KR102274029B1 - Method for reinforcing the Earthquake of a concrete columns - Google Patents

Abstract

Provided is a method for earthquake-resistant reinforcement of a concrete column.
The present invention, a plurality of edge support provided in a plurality of corners formed to face the flat portion forming the corner portion of the concrete pillar and another flat portion adjacent to it;
Any one of the corner supporting parts of the plurality of corner supporting parts has at least one surface that is in contact with the flat part forming the corner of the concrete column and one or more surfaces that do not face it,
Any one of the corner support parts of the plurality of corner support parts is formed in the vertical direction of the concrete column and is installed in the reinforcement section (h) of the concrete column surface,
Any one of the plurality of corner support parts is composed of a length of the reinforcement section (h) of the concrete column,
In any one of the corner support parts of the plurality of corner support parts, the other side of the corner support part that does not face the flat part forming the corner part of the concrete column at all is formed in the vertical direction of the concrete column,
In any one of the corner support of the plurality of corner support, a plurality of steel materials of a certain length connected to the other surface of the corner support that does not face the flat portion forming the corner of the concrete column and fixed; includes
In addition, a corner support portion having a pair of supports each disposed so as to face a plane portion forming a corner portion of the concrete column and another flat portion adjacent thereto and provided in a plurality of corner portions formed in the concrete column; A plurality of edge support consisting of ;
Any one of the corner supporting parts of the plurality of corner supporting parts has at least one surface that is in contact with the flat part forming the corner of the concrete column and one or more surfaces that do not face it,
Any one of the corner support parts of the plurality of corner support parts is formed in the vertical direction of the concrete column and is installed in the reinforcement section (h) of the concrete column surface,
Any one of the plurality of corner support parts is composed of a length of the reinforcement section (h) of the concrete column,
In any one of the corner support parts of the plurality of corner support parts, the other side of the corner support part that does not face the flat part forming the corner part of the concrete column at all is formed in the vertical direction of the concrete column,
In any one of the corner support of the plurality of corner support, a plurality of steel materials of a certain length connected to the other surface of the corner support that does not face the flat portion forming the corner of the concrete column and fixed; includes
In addition, a pair of supports each disposed so that one surface is in contact with the flat portion forming the corner portion of the concrete column and another flat portion adjacent thereto, and a pair of connecting ends in contact with each end of the pair of supports between the corner portion and the support body A plurality of corner support provided in a plurality of corners formed on the concrete pillar, including a connector having a surface;
Any one of the corner supporting parts of the plurality of corner supporting parts has at least one surface that is in contact with the flat part forming the corner of the concrete column and one or more surfaces that do not face it,
Any one of the corner support parts of the plurality of corner support parts is formed in the vertical direction of the concrete column and is installed in the reinforcement section (h) of the concrete column surface,
Any one of the plurality of corner support parts is composed of a length of the reinforcement section (h) of the concrete column,
In any one of the corner support parts of the plurality of corner support parts, the other side of the corner support part that does not face the flat part forming the corner part of the concrete column at all is formed in the vertical direction of the concrete column,
In any one of the corner support of the plurality of corner support, a plurality of steel materials of a certain length connected to the other surface of the corner support that does not face the flat portion forming the corner of the concrete column and fixed; includes

Description

{Method for reinforcing the Earthquake of a concrete columns}

The present invention relates to a seismic reinforcement method of a concrete column, and more particularly, to an external force such as an earthquake by transmitting a binding force orthogonal to the compressive load in the vertical direction of a concrete column installed on the ground or underground to support civil engineering and building structures. It relates to a concrete column earthquake-resistant reinforcement method that can prevent sudden destruction of concrete columns due to bending or shear deformation, and secure structural seismic safety for old concrete columns that do not have seismic resistance through simple reinforcement construction. . In particular, it relates to a seismic reinforcement method of a concrete column capable of reducing maintenance costs.

In terms of the recent rapid increase in housing demand due to the rapid progress of urbanization, the improvement of the level of demand for improvement of the quality and utilization of outdated inventory buildings, the need for environment-friendly buildings, and prevention of land reckless development due to reckless new building construction, etc. Remodeling is recommended.

Accordingly, interest in remodeling as an alternative to the demolition and new construction of existing reinforced concrete buildings is continuously increasing.

In addition, the reflection of design according to the building law differs depending on the time of construction in the existing old civil and architectural structures and newly constructed buildings. Unlike new buildings, seismic design is not reflected in old buildings at all, so It was destroyed and there was a risk of many casualties.

In addition, as interest in the environment increases and the government has a rehabilitation policy that reduces environmental waste and enables the framework of existing apartments from the viewpoint of economic efficiency, the number of apartments choosing remodeling other than new construction or reconstruction will increase. It is expected.

In particular, the remodeling of a building does not need to be re-approved by the relevant agency and can be remodeled with a simple procedure, so there is more freedom of choice compared to a new building, and it has the advantage of being able to construct a modern building. The problem was that concrete columns such as beams were weak.

