KR20170111836A - Method for Reforcing the Performance of Concrete Structure - Google Patents

Abstract

The present invention relates to an anti-seismic reinforcing device and a method of using the same to prevent ductile deformation and shear deformation of a concrete structure due to an external force, the seismic strengthening device comprising: a plurality of steel connecting portions having a second body bent from the first body; Preparing a plurality of straight steel members; Disposing a steel material connection portion through an elastic plate disposed at a corner portion where the flat portion of the concrete structure and the other flat portion adjacent to the concrete portion meet with each other; And a male screw portion formed at the other end of the straight steel member is connected to the other end of the straight steel member so that the engagement portion formed at the end of the straight steel member passing through the steel material insertion hole formed in the first body of one of the plurality of steel member connection portions is engaged with the steel material insertion hole Connecting the steel material between the adjacent steel connecting portions by screwing the steel connecting holes of the second body of the other steel connecting portion and connecting the steel connecting portions between the male screw portions of the straight steel and the steel engaging spaces of the second body, Applying a preliminary tensile force to the straight steel while compressing the plate; The reinforcing plate is reinforced with a restraining force acting in the direction of the center of the cross section orthogonal to the concrete structure by a preliminary tensile force applied to the straight steel member while increasing the adhesion force between the steel member connecting portion and the concrete structure. .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforced concrete structure,

The present invention relates to a concrete structure reinforcing apparatus and a reinforcing method using the same, and more particularly, to a concrete structure reinforcing apparatus and method for reinforcing a concrete structure such as a column or a beam, The present invention relates to a concrete structure reinforcing apparatus and a reinforcing method using the same, which can secure the structural safety of an aged concrete structure by a simple reinforcing construction.

Recently, in view of rapid increase of housing demand due to the rapid progress of urbanization, improvement of the demand level for improving the quality level and utilization of aged inventory buildings, the need for eco-friendly buildings, and prevention of over- Remodeling is recommended.

Accordingly, there is a growing interest in remodeling as an alternative to demolition and construction of existing reinforced concrete buildings.

In addition, existing old buildings and newly constructed buildings differ from each other according to the construction method according to the building method. Unlike new buildings, buildings do not reflect the seismic design at all. There was a risk of causing many human casualties.

In addition, from the viewpoint of increasing interest in the environment and efficiency in terms of economy, the number of apartments adopting remodeling other than new construction or reconstruction increases with decreasing environmental wastes at the government level and having the framework of existing apartments as much as possible .

In particular, the remodeling of a building does not need to be approved by the relevant authorities, and it is possible to construct a remodeled building with a simple procedure. Therefore, it is more advantageous to be able to construct a modern building than a new building. The problem was that the public was vulnerable.

As a method of remodeling such old old materials, there is a method of reinforcing the reinforced concrete around the existing pillar and installing the formwork and installing concrete on site, but it requires a lot of air, the labor cost is increased, and the construction cost is excessively increased .

(Patent Document 1) KR10-1506110 B1

Patent Document 1 discloses a reinforcement method in which reinforcement is performed by applying a restraining force acting in the direction of a center of a cross section orthogonal to a concrete structure by a steel connecting portion disposed at each corner of a concrete structure and a pre- have.

However, when the surface of the corner portion where the steel connection portion is disposed is irregular in nature of the concrete structure, the contact between the edge portion of the steel connection portion becomes uneven and the external force can not be transmitted to the concrete structure through the steel and steel connection portion, .

In addition, when reinforcing a concrete structure installed in an underground tunnel section such as a subway, if the contact state between the steel connection portion and the concrete structure becomes poor, the vibration due to the operation of the subway causes time to pass between the steel connection portion and the concrete structure The spacing is increased and the bonding force of the steel material coupled with the steel material connection portion is lowered, thereby lowering the strength of the steel material and lowering the reliability, and there is a fatal problem in that the steel material connecting portion and the steel material are separated and separated from the concrete structure.

