KR20200004971A - Method for reinforcing the Earthquake of a concrete columns - Google Patents

Abstract

Provided is a method for reinforcing earthquake resistance of a concrete column. To this end, the present invention comprises: a plurality of corner support units; and a steel material of a predetermined length. Therefore, reinforcement efficiency can be improved, and an external force can be prevented from being focused on a corner part of a concrete column.

Description

Method for reinforcing concrete columns {Method for reinforcing the Earthquake of a concrete columns}

The present invention relates to a method for seismic reinforcement of a concrete column, and more particularly, it is installed on the ground or underground to transmit a restraining force orthogonal to a vertical compressive load of a concrete column supporting civil and building structures to external forces such as earthquakes. The present invention relates to a method for seismic reinforcement of concrete columns that prevents concrete columns from suddenly being destroyed due to bending deformation or shear deformation and secures structural seismic safety for concrete columns that are not aged or seismically secured by simple reinforcement. .

In view of the recent surge in housing demand due to the rapid progress of urbanization, the improvement of the demand level for the improvement of the quality and utilization of aging inventory, the need for environmentally friendly buildings, and the prevention of land development due to indiscriminate new construction. Remodeling is recommended.

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

In addition, the existing old civil engineering and building structures and recently constructed buildings differ from each other according to the time of construction. The design of the old buildings, unlike the new buildings, does not reflect the seismic design at all. It was destroyed and there was a danger of causing many casualties.

In addition, as the interest in the environment is increased and the efficiency in terms of economy is reduced, the government will reduce the environmental waste and restructure the existing apartments to enable the rehabilitation policy. It is expected.

In particular, the remodeling of the building does not need to be re-authorized by related organizations and can be remodeled by simple procedures, which gives you more choices than new buildings and can be constructed as a modern building. The problem was that concrete columns such as beams were vulnerable.

As a method for remodeling the old buildings, there are methods to reinforce reinforcement and install formwork around existing columns to reinforce them with cast-in-place concrete, but air is required, labor costs are increased, and construction costs are excessive. .

(Patent Document 1) KR10-2015-0030061 A

Patent document 1 is a steel structure to place the steel support portion at each corner portion where the flat portion of the structure and the other planar portion adjacent to each other, arrange the steel fixing portion in any one of the plurality of flat portion of the concrete column, At least one bent portion bent in the middle of the length is placed and placed, the nut member coupled to the end of the steel is exposed and connected to the steel fixing portion, including the steel is connected to each other fixed to the steel fixing portion By applying a restraining force acting in the direction of the center of the cross section perpendicular to the concrete column through the external force applied to the steel by the reinforcement.

However, when horizontal external force such as earthquake is applied, it is designed to reinforce only in the horizontal direction of the edge part. Therefore, seismic reinforcement materials should be closely arranged to further increase the seismic performance against bending shear. Failure to secure may occur. In this case, the construction work for reinforcing the concrete pillar according to the preliminary preparation is prolonged, while the work productivity is lowered, and the manufacturing cost is increased due to components not manufactured by the standardization.

In the case of the existing invention, the steel is spaced apart and the steel support is also spaced apart, only the shear reinforcement effect and ductile reinforcement effect was expected. In addition, in the case of the existing invention product, it was necessary to delay the initial crack occurrence time that inhibits the stiffness of the concrete column to the effect of the seismic performance.

When the flexural external force is generated in the column of the concrete structure, the entire area of the reinforcement section is not reinforced. Therefore, it is necessary to improve the performance function against the flexural external force.

Accordingly, the present invention is to solve the problems as described above, the object is to increase the bending area and the shear strength at the same time by increasing the contact area of the edge portion formed between the flat portion of the concrete column and the adjacent flat portion in the vertical direction at the same time By increasing the restraint area, the energy absorption efficiency area is increased, so it has excellent seismic performance, and the reinforcement work for the concrete column can be performed stably and at the same time. It is intended to provide a seismic reinforcement method for concrete columns that can increase reinforcing efficiency by increasing the contact area with and prevent the concentration of external force on the edges of the concrete columns.