As a method of remodeling such an old building, there is a method of reinforcing reinforcing bars around the existing columns and installing formwork to reinforce it with cast-in-place concrete, but it requires a lot of time, increases labor costs, and fails to improve the quality of the construction, so the construction cost is excessive. .

(Patent Document 1) KR10-2015-0030061 A

Patent Document 1 discloses a concrete structure in which a steel support part is disposed at each corner where the flat part of the structure and another flat part adjacent thereto meet each other, a steel fixing part is disposed in any one of a plurality of flat parts of a concrete column, and a steel support part At least one bent portion bent in the middle of the length is placed on a nut member that is fastened to the end of the steel material that is connected to and exposed to the steel material fixing unit, including the steel material having both ends connected and fixed to the steel material fixing unit, respectively It is reinforced by applying a restraining force acting in the center direction of the cross section orthogonal to the concrete column through the external force applied to the steel.

However, when a horizontal external force such as an earthquake is applied, the structure is reinforced only in the horizontal direction of the corner, and in order to further increase the seismic performance against flexural shear, the seismic reinforcing material must be arranged closely, thereby improving economic efficiency and constructability. There may be cases where it cannot be secured. In this case, the construction work for reinforcing the concrete column according to the pre-preparation is lengthened, and on the other hand, the work productivity is reduced, and the manufacturing cost is increased due to the non-standardized and custom-made components.

In the case of the existing invention, the steel material was arranged spaced apart and the steel support part was also arranged spaced apart, and only the shear reinforcement effect and the ductility reinforcement effect were expected. In addition, in the case of the existing invention product, it was necessary to delay the time of initial cracking, which impairs the rigidity of the concrete column for seismic performance, so that the effect of seismic performance could be further expressed.

Since the entire area of the reinforcing section is not reinforced when an external bending force occurs on a column of a concrete structure, it is necessary to significantly improve the performance function for the external bending force. In addition, it was necessary to reduce maintenance items after construction and installation.

Therefore, the present invention is to solve the above problems, and the purpose is to increase the area in contact with the corner formed between the flat portion of the concrete column and the adjacent flat portion in the vertical direction, thereby improving the bending strength and the shear strength at the same time By increasing the restraining area, it has excellent seismic performance by increasing the energy absorption efficiency area, and the reinforcement work for the concrete column can be performed stably and quickly at the same time, and the flat part of the concrete column An object of the present invention is to provide a concrete column earthquake-resistant reinforcement method that can increase the contact area with the concrete column to increase the reinforcement efficiency and prevent external forces from being concentrated on the corner of the concrete column.

In particular, it is intended to provide a concrete column earthquake-resistant reinforcement method that maximizes construction efficiency by simply installing corner supports at the corners of the concrete columns, and increases the shear rigidity and flexural rigidity for the seismic performance of the concrete column by pressing all corners.

In particular, after the construction of seismic reinforcement of the concrete column is completed, it is intended to provide a method to reduce the maintenance cost in order to reduce the maintenance cost.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description. will be able

As a specific means for achieving the above object, a first preferred embodiment of the present invention is an apparatus for reinforcing a concrete column to prevent bending or shear deformation caused by an external force, a plane forming the corner of the concrete column a plurality of corner support portions provided on a plurality of corner portions formed to face the portion and another flat portion adjacent thereto; Any one of the corner supporting parts of the plurality of corner support has one or more faces that are not in contact with the plane part forming the corner of the concrete column and at least one face that does not face, any one edge of the plurality of corner supporting parts The support part is formed in the vertical direction of the concrete column and is installed in the reinforcement section (h) of the surface of the concrete column, and the edge support part of any one of the plurality of edge support parts consists of a length of the reinforcement section (h) of the concrete column, In any one of the corner support parts of the plurality of corner support parts, the other side of the corner support part that does not face the flat part forming the corner part of the concrete column at all is formed in the vertical direction of the concrete column, and the plurality of corner support parts In any one of the corner support, a plurality of steel materials of a certain length fixed to the other side of the corner support that does not face the flat portion forming the corner of the concrete column; It provides a concrete post seismic reinforcement method, characterized in that it is reinforced by applying a restraining force acting in a cross-sectional center direction orthogonal to the concrete column through an external force applied to the steel material by being fastened with a nut member.

A second preferred embodiment of the present invention is an apparatus for reinforcing a concrete column to prevent bending or shear deformation due to external force, wherein one surface is formed on a flat portion forming a corner portion of the concrete column and another flat portion adjacent thereto a corner support provided in a plurality of corners formed on the concrete pillar and having a pair of supports each arranged to be interviewed; A plurality of edge support consisting of ; Any one of the corner supporting parts of the plurality of corner support has one or more faces that are not in contact with the plane part forming the corner of the concrete column and at least one face that does not face, any one edge of the plurality of corner supporting parts The support part is formed in the vertical direction of the concrete column and is installed in the reinforcement section (h) of the surface of the concrete column, and the edge support part of any one of the plurality of edge support parts consists of a length of the reinforcement section (h) of the concrete column, In any one of the corner support parts of the plurality of corner support parts, the other side of the corner support part that does not face the flat part forming the corner part of the concrete column at all is formed in the vertical direction of the concrete column, and the plurality of corner support parts In any one of the corner support, a plurality of steel materials of a certain length fixed to the other side of the corner support that does not face the flat portion forming the corner of the concrete column; It provides a concrete post seismic reinforcement method, characterized in that it is reinforced by applying a restraining force acting in a cross-sectional center direction orthogonal to the concrete column through an external force applied to the steel material by being fastened with a nut member.

