KR102237936B1 - Device for reinforcing the Earthquake of a concrete columns and Methods - Google Patents

Abstract

Provides a concrete column seismic reinforcement device and method thereof
In the present invention, a pair of supports, each of which is arranged so that one side of the flat portion forming the corner portion of the concrete column and the other flat portion adjacent thereto, makes an interview, and each corner line of the pair of supports are arranged in contact with each other at the corner portion. A plurality of edge support portions provided for each of a plurality of edge portions formed on the concrete pillars so as to be connected; A steel material of a predetermined length, each of which both ends are connected to and fixed to one of the plurality of edge support portions and the other edge support portion adjacent thereto; Includes.
In addition, a pair of supports, each of which is arranged so that one side of the flat portion forming the corner portion of the concrete column and the other flat portion adjacent thereto, has an interview, and each corner line of the pair of supports at the corner portion is arranged so as not to contact each other. A plurality of corner support portions provided for each of a plurality of corner portions formed on the concrete column, including a connecting body having a pair of connecting surfaces in contact with each end of the pair of supports between the corner portion and the support body; A steel material of a predetermined length, each of which both ends are connected to and fixed to one of the plurality of edge support portions and the other edge support portion adjacent thereto; Includes.
In addition, a pair of supports, each of which is arranged so that one side of the flat portion forming the corner portion of the concrete column and the other flat portion adjacent thereto, has an interview, and each corner line of the pair of supports at the corner portion is arranged so as not to contact each other. A plurality of corner support portions provided for each of a plurality of corner portions formed on the concrete column, including a connecting body having a pair of connecting surfaces in contact with each end of the pair of supports between the corner portion and the support body; A steel material of a predetermined length, each of which both ends are connected to and fixed to one of the plurality of edge support portions and the other edge support portion adjacent thereto; Includes.

Description

{Device for reinforcing the Earthquake of a concrete columns and Methods}

The present invention relates to a seismic reinforcing device and a method for concrete pillars, and more particularly, to a seismic reinforcement device and a method thereof, and more specifically, by transmitting a binding force orthogonal to the compressive load in the vertical direction of a concrete pillar installed on the ground or underground to support civil engineering and building structures. Concrete column seismic reinforcement device that prevents sudden destruction due to bending or shear deformation of concrete columns by the same external force, and secures structural seismic safety for old or unsecured concrete columns through simple reinforcement construction And to the method.

In view of the recent rapid increase in urbanization, the rapid increase in demand for housing, the improvement of the demand level for improving the quality and utilization of aging inventory buildings, the need for environmentally friendly buildings, and the prevention of land development caused by reckless building construction. Remodeling is recommended

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

In addition, the reflection of the design according to the building law differs from each other depending on the time of construction in the existing civil engineering and architectural structures and the newly built buildings. Unlike new buildings, the seismic design is not reflected at all in the case of the old building. There was a risk of being destroyed and causing a lot of personal injury.

In addition, as interest in the environment increases and the government has a rehabilitation policy to reduce environmental waste and frame existing apartments in terms of economic efficiency, the number of apartments that choose to remodel in addition to new construction or reconstruction is expected to increase. It is expected.

In particular, remodeling of a building does not need to obtain permission from related agencies again, and remodeling construction is possible with only a simple procedure, so it has the advantage of being able to construct as a modern building and has the advantage that it is possible to construct it as a modern building. The problem was that concrete columns such as beams were weak.

As a method of remodeling such old buildings, there is a method of reinforcing with cast-in-place concrete by reinforcing reinforcement around the existing pillars and installing a formwork. .

(Patent Document 1) KR10-2015-0030061 A

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

However, when a horizontal external force such as an earthquake is applied, the structure is reinforced only in the horizontal direction of the corners. In order to further increase the seismic performance against bending shear, the seismic reinforcing materials must be closely arranged. There may be cases where it cannot be secured. In this case, the construction work for reinforcing the concrete column according to the preliminary preparation is lengthened, the work productivity is deteriorated, and there is a problem that the manufacturing cost is increased due to the component parts that are not standardized and made to order.

