KR20230011631A - Method and apparatus for composite reinforcement of concrete column - Google Patents

Abstract

The present invention relates to a composite reinforcement method of a concrete column and an apparatus thereof. The disclosed composite reinforcement apparatus of the concrete column of the present invention, as the apparatus reinforcing the concrete column having a circular or polygonal cross-sectional shape installed between upper part and lower part structures in a complex manner, comprises: a wrapping unit; a some reinforcement unit; an overall reinforcement unit; and a binding force generating unit.

Description

Method and apparatus for composite reinforcement of concrete columns {METHOD AND APPARATUS FOR COMPOSITE REINFORCEMENT OF CONCRETE COLUMN}

The present invention relates to a method and device for composite reinforcement of concrete columns, and more particularly, to a method and device for composite reinforcement of concrete columns of a building.

In general, a building is generally composed of a plate-shaped or massive structure and a pillar that physically supports superstructures located on top of the structure.

Therefore, the column must be able to sufficiently withstand the load of the structure and other loads applied thereon, and also must be able to sufficiently withstand external forces applied in the horizontal direction, such as earthquakes or wind pressure.

If the column cannot withstand this, it will collapse, and superstructures physically supported by it will also collapse.

In particular, the seismic design of concrete columns against earthquakes is very important.

In this way, as a method of reinforcing concrete columns, various methods such as fiber reinforcement, steel plate reinforcement, and cross-sectional enlargement are applied according to site conditions. It is common to attach a fiber sheet or the like to a concrete column using an epoxy resin.

Techniques related to such devices and methods for reinforcing concrete columns have been proposed in Korean Patent Registration No. 1719179 and Korean Patent Publication No. 2021-0010357.

However, since Patent Documents 1 and 2 reinforce column reinforcement by a limited method, the improvement in bending strength, shear strength improvement, and ductility capacity (deformation capacity) of the column, which is the goal of improving the performance of column reinforcement, is effective for some. There was a problem.

Korean Patent Registration No. 1719179 (2017.03.17) Korean Patent Publication No. 2021-0010357 (2021.01.27)

The present invention has been made in view of the above points, and the problem of the present invention is to provide a method and apparatus for reinforcing a concrete column capable of reinforcing a column through a composite method by completely wrapping and partially generating a restraining force on a concrete column. Its purpose is to provide

In order to achieve the above object, a composite reinforcing device for a concrete column according to the present invention is a device for reinforcing a concrete column having a circular or polygonal cross-sectional shape installed between upper and lower structures in a complex manner, on the surface of the column A lapping unit for wrapping and wrapping the entire surface of the pillar in a state in which the adhesive is applied; Some reinforcing parts provided to be in close contact with the outer surfaces of the upper and lower structures and adjacent ends of the pillars wrapped with the lapping part at predetermined intervals; a total reinforcing part having a height corresponding to the height of the pillar between the partial reinforcing part and the partial reinforcing part and provided to be in close contact with the outer surface of the pillar; and a restraining force generating unit that binds the partial reinforcing part and the entire reinforcing part by winding upper and lower ends of the partial reinforcing part and the entire reinforcing part, wherein the restraining force generating unit is a surface of the partial reinforcing part and the entire reinforcing part or the Cables pressing the first and second clips provided on the part of the reinforcing part and the entire reinforcing part or each of the large surfaces of the part of the reinforcing part are connected, or each of the opposite surfaces of the third clip part provided on the part of the reinforcing part is pulled while being connected to each other. When the cross-section of the concrete column is a square, a partial reinforcing part may be positioned at each corner, and the entire reinforcing part may be positioned at the center between the corners.