A third preferred embodiment of the present invention is an apparatus for reinforcing a concrete column to prevent bending or shear deformation caused by an external force, wherein one surface is formed on a flat portion forming a corner portion of the concrete column and another flat portion adjacent thereto A plurality provided in a plurality of corners formed in the concrete pillar, including a pair of supports each disposed to face-to-face, and a connector having a pair of connecting surfaces in contact with each end of the pair of supports between the corner and the support. four corner supports; Any one of the corner supporting parts of the plurality of corner support has one or more faces that are not in contact with the plane part forming the corner of the concrete column and at least one face that does not face, any one edge of the plurality of corner supporting parts The support part is formed in the vertical direction of the concrete column and is installed in the reinforcement section (h) of the surface of the concrete column, and the edge support part of any one of the plurality of edge support parts consists of a length of the reinforcement section (h) of the concrete column, In any one of the corner support parts of the plurality of corner support parts, the other side of the corner support part that does not face the flat part forming the corner part of the concrete column at all is formed in the vertical direction of the concrete column, and the plurality of corner support parts In any one of the corner support, a plurality of steel materials of a certain length fixed to the other side of the corner support that does not face the flat portion forming the corner of the concrete column; It provides a concrete post seismic reinforcement method, characterized in that it is reinforced by applying a restraining force acting in a cross-sectional center direction orthogonal to the concrete column through an external force applied to the steel material by being fastened with a nut member.

Preferably, the plurality of steel materials of a certain length are installed in the horizontal direction of the concrete pillar in the reinforcement section (h) of the concrete pillar and arranged at the same installation interval, or the installation interval of the steel material for the pillar end section is Narrow, for a section other than the end of the column, the installation spacing of the steel material may be widely arranged.

Preferably, at least one end of the steel material is formed as a male screw part, and may have a fastening member connected and fixed to the edge support part.

Preferably, the support is made of a rectangular hollow body in which the through-holes through which the steel material passes are formed through both ends, respectively, or the through-holes through which the steel material passes are formed through the vertical surfaces of both ends, respectively. It consists of a solid hexahedron in which a through hole through which the steel material passes is formed through the body, or a support reinforcement body is further included in the bending plate body on the 'C' section in which the through hole through which the steel material passes is formed through each of the vertical surfaces at both ends. have.

Preferably, it may include a reinforcing body in contact with the surface of the support in which the through hole is located among the surfaces of the support not in contact with the flat portion forming the corner of the concrete column.

Preferably, the connecting body may be formed of a 'B' cross-section-shaped steel member, a solid rectangular cross-sectional member, or a rectangular hollow cross-sectional member or a triangular cross-sectional member.

Preferably, the through hole formed on the surface of the support may be used as a circular or long hole, an oval ball or a square ball.

Preferably, an additional reinforcing material may be included between the edge support part of any one of the plurality of edge support parts and the other edge support part adjacent thereto.

In addition, for the purpose of reducing maintenance costs,

In the reinforcement section (h) of the concrete column, for the surface where the concrete column seismic reinforcement device is not fixed to the concrete column surface, the usage time of the concrete column earthquake-resistant reinforcement device is extended to minimize maintenance costs It can be used to install solvent fillings.

Preferably, it can be used as a feature of having a maintenance filling by installing a temporary plate for maintenance using the corner support.

Preferably, the maintenance cost can be minimized by installing a maintenance filling so that the fastening member is not exposed. In this way, it may be completely filled, or it may be partially filled.

As a specific method for achieving the above object,

In using the seismic reinforcement device for a concrete column, a construction method using the seismic reinforcement device for a concrete column to minimize maintenance costs. In the reinforcement section (h) of the existing concrete column, the earthquake-resistant reinforcement device for the concrete column is installed on the existing column. Reinforcement installation step; and the step of installing the filling for maintenance; characterized in that it can be constructed. In addition, after reinforcing the concrete pillar seismic reinforcing device on the existing pillar, installing a maintenance filling using a corner support or a curved support so that a part of the earthquake-resistant reinforcing device is not exposed. can In addition, after reinforcing the concrete pillar seismic reinforcing device on the existing pillar, installing a maintenance filling using a corner support or a curved support so that a part of the earthquake-resistant reinforcing device is not exposed. can With respect to the above description, it can be constructed to include the step of installing the filling for maintenance by using the corner support so that at least the fastening member is not exposed among a part of the earthquake-resistant reinforcement device.