In particular, the installation efficiency is maximized by simply installing the corner support (or curved support) at the corner (or curved surface) of the concrete column, and the shear steel for the seismic performance of the concrete column by pressing all the corners (or curved surface). At the same time, the present invention aims to provide a seismic reinforcement method for concrete columns that greatly increases the flexural rigidity.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

As a specific method for achieving the above object,

Preferred construction method for the concrete column of the present invention, the step of installing a reinforcement plate (S) in the planar portion of the column to reinforce the entire outer peripheral surface of the reinforcement section (h) of the concrete column; Installing the corner support portion 100 in the corner portion (C); Installing the steel 200 in the through hole of the edge support; First fastening the fastening members; Checking a target tightening torque value; Including construction can be.

In addition, as described in the construction method, the step of installing the corner support portion 100 in the corner portion (C); in the corner support portion 100 to partially overlap the reinforcing plate (S) installed in the flat portion of the column It can be installed including installation.

In addition, as described in the construction method, the corner support portion, the corner portion of the concrete pillar, including a corner support portion of the reinforcement section (h) length provided with two or more supports in which a plurality of through holes are formed can do.

In addition, the edge support portion, a pair of the support each arranged so that one surface is in contact with the plane portion forming the corner portion of the concrete pillar and the other plane adjacent thereto so that each edge of the pair of the support in the corner portion is in contact with each other A plurality of corner support parts provided for each of the plurality of corner parts formed on the concrete column to be arranged and connected to each other; It can be installed including.

In addition, the curved portion is connected to a pair of supports 110 ', which are arranged by connecting the connecting body 120' to the curved portion forming the curved portion of the concrete column and the other curved portion adjacent thereto, so that the concrete A plurality of curved support portions 100 'provided for each of the curved portions formed in the pillar; It can be installed including.

In addition, the support (110, 110 ') is formed of a rectangular hollow body through which the through-holes through which the steel passes, respectively at both ends, or the' c 'cross-sectional view through the through-holes through which the steel passes through the vertical plane, respectively Reinforce the support to the curved plate body of 'C' section consisting of a solid hexahedron made of a bent plate body or through-holes through which the steel passes or formed through the vertical holes on both ends of the through-holes through which the steel passes. A sieve is included more and can be constructed.

In addition, the steel material, the steel of a predetermined length is connected to both ends of the corner support portion (100 or 100 ') and any other corner support portion (100 or 100') adjacent to each other of the plurality of corner supports; It is most preferable that the construction including.

In addition, the edge support portion, a pair of supports each arranged so that one surface of the plane portion and the other plane portion adjacent to the flat portion forming the corner portion of the concrete pillar, and each end of the pair of supports between the corner portion and the support It can be constructed by including a connector with a pair of connecting surfaces in contact with it.

In addition, the edge support portion is composed of a pair of supports 110, each of which is arranged so that one surface is in contact with the plane portion forming the corner portion of the concrete pillar and the other plane portion adjacent thereto, the partial surface of the support 110 A plurality of corner support parts provided for each of the plurality of corner portions formed in the concrete pillars by interviewing the reinforcement plate S and the other side surfaces of the corner portions of the concrete surfaces; Including construction can be.

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

In addition, as described in the construction method, the step of surface treatment or cleaning the surface of the fixing surface of the concrete column to the flat surface for the reinforcement section to be interviewed with the support to the concrete pillar; It may be further included before the corner support installation step.

In addition, as described in the construction method, the step (C2) of previously applying the cross-section reinforcement (114) to the reinforcing plate (S) to be interviewed with the flat portion of the concrete column; Or applying in advance a cross-section reinforcement (114) to the inner surface of the reinforcing plate (S) to be interviewed with the flat portion of the concrete pillar and the edge support portion (100) to be interviewed with the flat portion of the concrete pillar; Installing a reinforcing plate (S) in the flat portion of the concrete column; It may be further included before construction. (Description of Fig. 1, description of Fig. 14 is omitted).

In addition, as described in the construction method, the step of pre-applying the cross-section reinforcement 114 on the inner surface of the edge support portion 100 to the concrete pillars; Installing a corner support portion 100 in the corner portion (C); It can be included in addition to the previous construction.