Accordingly, in order to ensure a stable surface contact between the concrete structure and the steel connection portion, the concrete structure is subjected to an additional process of chipping the surface of the concrete structure uniformly. As a result of the large amount of dust generated during the chipping operation, There is a problem in that the work load of the worker due to the dust increases, while the cost of the construction is increased. In addition, if the tightening torque is increased to increase the bonding force of the steel, if the allowable stress value of the concrete is exceeded near the contact surface with the column, cracks are generated and the general column surface is irregular. There is a problem that is difficult to do. This makes it difficult to increase the fastening force between the steel materials, so that it is difficult to exhibit the restraining effect on the deep concrete of the column, and the reinforcing effect is not increased.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a concrete structure capable of stably maintaining surface contact with a reinforcing object without additional chipping process, A concrete structure reinforcing apparatus and a reinforcing method using the same.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible. This is not limited to square columns. Although not shown in the drawings, circular columns can be applied at any time.

As a concrete means for attaining the above-mentioned object, there is provided a concrete structure comprising a plurality of steel material connecting portions having a second body bent from a first body, and a plurality of straight steel members each having a predetermined length, And the like), the elastic plate is used as an intermediate between the pillars whose contact surfaces are not uniform.

In a preferred embodiment of the present invention, by using such a reinforcing device, a method of seismic strengthening to prevent ductile deformation and shear deformation of a concrete structure by an external force, comprising the steps of: Preparing a plurality of straight steel members having a predetermined number of steel connecting portions and a predetermined length; Disposing a steel material connection portion through an elastic plate disposed at a corner portion where the flat portion of the concrete structure and the other flat portion adjacent to the concrete portion meet with each other; And a male screw portion formed at the other end of the straight steel member is connected to the other end of the straight steel member so that the engagement portion formed at the end of the straight steel member passing through the steel material insertion hole formed in the first body of one of the plurality of steel member connection portions is engaged with the steel material insertion hole Connecting the steel material between the adjacent steel connecting portions by screwing the steel connecting holes of the second body of the other steel connecting portion and connecting the steel connecting portions between the male screw portions of the straight steel and the steel engaging spaces of the second body, Applying a preliminary tensile force to the straight steel while compressing the plate; And a reinforcing force acting in the direction of the center of the cross section orthogonal to the concrete structure by a preliminary tensile force applied to the straight steel while increasing the adhesion force between the steel material connecting portion and the concrete structure by the restoring force of the elastic plate, The present invention provides a method of reinforcing concrete structures.

Preferably, the step of connecting the steel material may include placing a steel block between the straight steel and the concrete structure, the steel block having a through-hole through which a straight steel connecting the adjacent steel connecting portions is inserted.

Preferably, the step of controlling the amount of rotation of the male threaded portion of the straight steel threadedly coupled to the steel mating hole of the second body, wherein the step of controlling the amount of rotation of the male threaded portion comprises: By comparing the deformation portion of the elastic plate which is compressed and protruded outward and the first gage provided in the steel material connecting portion.

Preferably, the first gauge may be formed of a bar member having one end assembled to one of the first and second main bodies of the steel connecting part and having a predetermined length and having a scale formed thereon.

Preferably, the step of controlling the amount of rotation of the male threaded portion of the straight steel threadedly coupled to the steel mating hole of the second body, wherein the step of controlling the amount of rotation of the male threaded portion comprises: And a second gauge which is opened to one side so as to be fitted to the deformation portion of the elastic plate which is compressed and protruded outward.

More preferably, the second gauge may be formed of a U-shaped plate having an opening formed at one side thereof so that the elastic plate is correspondingly inserted, and the scale is formed on the body.

Preferably, the step of attaching the elastic plate to the inner surface of the edge portion or the steel connecting portion by adhesive on both sides or one side surface of the elastic plate may be included before the step of arranging the steel connecting portion.

The present invention as described above has the following effects.

(1) The screw part of the straight steel is screwed to the steel material coupling hole formed in the second body of the steel material connecting part, and the fastening part of the straight steel material which is hooked on the first body of the other steel material connecting part is rotated in the locking direction, It is possible to add a preliminary tensile force to the straight steel member pulled outward in proportion to the amount of rotation of the straight steel member while increasing the adhesion between the steel member connecting portion and the concrete structure by the elastic plate which is expanded and deformed Therefore, a restraining force acting on the center of the cross section orthogonal to the concrete structure is applied by the preliminary tensile force applied to the steel material, so that it can be reinforced to prevent the deformation of the concrete structure due to an external force such as earthquake or vibration.

(2) The assembly structure between the steel joint and the straight steel is adhered to the concrete structure by the restoring force of the straight steel which is bent in the outward direction by the steel block which is provided in the middle of the straight steel material and is in contact with the concrete structure. It is possible to prevent the screw tightening force of the threaded portion and the steel joint space from loosening or the adhesion force from being lowered due to the vibration generated around the concrete structure after the reinforcing construction.

