KR101443444B1 - Reinforcement structures for construction structure - Google Patents

Abstract

According to the present invention, there is provided a wire mesh comprising: a wire mesh surrounding a periphery of a concrete column and made of a shape memory alloy in a mesh shape; Fixing means for fixedly connecting both ends of the wire mesh; And a heater portion capable of supplying heat to the wire mesh.
The reinforcing structure for a construction structure according to the present invention has the effect of improving not only the external force of the concrete column but also the load carrying capacity and the seismic performance when the wire mesh made of the shape memory alloy is heated. In addition, since it is constructed in a loosely relaxed state, it is easy to construct, which improves the workability and drastically reduces the construction error.

Description

[0001] Reinforcement structures for construction structure [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforced structure for a construction structure, and more particularly, to a reinforced structure for a construction structure that improves the load-bearing capacity and seismic performance of the construction structure.

In general, various structural reinforcement methods have been proposed to reinforce structural members including columns in civil and civil structures. In particular, the column structure supporting the load of the upper structure should be designed and constructed so as to support not only the self weight of the upper structure but also various live loads (such as traffic loads) and earthquake loads applied to the upper structure, The load bearing capacity of the column is the load carrying capacity of the upper structure (slab, bridge top plate, etc.) formed on the upper part of the column because the upper structure formed on the column is also destroyed when the load is insufficient.

On the other hand, the pillar structure is caused by insufficient load-bearing capacity (lack of cross-section at design time, or internal reinforcing steel is corroded due to detachment of concrete covering due to externalization of pillar concrete due to external environment after construction, The failure modes are compressive failure, shear failure and failure due to buckling phenomenon in case of insufficient cross sectional area of column and long column length. Such failure mode is momentary failure (brittle failure) Resulting in damage and economic loss.

In order to solve the above problems, a conventional technical document 'Korean Patent Registration No. 10-0428942' discloses a structure in which a semicircular first reinforcing plate and a second reinforcing plate, each having a plurality of through holes formed therein, A cylindrical reinforcing plate is fitted over the entire height of the column structure, a mold is installed to enclose a cylindrical reinforcing plate at a predetermined interval from the installed cylindrical reinforcing plate, a wire mesh is additionally installed, A columnar structure reinforcing method using a columnar structure reinforcing device is proposed, which is reinforced by casting a gap between a form and a cylindrical reinforcing plate from the bottom.

However, in the above-mentioned "column structure reinforcement method using a column structure reinforcing device ", since the first reinforcing plate and the second reinforcing plate are bound to each other with bolts and nuts in a state where they are in alignment with each other, the worker experiences fatigue, Labor costs increase. In addition, there is a problem that air is lengthened and the number of parts is increased, which causes a great cost.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a construction structure in which not only a load-bearing capacity and a seismic performance of a reinforced structure are improved by using a wire mesh made of a shape memory alloy, Reinforced structure.

According to an aspect of the present invention, there is provided a wire mesh comprising: a wire mesh enclosing an outer side of a concrete column and made of a shape memory alloy of a mesh shape; Fixing means for fixedly connecting both ends of the wire mesh; And a heater portion capable of supplying heat to the wire mesh.

Wherein the fixing means includes a first fastening portion fixedly coupled to one end portion selected from both ends of the wire mesh and a second fastening portion fastened to the other end portion of the wire mesh corresponding to the first fastening portion, And a second fastening portion fixedly coupled to the first fastening portion.

The fixing means may include a fixing bar disposed between both ends of the wire mesh, one end connected to one end selected from the opposite ends of the wire mesh, the other end wound around the outside of the fixing bar, And a plurality of connection lines connected to the end portions.

The fixing means may include a first connection portion fixedly coupled to one end portion selected from both ends of the wire mesh, a second connection portion fixedly coupled to the other end portion of the wire mesh corresponding to the first connection portion, And a coupling part for fixing the second connection part to each other.