In addition, in the column in which the concrete column crosses the wall structure together with the wall, it can be constructed by the earthquake-resistant reinforcement method of the concrete column installed for the entire reinforcement section (h) excluding the wall thickness.

In addition, in a column having a curved surface, such as a column having a molded cross-section or an elliptical cross-section, it may be constructed such that a plurality of curved support portions 100 ′ are installed on the curved portion.

Among the methods described in FIG. 2 , steps C1 to C5 describe the construction method of reinforcing the existing column for the existing concrete column. A detailed description is omitted here. The detailed construction method can be seen in FIG. 2 . In addition, although the description of the sequence for the detailed construction method in FIG. 3 is omitted, the flow of the construction method up to the maintenance filling step will be known.

According to the present invention as described above, there are the following effects.

By increasing the contact area of the corner formed between the flat portion of the concrete column and the adjacent flat portion in the vertical direction, there is an effect of simultaneously improving the bending strength and the shear strength. In addition, by increasing the constrained area of the corner of the column on the outer surface of the concrete column, there is an effect of having an excellent seismic performance by increasing the energy absorption efficiency area. In addition, the reinforcement work on the concrete column can be performed uniformly and quickly, the reinforcing efficiency can be increased by increasing the contact area with the flat part of the concrete column, and the concentration of external force on the corner of the concrete column can be prevented. .

Since the area in contact with the flat portion (or curved portion) can be increased by the supports 110 and 110 ′ that are in contact with the flat portion (or curved portion) of the concrete column, when the concrete column is compressed by an external force such as an earthquake Reinforcement efficiency can be increased to prevent deformation.

Since it is possible to prevent the direct transmission of external force to each corner during seismic reinforcement of a concrete column, it is possible to prevent partial damage to the corners vulnerable to stress.

In particular, the construction efficiency is maximized by simply installing the corner supports 100, 100' on the corners (or curved portions) of the concrete pillars, and all the corners (or curved portions) are pressurized to improve the seismic performance of the concrete pillars. It has the effect of greatly increasing the flexural rigidity at the same time as the shear rigidity. In addition, the construction speed is fast and there is an effect of shortening the construction period, so the construction efficiency is very excellent.

In particular, it is very useful as a technology for a concrete column earthquake-resistant device and its method that can reduce maintenance items and reduce maintenance costs in the future. This technology has to manage the torque value of the fastening member fastened to the male thread part of the steel as the target torque value during construction. Making it unnecessary is the surest way of all. In order to solve this problem, as an example, by filling the place where the fastening member is located for maintenance, the fastening member is not exposed, so that the maintenance cost that may occur in the future is minimized or the cost is not generated. .Also, as an example, it is very effective as a method of reducing maintenance and management costs by installing a temporary plate for maintenance and removing the temporary plate for maintenance after filling and curing.