In addition, the corner support portion, a pair of support 110, each of which is arranged so that one surface of the plane portion and the other plane portion adjacent to the plane portion forming the corner portion of the concrete pillar, a pair of contacting each end of the pair of support It can be constructed including a connecting body 120 having a connecting surface 124.

In addition, the connecting member 120 may be made of a 'b' cross-section member made of solid steel, solid rectangular cross-sectional member, rectangular hollow body cross-section member or triangular cross-sectional member, and the curved surface The connecting body 120 ′ in a column having a portion may be constructed by including a member having a 'curved' cross section, a member having a 'flat iron' cross section, or a connecting member having a 'soft' characteristic.

In addition, the steel installation step (C6); After or or fastening member primary fastening step (C7); Thereafter, the step (C9) for installing the pressing members (140, 140 ') of the reinforcing plate (S); Confirming the target tightening torque value (C8); It can be included in addition to the previous construction.

In addition, the reinforcement plate (S) for installing the corner support portion 100 so as to partially overlap the reinforcement plate (S) installed in the flat portion of the pillar, the reinforcement to minimize the slip and the support 110 of the corner support portion 100, The groove S110 of the plate S and the protrusion 110a of the support may be installed to include a seismic reinforcement device of a concrete pillar including being installed in engagement with each other.

In addition, in the pillar in which the concrete pillar is fitted with the wall structure together with the wall, it may be installed for the entire reinforcement section (h) except the wall thickness.

In addition, in the column of circular cross section or elliptical cross section, in order to reinforce the entire outer circumferential surface of the reinforcement section (h) of the concrete column, installing a reinforcing plate (S ') in the curved portion of the column; Installing a curved surface support portion 100 'on another curved surface portion; Installing the steel 200 in the through hole of the curved support; First fastening the fastening members; Checking a target tightening torque value; The seismic reinforcement method of the concrete pillar, characterized in that it comprises a, characterized in that the curved support portion (100 ') is composed of a pair of supports (110') and a connecting body (120 ') constituting the curved portion. It can be installed including reinforcement structure.

In addition, in the step of installing the curved support portion (100 ') in the curved portion; can be installed including the installation of the curved surface support portion 100 so as to partially overlap the reinforcement plate (S') installed in the curved portion of the column have. At this time, the curved portion may be installed including a plurality of curved support portion (100 ') is installed.

In addition, in the present invention, the material of the reinforcing plate (S.S ') can be constructed to include all metal materials (steel wire, flat iron, thin iron plate), non-metal materials (fibers, composite fibers).

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

By increasing the contact area of the corner portion formed between the flat portion of the concrete column and the adjacent flat portion in the vertical direction has the effect of improving the bending strength and shear strength at the same time. In addition, by increasing the confined area of the edge of the column at the outer surface of the concrete column, the energy absorption efficiency area is increased to have an effect of excellent seismic performance. In addition, the reinforcement work on the concrete column can be performed uniformly and quickly, and the reinforcing efficiency can be increased by increasing the contact area with the flat part of the concrete column, and the external force can be prevented from being concentrated at the edge of the concrete column. .

When the concrete column is compressed by an external force such as an earthquake, it is possible to increase the area in contact with the flat portion (or curved portion) by the supports 110 and 110 'interviewing the flat portion (or curved portion) of the concrete column. Reinforcement efficiency can be increased to prevent deformation.

When the seismic reinforcement of the concrete column can prevent the external force is directly transmitted to each corner portion, it is possible to prevent the breakage of the edge portion vulnerable to stress partially.

In particular, by simply installing the corner support (100, 100 ') on the corner (or curved surface) of the concrete column to maximize the construction efficiency, by pressing all the corners (or curved surface) to the seismic performance of the concrete column The shear stiffness and the flexural stiffness are greatly increased. In addition, the construction speed is fast and the effect of shortening the air, the construction efficiency is very excellent.