The first connection part may include a first connection bar disposed at one end of the wire mesh, a plurality of first fixing rings fixedly coupled to one side of the first connection bar, and a second connection part connected to one end of the wire mesh, And a second connection line connected to one end of the wire mesh after the other end thereof is wound around the first fixing ring, and the second connection portion includes a second connection bar arranged at the other end of the wire mesh, A second fixing ring fixedly connected to one side of the second connection bar, and a second fixing ring fixed to the other end of the wire mesh after one end thereof is connected to the other end of the wire mesh and the other end is wound around the outside of the second fixing ring. And a second connection line connected to the second connection line.

The joining portion may include a body fixed to a selected one of the first connecting bars or the second connecting bars and forming a plurality of teeth regularly arranged along one direction and a tooth engaging with the teeth of the body, And a fastening portion fixed to the selected one of the first connecting bar or the second connecting bar and fastened to each other.

The reinforcing structure for a construction structure according to the present invention has the effect of improving not only the external force of the concrete column but also the load carrying capacity and the seismic performance when the wire mesh made of the shape memory alloy is heated.

In addition, since the wire mesh is constructed in a loosely relaxed state, it is easy to work and workability is improved and the construction error can be remarkably reduced.

1 is a perspective view of a reinforcing structure for a construction structure according to an embodiment of the present invention,
FIG. 2 is a perspective view illustrating a state where the reinforcing structure for a construction structure shown in FIG. 1 is fastened to a column,
3 is a perspective view illustrating a state in which a reinforcing structure for a construction structure is fastened to a column according to another embodiment of the present invention.
4 is a perspective view illustrating a state where a reinforcing structure for a construction structure is fastened to a column according to another embodiment of the present invention.

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

FIG. 1 is a perspective view of a reinforcing structure for a construction structure according to an embodiment of the present invention, and FIG. 2 is a perspective view illustrating a state where the reinforcing structure for a construction structure shown in FIG.

Referring to the drawings, a reinforcing structure 10 for a construction structure according to an embodiment of the present invention includes a wire mesh 100, a fixing unit 210, and a heater unit 300.

The wire mesh 100 surrounds an outer side of the concrete column 1. A plurality of wires are connected to the wire mesh 100 such that the wire mesh 100 has binding force. Particularly, the wire is formed in the shape of rhombus which is the direction of the member axis and the inclination direction with respect to the concrete column 1 to be reinforced. This is because the wire mesh 100 is inclined with respect to the axial direction of the member of the concrete column 1 when the wire mesh 100 is installed to reinforce the outer periphery of the concrete column 1 to resist shear fracture. However, the shape of the wire mesh 100 is not limited as long as the wire mesh 100 functions to resist the shear failure of the concrete column 1.

In the present invention, the wire mesh 100 may be made of a shape memory alloy. Here, the shape memory alloy is an effect of shape memory as a material of a nickel-titanium alloy. The shape memory effect always remembers a shape memorized at a high temperature. If a slight deformation is applied at a low temperature, To the shape of the back. The wire mesh 100 formed of such a shape memory alloy is contracted by the heater unit 300 after the outside of the concrete column 1 is wrapped.

The fastening means 210 includes a first fastening portion 211 and a second fastening portion 215. The first fastening part 211 is bent in a " C "shape, and is fixedly coupled to one end of the wire mesh 100 selected from both ends. The second fastening part 215 is formed in the same shape as the first fastening part 211 and fixedly coupled to the other end of the wire mesh 100 in correspondence with the first fastening part 211 . The first and second fastening portions 211 and 215 may be formed such that when the wire mesh 100 covers the outside of the concrete column 1, one end of the first fastening portion 211 is connected to the second fastening portion 215 And is fastened with one end of the second fastening part 215 so as to interlock with each other.

However, this is merely an example, and the shape of the fixing means 200 may be variously varied as long as the fixing means 200 has a function of coupling with each other.