1 shows a representative view of the seismic reinforcement of a concrete column in which the maintenance cost of the present invention is minimized.
2 shows the construction sequence of the seismic reinforcement of the concrete column in which the use time of the present invention is extended (maintenance cost is minimized).
3 shows a detailed example of the construction sequence of the seismic reinforcement of the concrete column in which the use time of the present invention is extended (maintenance cost is minimized).
4 shows an embodiment in which the surface is arranged for the reinforcement section (h) of the present invention.
5 shows that the corner support part 100 of the present invention is installed in the corner part C. (A drawing is omitted for a column having a curved surface part)
6 shows the installation of the steel material 200 of the present invention.
7 shows that the steel material 200 of the present invention is fastened with the fastening member 210 and the cross-sectional reinforcement material 114 applied to the edge support part 100 in advance is in close contact. (First fastening of the 'fastening member' shape)
8 shows that the target tightening torque value is confirmed by using the torque wrench T. As shown in FIG.
9 shows the seismic reinforcement construction in which the use time of the present invention is extended (maintenance cost is minimized) in the concrete column, in which the reinforcement of the existing column part is primarily completed. car construction completed)
10 shows a partial perspective view in which the temporary plate 310 for maintenance is installed in the concrete column in which the use time of the present invention is extended (maintenance cost is minimized).
11 shows a cross-sectional view in which the temporary plate 310 for maintenance is installed in the concrete column for which the use time of the present invention is extended (maintenance cost is minimized).
12 is a cross-sectional view showing the filling 300 for maintenance in the concrete column for which the use time of the present invention is extended (maintenance cost is minimized).
13 shows a cross-sectional view in which the temporary plate 310 for maintenance is removed after filling 300 for maintenance in the concrete column for which the usage time of the present invention is extended (maintenance cost is minimized).
Figure 14 shows a partial perspective view of the filling 300 for maintenance is completed in the concrete column for which the use time of the present invention is extended (maintenance cost is minimized).
15 is a cross-sectional view showing the completed maintenance filling 300 using the corner support 100 having a step (d) in a concrete column (minimizing maintenance cost for extending the use time of the present invention). (Example when there is a chamfered surface (A))
16 shows an embodiment of the use of the curved support part 100 ′ in a concrete column having a prolonged use time (maintenance cost is minimized) of the present invention, particularly in a concrete column having a curved surface.
17 shows another embodiment of the use of the corner support part 100 in the concrete column for which the use time of the present invention is extended (maintenance cost is minimized). In addition, an example of use of a connector (inside or outside) which is a constituent of the edge support part 100 is shown.
18 shows an embodiment of the use of the support body 110 in the concrete column in which the use time of the present invention is extended (maintenance cost is minimized).
19 is a perspective view showing the completed construction of the concrete column seismic reinforcement in the concrete column for which the use time of the present invention is extended (maintenance cost is minimized).
20 is a perspective view showing the completed construction of the concrete column seismic reinforcement using the additional reinforcing material 400 in the concrete column for which the use time of the present invention is extended (maintenance cost is minimized).
Here, the additional reinforcing material 400 may have the same shape as the support 110 or may be used in various other shapes, so the drawings of the general embodiment will be omitted.
Figure 21 shows a perspective view of an embodiment of a concrete column seismic reinforcement device in which the use time of the present invention is extended (maintenance cost is minimized). Here, an embodiment of the use of the edge support part composed of a support body and a connecting body is shown in a perspective view.
22 is a perspective view showing another embodiment of the seismic reinforcement device for a concrete column in which the use time of the present invention is extended (maintenance cost is minimized). Here, an embodiment of the use of the corner support having a cross-sectional shape is shown. More specifically, in the corner support part, the cross-sectional direction of the support body is long in the part that faces the edge of the concrete column, and the part with the through hole connected to the steel has a cross-sectional shape having a short cross-sectional length of the support body. It is shown as an edge support having a cross-sectional shape of the shape.
The corner support shows an embodiment in which the portion that faces the corner of the concrete column is longer than the portion with the through hole connected to the steel, but in order to minimize the width protruding from the existing concrete column, this embodiment is the most can be said to be preferable.
23 shows a perspective view of another embodiment of a concrete column seismic reinforcement device in which the use time of the present disease is extended (maintenance cost is minimized). Here, as an embodiment in which the support reinforcement 111 is additionally used in the same form as described in FIG. 22 , the use of the support reinforcement 111 having a rectangular cross-section is shown.
24 shows a perspective view of another embodiment of a concrete column seismic reinforcement device in which the use time of the present disease is extended (maintenance cost is minimized). Here, a perspective view is shown in which the support reinforcement 111 having a triangular cross-section is used instead of the support reinforcement having a rectangular cross-section described in FIG. 23 .
As such, although most of the drawings described in the present invention are illustrated and described only for the concrete rectangular column, it is also revealed that the same reinforcement method (construction method) can be used for the columns of circular and elliptical cross sections.
In addition, as described in the drawings of the present invention, the entire reinforcing surface excluding the wall thickness can be constructed and applied with the same reinforcing method (construction method) for the pillars sandwiching the wall.

Hereinafter, with reference to the accompanying drawings, a person of ordinary skill in the art to which the present invention pertains will be described in detail preferred embodiments in which the present invention can be easily practiced. However, in the detailed description of the structural principle of a preferred embodiment of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is 'connected' with another part, it is not only 'directly connected' but also 'indirectly connected' with another element interposed therebetween. include In addition, 'including' a certain component does not exclude other components unless otherwise stated, but means that other components may be further included.

<Example>

As shown in FIG. 6 , the seismic reinforcement device for a concrete column according to an embodiment of the present invention includes a corner support part 100 and a steel material 200 to reinforce the concrete column in order to prevent bending or shear deformation caused by an external force. (In the column having a curved part in Fig. 16, it includes a curved support part)

The support 110 may include a box-shaped metal structure that is disposed so that one surface is in contact with the flat portion forming the corner portion of the concrete pillar P and the other flat portion adjacent thereto.

The steel material 200 has both ends connected to and fixed to any one of a plurality of edge support parts one-to-one for each edge part of the concrete structure and another edge support part 100 adjacent thereto. It may be made of a screw-type or bolt-type fastening structure.

This steel 200 may be made of a stud-type member of a certain length in which one end is made of a fastening member 210 or a screw head, and the other end is fastened with a fastening member 210 to form a male screw part 220 to be coupled, It is not limited thereto, and the male screw part 220 may be formed of a bolt member having a predetermined length formed at both ends so that the fastening members are respectively fastened at both ends to be coupled.

This steel 200 passes through the support 110 provided in the edge support part 100, passes through the support provided in the other adjacent edge support part, and is arranged in parallel with the flat part and at the same time both ends of the steel material 200 is exposed to the side of the support that does not face the flat part between the left and right pair of corner support parts 100 and is restrained and fixed by the fastening member 210 or the screw head of the male screw part. At this time, the restraining force applied by the fastening torque force has the restraint effect of the column part through the steel material 200 and the edge support part 110 . At this time, the generally used fastening torque value (N·m) is to determine the required fastening torque value according to the size of the steel material used, the size of the support body, and the installation interval of the steel material 20 .