Accordingly, the present invention is to solve the above-described problems, and its object is to improve the flexural strength and shear strength at the same time by increasing the contact area of the corner part formed between the flat part of the concrete column and the plane part adjacent thereto in the vertical direction. By increasing the confinement area, it has the characteristics of excellent seismic performance by increasing the energy absorption efficiency area, and the reinforcement work for the concrete column can be performed stably and uniformly and quickly, and the flat part of the concrete column It is intended to provide a concrete column seismic reinforcement device and method that can increase the reinforcement efficiency by increasing the contact area with the concrete column and prevent the concentration of external force on the corners of the concrete column.

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

As a specific means for achieving the above object, in the first preferred embodiment of the present invention, in the device for reinforcing a concrete column to prevent bending or shear deformation due to external force, a plane forming the corner of the concrete column A pair of supports, each of which is arranged so that one surface is interviewed on the part and the other flat part adjacent thereto, and a plurality of corner parts formed on the concrete column so that each corner line of the pair of supports are arranged in contact with each other and connected at the corner part. A plurality of edge support portions provided for each; A steel material of a predetermined length, each of which both ends are connected to and fixed to one of the plurality of edge support portions and the other edge support portion adjacent thereto; Including, one end of the steel material is hooked and connected to the through hole of the corner support, and the other end of the steel material is exposed through another through hole of the other corner support and is fastened to the nut member, so that the concrete through an external force applied to the steel material. It provides a concrete column seismic reinforcement device and method, characterized in that the reinforcement by applying a binding force acting in the cross-sectional center direction orthogonal to the column.

A second preferred embodiment of the present invention is a device for reinforcing a concrete column to prevent bending or shear deformation caused by external force, in which one surface is interviewed on a flat portion forming a corner portion of the concrete column and another flat portion adjacent thereto. Including a pair of supports each arranged so as to be, and a connector having a pair of connecting surfaces in contact with each end of the pair of supports between the corners and the support, a plurality of provided for each of the plurality of corners formed on the concrete pillar Corner support; A steel material of a predetermined length, each of which both ends are connected to and fixed to one of the plurality of edge support portions and the other edge support portion adjacent thereto; Including, one end of the steel material is hooked and connected to the through hole of the corner support, and the other end of the steel material is exposed through another through hole of the other corner support and is fastened to the nut member, so that the concrete through an external force applied to the steel material. It provides a concrete column seismic reinforcement device and method, characterized in that the reinforcement by applying a binding force acting in the cross-sectional center direction orthogonal to the column.

In a third preferred embodiment of the present invention, in an apparatus for reinforcing a concrete column to prevent bending or shear deformation due to external force, one surface of the flat portion forming the corner of the concrete column and the other flat portion adjacent thereto is It has a pair of supports each arranged for an interview, and each edge line of the pair of supports at the corner portion is arranged so as not to contact each other, and has a pair of connecting surfaces in contact with each end of the pair of supports between the corner portion and the support. A plurality of edge support portions provided for each of a plurality of edge portions formed on the concrete column, including a connection body; A steel material of a predetermined length, each of which both ends are connected to and fixed to one of the plurality of edge support portions and the other edge support portion adjacent thereto; Including, one end of the steel material is hooked and connected to the through hole of the corner support, and the other end of the steel material is exposed through another through hole of the other corner support and is fastened to the nut member, so that the concrete through an external force applied to the steel material. It provides a concrete column seismic reinforcement device and method, characterized in that the reinforcement by applying a binding force acting in the cross-sectional center direction orthogonal to the column.

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

Preferably, the connecting body having one side interfacing with the support between the corner part and the support is made of a section steel member having a'b' cross-section, a solid rectangular cross-section member, a square hollow cross-section member, or a triangular cross-section It can be made of a member.

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

Preferably, the through hole formed through the surface of the support body that is not in contact with the flat portion forming the corner of the concrete column may be provided as a circular or long hole, an elliptical hole, or a square hole.

A preferred construction method for a concrete column of the present invention includes the steps of installing an edge support at the corner of the concrete column; Installing a steel material in the through hole of the support; First fastening the fastening member; Fastening to satisfy the target fastening torque value; It can be configured to include.

