top of the column,
And attaching the reinforcing fibers to the column top surface to which the first adhesive is applied and the outer surface of the beam coupled with the top of the column. The method according to claim 1,
Wherein the protective cover comprises a first cover member composed of a columnar engaging portion closely in contact with the upper end of the column and a plate-like beam-engaging portion closely fitted to the outer surface of the column in a state of being vertically coupled to the upper end of the column- 2 cover member,
The step of covering the outer surface of the reinforcing fiber with the protective cover to protect the reinforcing fiber includes:
Applying a second adhesive to the outer surface of the reinforcing fiber,
And attaching the first cover member and the second cover member to the outer surface of the reinforcing fiber to which the second adhesive is applied so as to be in contact with each other while facing each other.

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