1 shows the construction procedure of the seismic reinforcement of the concrete column of the present invention.
Fig. 2 shows the surface cleanup of the reinforcement section h of the present invention.
3 shows that the cross-section reinforcement 114 is applied to the reinforcing plate S of the present invention.
4 shows that the reinforcing plate S is provided in the planar section of the reinforcing section of the present invention.
5 shows that the cross-section reinforcement 114 is applied to the edge support portion 100 of the present invention.
FIG. 6 shows that the corner support part 100 of the present invention is provided at the corner part C. As shown in FIG.
7 shows the installation of the steel material 200 of the present invention.
8 illustrates that the cross-section reinforcement 114 applied to the reinforcing plate S and the edge support 100 in advance is fastened by fastening the fastening member 210 to the steel material of the present invention. 1 st conclusion of
9 shows confirming the target tightening torque value using the torque wrench T. As shown in FIG.
FIG. 10 shows that the reinforcing plate S is in close contact with the reinforcing plate S through the pressing member 140 and the pressing reaction surface 140a.
11 shows the completion of seismic reinforcement construction in the concrete column according to the present invention.
Fig. 12 shows an example of use of a connecting body (inner or outer) which is a constituent of the edge support of the present invention.
FIG. 13 is a concrete pillar showing that the groove 110 of the reinforcing plate S and the protrusion 110a of the support are interlocked with each other to minimize the slip of the support 110 and the slip of the edge support 100 of the present invention. The seismic reinforcement apparatus of is shown.
Fig. 14 shows the construction sequence of seismic reinforcement when the concrete column of the present invention has a curved portion.
Fig. 15 shows a curved support portion 100 'in the concrete pillar having the curved portion of the present invention.
As described above, although the drawings described in the present invention mostly illustrate only concrete rectangular columns, the drawings may be constructed by the same reinforcement method (construction method) in addition to circular and elliptical cross sections.
In addition, it is clear that the entire reinforcement surface except for the wall thickness can be applied to the pillars on the wall by the same reinforcement method (construction method) as described in the drawings of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, in describing in detail the structural principle of the preferred embodiment of the present invention, when it is determined that the detailed description of the related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

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

In addition, throughout the specification, when a part is 'connected' to another part, it is not only 'directly connected' but also 'indirectly connected' with another element in between. Include. In addition, the term 'comprising' a certain component means that the component may be further included, without excluding the other component unless specifically stated otherwise.

<Example>

As shown in FIG. 8, the seismic reinforcement concrete post according to the embodiment of the present invention includes a corner support part 100 and a steel material 200 to reinforce the concrete column to prevent bending deformation or shear deformation caused by external force. (In columns with curved sections, including curved supports)

The support 110 may include a box-shaped metal structure that is disposed so that one surface of the support 110 forms an edge portion of the concrete pillar P and another surface portion adjacent to the plane portion.

The steel 200 has a predetermined length of which both ends are respectively connected to and fixed to one of the corner support parts 100 and one of the other corner support parts 100 adjacent to the corner support parts provided one to one for each corner of the concrete structure. It may be made of a screw or bolt fastening structure.

<Application example>

In the concrete seismic reinforcement construction method of the present invention, in the reinforcement method for the concrete pillar to be constructed using the corner support portion 100,

Installing a reinforcement plate (S) in the planar portion of the column to reinforce the entire outer circumferential surface of the reinforcement section (h) of the concrete column; Installing the corner support portion 100 in the corner portion (C); Installing the steel 200 in the through hole of the edge support; First fastening the fastening members; Checking a target tightening torque value; Including the construction stage can be configured as a basic stage. At this time, the meaning of the 'fastening member' includes both the nut or bolt head.

In addition, in the construction method, the step of installing the corner support portion 100 in the corner portion (C); in the installation, the corner support portion 100 is installed so as to partially overlap the reinforcing plate (S) installed in the flat portion of the column It includes what is comprised including.

In addition, in the construction method, the edge support portion, the edge support portion of the reinforcement section (h) length provided with two or more supports 110, the plurality of through holes are formed in the corner portion (C) of the concrete column. It includes what is configured to include.

In addition, in the construction method, the corner support portion, a pair of the support 110 and the pair of the pair of the support that is arranged so that one surface is in contact with the other plane portion adjacent to the plane portion forming the corner portion of the concrete pillar A plurality of edge support parts 100 provided for each of the plurality of edge parts formed on the concrete pillars such that each edge of the support is disposed to be in contact with each other; It can be used as a seismic reinforcement method of a concrete column, characterized in that it comprises a.