(3) Since the worker can control the amount of rotation and tightening of the straight steel while checking the deformation portion of the elastic plate which is interposed between the concrete structure and the steel connection portion, the external force higher than the pre- More rigorous stress management can be carried out while preventing damage to the structure caused by breakage or transfer of low external force to the straight steel.

(4) Even if the tightening torque is increased, unnecessary cracks are not generated on the irregular column surface, and the maximum tensional force is introduced to uniformly distribute the restraining load due to the tensional load to the column portion.

(5) By introducing the tightening torque to the maximum, the constraining effect on the deep part concrete part of the column part (square column, round column, etc.) can be greatly increased.

1 is a perspective view illustrating a process of preparing a steel joint and a straight steel in a concrete structure reinforcement method according to a preferred embodiment of the present invention.
2 is a perspective view illustrating a process of connecting and applying a steel joint and a straight steel in a concrete structure reinforcement method according to a preferred embodiment of the present invention.
3 is an enlarged view showing a deformed portion of an elastic plate interposed between a steel connection portion and a concrete structure in a concrete structure reinforcement method according to a preferred embodiment of the present invention.
FIG. 4 is a view showing a construction in which a steel block is applied between a straight steel and a concrete structure in a concrete structure reinforcement method according to a preferred embodiment of the present invention.
FIGS. 5A and 5B are views illustrating a method for controlling the rotational force of a straight steel in a concrete structure reinforcing method according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to include an element does not exclude other elements unless specifically stated otherwise, but may also include other elements.

The method of reinforcing a concrete structure according to a preferred embodiment of the present invention may include a preparation step, a placement step, a connection step, and an application step so as to reinforce the ductility of the concrete structure by external force and to prevent shear deformation.

As shown in FIGS. 1 to 4, the reinforcing method for reinforcing concrete structures includes a plurality of steel joints 110, so that a concrete structure C, which is a column or a beam having a substantially rectangular cross section, can withstand external forces transmitted when an earthquake occurs. And the straight steel member 120 are used.

Here, the reinforcing method is a concrete structure that is provided vertically in a column or beam form on a subway tunnel structure installed below the ground, or a concrete structure that is provided vertically in a pillar or beam form on a ground structure installed on the ground The same can be applied.

1, the preparing step includes a plurality of steel material connecting parts 110 having a second body 112 bent at a substantially right angle from the first body 111, a plurality of straight steel plates 110 having a predetermined length, (120).

The steel connecting part 110 is disposed via the elastic plate 130 at each corner part where the flat part of the concrete structure C having a polygonal cross-section such as a square and the other flat parts adjacent thereto meet, Are connected to each other.

That is, the steel connecting portion 110 is provided with a steel material insertion hole 113 having one end of the straight steel member 120 inserted therethrough and having a stepped portion formed at an end portion of the straight steel member passing therethrough, A first body 111 having an inner side surface in contact with the flat surface portion and a steel material coupling hole 114 formed by bending at a substantially right angle from the first body 111 and screwing the other end of the adjacent straight steel material And a second body 112 disposed on the other planar portion so as to be in contact with the inner surface.

The steel material connecting part 110 including the first body 111 and the second body 112 is provided with the steel material insertion hole 113 and the steel material coupling hole 114 so as to have a cross sectional shape of the concrete structure C And may be made of a metal or a resin member bent at a right angle or an obtuse angle so as to be in close contact with the edge portions varying along the circumferential direction.

The steel material insertion hole 113 formed through the first body 111 has a stepped portion 113a to which the engagement portion 121 formed at one end of the steel material 120 is engaged, It is preferable that the portion 113a is formed at one end of the steel material insertion hole with an inner diameter larger than the outer diameter of the engagement portion so that the engagement portion can be rotated.

The hook 121 formed at the end portion of the straight steel is provided with a hexagonal screw head so as to be rotated by a tool not shown or a hexagonal or hollow hole may be formed at the end thereof.

The steel material coupling hole 114 formed in the second body 112 has one end opened and the other end closed and the female screw portion is screwed into the inner peripheral surface As shown in FIG.

