KR20180090230A - Device for reinforcing the Earthquake of a concrete columns and Methods - Google Patents

Abstract

A concrete column seismic reinforcement apparatus and method therefor are provided.
The present invention is characterized by comprising: a plurality of corner supports provided at a plurality of corner portions which are formed so as to be in contact with a flat portion forming a corner portion of the concrete column and another flat portion adjacent thereto;
One of the plurality of corner support portions has at least one surface that is not in contact with at least one surface that is in contact with a plane portion forming a corner portion of the concrete column,
One of the corner support portions of the plurality of corner support portions is formed in the vertical direction of the concrete column and installed in the reinforcing section h of the concrete column surface,
Wherein one of the corner support portions has a reinforcing section (h) length of the concrete column,
The other side of the corner support portion which is not in contact with the flat portion forming the corner portion of the concrete column is formed in the vertical direction of the concrete column,
A plurality of steel members having a predetermined length connected to and fixed to the other surface of the corner support portion which is not in contact with the flat surface portion forming the corner portion of the concrete column, in any one of the corner support portions of the plurality of corner support portions; .

Description

Technical Field [0001] The present invention relates to a concrete column seismic device,

More particularly, the present invention relates to an apparatus for seismic strengthening of a concrete column, and more particularly, to a seismic strengthening apparatus and method for a concrete column which are installed on the ground or underground to transmit a restraining force orthogonal to a vertical compression load of a concrete column supporting a civil engineering and building structure, A concrete column seismic system which can prevent the concrete column from being bent or shear deformed suddenly by the same external force and secure the structural seismic safety of the concrete column without securing the seismic or seismic performance by simple reinforcement construction It is about the method. Particularly, a concrete column seismic device capable of reducing the maintenance cost and the method thereof are also included.

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

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

In addition, existing old civil engineering and architectural structures and recently newly constructed buildings are different from each other according to the construction method according to the building method. Unlike new buildings, in case of buildings, seismic design is not reflected at all, There is a risk that many people will be destroyed.

In addition, from the viewpoint of increasing interest in the environment and efficiency in terms of economy, it is expected that there will be an increase in the number of apartments that are planned to be remodeled other than new construction or reconstruction due to reduction of environmental waste at the government level, It is expected.

In particular, the remodeling of a building does not need to be approved again by the related organizations, and it is possible to construct a remodeling structure with a simple procedure. Therefore, it is possible to make a choice more freely than a new building and it is advantageous to construct a modern building. The problem was that concrete columns such as beams were weak.

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

(Patent Document 1) KR10-2015-0030061 A

Patent Document 1 discloses a structure in which a steel support portion is disposed at each corner portion where a flat portion of a structure and another flat portion adjacent to the flat portion of the structure meet each other and a steel material fixing portion is disposed on any one of a plurality of flat portions of the concrete column, And a nut member coupled to the end of the steel material to be coupled to the steel material fixing unit and including a steel material having both ends connected to and fixed to the steel material fixing unit, The reinforcing member is reinforced by applying a restraining force acting in the direction of the center of the cross section orthogonal to the concrete column through an external force applied to the steel material.

However, when a horizontal external force such as an earthquake acts, the structure is reinforced only in the horizontal direction of the corner portion. In order to further increase the seismic performance against flexural shear, the seismic reinforcing materials must be arranged closely. It may happen that it can not secure it. In this case, the construction work for reinforcing the concrete column according to the preliminary preparation is prolonged, the work productivity is lowered, and the manufacturing cost is increased by the constituent parts by customized manufacturing without being standardized.

In the case of the conventional invention, the steel material is spaced apart and the steel material receiving part is also disposed apart from the steel material, so that the shear reinforcement effect and the ductility reinforcement effect are expected. In addition, in the case of the conventional invention product, it is necessary to further improve the effect of delaying the initial crack occurrence timing which hinders the rigidity of the concrete column against the seismic performance.

Since the entire area of the reinforcement section is not reinforced when a bending external force is applied to the column of the concrete structure, it is necessary to remarkably improve the performance function against the bending external force. In addition, there was a need to reduce maintenance items after installation.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to improve the bending strength and shear strength simultaneously by increasing the contact area between the flat portion of the concrete column and the edge portion formed by the adjacent flat portion, It is possible to increase the energy absorbing area and to improve the seismic performance by reinforcing the area of the confining area and to stably perform the reinforcement work on the concrete column and to perform uniformly and quickly, And to prevent the external force from concentrating on the corner of the concrete column, and to provide a concrete column seismic device and method therefor.