The heater unit 300 serves to supply heat to the wire mesh 100. Here, the heater unit 300 may be an electric heater. One or more than one of the electric heaters 300 are disposed adjacent to the wire mesh 100 to supply heat to the wire mesh 100. Then, the wire mesh 100 is contracted by the heat of high temperature generated in the electric heater. If the heater 300 functions to heat and shrink the wire mesh 100, it may have various types such as a hot air heater or hot water as well as an electric heater.

Hereinafter, functions and effects of a reinforcing structure for a construction structure according to an embodiment of the present invention will be described with reference to the accompanying drawings.

Referring to the drawings, a reinforcing structure of a construction structure according to an embodiment of the present invention first prepares a wire mesh 100 made of a shape memory alloy material so as to cover an outer side of a concrete column 1. After the outer side of the concrete column 1 is wrapped with the wire mesh 100, both ends of the wire mesh 100 are fixedly coupled.

Meanwhile, the wire mesh 100 is manufactured so that a plurality of wires having a shape memory alloy material are formed in the shape of a mesh. At this time, the wire mesh 100 is manufactured such that the axial direction of the member with the concrete column 1 is sloped, that is, a rhombus shape.

This is because the concrete column 1 is manufactured in a direction generally inclined with respect to the vertical direction of the concrete column 1 so that the concrete column 1 can resist the shear fracture.

Particularly, the wire mesh 100 is formed so as to correspond to the outside size of the concrete column 1 to be reinforced.

Next, the outer periphery of the concrete column 1 is covered with the wire mesh 100, and both ends of the wire mesh 100 are fixedly coupled. At this time, the wire mesh 100 may be wrapped around the concrete column 1 to fasten both ends thereof.

In the method of fastening both ends of the wire mesh 100, the first fastening part 211 is fixedly coupled to one end of the wire mesh 100 that is selected at both ends of the wire mesh 100.

The second fastening part 215 is fixedly coupled to the other end of the wire mesh 100. The first and second fastening portions 211 and 215 are formed in the same shape as the " C " shape, and are staggeredly engaged with each other so as to be engaged with each other.

Accordingly, after the wire mesh 110 covers the outer side of the concrete column 1, the user hooks the first and second fastening portions 211 and 215 to each other to connect the wire mesh 100 to the concrete And fastened to the column (1).

Next, heat is supplied to the wire mesh 100. In addition, the heater unit 300 is arranged to supply heat to the wire mesh 100 fastened to the concrete column 1. Then, heat is supplied to the wire mesh 100. Then, the wire mesh 110 is contracted by the high-temperature heat generated in the heater unit 300.

As described above, when the wire mesh 100 made of a shape memory alloy is heated, the reinforcing structure 10 for a construction structure according to the present invention is contracted so that not only the external force of the concrete column 1 but also the load- There is an effect of improving seismic performance. In addition, since the wire mesh 100 is loosely loosened, it is easy to construct and workability is improved, and a construction error can be remarkably reduced.

Hereinafter, a reinforcing structure for a construction structure according to another embodiment of the present invention will be described in detail with reference to FIG. Here, the same reference numerals as those shown in Figs. 1 and 2 denote the same components having the same constitution and function, and a repetitive description thereof will be omitted.

The reinforcing structure 20 for a construction structure according to another embodiment of the present invention includes a fixing means 220. The fixing means 220 includes a fixing bar 221 and a plurality of connecting lines 225. The fixing bar 221 is disposed at both ends of the wire mesh 100. The fixing bars 221 are formed in a circular bar shape and vertically arranged and bound by a plurality of connecting lines 225. Particularly, although the fixing bar 221 can be made of aluminum, it is possible to use various materials only for illustrative purposes. In addition, if the function of joining both ends of the wire mesh 100 is performed, no.

The plurality of connection lines 225 serve to fix the wire mesh 100 to the fixing bar 221. In addition, the connecting line 225 is connected to one end of the wire mesh 100 at a selected end, in the form of a wire having a predetermined length. At this time, one end of the connecting line 225 is wound around the outer side of the end of the wire mesh 100 several times so as not to be separated. The other end of the connection line 225 is connected to the other end of the wire mesh 100 after the outer side of the fixing bar 221 is wound. At this time, the other end of the connection line 225 is bound to the outer side of the end portion of the wire mesh 100 so as not to be detached as many times as the connection of one end of the wire mesh 100.