The straight steel member 120 is connected to both ends of a pair of steel joints 110 disposed at adjacent corners of the concrete structure C, Lt; / RTI >

The straight steel member 120 is inserted through a steel material insertion hole 113 formed in the first body 111 of the steel material coupling portion 110 and is engaged with a step portion 113a formed in the steel material insertion hole, And a male screw portion 122 which is screwed to the steel material coupling hole 114 formed in the second body 112 of the adjacent other steel material coupling portion 110 and is engaged with the second body, Respectively.

2, the placement of the steel material connecting part 110 is performed through the elastic plate 130 disposed at the corner part where the flat part of the concrete structure C and the other flat part adjacent to the concrete part C meet, And then a connecting step of connecting the straight steel members 120 between adjacent steel connecting portions is performed.

The connecting step may be performed in any one of a plurality of steel material connecting parts such that the engaging part 121 formed at one end of the straight steel material 120 is engaged with the step part 113a formed in the steel material inserting hole of the first body 111 The straight steel material is inserted through the steel material insertion hole 113 of the first body 111 provided in the steel material connecting portion 110 of the first embodiment.

The engaging portion 121 of the straight steel member 120 is engaged with the step portion 113a having an inner diameter relatively larger than the inner diameter of the steel material insertion hole 113. The engaging portion 121 is engaged with the step portion 113a, The first body may be detachably attached to the first body by a cutout formed in one side of the first body so as to expose the stepped portion.

The male screw portion 122 formed at the other end of the straight steel member 120 is screwed to the steel member coupling hole 114 of the second body 112 provided at another adjacent steel member coupling portion, Can be connected to each other.

The elastic plate 130 interposed between the edge of the concrete structure and the first and second bodies of the steel connection part is preferably made of an elastic material such as a rubber material capable of being compressively deformed by an external force, As a result of being attached to the edge portion of the concrete structure or the inner surface of the steel material connecting portion before the step of arranging the steel material connecting portion 110 by the adhesive applied on both sides or one side surface, the elastic plate is inserted between the corner portion and the steel connecting portion So that it is possible to perform the intervention work more easily.

Accordingly, in the state where the elastic plate is interposed between the steel connection part and the corner part, the straight steel material 120 connected to both ends of the reinforced concrete structure by the steel material connecting part disposed at each of the corner parts is parallel to the flat part It is arranged in parallel.

On the other hand, in the process of connecting the straight steel members between adjacent steel member connecting portions, as shown in FIG. 4, a straight steel member connecting adjacent steel member connecting portions has a through hole 145 Is disposed between the straight steel member 120 and the flat member of the concrete structure C so that the middle of the straight steel member is flexed outward by the steel block to generate a restoring force to be restored to the inside .

The gap G1 between the center of the through hole of the steel block and the plane portion of the concrete structure should be set to be relatively larger than the gap G between the center of the straight steel and the plane portion of the concrete structure.

Accordingly, when the interval between adjacent steel connecting portions becomes narrow due to the screwing of the straight steel member and the compressive deformation of the elastic plate, the middle of the straight steel member inserted corresponding to the through hole of the steel block is bent outward The elastic restoring force is generated while being deformed.

When the external force for rotating the straight steel member is released, the straight steel member whose length is bent outward by the steel block is restored to a linear restoration force, and the assembly in which the steel member connecting portion and the linear steel member are coupled to each other, It is possible to increase the adhesion between the structures.

Therefore, it is possible to prevent the screwing force of the male thread portion and the steel material space from being loosened due to an external force such as vibration transmitted from the periphery of the object to be reinforced, prevent the adhesion between the steel material connector and the concrete structure from being deteriorated, It can be done.

Finally, the applying step applies a preliminary tensile force to the straight steel while compressing and deforming the elastic plate 130 by the screwing force of the male screw portion of the straight steel member 120 and the steel engaging space of the second body .

That is, the male screw portion 122 of the straight steel 120 inserted through the steel insert hole 113 formed in the first body 111 of the steel connecting portion 110 is inserted into the second body 112 of the other steel connecting portion When the engaging portion 121 engaged with the step of the steel material insertion hole 113 is rotated in the locking direction by the tool not shown in a state of being screwed with the formed steel material coupling hole 114, Since the threaded portion 122 of the straight steel is screwed to the steel material coupling hole 114 of the steel material 120, an external force is applied to each straight steel material provided between a pair of adjacent steel- .