Particularly, it is possible to maximize the construction efficiency by simply providing a corner support (or a curved support) on the corner (or curved surface) of the concrete column and to apply the shear strength to the seismic performance of the concrete column And to provide a concrete column seismic retrofitting apparatus and method thereof that greatly increases bending stiffness at the same time as performance.

Also, it is intended to provide a concrete column seismic device and its method which can reduce the maintenance cost.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

As a concrete means for achieving the above object, a first preferred embodiment of the present invention is an apparatus for reinforcing a concrete column so as to prevent a flexural deformation or shear deformation by an external force, the apparatus comprising: A plurality of corner supporting portions provided on a plurality of corner portions formed to be in contact with the other flat surface portions adjacent thereto; Wherein one of the plurality of corner support portions has one or more surfaces that are not in contact with one or more surfaces that are in contact with a plane portion forming a corner portion of the concrete column, The supporting portion is formed in a vertical direction of the concrete column and is installed in a reinforcing section h of the concrete column surface. One of the corner supporting portions is formed as a reinforcing section length h of the concrete column, Wherein the other edge of the edge support portion, which is not in contact with the flat surface portion forming the edge portion of the concrete column, is formed in the vertical direction of the concrete column in any one of the edge support portions of the plurality of edge support portions, In any one of the corner supports A plurality of steel members having a predetermined length connected to and fixed to the other surface of the edge support portion which is not in contact with the flat surface portion forming the corner portion of the concrete column; Wherein the reinforcing member is reinforced by applying a restraining force acting in a direction of a center of a cross section orthogonal to the concrete column through an external force applied to the steel member by being fastened by a nut member do.

A second preferred embodiment of the present invention is an apparatus for reinforcing a concrete column so as to prevent a flexural deformation or a shear deformation due to an external force, wherein a plane portion forming an edge portion of the concrete column, A corner support portion provided at a plurality of corner portions formed on the concrete column, the corner support portion having a pair of supports arranged to face each other; A plurality of corner supports; Wherein one of the plurality of corner support portions has one or more surfaces that are not in contact with one or more surfaces that are in contact with a plane portion forming a corner portion of the concrete column, The supporting portion is formed in a vertical direction of the concrete column and is installed in a reinforcing section h of the concrete column surface. One of the corner supporting portions is formed as a reinforcing section length h of the concrete column, Wherein the other edge of the edge support portion, which is not in contact with the flat surface portion forming the edge portion of the concrete column, is formed in the vertical direction of the concrete column in any one of the edge support portions of the plurality of edge support portions, In any one of the corner supports A plurality of steel members having a predetermined length connected to and fixed to the other surface of the edge support portion which is not in contact with the flat surface portion forming the corner portion of the concrete column; Wherein the reinforcing member is reinforced by applying a restraining force acting in a direction of a center of a cross section orthogonal to the concrete column through an external force applied to the steel member by being fastened by a nut member do.

A third preferred embodiment of the present invention is an apparatus for reinforcing a concrete column so as to prevent a flexural deformation or a shear deformation by an external force, wherein a plane portion forming a corner portion of the concrete column, A pair of supporting members arranged to face each other and disposed so as to face each other, and a connecting member having a pair of connecting surfaces which are in contact with respective ends of the pair of supporting members between the corner portion and the supporting member, A pair of corner supports; Wherein one of the plurality of corner support portions has one or more surfaces that are not in contact with one or more surfaces that are in contact with a plane portion forming a corner portion of the concrete column, The supporting portion is formed in a vertical direction of the concrete column and is installed in a reinforcing section h of the concrete column surface. One of the corner supporting portions is formed as a reinforcing section length h of the concrete column, Wherein the other edge of the edge support portion, which is not in contact with the flat surface portion forming the edge portion of the concrete column, is formed in the vertical direction of the concrete column in any one of the edge support portions of the plurality of edge support portions, In any one of the corner supports A plurality of steel members having a predetermined length connected to and fixed to the other surface of the edge support portion which is not in contact with the flat surface portion forming the corner portion of the concrete column; Wherein the reinforcing member is reinforced by applying a restraining force acting in a direction of a center of a cross section orthogonal to the concrete column through an external force applied to the steel member by being fastened by a nut member do.

Preferably, the plurality of steels having the predetermined length may be disposed in the horizontal direction of the concrete column at the reinforcing section (h) of the concrete column and disposed at the same spacing distance as the concrete column, And spacing intervals of the steel material may be widely arranged for sections other than the end of the column.