In addition, as described in the construction method, for the reinforcement section in which the support is to be installed on the concrete pillar by an interview, the step of surface-treating or cleaning the surface of the fixing surface of the concrete pillar with a flat surface; It may be further included before the installation step of the corner support part to be constructed.

In addition, as described in the construction method, the step of pre-coating a cross-section stiffener on the inner surface of the corner support portion interviewed with the flat portion of the concrete column; It may be further included before the step of installing the corner support at the corner of the concrete column can be constructed.

In addition, as described in the construction method, the step of filling a filler inside the support; It can be carried out before or after the tightening step to satisfy the target tightening torque value.

According to the present invention as described above has the following effects.

By increasing the contact area of the corner part formed between the flat part of the concrete column and the plane part adjacent thereto in the vertical direction, there is an effect of simultaneously improving the flexural strength and shear strength. In addition, by increasing the confining area of the corner of the column on the outer surface of the concrete column, there is an effect of having 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 reinforcement efficiency can be increased by increasing the contact area with the flat part of the concrete column, and external force can be prevented from concentrating on the corners of the concrete column. .

Since it is possible to increase the area in contact with the flat part by the support body that makes an interview with the plane part of the concrete column, it is possible to increase the reinforcement efficiency to prevent the deformation of the concrete column during compression due to external force such as earthquake.

Since it is possible to prevent the external force from being directly transmitted to each corner during seismic reinforcement of the concrete column, it is possible to prevent partial damage to the corner parts vulnerable to stress.

1 is an overall perspective view showing a concrete column seismic reinforcement device according to a first embodiment of the present invention.
Figure 2 is a partial perspective view showing a concrete column seismic reinforcement device according to the first embodiment of the present invention.
3A and 3B are cross-sectional views showing an embodiment of a support applied to the concrete column seismic reinforcement device according to the first embodiment of the present invention.
4 is a cross-sectional view showing an embodiment of a support made of a composite material applied to the seismic reinforcement device for a concrete column according to the first embodiment of the present invention.
5 is a perspective view showing an embodiment of a support applied to the concrete column seismic reinforcement device according to the first embodiment of the present invention.
6 is a cross-sectional view showing an embodiment using a reinforcing body applied to the seismic reinforcement device for a concrete column according to the first embodiment of the present invention.
7 is an overall perspective view showing a concrete column seismic reinforcement device according to a second embodiment of the present invention.
8A and 8B are cross-sectional views showing an embodiment of a connector applied to a concrete column seismic reinforcement device according to a second embodiment of the present invention.
9 is a cross-sectional view showing an embodiment of a first connector provided in a form in which a first connecting surface applied to the seismic reinforcing device for a concrete column according to a second embodiment of the present invention is in contact with a support body in a partial cross-section.
10 is a cross-sectional view showing an embodiment in which a first connector and a reinforcement body provided in a form in which a first connection surface applied to the seismic reinforcement device for a concrete column according to a second embodiment of the present invention is in contact with only a partial cross section of a support body are used. to be.
11 shows the construction sequence of the concrete column seismic reinforcement device according to the first to second embodiments of the present invention.
12 shows that in the construction sequence of the seismic reinforcement device for a concrete column according to the first to second embodiments of the present invention, a construction process of additionally filling the support body is included.
13 shows that the cross-section stiffener 114 is applied to the edge support portion 100 of the present invention.

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

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

In addition, throughout the specification, when a part is said to be'connected' with another part, it is not only'directly connected', but also'indirectly connected' with another element in the middle. Includes. In addition, "including" a certain component means that other components may be further included, rather than excluding other components unless specifically stated to the contrary.

<First Example>

The concrete column seismic reinforcing device 1 according to the first embodiment of the present invention, as shown in Figs. 1 and 2, the corner support part 100 to reinforce the concrete column in order to prevent bending deformation or shear deformation due to external force. ) And the steel material 200 may be included.