Accordingly, both ends of the steel material 200 are constrained and connected between the corner support portions 100 arranged as a pair of left and right for each flat portion of the concrete column P.

In this state, when the operator rotates the fastening members 210 assembled at one end or assembled at both ends of the steel material arranged parallel to each other for each of the plurality of flat parts in the locking direction, which is the fastening direction, one surface of the flat part forming the corner part Since an external force that increases the adhesion between the support and the flat part arranged to be in contact with each other can be transmitted and applied in the direction of the center of the cross-section orthogonal to the flat part of the concrete column, external force reinforcement can be performed to increase the seismic performance of the concrete column. there will be

In summary, a plurality of corner support portions provided in a plurality of corner portions formed to face the flat portion forming the corner portion of the concrete column and another flat portion adjacent thereto; Any one of the corner supporting parts of the plurality of corner support has one or more faces that are not in contact with the plane part forming the corner of the concrete column and at least one face that does not face, any one edge of the plurality of corner supporting parts The support part is formed in the vertical direction of the concrete column and is installed in the reinforcement section (h) of the surface of the concrete column, and the edge support part of any one of the plurality of edge support parts consists of a length of the reinforcement section (h) of the concrete column, In any one of the corner support parts of the plurality of corner support parts, the other side of the corner support part that does not face the flat part forming the corner part of the concrete column at all is formed in the vertical direction of the concrete column, and the plurality of corner support parts In any one of the corner support, a plurality of steel materials of a certain length fixed to the other side of the corner support that does not face the flat portion forming the corner of the concrete column; is used including

In addition, a corner support portion having a pair of supports each disposed so as to face a plane portion forming a corner portion of the concrete column and another flat portion adjacent thereto and provided in a plurality of corner portions formed in the concrete column; A plurality of edge support consisting of ; Any one of the plurality of edge support portion has one or more surfaces that are not in contact with one or more surfaces that are in contact with the flat portion forming the corner of the concrete column, and any one edge of the plurality of edge support portions The support part is formed in the vertical direction of the concrete pillar and installed in the reinforcement section (h) of the surface of the concrete pillar, and the edge support part of any one of the plurality of edge support parts consists of a length of the reinforcement section (h) of the concrete pillar, In any one of the corner support parts of the plurality of corner support parts, the other side of the corner support part that does not face at all with the flat part forming the corner part of the concrete column is formed in the vertical direction of the concrete column, and the plurality of corner support parts In any one of the corner support, a plurality of steel materials of a certain length connected to the other side of the corner support that does not face the flat portion forming the corner of the concrete column and fixed; is used including

In addition, a pair of supports each disposed so that one surface is in contact with the flat portion forming the corner portion of the concrete pillar and another flat portion adjacent thereto, and a pair of connecting ends in contact with each end of the pair of supports between the corner portion and the support body A plurality of corner support provided in a plurality of corners formed on the concrete pillar, including a connector having a surface; Any one of the corner supporting parts of the plurality of corner support has one or more faces that are not in contact with the plane part forming the corner of the concrete column and at least one face that does not face, any one edge of the plurality of corner supporting parts The support part is formed in the vertical direction of the concrete column and is installed in the reinforcement section (h) of the surface of the concrete column, and the edge support part of any one of the plurality of edge support parts consists of a length of the reinforcement section (h) of the concrete column, In any one of the corner support parts of the plurality of corner support parts, the other side of the corner support part that does not face the flat part forming the corner part of the concrete column at all is formed in the vertical direction of the concrete column, and the plurality of corner support parts In any one of the corner support, a plurality of steel materials of a certain length fixed to the other side of the corner support that does not face the flat portion forming the corner of the concrete column; is used including

In addition, the plurality of steel materials of a certain length are installed in the horizontal direction of the concrete pillar in the reinforcement section (h) of the concrete pillar and arranged at the same installation interval, or the installation interval of the steel material is narrow for the pillar end section, , For a section other than the end of the column, the installation spacing of the steel material may be widely arranged, and the support is made of a rectangular hollow body in which the steel material passes through the through hole at both ends, respectively, or the steel material passes through the through hole It consists of a bent plate body with a 'c' cross-section formed through the vertical surfaces at both ends, or a solid hexahedron body in which a through hole through which the steel material passes is formed through the body, or through a through hole through which the steel material passes through the vertical surfaces at both ends, respectively. A support reinforcement body may be further included in the formed bending plate body on the 'c' cross-section.

In addition, the reinforcing body may include a reinforcing body in contact with the surface of the support in which the through hole is located among the surfaces of the support not in contact with the flat portion forming the corner of the concrete column.

In addition, the connecting body may be formed of a 'B' cross-section-shaped steel member, a solid rectangular cross-sectional member, or a rectangular hollow cross-sectional member, or a triangular cross-sectional member.

In addition, the through hole formed on the surface of the support may be used as a circular or long hole, an oval ball or a square ball.