Therefore, it is reinforced by applying a restraining force acting in the direction of the center of the cross section orthogonal to the concrete structure (C) through a preliminary tensile force generated due to an external force applied to the straight steel.

At this time, since the elastic plate 130 interposed between the steel connecting portion 110 and the concrete structure C is made of an elastic body capable of elastically deforming, the thickness is thinned while being compressively deformed by the screwing force of the straight steel, And the width is expanded and deformed outward while being stretched.

After the screw fastening operation of the straight steel is stopped, the first and second bodies 111 and 112 of the steel connecting part 110 and the corner parts of the concrete structure C are elastically restored by the compressive- It is possible to prevent the occurrence of screw loosening of the threaded portion of the straight steel and the steel material coupling space due to the external vibration because the tight fitting force can be increased and maintained for a long time.

Meanwhile, the operation of applying the preliminary tensile force to reinforce the concrete structure to be reinforced by screwing the male thread portion of the straight steel material to the steel material coupling hole formed in the second body of the steel connection portion is performed by using the stress of the concrete structure and the elastic strain rate of the elastic plate It is necessary to calculate the set value in advance based on the following equation and perform it accurately based on the calculated set value.

W = T / (K * D)

Where W is the steel axial external force, T is the torque, K is the friction coefficient, and D is the diameter of the male thread.

σ = W / A

Where sigma is the stress generated in the elastic plate, and A is the contact area of the elastic plate.

 σ <σ1

FS = σ / σ1

Where FS is the safety factor, and σ1 is the allowable stress of the concrete structure.

Table 1 below shows the measurements of the volume deformation rate and the area deformation rate of the elastic plate in accordance with the compression deformation of the width (B), the length (L) and the thickness (T) of the elastic plate interposed between the concrete structure and the steel connecting part .

Before transformation After transformation Difference The elastic plate width (B) 53mm 63 +10 Elastic plate length (L) 106mm 112 +6 Elastic plate thickness (T) 2.4 mm 2.2 -0.2 Volume (B * L * T) 13483㎣ 15523㎣ 2035 Area (B * L) 5618mm 7056mm2 1438

As can be seen from Table 1, it can be seen that the width and length of the elastic plate interposed between the steel connection portion and the concrete structure are elongated by the screwing force generated when the linear steel is fastened and tightened. (Σ) should be set within the allowable stress (σ1) or breakage of the concrete structure.

Accordingly, when the linear steel member 120 is screwed to the steel material coupling hole of the adjacent steel material coupling unit 110 to apply the preliminary tensile force, the steel material is screwed to the steel material coupling hole 114 of the second body 112 It is preferable to confirm the amount of rotation of the male screw portion 122 of the straight steel member 120. [

 5A, the first and second bodies 111 and 112 of the steel connecting portion 110 and the corner portions of the concrete structure C are connected to each other by a bolt, The deformation portion 130a of the elastic plate 130 which is compressed by the screwing force due to the rotation of the straight steel member and gradually protrudes outwardly is compared with the scale of the first gauge 116 fixed separately to the steel connecting portion 110 So that the amount of rotation of the straight steel can be controlled.

The first gauge 116 may include a bar member having one end integrated with a connection hole 116a formed in one of the first and second bodies of the steel connection unit and having a predetermined length on the body.

5B, the first and second bodies 111 and 112 of the steel material connection portion 110 and the corner portions of the concrete structure C may be connected to each other by a method of controlling the amount of rotation of the male screw portion 122, A deformed portion 130a of the elastic plate 130 which is compressed by the screwing force generated by the rotation of the linear steel member and gradually protrudes outward is inserted into the second gauge 117 opened to one side so as to fit the outer edge of the elastic plate, So that the amount of rotation of the straight steel can be controlled.

The second gauge 117 may be formed of a substantially C-shaped plate having an opening 117a formed at one side thereof so that the elastic plate may be inserted correspondingly, and a scale is formed on the body.

Accordingly, in order to increase the screwing force between the male screw portion 122 and the female screw hole 114 by rotating the engagement portion of the straight steel member 120 in one direction, the deformation of the elastic plate, which is expanded and deformed at the steel connector portion and the corner portion, The degree of deformation of the portion 130a can be confirmed through the first gauge 116 or the second gauge 117. When the displacement portion 130a reaches the previously set graduation position of the first cage, When the deformed portion 130a comes into contact with the two-gage opening 117a, the worker can stop rotating the engaging portion so as to apply a preliminary tensile force to the straight steel member 120, It is possible to prevent a slight external force from being generated.