The corner support portion 100 is each of a pair of supports 110 provided on a one-to-one basis for each of a plurality of corner portions C formed on the concrete pillar P and a pair of supports 110 in the corner portion C. Corner lines can be arranged to be connected to each other. In this case, as a connection method, as shown in FIG. 2, each edge line of the support may be connected by welding (W) in contact with each other. The corner line may mean at least one of an inner direction line and an outer direction line.

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

The support 110 has a predetermined size of through-hole 112 having an inner diameter that is equal to or relatively large as the outer diameter of the steel material so that the steel material 200 disposed in parallel with the flat portion can pass through without interference at both ends. Penetration can be formed.

The steel material may be disposed through each of the corners formed at both ends of the flat portion of the through hole 112 and at both ends of the corresponding support.

The steel material 200 has a predetermined length of which both ends are respectively connected to and fixed to one of a plurality of edge support portions 100 and another edge support portion 100 adjacent thereto, one of a plurality of edge support portions provided on a one-to-one basis for each corner portion of the concrete structure. It may be made of a screw-type or bolt-type fastening structure.

This steel material 200 is made of a stud-shaped member having a predetermined length having one end formed of a fastening member 210 or a screw head 230 and the other end formed with a male thread 220 so as to be fastened and coupled with the fastening member 210. However, the present invention is not limited thereto, and the male screw parts 220 may be formed of bolt members having a predetermined length respectively formed at both ends so that the fastening members are respectively fastened to and coupled to both ends.

This steel material 200 penetrates through the support 110 provided in the edge support part 100, penetrates through a support provided in another adjacent edge support part, and is disposed in parallel with the flat part, and at the same time, both ends of the steel material 200 Is exposed between the left and right pair of corner support portions 100 to the side of the support body that does not have an interview with the flat portion, and is constrained and fixed by the fastening member 210 or the screw head 230 of the male screw portion. At this time, the binding force applied by the fastening torque force has a binding effect of the column portion through the steel material 200 and the edge support portion 110. At this time, the generally used fastening torque value (N·m) is the required fastening torque value determined according to the size of the steel material used, the size of the support, and the installation interval of the steel material 20.

Accordingly, both ends of the steel material 200 are constrained and fixed to each other between the corner support portions 100 arranged in 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 at both ends of a steel material arranged parallel to each of the plurality of flat parts in the locking direction, which is the fastening direction, one side of the flat part forming the corner part Since the external force that increases the adhesion between the support arranged to be in contact with the flat part can be transmitted and applied in the direction of the center of the section perpendicular to the plane part of the concrete column, external force reinforcement can be performed to increase the seismic performance of the concrete column. There is.

In FIG. 1, reference numeral 10 denotes a reinforcing bar embedded in a concrete column.

The welding (W) position shown in FIG. 2 describes an embodiment.

<Second Example>

Concrete column seismic reinforcement device 2 according to the second embodiment of the present invention, as shown in Figs. 7 and 8a and 8b, to reinforce the concrete column to prevent bending deformation or shear deformation caused by external force. It may include a support 100 and a steel 200.

The edge support portion 100 may include a pair of supports 110 and a connector 120 provided on a one-to-one basis for each of a plurality of edge portions C formed on the concrete column P.

The support 110 may be connected so that the corner lines of the pair of supports 110 are disposed in contact with each other at the corner portion C.

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

The support 110 has a predetermined size of through-hole 112 having an inner diameter that is equal to or relatively large as the outer diameter of the steel material so that the steel material 200 disposed in parallel with the flat portion can pass through without interference at both ends. Penetration can be formed.

The steel material may be disposed through each of the corners formed at both ends of the flat portion of the through hole 112 and at both ends of the corresponding support.

The connection body 120 is arranged to have a pair of connection surfaces 124, 124a, 124b, 124c, 124d so as to contact each end of a pair of support bodies 110 disposed on the corner portion (C). This connector 120 may be used to be disposed between the corner portion (C) and the support body 110 of the concrete column having a chamfer as shown in FIG. 7.

The steel material 200 has a predetermined length of which both ends are respectively connected to and fixed to one of a plurality of edge support portions 100 and another edge support portion 100 adjacent thereto, one of a plurality of edge support portions provided on a one-to-one basis for each corner portion of the concrete structure. It may be made of a screw-type or bolt-type fastening structure.