The connection line 225 may be formed of the same material as the wire mesh 100. However, if the connection line 225 serves to securely fix the wire mesh 100, Materials may vary.

Hereinafter, operations and effects of a reinforcing structure for a construction structure according to another embodiment of the present invention will be described with reference to the accompanying drawings.

The reinforcing structure 20 of the construction structure according to another embodiment of the present invention includes a fixing bar 221 disposed between both ends of the wire mesh 100 and a plurality of connecting wires 225, Both ends of the mesh 100 can be fixed. The method for fixing both ends of the wire mesh 100 is such that the fixing bar 221 is disposed between both ends of the wire mesh 100. One end of the connection line 225 is wound and fixed several times on one selected end of the wire mesh 100. The other end of the connection line 225 is wound around the other end of the wire mesh 110 several times after the outer side of the fixing bar 221 is wound. Both ends of the wire mesh 100 are fixedly coupled together with the fixing bar 221 by the connecting line 225.

As described above, the reinforcing structure 20 for a construction structure according to another embodiment of the present invention is characterized in that both end portions of the wire mesh 100 surrounding the concrete column 1 are fixed to the fixing bar 221 and a plurality of connecting lines 225), there is an advantage that the fastening force is improved.

Hereinafter, a reinforcing structure for a construction structure according to another embodiment of the present invention will be described in detail with reference to FIG. Here, the same reference numerals as those shown in Figs. 1 to 3 denote the same components having the same constitution and function, and therefore, repetitive description thereof will be omitted.

The reinforcing structure 30 for a construction structure according to another embodiment of the present invention includes a fixing means 230.

The fixing means 230 includes a first connection portion 231, a second connection portion 235, and a coupling portion 239. The first connection part 231 is fixedly connected to one end of the wire mesh 100 at a selected end of the wire mesh 100 and includes a first connection bar 232 and a plurality of first fixing rings 233, And a first connecting line 234.

The first connection bar (232) And is disposed at one end of the wire mesh 100. The first connection bar 232 may be formed of a metal material, but the present invention is not limited thereto. The first connection bar 232 may be formed of various materials and may have various shapes. That is, it may have a circular or triangular shape.

The plurality of first fixing rings 233 are spaced apart from the side surface of the first connection bar 232 corresponding to one end of the wire mesh 100. The first fixing ring 233 serves to fix one end of the wire mesh 100 by a first connection line 234 to be described later.

The plurality of first connection lines 234 serve to fix the wire mesh 100 to the first connection bar 232. In other words, the first connecting line 234 is wound around the outer side of one of the ends of the wire mesh 100 by one end. The other end of the first connection line 234 winds the outer side of the first fixing ring 233 and then winds and fixes the outer side of the wire adjacent to the one end of the wire mesh 100. [

The second connection part 235 is fixedly connected to the other end of the wire mesh 100 and includes a second connection bar 236, a plurality of second fixing rings 237 and a plurality of second connection lines 238, . The second connection portion 235 is formed in the same manner as the first connection portion 231, and is coupled by the same method, so that the description is omitted.

The coupling part 239 binds the wire mesh 100 to the concrete column 1 by fastening the first connection bar 232 and the second connection bar 233 to each other, And a fastening portion 242. One side of the body 241 extends in a band shape. One end of the body 241 is fixed to one side of the first connecting bar 232. A plurality of teeth 241a are formed on the side surface of the extended body 241 so as to be regularly arranged along the extended longitudinal direction.

The fastening part 242 is fixed to the second connecting bar 236 in correspondence with the body 241. Both sides are opened so that the body 241 can be inserted therethrough. Particularly, the fastening portion 242 is formed with a plurality of teeth 242a, one internal side of which is engaged with the teeth 241a of the body 241.