In addition, in order to reduce maintenance costs, in the reinforcement section (h) of the concrete column, the usage time of the concrete column seismic reinforcement device is increased for the surface where the concrete column earthquake-resistant reinforcement device is not fixed to the concrete column surface. It can be extended and used by installing a maintenance filling to minimize maintenance costs.

<Construction work>

In the construction method of the concrete seismic reinforcement device of the present invention, in the reinforcement method for the concrete column constructed using the edge support part 100,

Installing a corner support unit 100 on the corner portion (C) of the pillar; Installing the steel material 200 in the through hole of the corner support; First fastening the fastening member; confirming the target tightening torque value; The construction phase including the construction phase can be configured as a basic phase. At this time, the meaning of 'fastening member' here includes all nut or bolt heads.

In addition, in the construction method, the corner support portion, the corner portion (C) of the concrete pillar, the corner support portion of the length of the reinforcement section (h) provided with two or more supports 110 having a plurality of through-holes formed It contains what is comprised by including.

In addition, in the construction method, the corner support portion is composed of a pair of supports 110 each disposed so that one surface is in contact with the flat portion forming the corner portion of the concrete column and the other flat portion adjacent thereto. A plurality of corner support portions 100 provided for each of the plurality of corner portions formed on the pillar; It can be used as a construction method of a seismic device of a concrete column, characterized in that it comprises a.

In addition, in the above construction method, the step of pre-applying a cross-sectional reinforcement 114 to the inner surface of the corner support portion 100 that faces the concrete column; Installing a corner support unit 100 on the corner portion (C); It can be constructed by including more in the past.

In addition, in the above construction method, the support is made of a rectangular hollow body in which the through-holes 112 through which the steel material passes are formed through each end at both ends, or the through-holes 112 through which the steel material passes through the vertical surfaces at both ends, respectively. The formed 'C' cross-section is made of a bent plate body, or is made of a solid hexahedron in which a through hole 112 through which the steel material passes is formed through the body, or a through hole through which the steel material passes is formed through each of the vertical surfaces at both ends. A support reinforcement body 111 may be further included in the bent plate body on the c' cross-section.

A preferred method in the construction method includes: a steel material 120 of a certain length in which both ends are respectively connected and fixed to any one of the plurality of edge support parts and the other edge support part 100 adjacent thereto; may include

At this time, as described in FIG. 17 , the connecting body 120 is illustrated to be made of a 'B' cross-sectional shape steel member, but in addition, it is made of a solid rectangular cross-sectional member, or a rectangular hollow cross-sectional member, or a triangle. One made of a cross-sectional member of the upper body may be used.

In addition, although not described in the drawings of the present invention, in the column in which the concrete column sandwiches the wall structure together with the wall, the concrete column installed for the entire reinforcement section (h) excluding the wall thickness can be constructed as a seismic reinforcement method. can

In addition, in a column having a curved surface, or in a column having a circular or elliptical cross-section, the steps of installing the curved support portion 100' on the curved portion; Installing the steel material 200 in the through hole of the curved support; First fastening the fastening member; confirming the target tightening torque value; An earthquake-resistant reinforcement method of a concrete column, characterized in that it comprises a pair of supports (110')) and a connecting body (120') constituting the curved support part (100') in the curved support part (100') It can be constructed including reinforcing structures.

In addition, the step of installing a curved support portion (100') on the curved portion; In the construction, including installing a plurality of curved support portions 100 ′ on the curved surface portion, it can be constructed.

Additionally, in the present invention, the material of the corner support portion and the curved surface support portion may be used including both a metallic material or a composite material and a non-metallic material.

In addition, the step of pre-applying the cross-section reinforcement 114 to the inner surface of the corner support 100 that faces the flat portion of the concrete column; It may be further carried out before the step of installing the corner support unit 100 on the corner portion (C) of the concrete column. The cross-section reinforcement 114 used at this time can use a mortar product, epoxy, or a material with little fluidity, and the support 110 of the edge support 100 is tightly fixed to the flat part of the concrete column, resulting in a fastening torque. By allowing the restraining pressure to be evenly distributed on the flat portion of the corner portion C that faces all the supports 110 , it serves to maximize the state of restraint in the deep part of the existing concrete column. At this time, it is desirable to check the target tightening torque value using the torque wrench T, and to manage it so that it has the torque value of the management target value even during future maintenance.

The above description is an embodiment of a method for reinforcing an existing concrete column. However, as described in FIG. 2 , an earthquake-resistant device including filling for maintenance may be additionally used. In addition, as described in Figure 3, after reinforcing the concrete pillar seismic reinforcing device on the existing pillar, so that a part of the earthquake-resistant reinforcing device is not exposed, the maintenance filling is installed using a corner support or a curved support. step; may include.

In addition, in the reinforcement section (h) of the existing concrete pillar, the step of reinforcing the concrete pillar seismic reinforcing device to the existing pillar portion; installing an additional reinforcing material; It may include more.

In addition, it may include the step of installing the filling for maintenance by using the corner support so that at least a fastening member is not exposed among a part of the earthquake-resistant reinforcement device.