This steel material 200 is made of a stud-shaped member having a predetermined length having one end formed of a fastening member 210 or a screw head 230 and the other end formed with a male thread 220 so as to be fastened and coupled with the fastening member 210. However, the present invention is not limited thereto, and the male screw parts 220 may be formed of bolt members having a predetermined length respectively formed at both ends so that the fastening members are respectively fastened to and coupled to both ends.

In this way, the edge support portion 100 integrally configured with the pair of support bodies 110 and the connection body 120 may be used by arranging to interview all the edge portions (C).

This steel material 200 penetrates through the support 110 provided in the edge support portion 100, penetrates through the support provided in the other adjacent edge support portion, and is disposed in parallel with the flat portion, and at the same time, both ends of the steel material 200 It is exposed between the left and right pair of corner support portions 100 to the side of the support that does not have an interview with the flat portion, and is constrained and fixed by the fastening member 210 or the screw head 230 of the male screw portion. At this time, the binding force applied by the fastening torque force has a binding effect of the column portion through the steel material 200 and the edge support portion 110. At this time, the generally used fastening torque value (N·m) is the required fastening torque value determined according to the size of the steel material used, the size of the support, and the installation interval of the steel material 20.

Accordingly, both ends of the steel material 200 are constrained and fixed to each other between the corner support portions 100 arranged in 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 at both ends of a steel material arranged parallel to each of the plurality of flat parts in the locking direction, which is the fastening direction, one side of the flat part forming the corner part Since the external force that increases the adhesion between the support arranged to be in contact with the flat part can be transmitted and applied in the direction of the center of the section perpendicular to the plane part of the concrete column, external force reinforcement can be performed to increase the seismic performance of the concrete column. There is.

The welding (W) position shown in FIG. 8A or 8B represents an embodiment, and unlike the illustration, the connection body 120 may be welded (W) to the support body 110 and used. This is also the reason why the welding position is not shown in FIG. 7. The user can choose and use it freely.

In addition, although not shown in the drawings, at least the connection body 120 and the support body 110 by drilling holes (connecting holes, through holes) in the connection surface 124 where the connection body 120 and the support body 110 are interviewed. Can be used in combination.

<Third Example>

The concrete column seismic reinforcing device according to the third embodiment of the present invention, as shown in Figs. 9 and 10, to prevent bending deformation or shear deformation caused by an external force to reinforce the concrete column to reinforce the corner support portion 100 and steel Including (200), the same reference numerals are assigned to the same members, and detailed descriptions thereof will be omitted below.

The edge support portion 100 may include a pair of supports 110 and a connector 120 provided on a one-to-one basis for each of a plurality of edge portions C formed on the concrete column P.

The support 110 is arranged stepwise so that the edges of the pair of supports 110 do not come into contact with each other at the corner portion C, and each end of the pair of supports between the corner portion C and the support 110 It may include a connector 10 having a pair of connecting surfaces 124 in contact with.

For a concrete column with a relatively large chamfer, when the fastening torque application point is farther away from the flat edge of the other side, a large amount of moment may occur due to torque fastening. In order to solve this, the support 110 and the connection surface 124 are partially contacted, and each edge of the pair of supports 110 is stepped so as not to contact each other, thereby overcoming this.

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

The support 110 has a predetermined size of through-hole 112 having an inner diameter that is equal to or relatively large as the outer diameter of the steel material so that the steel material 200 disposed in parallel with the flat portion can pass through without interference at both ends. Penetration can be formed.

The steel material may be disposed through each of the corners formed at both ends of the flat portion of the through hole 112 and at both ends of the corresponding support.

The connection body 120 is arranged with a pair of connection surfaces 124 so that each one end and a partial surface of the pair of support bodies 110 disposed on the corner portion C contact each other. Such a connector 120 may be used to be disposed between the corner portion (C) of the concrete column having a chamfer and the support body (110).

The connector 120 may be composed of a member that connects and couples a pair of supports 110, and may be used in an integrally coupled form.