Accordingly, when the body 241 passes through the coupling portion 242, the teeth 241a of the body 241 are engaged with the teeth 242a of the coupling portion 242, Direction.

Hereinafter, functions and effects of a reinforcing structure for a construction structure according to another embodiment of the present invention will be described with reference to the accompanying drawings.

The reinforcing structure of the construction structure according to another embodiment of the present invention can be fixedly coupled to each other by the first connection portion 231, the second connection portion 235, and the connection portion 239. [

The first and second connection portions 231 and 235 are coupled to both ends of the wire mesh 100 by fastening both ends of the wire mesh 100 to each other. That is, the body 241 fixedly coupled to the first connection part 231 passes through the fastening part 242 fixed to the second connection part 235. The teeth 241a formed on the body 241 are engaged with the teeth 242a formed on the inner side of the coupling part 242 so that the wire mesh 100 is bound to the concrete column 1. [

As described above, according to another embodiment of the present invention, a reinforcing structure for a construction structure and a reinforcing method (30) for a construction structure using the same are characterized in that a wire mesh (100) (231) and (235) and the binding portion (239).

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: wire mesh 210, 220, 230: fixing means
211: first fastening part 215: second fastening part
221: fixed bar 225: connecting cable
231: first connection part 232: first connection bar
233: first fixing collar 234: first connection line
235: second connection portion 236: second connection bar
237: second fixing ring 238: second connecting line
239: engaging portion 241: body
241a: tooth 242: fastening part
242a: tooth 300: heater part
10, 20, 30: Reinforcing structures for construction structures

Claims (6)

A wire mesh enclosing the outside of the concrete column and made of a shape memory alloy in the form of a mesh;
Fixing means for fixedly connecting both ends of the wire mesh; And
And a heater unit capable of supplying heat to the wire mesh,
Wherein,
A first fastening part bent in a 'C' shape and fixedly coupled to one end selected from both ends of the wire mesh,
And a second fastening part formed to be bent in a 'C' shape and fixed to the other end of the wire mesh corresponding to the first fastening part and having a bent one end inserted and fixedly coupled to the inside of the first fastening part Reinforcing structures for construction structures.
delete A wire mesh enclosing the outside of the concrete column and made of a shape memory alloy in the form of a mesh;
Fixing means for fixedly connecting both ends of the wire mesh; And
And a heater unit capable of supplying heat to the wire mesh,
Wherein,
A fixing bar disposed between both ends of the wire mesh,
And a plurality of connection lines connected to one end of the wire mesh at one end selected at one end and connected to the other end of the wire mesh after the other end is wound around the outside of the fixing bar. A wire mesh enclosing the outside of the concrete column and made of a shape memory alloy in the form of a mesh;
Fixing means for fixedly connecting both ends of the wire mesh; And
And a heater unit capable of supplying heat to the wire mesh,
Wherein,
A first connection part fixedly coupled to one end selected from both ends of the wire mesh,
A second connection part fixedly coupled to the other end of the wire mesh corresponding to the first connection part,
And a coupling part for fixing the first connection part and the second connection part to each other. The method of claim 4,
The first connection part
A first connection bar disposed at one end of the wire mesh,
A plurality of first fixing rings fixedly coupled to one side of the first connection bar,
And a first connection line connected to one end of the wire mesh at one end and connected to one end of the wire mesh after the other end is wound around the outside of the first fixing ring,
The second connection portion
A second connecting bar disposed at the other end of the wire mesh,
A second fixing ring fixedly coupled to one side of the second connecting bar,
And a second connecting line having one end connected to the other end of the wire mesh and the other end connected to the other end of the wire mesh after winding the outside of the second fixing loop. The method of claim 5,
The coupling portion
A body fixed to a selected one of the first connecting bars or the second connecting bars and forming a plurality of teeth regularly arranged along one direction and a tooth engaging with the teeth of the body, And a fastening portion fixed to a selected one of the two connecting bars and fastened to each other.

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