If, even in the case of the column in which the concrete column crosses the wall structure together with the wall, it can be used as a seismic reinforcement method of the concrete column installed for the entire reinforcing section h except for the wall thickness.

Also, even in a column having a curved surface, such as a column having a circular cross-section or an elliptical cross-section, a plurality of curved support units 100 ′ may be installed in the curved portion.

Before construction, at least for the reinforcement section, check the fixing surface condition of the edge support part 100 before construction, and perform the step (C1) of cleaning and surface treatment or surface tidying (M) of the surface of the fixing surface pillar Most preferred. If a section repair and reinforcement work is required on the column part, it is most preferable to construct the present invention after confirming that a separate section repair and reinforcement work has been performed in advance.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

100: edge support, 100': curved support
110, 110': support
111: support reinforcement body
112: through hole
114: section reinforcement
120, 120' : connector
121': hinge part of the connector
122: connector
124: connection surface
200: steel
210: fastening member
220: male thread part
300: filling for maintenance
310: temporary plate for maintenance
400: additional reinforcement
P, P' : Concrete Column
C: corner
h: reinforcement section
M : tidy up
F : Base plate, lower slab, floor slab
T : torque wrench
A: Chamfered face
d: step

Claims (28)

delete delete delete delete delete delete delete In the method of reinforcing a concrete column to prevent bending deformation or shear deformation due to external force,
a plurality of corner support parts provided in a plurality of corner portions formed on the concrete column, each having a pair of supports arranged so that one surface of the flat portion forming the corner portion of the concrete column and another flat portion adjacent thereto are interviewed;
Any one of the corner supporting parts of the plurality of corner supporting parts has at least one surface that is in contact with the flat part forming the corner of the concrete column and one or more surfaces that do not face it,
Any one of the corner support parts of the plurality of corner support parts is formed in the vertical direction of the concrete column and is installed in the reinforcement section (h) of the concrete column surface,
Any one of the plurality of corner support parts is composed of a length of the reinforcement section (h) of the concrete column,
In any one of the corner support parts of the plurality of corner support parts, the other side of the corner support part that does not face the flat part forming the corner part of the concrete column at all is formed in the vertical direction of the concrete column,
In any one of the corner support of the plurality of corner support, a plurality of steel materials of a certain length connected to the other surface of the corner support that does not face the flat portion forming the corner of the concrete column and fixed; including,
The through-hole formed in the surface of the support is a concrete column earthquake-proof reinforcement method, characterized in that it is provided with a round or long hole, an oval ball or a square ball. delete 9. The method of claim 8,
A plurality of steel materials of a certain length are installed in the horizontal direction of the concrete pillar in the reinforcement section (h) of the concrete pillar and arranged at the same installation spacing, or the installation spacing of the steel material is narrow for the pillar end section, the pillar Concrete pillar earthquake-resistant reinforcement method, characterized in that for the section other than the end, the installation spacing of the steel is widely arranged. 9. The method of claim 8,
At least one end of the steel is formed of a male screw part, and the concrete column earthquake-resistant reinforcement method, characterized in that it has a fastening member connected and fixed to the edge support part. 9. The method of claim 8,
The support is made of a rectangular hollow body in which the through-hole through which the steel material passes is formed through each end at both ends, or a bent plate body with a 'c' section in which the through-hole through which the steel material passes is formed through each of the vertical surfaces at both ends, or the steel material is It is made of a solid hexahedron in which a through-hole to pass through is formed through the body, or a support reinforcement body is further included in the bending plate body on the 'C' section in which the through-holes through which the steel material passes are formed through the vertical surfaces at both ends, respectively. Concrete pillar seismic reinforcement method. 9. The method of claim 8,
Concrete pillar earthquake-resistant reinforcement method, characterized in that it comprises a reinforcing body in contact with the surface of the support in which the through-hole is located among the surfaces of the support not in contact with the flat portion forming the corner portion of the concrete column. 9. The method of claim 8,
The connecting body is made of a 'B' cross-section shaped steel member, or a solid rectangular cross-sectional member, or a rectangular hollow cross-sectional member, or a triangular cross-sectional member. delete 9. The method of claim 8,
In the reinforcement section (h) of the concrete column, for the surface where the concrete column seismic reinforcement device is not fixed to the concrete column surface, the usage time of the concrete column earthquake-resistant reinforcement device is extended to minimize maintenance costs Concrete pillar earthquake-resistant reinforcement method, characterized in that installing the filling. 9. The method of claim 8,
Concrete pillar seismic reinforcement method, characterized in that it has a filling for maintenance by installing a temporary plate for maintenance using the corner support. 9. The method of claim 8,
Concrete pillar earthquake-resistant reinforcement method, characterized in that it comprises an additional reinforcing material between the edge support of any one of the plurality of edge support and the other edge support adjacent to it. 12. The method of claim 11,
Concrete pillar seismic reinforcement method, characterized in that the maintenance cost is minimized by installing a maintenance filling so that the fastening member is not exposed. delete delete delete delete delete delete delete delete delete

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