The steel material 200 has a predetermined length of which both ends are respectively connected to and fixed to one of a plurality of edge support portions 100 and another edge support portion 100 adjacent thereto, one of a plurality of edge support portions provided on a one-to-one basis for each corner portion of the concrete structure. It may be made of a screw-type or bolt-type fastening structure.

This steel material 200 is made of a stud-shaped member having a predetermined length having one end formed of a fastening member 210 or a screw head 230 and the other end formed with a male thread 220 so as to be fastened and coupled with the fastening member 210. However, the present invention is not limited thereto, and the male screw parts 220 may be formed of bolt members having a predetermined length respectively formed at both ends so that the fastening members are respectively fastened to and coupled to both ends.

In this way, the edge support portion 100 integrally configured with the pair of support bodies 110 and the connection body 120 may be used by arranging to interview all the edge portions (C).

This steel material 200 penetrates through the support 110 provided in the edge support portion 100, penetrates through the support provided in the other adjacent edge support portion, and is disposed in parallel with the flat portion, and at the same time, both ends of the steel material 200 It is exposed between the left and right pair of corner support portions 100 to the side of the support that does not have an interview with the flat portion, and is constrained and fixed by the fastening member 210 or the screw head of the male screw portion. At this time, the binding force applied by the fastening torque force has a binding effect of the column portion through the steel material 200 and the edge support portion 110. At this time, the generally used fastening torque value (N·m) is the required fastening torque value determined according to the size of the steel material used, the size of the support, and the installation interval of the steel material 20.

Accordingly, both ends of the steel material 200 are constrained and fixed to each other between the corner support portions 100 arranged in 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 at both ends of a steel material arranged parallel to each of the plurality of flat parts in the locking direction, which is the fastening direction, one side of the flat part forming the corner part Since the external force that increases the adhesion between the support and the flat portion arranged to be in contact is transmitted and applied in the direction of the center of the cross section orthogonal to the flat portion of the concrete column, the axial force of the steel acts by the theory of moment and rotational force, and the edge support portion 100 The effect of pressurizing is very large, and external force reinforcement can be performed to increase the seismic performance of the concrete column.

On the other hand, the connector 120 applied to the edge support portion 100 of the concrete seismic reinforcement device 2 according to the second or third embodiment, as shown in Figs. 8A and 8B, between the corner portion and the support body The connection body 120 having a connection surface (124, 124a, 124b, 124c, 124d) having one side interviewing the support body 110 is made of a section steel member having a'b' cross-section or a solid rectangular cross-section member or a rectangular It may be made of a hollow cross-sectional member or a triangular cross-sectional member.

On the other hand, the support 110 applied to the edge support portion 100 of the concrete seismic reinforcement device 1 and 2 according to the first to third embodiments, as shown in Figs. 1 and 7, the steel material 200 is Although it has been described and illustrated as being made of a rectangular hollow body having a predetermined size of through-hole passing through without interference in each of the vertical planes at both ends, it is not limited thereto, and as shown in FIG. 5, the through-hole through which the steel material 200 passes. A through hole formed of a rectangular hollow body having 112 through each of both ends, or a through-hole formed of a bent plate having a'c' cross-section through which the through hole 112 through which the steel material passes through each of the vertical surfaces of both ends, or through which the steel material passes The support reinforcement 111 may be further included in the bent plate body on the'C' cross-section formed of a solid hexahedron with 112 penetrating through the body, or through the through-holes through which the steel material passes through each of the vertical surfaces at both ends. have.

On the other hand, as shown in Figures 6 and 10, the support body 110 in which the through hole 112 is located in the surface of the support body 110 not in contact with the flat portion forming the corner portion (C) of the concrete column It may be made by including a reinforcing body 130 directly in contact with the surface of. At this time, the reinforcing body 130 is provided with a connection hole 122, so that the steel material 200 passes through the through hole 112 and the connection hole 122 of the reinforcement body to reinforce the support body 110.

As such, the edge support portion 100 may be integrated by welding (W) a pair of reinforcing bodies 130 to each other. In this case, the edge support portion 100 may be formed of a pair of supports 110 having a through hole 112 and a reinforcing body 130 having a connection hole 122.