Preferably, the steel material may have a fastening member having at least one end formed of a male or a female and being connected and fixed to the corner support portion.

Preferably, the support is formed of a rectangular hollow body formed with through holes through which the steel material passes, at both ends, or a through-hole through which the steel material passes, Sectional shape in which a through hole through which the steel material passes is formed through a body and a through hole through which the steel material passes is formed in a vertical plane at both ends, have.

Preferably, the reinforcement member is in contact with the surface of the support on which the through-hole is located, out of the surface of the support that is not in contact with the plane portion forming the corner of the concrete column.

Preferably, the connecting body is formed of a cross-sectional shape steel member, a solid rectangular cross-sectional member, a rectangular hollow member, or a triangular cross-sectional member.

Preferably, the through-holes formed on the surface of the support may be circular or have a long hole or an elliptical hole or square hole.

Preferably, additional stiffeners may be used between any one of the plurality of corner supports and another adjacent corner support.

Also, for the purpose of reducing the maintenance cost,

In the reinforced section (h) of the concrete column, with respect to the surface where the concrete column seismic retrofitting apparatus is not fixed on the concrete column surface, the maintenance time of the concrete column seismic retrofitting apparatus is extended, Lt; / RTI > can be used to install the filling.

Preferably, the edge support portion is used to provide a maintenance floor plate, and the maintenance floor is filled with a maintenance filler.

Preferably, maintenance charge can be minimized by installing maintenance charge so that the coupling member is not exposed. As such, it can be completely filled, or only a part can be filled.

As a specific method for achieving the above object,

The concrete column seismic retrofitting device is used to minimize the maintenance cost in using the concrete column seismic reinforcement device. In the reinforcing section (h) of the existing concrete column, the concrete column seismic retrofitting device And a step of installing a maintenance charge. In addition, after the concrete column seismic strengthening apparatus is installed on the existing column portion, maintenance charge is installed by using the corner support portion or the curved surface support portion so that a part of the seismic strengthening apparatus is not exposed. . In addition, after the concrete column seismic strengthening apparatus is installed on the existing column portion, maintenance charge is installed by using the corner support portion or the curved surface support portion so that a part of the seismic strengthening apparatus is not exposed. . In view of the above description, it is possible to apply the step of installing the maintenance filler using the edge support portion so that at least the fastening member is not exposed in the portion of the seismic strengthening device.

In addition, it is possible to construct the concrete column by a seismic strengthening method of a concrete column provided for the entire reinforcing section (h) except for the wall thickness in the column where the concrete column is fitted with the wall structure.

In addition, it is possible to construct a column having a curved surface portion such as a columnar or elliptic cross-section such that a plurality of curved surface supporting portions 100 'are provided on the curved surface portion.

Among the methods described in FIG. 2, steps C1 through C5 illustrate a construction method for reinforcing an existing column to an existing concrete column. A detailed description thereof will be omitted here. Detailed construction method can be seen from FIG. In FIG. 3, although the description of the order of the detailed construction method is omitted, the flow of the construction method until the filling step for maintenance will be known.

The present invention as described above has the following effects.

The bending strength and the shear strength can be improved at the same time by increasing the contact area between the flat portion of the concrete column and the edge portion formed between the adjacent flat portions of the concrete column in the vertical direction. Also, by increasing the area of confinement of the edge of the column at the outer surface of the concrete column, it has an effect of increasing the energy absorption efficiency area and thus exhibiting excellent seismic performance. In addition, it is possible to perform the reinforcement work on the concrete column uniformly quickly, to increase the contact area with the flat part of the concrete column, to increase the reinforcing efficiency, and to prevent the external force from concentrating on the corner of the concrete column .

Since the area of contact with the flat portion (or the curved portion) can be increased by the supports 110 and 110 'that are in contact with the flat portion (or the curved portion) of the concrete column, the compression of the concrete column due to an external force such as an earthquake The reinforcing efficiency can be increased to prevent deformation.

It is possible to prevent an external force from being directly transmitted to each corner portion when the concrete column is subjected to the earthquake-proof reinforcement, so that it is possible to prevent the corner portions, which are vulnerable to stress, from being partially broken.

Particularly, it is possible to maximize the construction efficiency by simply installing the corner support portions 100 and 100 'on the corner portions (or the curved surface portions) of the concrete column, and to suppress the seismic performance of the concrete columns The shear strength and the bending stiffness are significantly increased. Moreover, the construction speed is fast and the effect of shortening the air is effective, and the construction efficiency is excellent.