In addition, by the preliminary tensile force applied to the straight steel, reinforcing force acting in the direction of the deep concrete, which is the center of the cross section perpendicular to the concrete structure, can be applied to reinforce the concrete structure without damaging the concrete structure.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

110: Steel connection
111: first body
112: second body
113: steel insert ball
113a:
114: steel joining ball
116: 1st gauge
117: second gauge
120: Straight steel
121:
122: male threads
130: elastic plate
140: Steel block
145: Through hole

Claims (10)

An apparatus for seismic strengthening to prevent ductile deformation and shear deformation of a concrete structure due to external force,
A plurality of steel connecting portions having a second body bent from the first body and a plurality of straight steel members having a predetermined length are fixed to the concrete column portion, Wherein the intermediate device has an intermediate mediator. The method according to claim 1,
A method for seismic strengthening to prevent ductile deformation and shear deformation of a concrete structure due to an external force by using a reinforcing device having the elastic plate,
Preparing a plurality of straight steel members having a predetermined length and a plurality of steel material connecting portions having a second body bent from the first body;
Disposing a steel material connection portion through an elastic plate disposed at a corner portion where the flat portion of the concrete structure and the other flat portion adjacent to the concrete portion meet with each other;
And a male screw portion formed at the other end of the straight steel member is connected to the other end of the straight steel member so that the engagement portion formed at the end of the straight steel member passing through the steel material insertion hole formed in the first body of one of the plurality of steel member connection portions is engaged with the steel material insertion hole Connecting the steel material between adjacent steel joints by threading the steel joints of the second body of the other steel joints and
Applying a preliminary tensile force to the straight steel while compressing the elastic plate by a screwing force of the threaded portion of the straight steel and the steel coupling space of the second body; And a reinforcing force acting in the direction of the center of the cross section orthogonal to the concrete structure by a preliminary tensile force applied to the straight steel while increasing the adhesion force between the steel material connecting portion and the concrete structure by the restoring force of the elastic plate, A method of reinforcing concrete structures. 3. The method of claim 2,
Wherein the step of connecting the steel material includes a step of disposing a steel block having a through-hole through which a straight steel material connecting adjacent steel material connecting portions is inserted, between the straight steel material and the concrete structure. Reinforcement method. 3. The method of claim 2,
Further comprising the step of controlling an amount of rotation of the male thread portion of the straight steel threadedly engaged with the steel material coupling hole of the second body,
The step of controlling the amount of rotation of the male screw portion is performed by checking the comparison between the deformation portion of the elastic plate which is compressed between the steel connecting portion and the concrete structure and protruded outward and the first gauge provided at the steel connecting portion To reinforce the concrete structure. 5. The method of claim 4,
Wherein the first gauge is formed of a bar member having a predetermined length and one end of which is assembled to a connection hole formed in any one of the first and second bodies of the steel connection portion, and a scale is formed on the body. 3. The method of claim 2,
Further comprising the step of controlling an amount of rotation of the male thread portion of the straight steel threadedly engaged with the steel material coupling hole of the second body,
Wherein the step of controlling the amount of rotation of the male screw portion is performed by checking a second gauge which is opened to one side so as to be fitted to the deformation portion of the elastic plate which is compressed between the steel connecting portion and the concrete structure and protruded outward Method of Reinforcing Concrete Structures. The method according to claim 6,
Wherein the second gauge is formed of a U-shaped plate having an opening formed at one side thereof so that the elastic plate is correspondingly inserted, the scale being formed on the body. 8. The method according to any one of claims 2 to 7,
And attaching the elastic plate to the inner surface of the edge portion or the steel material connecting portion by an adhesive on both sides or one side surface of the elastic plate before the step of arranging the steel material connecting portion . The method according to claim 1,
Characterized in that the elasticity of the elastic plate is measured by using a gauge as the elastic plate is tightly fixed to the column and fixed and the volume and area of the elastic plate are changed, An apparatus for seismic strengthening to prevent ductile deformation and shear deformation of a concrete structure due to external force,
In the fixing of the reinforcing member made up of the plurality of steel connecting portions having the fixing material body on the outer curved portion of the circular column portion and the plurality of steel materials having the predetermined length to the concrete column portions, Wherein the intermediate device has an intermediate mediator.

Images