In addition, in the construction method, the edge support portion is composed of a pair of supports 110, each of which is arranged so that one surface is in contact with the plane portion forming the corner portion of the concrete pillar and the other plane portion adjacent thereto, A part of the surface 110 is interviewed with the reinforcing plate (S), and the other part of the surface to be interviewed with the concrete surface of the corner portion is provided with a plurality of corner support portions provided for each of the corner portions formed in the concrete pillar; It includes.

In addition, in the construction method, the step of applying in advance the cross-sectional reinforcement (114) to the reinforcing plate (S) in contact with the flat portion of the concrete column (C2); Or applying in advance a cross-section reinforcement (114) to the inner surface of the reinforcing plate (S) to be interviewed with the flat portion of the concrete pillar and the edge support portion (100) to be interviewed with the flat portion of the concrete pillar; Installing a reinforcing plate (S) in the flat portion of the concrete column; It includes more previously.

In addition, in the construction method, the step of applying in advance the cross-section reinforcement 114 on the inner surface of the edge support portion 100 to the concrete pillars; Installing a corner support portion 100 in the corner portion (C); It can be included in addition to the previous construction.

In addition, in the construction method, the support is made of a rectangular hollow body formed through each of the through holes 112 through which the steel passes, or through the through holes 112 through which the steel passes, respectively in the vertical plane at both ends. 'B' formed of a bent plate on the cross section or made of a solid cube that penetrates the through-holes 112 through which the steel passes, or through-holes through which the steel passes through the vertical planes, respectively. The support reinforcement 111 may be further included in the bent plate body on the cross-section.

Preferred method in the construction method, the steel 120 of a predetermined length is fixed to both ends are connected to each of the corner support portion of the plurality of corner support portion and the other corner support portion 100 adjacent thereto; It may include.

In addition, in the construction method, the edge support portion is a pair of supports 110 are arranged so that one surface is in contact with the plane portion forming the corner portion (C) of the concrete pillar and the other plane portion adjacent thereto, and the The connector 120 may include a connector 120 having a pair of connection surfaces 124 contacting each end of the pair of supports 110 between the edge portion C and the support 110. Here, as shown in FIG. 12, the connector 120 may be connected to or used from inside or outside. A connection hole 122 is formed in the connecting body 120 to allow the steel material 120 to penetrate, thereby simultaneously supporting the connection function of the support 110 and the reinforcement of the support 110.

At this time, the connecting body 120 is shown to be made of a 'b' cross-section member as shown in Figure 10, but in addition to the solid rectangular cross-section member or made of a rectangular hollow body cross-section member or triangular What consists of a cross-sectional member of a phase can be used.

In addition, in the reinforcement section of the concrete column, when the corner support portion provided during the installation of the steel is expected to be separated from the corner portion, another preferred construction method for the concrete column of the present invention, the corner portion of the concrete column By installing a plurality of corner support portions of the reinforcement section (h) length, at least one (step) or more of the steel material is installed in each corner support portion in which the through holes are formed in the plurality of stages, and the primary surface of the pillar section of the reinforcement section (h) Tightening; Installing steel in the remaining through hole of the edge support; First fastening the fastening members; Checking a target tightening torque value using a torque wrench; Including construction can be.

As shown in FIG. 13 of the present invention, the reinforcement plate S for installing the edge support part 100 so as to partially overlap the reinforcement plate S installed in the planar part of the pillar is the support 110 of the edge support part 100. In order to minimize the slip and), the groove portion (S110) of the reinforcing plate (S) and the protrusion (110a) of the support is installed in engagement with each other seismic reinforcement device of the concrete pillar and construction by seismic reinforcement method of the concrete column using the can do.

In addition, although not illustrated in the drawings of the present invention, in the pillar in which the concrete pillar sandwiches the wall structure together with the wall, the concrete pillar may be constructed by the seismic reinforcement method of the concrete pillar provided for the entire reinforcement section h except the wall thickness. Can be.