Especially, it is very useful as a technology for concrete column seismic equipment and its method which can reduce maintenance items and reduce maintenance cost in the future. In this technology, the torque value of the fastening member fastened to the male screw portion of the steel must be managed as the target torque value at the time of construction. As a method for reducing the maintenance cost for the item to be managed by the maintenance item, Above all, the most obvious way is not to need it. In order to solve this problem, as an example, by filling a portion where the fastening member is provided for maintenance, the fastening member is not exposed, and the maintenance cost that may occur in the future can be minimized or cost is not incurred, Also, as an example, it is also effective as a method of reducing the maintenance management cost by installing the temporary maintenance plate for maintenance, removing the maintenance plate for maintenance, and removing the temporary plate for maintenance after curing.

1 shows a concrete column seismic device of the present invention, a method thereof, and a representative view of a concrete column seismic reinforcement that minimizes the maintenance cost.
FIG. 2 shows a concrete column seismic device of the present invention, a method thereof, and a construction sequence of a concrete column seismic reinforcement with a prolonged use time (maintenance cost is minimized).
FIG. 3 shows concrete examples of the concrete column seismic device of the present invention, the method thereof, and the concrete sequence of concrete column seismic reinforcement in which the use time is prolonged (maintenance cost is minimized).
Fig. 4 shows a concrete column seismic device of the present invention, a method thereof, and an embodiment of performing surface cleaning on a reinforcing section (h).
Fig. 5 shows that the corner support portion 100 of the present invention is provided at the corner portion C. (The pillar having the curved surface portion is not shown)
Fig. 6 shows the installation of the steel material 200 of the present invention.
7 shows that the steel member 200 according to the present invention is fastened by the fastening member 210 and the cross-section stiffener 114 previously applied to the corner support portion 100 is tightly adhered. shape)
Fig. 8 shows that the target tightening torque value is confirmed using the torque wrench T. Fig.
9 is a view showing a concrete column seismic device according to the present invention, a method thereof, and a concrete column with a prolonged use time (maintenance cost is minimized), wherein an existing column portion reinforcement is primarily completed. (First finished construction using edge support and steel)
10 is a partial perspective view of a concrete column seismic device according to the present invention, a method thereof, and a concrete column in which a maintenance time is extended (maintenance cost is minimized), in which a maintenance floor plate 310 is installed.
11 is a sectional view of a concrete column seismic device of the present invention, a method thereof, and a concrete column in which a maintenance time is extended (maintenance cost is minimized), in which a maintenance floor plate 310 is installed.
FIG. 12 shows a concrete column seismic apparatus according to the present invention, a method thereof, and a cross-sectional view of a concrete column 300 where maintenance time is extended (maintenance cost is minimized).
FIG. 13 is a sectional view of a concrete column seismic apparatus according to the present invention, a method thereof, and a concrete column in which the use time is extended (maintenance cost is minimized) FIG.
FIG. 14 is a partial perspective view of a concrete column seismic device of the present invention, a method thereof, and a concrete column in which a maintenance time is extended (maintenance cost is minimized), in which a maintenance charge 300 is completed.
15 is a concrete column seismic apparatus according to the present invention, a method thereof, and a concrete column in which a maintenance cost is prolonged for a short period of time), and a maintenance charge 300 ) Is completed. (Embodiment in the case of Chamfer Surface A)
16 is a view showing a concrete column seismic apparatus according to the present invention, a method thereof, and a concrete column having a prolonged use time (maintenance cost is minimized), particularly a concrete column having a curved surface portion, For example.
17 shows another embodiment of the use of the edge support 100 in the concrete column seismic device of the present invention and its method and concrete column with extended use time (maintenance cost is minimized). Further, there is shown an example of use of a connection member (internal or external) which is a constitution of the corner supporting portion 100. [
18 shows a concrete column seismic apparatus of the present invention, a method thereof, and a concrete column in which the use time is prolonged (maintenance cost is minimized).
Fig. 19 shows a concrete column seismic device of the present invention, a method thereof, and a concrete column with a prolonged use time (maintenance cost is minimized), in which a concrete column seismic reinforcement is completed.
20 is a perspective view of a concrete column seismic device according to the present invention, a method thereof, and a concrete column with a prolonged use time (maintenance cost is minimized), in which the concrete column seismic reinforcement using the additional stiffener 400 is completed have.
Here, the additional stiffener 400 may have the same shape as that of the support 110, or may be used in various other shapes.
21 is a perspective view showing an embodiment of a concrete column seismic strengthening device of the present invention, a method thereof, and a concrete column seismic reinforcement device with a prolonged use time (maintenance cost is minimized). Here, a perspective view of a use example of a corner supporting portion composed of a supporting body and a connecting body is shown.
22 shows a concrete column seismic device of the present invention, a method thereof, and a concrete column seismic reinforcement device in which the use time is prolonged (maintenance cost is minimized). Here, an embodiment in which a corner support portion having a cross-sectional shape is used is shown. More specifically, in a corner supporting portion, a portion of the supporting member which is in contact with an edge portion of the concrete column is long in the cross-sectional direction of the supporting member, and the portion having the through hole connected to the steel member is a cross- Shaped cross-sectional shape.
Although the edge supporting portion is longer than the portion where the corner portion of the concrete column is in contact with the through hole connected to the steel material, in order to minimize the width protruding from the existing concrete column portion, .
FIG. 23 shows another embodiment of a concrete column seismic device and method therefor and a concrete column seismic reinforcement device in which the use time is prolonged (maintenance cost is minimized). Here, the support reinforcement member 111 having a rectangular cross-sectional shape is used as an embodiment using the support reinforcement member 111 in the form described in Fig.
Fig. 24 shows another embodiment of a concrete column seismic device, a method thereof, and a concrete column seismic reinforcement device in which the use time is prolonged (maintenance cost is minimized). Here, a perspective view of an embodiment in which a supporting body reinforcement member 111 having a triangular cross-sectional shape is used in place of the support body reinforcement member having a rectangular cross-sectional shape described in Fig. 23 is shown.
As described above, most of the drawings described in the present invention are directed to concrete rectangular columns. However, it is noted that the same reinforcing method (construction method) can also be applied to columns having circular and elliptical cross-sections.
It is also noted that, with respect to columns supporting the wall, all reinforcement surfaces except the wall thickness can be applied by the same reinforcement method (construction method) as described in the drawings of the present invention (not shown).