Meanwhile, the through hole 112 penetrating through the surface of the support body that is not in contact with the flat portion forming the corner portion of the concrete column may be provided as a circular hole, a long hole, an elliptical hole, or a square hole. In this case, the connection hole 122 may also be provided in the same manner as the through hole 112.

In addition, both ends of the steel material 200 are fixedly connected by being constrained to the other edge support portion adjacent to the edge support portion disposed at the edge portion formed in the concrete structure, and such a steel material is parallel to the flat portion of the concrete column. It has been illustrated and described as being installed at a construction height different from other steels installed on other adjacent planes, but is not limited thereto, and the same construction as other steels installed on other planes adjacent to and parallel to the plane of the concrete column It may be installed at a height, or a plurality of flat portions of the concrete structure forming the corner portion may be disposed and installed at a predetermined interval in the height direction of the concrete column.

<Construction work>

In the reinforcement method for a concrete column constructed using the corner support portion 100 of the concrete seismic reinforcement device (1, 2) according to the first to third embodiments of the present invention,

The step (C3) of installing the corner support portion 100 at the corner of the concrete column and; Step of installing the steel material 200 in the through hole 112 of the support 110 (C4) and; The first fastening of the fastening member (C5) and; Step (C6) of checking the target tightening torque value using the torque wrench (T); Including the construction step can be configured as a basic step. In this case, the meaning of'fastening member' here includes both a nut or a bolt head.

In addition, the step (C2) of pre-coating the cross-section stiffener 114 on the inner surface of the corner support portion 100 to be interviewed with the flat portion of the concrete column; It may be further carried out before the step (C3) of installing the corner support portion 100 on the corner portion (C) of the concrete column. The cross-section stiffener 114 used at this time may be a mortar product, epoxy, or a material having little fluidity, and the support 110 of the edge support part 100 is tightly settled on the flat surface of the concrete column, By ensuring that the constraining pressure is evenly distributed on the flat portion of the corner portion C that is interviewed with all the supports 110, it plays a role of maximizing the deep constrained state of the existing concrete column. At this time, be sure to check the target tightening torque value using a torque wrench (T), and it is desirable to manage to have the torque value of the management target value even in future maintenance.

In addition, the step of filling the filler 113 in the support 110 (C7); It can be performed before or after the step of fastening (C6) to satisfy the target fastening torque value.

Before construction, at least for the reinforcement section, it is recommended to check the state of the fixing surface of the corner support part 100 before construction, and perform a step (C1) of cleaning and surface treatment or surface cleaning (M) of the surface of the fixing surface column. Most preferred. If the 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 various substitutions, modifications, and changes are possible within the scope of the technical spirit of the present invention. It will be obvious to those who have the knowledge of.

100: corner support
110: support
111: support reinforcement
112: through hole
113: filler
114: section stiffener
120: connector
122: connection hole
124: connection surface
124a, 124b, 124c, 124d: connecting surface
130: reinforcement body
200: steel
210: fastening member
220: male thread
230: screw head
P: concrete column
C: corner
W: welding
h: reinforcement section
M: Cotton trimming
T: torque wrench

Claims (11)