Further, in a column having a curved portion, or in a column having a circular cross section or an elliptical cross section, a reinforcement plate S 'is provided at the curved portion of the column to reinforce the entire outer circumferential surface of the reinforcement section h of the concrete column. Doing steps; Installing a curved surface support portion 100 'on another curved surface portion; Installing the steel 200 in the through hole of the curved support; First fastening the fastening members; Checking a target tightening torque value; The seismic reinforcement method of the concrete pillar, characterized in that it comprises a, characterized in that the curved support portion (100 ') is composed of a pair of supports (110') and a connecting body (120 ') constituting the curved portion. It can be installed including reinforcement structure.

In addition, the step of installing a curved support portion (100 ') in the curved portion; In the construction, including the installation of the curved surface support portion 100 so as to partially overlap the reinforcement plate (S ') provided in the curved portion of the column. At this time, it may be installed including a plurality of curved support portion (100 ') is installed in the curved portion.

In addition, in the present invention, the material of the reinforcing plate (S.S ') can be constructed to include all metal materials (steel wire, flat iron, thin iron plate), non-metal materials (fibers, composite fibers).

In addition, the step of applying in advance the cross-section reinforcing material 114 on the inner surface of the edge support portion 100 to be interviewed with the flat portion of the concrete column; It may be further carried out before the step of installing the corner support portion 100 in the corner portion (C) of the concrete pillar. At this time, the cross-section reinforcement 114 used may be a mortar product or epoxy or material with little fluidity, and the support 110 of the edge support 100 is firmly fixed to the flat part of the concrete column, resulting from the fastening torque. By restraining pressure to be evenly distributed to the flat portion of the edge portion (C) to be interviewed with all the support 110, to serve to maximize the core state of the existing concrete pillars. At this time, it is necessary to check the target tightening torque value by using the torque wrench (T), it is preferable to manage to have a torque value of the management target value in future maintenance.

In order to maximize the reinforcement effect of concrete column and increase the construction quality,

First of all, in the step C5 of fastening the fastening member, as shown in the enlarged view of FIG. 6, when the first fastening is performed, the cross-section reinforcement 114 previously applied to the edge support part 100 is closed by the restraint pressure. After filling, it shows that it comes out. As such, construction of the corner support part 100 to closely interview the corner part C is the most preferable construction method.

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

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

100: corner support, 100 ': curved support
110, 110 ': support
110a: support protrusion
111: support reinforcing body
112: through hole
114: section reinforcement
120: connector
122: connector
124: connecting surface
140, 140 ': Pressing member
140a: pressurized reaction surface
200: steel
210: fastening member
220: male thread part
P, P ': concrete pillar
C: corner
h: reinforcement section
M: Clean Up
S: Reinforcement plate, S ': Reinforcement plate installed on the column with curved surface
S110: Reinforcement Plate Groove
F: Base plate, lower slab, floor slab
T: Torque Wrench

Claims (17)