In addition, the composite reinforcement method of the concrete column of the present invention, a first step of applying an adhesive to the surface of the concrete column installed between the upper and lower structures; A second step of wrapping the entire surface of the pillar to which the adhesive is applied by wrapping it with a lapping part; A third step of bringing some reinforcing parts into close contact with the outer surfaces of the upper and lower structures, respectively, of the pillars wrapped with the lapping part at predetermined intervals; A fourth step of bringing the entire reinforcing part into close contact with the outer surface of the pillar while having a height corresponding to the height of the pillar between the partial reinforcing part and the partial reinforcing part; and a fifth step of binding the partial reinforcing part and the entire reinforcing part by winding upper and lower ends of the partial reinforcing part and the entire reinforcing part with a restraining force generating part. The surface of the entire reinforcement part or the partial reinforcement part and the first and second clips provided in the entire reinforcement part are pressed to generate a restraining force, or each of the large surfaces of the partial reinforcement part is connected through a computerized bolt or the partial reinforcement part Each of the opposite surfaces of the third clip portion provided in is pulled in a connected state to generate a restraining force, and when the cross section of the concrete column is a square, some reinforcement parts are located at each corner, and the entire reinforcement part can be located between corners. there is.

According to the present invention, after applying the adhesive to the surface of the concrete pillar, the entire surface is wrapped, and some reinforcement parts are added to the upper and lower parts of the concrete pillar adjacent to the upper and lower structures, respectively, and the entire reinforcement part between some reinforcement parts In the padded state, it is expected to improve the flexural strength and ductility ability according to the internal concrete restraint, and improve the shear strength by cables (or bolts) by generating a restraining force on some reinforcement parts and all reinforcement parts through the restraining force generating part, and coating agent is applied before adhesive application It is expected to have the effect of preventing neutralization of concrete during construction, preventing falling off of coated concrete during column deformation, and improving additional reinforcement performance. Reinforcement using prestressed cables can be applied to both circular and rectangular cross-section RC columns. , In the existing column cross-section expansion method and RC wing wall addition method, additional reinforcement, concrete pouring, and curing period are required, but in this method, adhesive application, cable or bolt installation, and prestressing work are all, so the reinforcement construction period is shortened. There is an effect that can be expected.

1 is a front view schematically showing a composite reinforcement device for a concrete column according to the present invention.
2 is a AA cross-sectional view of FIG. 1 .
3 and 4 are longitudinal cross-sectional views showing the binding force generation unit in the composite reinforcing device for concrete columns according to the present invention for each embodiment.
5 is a state diagram before and after operation partially showing another embodiment of a restraining force generating unit in a composite reinforcing device for a concrete column according to the present invention.
6 is a block diagram showing a composite reinforcement method for concrete columns according to the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, a composite reinforcement method and apparatus for a concrete column according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view schematically showing a composite reinforcement device for a concrete column according to the present invention, FIG. 2 is an AA cross-sectional view of FIG. 1, and FIGS. 3 and 4 are a binding force generated in the composite reinforcement device for a concrete column according to the present invention Figure 5 is a longitudinal cross-sectional view showing the unit by embodiment, Figure 5 is a state diagram before and after operation partially showing another embodiment of the restraining force generating unit in the composite reinforcing device for concrete columns according to the present invention, Figure 6 is a composite of concrete columns according to the present invention It is a block diagram showing the reinforcement method.

1 to 4, the composite reinforcing device 100 of a concrete column according to an embodiment of the present invention includes a lapping part 110, a partial reinforcing part 120, a total reinforcing part 130, and a binding force generating part 140. ), It is a device for reinforcing the concrete column 10, which is an RC column in the shape of a circular or polygonal cross-section installed between the upper and lower structures 20 and 30, by a composite method.

On the other hand, the concrete column 10 is exemplified as having a rectangular shape among polygons, and can be changed into various shapes without being limited thereto.

As shown in FIGS. 1 to 4 , the wrapping unit 110 is provided to wrap the entirety of the concrete pillar 10 in a state in which an adhesive (not shown) is applied to the surface of the concrete pillar 10 .

Meanwhile, a binder such as polyurea or the like or a coating agent may be applied to the surface of the concrete column 10 before applying the adhesive. Here, the binder functions to help the concrete pillar 10 and the adhesive adhere well.