In the device for reinforcing concrete columns to prevent bending or shear deformation due to external force,
A pair of supports, each of which is arranged so that one side of the flat portion forming the corner portion of the concrete column and the other flat portion adjacent thereto, has an interview, and each corner line of the pair of supports are arranged in contact with each other at the corner portion to be connected. A plurality of corner support portions provided for each of a plurality of corner portions formed on the concrete column;
A steel material of a predetermined length, each of which both ends are connected to and fixed to one of the plurality of edge support portions and the other edge support portion adjacent thereto; Including,
The support is made of a rectangular hollow body in which a through hole through which the steel material passes through at both ends, or a bent plate body having a'c' cross section through which through-holes through which the steel material passes through each of the vertical surfaces at both ends, or the steel material is It is characterized in that the support reinforcement is further included in the'c' cross-section formed by a solid hexahedron having a through hole through the body through, or through a through hole through which the steel passes through each of the vertical surfaces at both ends. Concrete column seismic reinforcement device. In the device for reinforcing concrete columns to prevent bending or shear deformation due to external force,
A pair of supports, each of which is arranged so that one side of the flat portion forming the corner portion of the concrete column and the other flat portion adjacent thereto, makes an interview, and a pair of connecting surfaces in contact with each end of the pair of supports between the corner portion and the support body. A plurality of corner support portions provided for each of a plurality of corner portions formed on the concrete column including a branch connection body;
A steel material of a predetermined length, each of which both ends are connected to and fixed to one of the plurality of edge support portions and the other edge support portion adjacent thereto; Including,
The support is made of a rectangular hollow body in which a through hole through which the steel material passes through at both ends, or a bent plate body having a'c' cross section through which through-holes through which the steel material passes through each of the vertical surfaces at both ends, or the steel material is It is characterized in that the support reinforcement is further included in the'c' cross-section formed by a solid hexahedron having a through hole through the body through, or through a through hole through which the steel passes through each of the vertical surfaces at both ends. Concrete column seismic reinforcement device. In the device for reinforcing concrete columns to prevent bending or shear deformation due to external force,
A pair of supports, each of which one side is arranged to have an interview on a flat portion forming a corner portion of the concrete column and another flat portion adjacent thereto, and each corner line of the pair of supports at the corner portion are arranged so as not to contact each other, the A plurality of corner support portions provided for each of a plurality of corner portions formed on the concrete column including a connecting body having a pair of connecting surfaces in contact with each end of the pair of supports between the corner portion and the support body;
A steel material of a predetermined length, each of which both ends are connected to and fixed to one of the plurality of edge support portions and the other edge support portion adjacent thereto; Concrete column seismic reinforcement device comprising a. delete The method according to claim 2 or 3,
The connecting body, in which one side is interfacing with the support body between the corners and the support body, is made of a section steel member having a'b' cross-section, a solid rectangular cross-section member, a rectangular hollow body cross-section member, or a triangular cross-sectional member. Concrete column seismic reinforcement device, characterized in that. The method according to any one of claims 1 to 3,
A concrete column seismic reinforcement device comprising a reinforcing body directly in contact with the surface of the support body on which the through hole is located among the planes of the support body not in contact with the flat portion forming the corner of the concrete column. The method according to any one of claims 1 to 3,
A concrete column seismic reinforcement device, characterized in that the through hole formed through the surface of the support body not in contact with the flat portion forming the corner of the concrete column is provided as a circular or long hole, an elliptical hole, or a square hole. A pair of supports are arranged so that one surface is interviewed on a flat portion forming the corner of the concrete column and another flat portion adjacent thereto, and each edge of the pair of supports at the corner is arranged so that they do not contact each other, and the corner A plurality of edge support portions provided for each of a plurality of corner portions formed on the concrete column, including a connecting body having a pair of connecting surfaces in contact with each end of the pair of supports between the portion and the support body; And a steel material having a predetermined length in which both ends are connected to and fixed to one of the plurality of edge support portions and the other edge support portion adjacent thereto. A seismic reinforcement method of a concrete column using a concrete column seismic reinforcement device comprising a,
Installing the corner support at the corner of the concrete column;
Installing the steel material in the through hole of the support;
First fastening the fastening member;
Fastening to satisfy a target fastening torque value;
Seismic reinforcement method of a concrete column comprising a. The method of claim 8,
Surface-treating or cleaning the fixing surface of the concrete column with a flat surface for a reinforcement section in which the support body is to be installed on the concrete column by an interview;
Seismic reinforcement method of a concrete column, characterized in that it further comprises before the step of installing the corner support. The method of claim 8,
Pre-coating a cross-sectional reinforcement on the inner surface of the corner support portion that is interviewed with the flat portion of the concrete column;
Seismic reinforcement method of a concrete column, characterized in that further comprising before the step of installing the corner support at the corner of the concrete column. The method of claim 8,
Filling a filler material into the support;
Seismic reinforcement method of a concrete column, characterized in that performed before or after the step of fastening to satisfy the target fastening torque value.

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