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

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

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

<Examples>

As shown in FIG. 6, the concrete column seismic strengthening apparatus according to an embodiment of the present invention includes a corner support portion 100 and a steel material 200 to reinforce a concrete column in order to prevent a bending deformation or shear deformation by an external force (Including a curved surface supporting portion in a column having a curved surface portion in Fig. 16)

The support 110 may include a box-shaped metal structure disposed to face one side of a plane portion forming a corner portion of the concrete column P and another plane portion adjacent thereto.

The steel material 200 may have a predetermined length such that both ends of the steel material 200 are connected to and fixed to one of the corner supporting portions 100 of the plurality of corner supporting portions 100 arranged on one side of the corner of the concrete structure, Screw or bolt-type fastening structure.

The steel material 200 may be formed of a stud-like member having a predetermined length and having a male thread 220 formed at one end thereof with a fastening member 210 or a screw head and the other end thereof fastened with the fastening member 210, But the present invention is not limited thereto and may be a bolt member having a predetermined length formed at both ends of the male threaded portion 220 so that the fastening members are fastened and fastened at both ends thereof.

The steel material 200 passes through the support 110 provided in the corner support part 100 and is disposed in parallel with the plane part through a support provided on another adjacent corner support part, Is exposed between the pair of left and right corner support portions 100 and is not fixed to the plane portion, and is fixed by being fastened by the coupling member 210 or the screw head of the male screw portion. At this time, the restraining force applied by the tightening torque force has the restraining effect of the column portion through the steel material 200 and the edge supporting portion 110. In this case, the value of the required tightening torque N * m is determined in accordance with the size of the steel to be 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 to be connected and fixed between the corner support portions 100 disposed on each of the flat portions of the concrete column P in a pair.

In this state, when the worker is assembled to one end of the steel material disposed so as to be parallel to the plurality of flat portions or rotated in the locking direction, which is the fastening direction of the fastening member 210 assembled at both ends, It is possible to apply an external force to increase the seismic performance of the concrete column because the external force that increases the adhesion force between the support and the plane portion arranged to contact the concrete column can be transmitted and applied in the direction of the center of the cross section orthogonal to the plane portion of the concrete column. It is.