In the reinforcement method for a concrete column,
Installing a reinforcement plate (S) in the planar portion of the column to reinforce the entire outer circumferential surface of the reinforcement section (h) of the concrete column;
Installing the corner support portion 100 in the corner portion (C);
Installing the steel 200 in the through hole of the edge support;
First fastening the fastening members;
Checking a target tightening torque value;
Seismic reinforcement method of the concrete pillars, characterized in that comprising a. The method of claim 1,
In the step of installing the corner support portion 100 in the corner portion (C); characterized in that it comprises a corner support portion 100 is installed to partially overlap the reinforcing plate (S) installed in the flat portion of the column Seismic reinforcement method of concrete column. The method of claim 1,
The corner support portion, characterized in that it comprises a corner support portion 100 of the reinforcement section (h) length provided with two or more supports 110, the plurality of through holes are formed in the corner portion of the concrete pillar. Seismic reinforcement method of concrete column. The method of claim 1,
The corner support portion, a pair of supports each arranged so that one surface of the plane portion forming the corner portion (C) of the concrete pillar and the other plane portion adjacent to each of the corners of the pair of supports at the corner portion A plurality of edge supports provided at each of the plurality of edge portions formed in the concrete pillars by being disposed to be in contact with each other; Seismic reinforcement method of the concrete pillars, characterized in that comprises a. The method according to claim 1, wherein
The edge support portion is composed of a pair of supports 110, each of which is arranged so that one surface is interviewed with a plane portion forming the corner portion of the concrete pillar and the other plane portion adjacent thereto, the partial surface of the support 110 is reinforced A plurality of edge supports provided for each of the plurality of corner portions formed in the concrete pillars by interviewing the plate (S), and the other part of the surface to be interviewed with the concrete surface of the edge portion; Seismic reinforcement method of the concrete pillars, characterized in that comprises a. The method according to claim 1 or 2,
(C2) previously applying a cross-section reinforcement (114) to the reinforcing plate (S) to be interviewed with the plane of the concrete column; Or applying in advance a cross-section reinforcement (114) to the inner surface of the reinforcing plate (S) to be interviewed with the flat portion of the concrete pillar and the edge support portion (100) to be interviewed with the flat portion of the concrete pillar; To
Installing a reinforcing plate (S) on a plane of the concrete column; Seismic reinforcement method of the concrete pillars further comprising before. The method according to claim 1 or 2,
Applying a cross-sectional reinforcing material (114) on the inner surface of the edge support portion (100) in contact with the concrete column; To
Installing a corner support part 100 in the corner part C; Seismic reinforcement method of the concrete pillars further comprising before. The method of claim 1,
The steel,
Steels of a predetermined length, the both ends of which are respectively connected to and fixed to one of the corner support portions and the other edge support portion adjacent thereto; Seismic reinforcement method of the concrete pillars comprising a. The method according to claim 1, wherein
The corner support portion,
It has a pair of support 110, which is arranged so that one surface is in contact with the plane portion forming the corner portion of the concrete pillar and the other plane portion adjacent thereto, and a pair of connecting surface 124 in contact with each end of the pair of support Seismic reinforcement method of the concrete column, characterized in that it comprises a connecting body (120). The method of claim 9,
The connecting body is a seismic reinforcement method of the concrete pillars, characterized in that consisting of the 'b' section of the steel member, solid rectangular cross-section member, rectangular hollow body cross-section member or triangular cross-section member. The method according to claim 1, wherein
(C1) surface treating or cleaning the surface of the fixing surface of the concrete pillar with a flat surface for the reinforcement section in which the corner support is to be interviewed with the concrete pillar;
The reinforcing plate (S) installation step (C2); Seismic reinforcement method of the concrete pillars further comprising before. The method of claim 1,
The steel installation step (C6); After or or fastening member primary fastening step (C7); After that, the step of installing the pressing member 140 of the reinforcing plate (S) (C9); To
Checking the target tightening torque value (C8); Seismic reinforcement method of the concrete pillars further comprising before. The method according to claim 1 or 2,
Reinforcing plate (S) for installing the corner support portion 100 so as to partially overlap the reinforcement plate (S) installed in the planar portion of the pillar, in order to minimize the slip and the support 110 of the corner support portion 100, The seismic reinforcement device of the concrete pillar, including the groove (S110) of the S and the protrusion (110a) of the support is installed in engagement with each other and the seismic reinforcement method of the concrete pillar using the same. The method according to claim 1, wherein
A method of seismic reinforcement of a concrete column in which the concrete column is fitted with a wall along with the wall structure, the wall is installed over the entire reinforcement section except for the wall thickness. In the reinforcement method for a concrete column,
In the column of circular cross section or elliptical cross section, In order to reinforce the entire outer peripheral surface of the reinforcement section (h) of the concrete column, the step of installing a reinforcement plate (S ') in the curved portion of the column; Installing a curved surface support portion 100 'on another curved surface portion;
Installing the steel 200 in the through hole of the curved support; First fastening the fastening members;
Checking a target tightening torque value; The seismic reinforcement method of the concrete pillar, characterized in that it comprises a, characterized in that the curved support portion (100 ') is composed of a pair of supports (110') and a connecting body (120 ') constituting the curved portion. Seismic reinforcement method of a concrete column including a reinforcing structure. The method of claim 15,
In the step of installing the curved support portion 100 'in the curved portion; In the configuration, including the curved surface support portion 100 is installed to partially overlap the reinforcement plate (S') installed in the curved portion of the column Seismic reinforcement method of concrete column. The method of claim 15,
Seismic reinforcement method of the concrete pillars, characterized in that comprising a plurality of curved support portion (100 ') is installed in the curved portion.

Images