In addition, the coating agent is formed in layers through spraying, and also serves to prevent neutralization of concrete, prevent falling off of the coated concrete when the concrete column 10 is deformed, and improve additional reinforcement performance.

As shown in FIGS. 1 to 4, some reinforcing parts 120 have set intervals on the outer surfaces of the upper and lower parts adjacent to the upper and lower structures 20 and 30 of the concrete pillar 10 wrapped with the lapping part 110, respectively. It includes upper and lower partial reinforcing parts 122 and 124 so as to be in close contact with each other.

At this time, in the upper and lower partial reinforcing parts 122 and 124, the part receiving the force from the concrete pillar 10 is the part connected to the upper and lower structures 20 and 30, and this part is the most vulnerable, so this is solved. are provided for

On the other hand, when the concrete pillar 10 has a square shape, the upper and lower partial reinforcing parts 122 and 124 are formed in a bent shape so as to be added to each upper and lower corner.

Moreover, some of the reinforcing parts 120 can be provided with a material such as L-beam or FRP together with the entire reinforcing part 130 .

As shown in FIGS. 1 to 4, the total reinforcement part 130 is the height of the concrete column 10 between the upper and lower partial reinforcement parts 122 and 124 and the upper and lower part reinforcement parts 122 and 124. It is provided so as to be in close contact with the outer surface of the concrete pillar 10 while having a height corresponding to.

At this time, the entire reinforcement part 130 is relatively weak because the distance from the center to the edge between the corner and the corner is shorter than the distance from the center to the corner when the concrete pillar 10 has a square shape. It is provided to have the same length as the height of (10).

In addition, the entire reinforcing part 130 may be provided in an iron shape or the like so that the rear surface contacting the concrete pillar 10 has a wide area and the front surface contacting the restraining force generating unit 140 has a narrow area.

As shown in Figs. 124) and the entire reinforcing part 130, it is possible to reinforce the concrete column 10 through the upper and lower partial reinforcing parts 122 and 124 and the entire reinforcing part 130, and the upper restraining force generating part 142 and It includes a lower restraining force generating unit 144.

At this time, the upper and lower restraining force generating parts 142 and 144 are cables that are directly wound around the upper and lower partial reinforcing parts 122 and 124 and the entire reinforcing part 130 to generate a restraining force, or the upper and lower partial reinforcing parts 122 , 124) and a bolt or the like that generates a restraining force by pulling in a connected state for each large surface of the entire reinforcing part 130, etc. are applied to this.

That is, referring to FIG. 3, when the upper and lower restraining force generating parts 142 and 144 are cables, for example, they are formed in a disk or cylindrical shape to surround the corner portions of the upper and lower partial reinforcing parts 122 and 124 90 A groove portion 1222b having an angle of ° is formed, and the first clip portion 1222 composed of an arc groove portion 1222a in contact with the upper and lower restraining force generating portions 142 and 144 on the outer circumferential surface, and formed in a semi-circular plate or semi-cylindrical shape. While being provided on the front surface of the entire reinforcing part 130 and includes a second clip portion 1222-1 consisting of an arc groove portion to which the upper and lower restraining force generating portions 142 and 144 contact the outer circumferential surface.

At this time, the first clip part 1222 and the second clip part 1222-1 can be omitted, and in this case, the arc groove part is formed directly on the upper and lower partial reinforcing parts 122 and 124 and the entire reinforcing part 130. It is possible.

Furthermore, when the upper and lower restraining force generators 142 and 144 are cables, binding devices 146 are provided at opposite ends.

The binding device 146 is provided so that prestress is applied to the cable, and for reinforcement using the prestressed cable, it can be applied to both circular cross section and rectangular cross section RC pillars.