A plurality of corner supports provided on a plurality of corner portions formed to be in contact with the flat portion forming the corner portion of the concrete column and the other flat portion adjacent thereto; Wherein one of the plurality of corner support portions has one or more surfaces that are not in contact with one or more surfaces that are in contact with a plane portion forming a corner portion of the concrete column, The supporting portion is formed in a vertical direction of the concrete column and is installed in a reinforcing section h of the concrete column surface. One of the corner supporting portions is formed as a reinforcing section length h of the concrete column, Wherein the other edge of the edge support portion, which is not in contact with the flat surface portion forming the edge portion of the concrete column, is formed in the vertical direction of the concrete column in any one of the edge support portions of the plurality of edge support portions, In any one of the corner supports A plurality of steel members having a predetermined length connected to and fixed to the other surface of the edge support portion which is not in contact with the flat surface portion forming the corner portion of the concrete column; .

A plurality of corner supports formed on the concrete column and each having a pair of supports disposed to face one surface of the flat portion forming the corner portion of the concrete column and the other flat portion adjacent thereto; A plurality of corner supports; Wherein one of the plurality of corner support portions has one or more surfaces that are not in contact with one or more surfaces that are in contact with a plane portion forming a corner portion of the concrete column, The supporting portion is formed in a vertical direction of the concrete column and is installed in a reinforcing section h of the concrete column surface. One of the corner supporting portions is formed as a reinforcing section length h of the concrete column, Wherein the other edge of the edge support portion, which is not in contact with the flat surface portion forming the edge portion of the concrete column, is formed in the vertical direction of the concrete column in any one of the edge support portions of the plurality of edge support portions, In any one of the corner supports A plurality of steel members having a predetermined length connected to and fixed to the other surface of the edge support portion which is not in contact with the flat surface portion forming the corner portion of the concrete column; .

A pair of supports each disposed so as to face one surface of the flat portion forming the corner portion of the concrete column and another flat portion adjacent thereto and a pair of connection portions which are in contact with respective ends of the pair of supports between the edge portion and the support, A plurality of corner supports provided on a plurality of corner portions formed on the concrete column including a connector having a surface; Wherein one of the plurality of corner support portions has one or more surfaces that are not in contact with one or more surfaces that are in contact with a plane portion forming a corner portion of the concrete column, The supporting portion is formed in a vertical direction of the concrete column and is installed in a reinforcing section h of the concrete column surface. One of the corner supporting portions is formed as a reinforcing section length h of the concrete column, Wherein the other edge of the edge support portion, which is not in contact with the flat surface portion forming the edge portion of the concrete column, is formed in the vertical direction of the concrete column in any one of the edge support portions of the plurality of edge support portions, In any one of the corner supports A plurality of steel members having a predetermined length connected to and fixed to the other surface of the edge support portion which is not in contact with the flat surface portion forming the corner portion of the concrete column; .

In addition, the plurality of steels having the predetermined length may be arranged in the horizontal direction of the concrete column at the reinforcing section (h) of the concrete column and arranged at the same installation spacing interval, or at the column end section, And the spacing of the steel material may be widely spaced apart from the end portion of the column, and the support may be formed of a rectangular hollow body through which the through holes through which the steel material passes are respectively passed through the through holes, Sectional shape in the form of a "ㄷ" cross-section of a curved plate which is formed in a vertical plane at both ends, or a solid hexahedron in which a through hole through which the steel material passes is formed through the body, or through- The supporting body reinforcing member may be further included in the formed &quot; C &quot; .

The reinforcing member may be in contact with the surface of the supporting member on which the through hole is located, out of the surface of the supporting member not in contact with the plane portion forming the corner of the concrete column.

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

In addition, the through holes formed on the surface of the support may be provided with circular or elongated holes, elliptical holes or square holes.

In addition, in order to reduce the maintenance cost, it is preferable that, in the reinforcing section (h) of the concrete column, the use time of the concrete column seismic reinforcement device for the surface on which the concrete column seismic retrofitting device is not fixed on the concrete column surface Maintenance charge can be installed and used so that the maintenance cost is minimized.

<Construction example>

In the method for reinforcing concrete seismic retrofitting apparatus of the present invention, a reinforcing method for a concrete column to be installed using an edge supporting part (100)

Providing a corner support (100) at a corner (C) of the column; Installing a steel material (200) on the through hole of the edge supporting part; First fastening the fastening member; Confirming a target tightening torque value; And the step of constructing can be constituted as a basic step. Here, the meaning of 'fastening member' includes both nuts and bolt heads.

In addition, in the above construction method, the edge supporting portion may include a corner supporting portion (h) having a reinforcing section (h) having two or more supporting members (110) in which a plurality of through holes are formed in a corner portion (C) As shown in FIG.

In addition, in the construction method, the corner supporting portion may be constituted by a pair of supporting members (110) arranged so as to face one surface of a plane portion forming a corner portion of the concrete column and another flat surface portion adjacent thereto, A plurality of corner supports (100) provided for each of a plurality of corner portions formed on the column; The method of the present invention can be used as a method for constructing a concrete column seismic device.

In addition, in the method of the present invention, the step of applying the cross-sectional stiffener 114 to the inner surface of the corner support portion 100 which is to be inserted into the concrete column, Providing a corner support (100) on the edge (C); You can build it further including before.

Further, in the above-mentioned construction method, the support body may be formed of a rectangular hollow body having through holes 112 through which the steel material passes, at both ends thereof, or through holes 112 through which the steel material passes, And a through hole 112 through which the steel material passes is formed as a solid hexahedron through which the steel material passes, or a through hole through which the steel material passes is formed through a through hole 112, The supporting body reinforcement member 111 may further include a curved plate member having a cross section.

A preferable method of the above-mentioned construction method is to use a steel material 120 having a predetermined length and having both ends connected to and fixed to either one of the corner supporting portions and the adjacent corner supporting portions 100 adjacent thereto; . &Lt; / RTI &gt;

17, the connecting body 120 is formed of a section steel member having a cross section. However, the connecting body 120 may be formed of a solid rectangular cross-sectional member or a rectangular hollow member, And a member made of a cross-sectional member on the base.

Although not shown in the drawings of the present invention, it is possible to construct a concrete column by a seismic reinforcement method of a concrete column provided for a whole reinforcing section (h) excluding a wall thickness in a column in which a concrete column supports a wall structure together with a wall .

Further, in the column having the curved surface portion, or the column having the circular or elliptical cross-section, the curved surface supporting portion 100 'is provided on the curved surface portion. Installing a steel material (200) on the through hole of the curved surface supporting part; First fastening the fastening member; Confirming a target tightening torque value; Wherein the curved surface supporting portion 100 'is constituted by a pair of supporting members 110' forming a curved surface portion and a connecting member 120 '. The present invention is also directed to a method of reinforcing a concrete column, It is possible to construct it including the reinforcement structure.

The method may further include: providing a curved surface support portion (100 ') on the curved surface portion; A plurality of curved surface supporting portions 100 'may be provided on the curved surface portion.

In addition, in the present invention, the material of the corner support portion and the curved surface support portion can be used including a metal material, a composite material, and a non-metal material.

The step of previously applying the cross-sectional stiffener 114 to the inner surface of the corner support portion 100 which is in contact with the flat portion of the concrete column, This can be further performed before the step of installing the corner support portion 100 at the corner portion C of the concrete column. The supporting member 110 of the corner supporting portion 100 may be fixed to the flat portion of the concrete column in a tight manner, So that the confining pressure is uniformly distributed in the flat portion of the corner portion (C) that is in contact with all the supports (110), thereby maximizing the restrained state of the existing concrete column. At this time, it is preferable to always check the target tightening torque value by using a torque wrench (T), and to maintain the torque value of the management target value even in the future maintenance.

The above description is an embodiment of a method of reinforcing the existing concrete column. However, as described in Fig. 2, an earthquake-proof device including maintenance filling can be additionally used. 3, after the concrete column seismic strengthening apparatus is installed on the existing column portion, a maintenance filler is installed using a corner supporting portion or a curved surface supporting portion so that a part of the seismic strengthening apparatus is not exposed Step.

Also, in the reinforcing section (h) of the existing concrete column, reinforcing the concrete column seismic strengthening apparatus to the existing column section, and installing additional reinforcement in the existing column section; .

The method may further include installing a maintenance filler using an edge support portion so that at least the fastening member is not exposed in the portion of the seismic strengthening device.

The concrete column may be used as a seismic reinforcement method of a concrete column provided for the entire reinforcing section h excluding the wall thickness, even for a column having a wall structure together with a wall.

Also, in the case of a column having a curved surface portion such as a column having a circular cross section or an elliptic cross section, a plurality of curved surface supporting portions 100 'may be provided on the curved surface portion.

(C1) of cleaning the surface of the fixing surface column and performing surface treatment or surface cleaning (M) on the surface of the fixing surface of the corner supporting portion (100) before the installation Most preferred. It is most preferable to construct the present invention after confirming that a separate section maintenance and reinforcement work has been performed in advance when an operation of reinforcing the section is required.

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

100: corner support portion, 100 ': curved surface support portion
110, 110 ': Support
111: support body reinforcement member
112: Through hole
114:
120, 120 ': connecting body
121 ': connector hinge part
122: connecting ball
124: connecting surface
200: Steel
210: fastening member
220:
300: filling for maintenance
310: Patch for maintenance
400: Additional stiffener
P, P ': Concrete column
C: corner portion
h: reinforcement section
M: Cotton theorem
F: foundation plate, bottom slab, bottom slab
T: Torque wrench
A: Chamfer face
d: step

Claims (16)

An apparatus for reinforcing concrete columns to prevent bending deformation or shear deformation by external force,
A plurality of corner supports provided on a plurality of corner portions formed to be in contact with a flat portion forming a corner portion of the concrete column and another flat portion adjacent thereto;
One of the plurality of corner support portions has at least one surface that is not in contact with at least one surface that is in contact with a plane portion forming a corner portion of the concrete column,
One of the corner support portions of the plurality of corner support portions is formed in the vertical direction of the concrete column and installed in the reinforcing section h of the concrete column surface,
Wherein one of the corner support portions has a reinforcing section (h) length of the concrete column,
The other side of the corner support portion which is not in contact with the flat portion forming the corner portion of the concrete column is formed in the vertical direction of the concrete column,
A plurality of steel members having a predetermined length connected to and fixed to the other surface of the corner support portion which is not in contact with the flat surface portion forming the corner portion of the concrete column, in any one of the corner support portions of the plurality of corner support portions; Wherein the reinforcing member comprises a reinforcing member for reinforcing the concrete column. The method according to claim 1,
Wherein the edge supporting portion has a cross-sectional shape in cross-section. 3. The method of claim 2,
The edge supporting portion has a cross-sectional shape in which a portion of the edge of the concrete column that is in contact with the edge portion of the support is long in the cross-sectional direction of the support member and a portion of the through- Wherein the reinforcing member is provided with a reinforcing member. 3. The method of claim 2,
Wherein the corner support portion further comprises a support reinforcement member having a rectangular cross-sectional shape or a triangular cross-sectional shape. The method according to claim 1,
The plurality of steels having the predetermined length may be arranged in the horizontal direction of the concrete column at the reinforcing section (h) of the concrete column and arranged at the same installation spacing interval, or at the column end section, Wherein a spacing distance between the steel members is widely spaced apart from the end portions. The method according to claim 1,
Wherein the steel material has a fastening member having at least one end formed as a male or a female part and being connected to and fixed to a corner support part. The method according to claim 1,
In the reinforced section (h) of the concrete column, with respect to the surface where the concrete column seismic retrofitting apparatus is not fixed on the concrete column surface, the maintenance time of the concrete column seismic retrofitting apparatus is extended, Wherein the reinforcing member is installed in the reinforcing member. The method according to claim 1,
And a maintenance paved plate is provided by using the corner support portion to have maintenance charge. The method according to claim 1,
Further comprising an additional reinforcement between one of the plurality of corner support portions and another adjacent corner support portion of the plurality of corner support portions. The method according to claim 6,
Wherein the maintenance charge is minimized by installing maintenance charge to prevent the coupling member from being exposed. A method of using a concrete column seismic retrofitting apparatus to minimize the maintenance cost in using a concrete column seismic retrofitting apparatus,
Reinforcing the existing concrete column seismic strengthening device to the existing column portion in a reinforcing section (h) of the existing concrete column;
And installing a maintenance charge on the concrete column. 12. The method of claim 11,
And installing a maintenance filler using a corner support or a curved surface support so that a part of the seismic retrofitting apparatus is not exposed after the concrete column seismic retrofitting apparatus is installed on the existing column portion. Seismic Retrofit of Concrete Columns. 12. The method of claim 11,
Reinforcing the existing concrete column seismic strengthening device to the existing column portion in a reinforcing section (h) of the existing concrete column;
Installing additional stiffeners; Wherein the reinforcing member comprises a reinforcing member and a reinforcing member. 13. The method of claim 12,
And installing a maintenance filler using a corner support so that at least a fastening member is not exposed from a part of the seismic retrofitting apparatus. The method according to claim 12 or 13,
Wherein the concrete column is a column having a wall structure together with a wall, wherein the reinforcing method is applied to the entire reinforcing section (h) excluding the wall thickness. 16. A method according to any one of claims 12 to 15,
In a column having a curved surface portion such as a column having a circular cross section or an elliptic cross section,
And a plurality of curved surface supporting portions (100 ') are provided on the curved surface portion.

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