On the other hand, referring to FIG. 5 , the first clip part 1222 is provided with protruding and recessed parts 12222 at both ends of the groove part 1222b to be able to slide back and forth by a concavo-convex structure. In addition, the opposite surface adjacent to the partial upper reinforcement portion 122 is provided with a pressing protrusion 1221, so that the closer the first clip portion 1222 is to the partial upper reinforcement portion 122, the more the pressing protrusion 1221 protrudes and protrudes 12222. ), the protruding and retracting portion 12222 pushes the upper restraining force generating portion 142, which is a cable.

In this way, since the protruding portion 12222 strongly pushes the upper restraining force generating portion 142, which is a cable, the partial reinforcing portion 120 and the entire reinforcing portion 130 are pressed with a stronger force.

At this time, the protruding portion 12222 has a groove G formed on the rear surface so that the end of the pressing protrusion 1221 is coupled.

On the other hand, the protruding and recessed parts 12222 are illustrated as being provided in the upper partial reinforcement part 122, but are not limited thereto and may also be provided in the lower partial reinforcement part 124.

In addition, referring to FIG. 4, when the upper and lower restraining force generating parts 142' and 144' are computerized bolts, the groove part 1222b has a 90° angle so as to surround the corners of the upper and lower partial reinforcing parts 122 and 124. ') is formed and through-holes 1222a' are formed on the front surface of the entire reinforcement part 130, respectively, to fix bolts and the like to both ends bent at a 90° angle. It includes a fourth clip portion 1222-1' having a through hole formed therein so that the bolt can pass therethrough.

At this time, in a state where the bolts pass through the through hole of the fourth clip part 1222-1', both ends are fastened by the nuts N on both sides of the through hole 1222a' of the third clip part 1222'. It is fixed while being fixed, and the pressing force can be adjusted by adjusting the fastening position of the nut (N).

At this time, the third clip part 1222' and the fourth clip part 1222-1' can be omitted, and in this case, the bolts can be provided on each of the opposite surfaces of the upper and lower partial reinforcing parts 122 and 124. .

Referring to FIG. 6, the composite reinforcement method of a concrete column according to an embodiment of the present invention includes a step of applying adhesive to the surface of the column (S200), lapping the surface of the column (S210), adhering to some reinforcing parts (S220), adhering to the entire reinforcing part. It includes step S230 and step S240 of restraining some reinforcement parts and all reinforcement parts.

The column surface adhesive application step (S200) is a step of applying adhesive to the surface of the concrete column 10.

Meanwhile, a binder such as polyurea or a coating agent may be applied to the surface of the concrete pillar 10 before performing the pillar surface adhesive application step (S200).

The pillar surface lapping step (S210) is a step of wrapping the entire concrete pillar 10 with the wrapping part 110 in a state where the adhesive is applied to the surface of the concrete pillar 10.

In the partial reinforcement part adhesion step (S220), the upper and lower parts of the concrete pillar 10 wrapped with the lapping part 110 are partially reinforced to adhere to the upper and lower outer surfaces adjacent to the upper and lower structures 20 and 30 at set intervals, respectively. This is a step of bringing the parts 122 and 124 into close contact.

On the other hand, when the concrete pillar 10 has a square shape, the upper and lower partial reinforcing parts 122 and 124 are formed in a bent shape so as to be added to each upper and lower corner.

In the entire reinforcement part adhesion step (S230), the concrete column has a height corresponding to the height of the concrete column 10 between the upper and lower partial reinforcement parts 122 and 124 and the upper and lower part reinforcement parts 122 and 124. This step is to bring the entire reinforcing part 130 into close contact with the outer surface of the pillar 10.

In addition, when the entire reinforcing part adhesion step (S230) is performed, the entire reinforcing part 130 has a wide area in contact with the rear surface of the concrete column 10, and the front surface in contact with the restraining force generating part 140 has a small area. ) is provided in a shape, etc.

In the partial reinforcing part and the entire reinforcing part restraining step (S240), the upper and lower partial reinforcing parts 122, 124) and the upper and lower ends of the entire reinforcement part 130 are wound through the restraining force generating part 140 to restrain the upper and lower partial reinforcement parts 122 and 124 and the entire reinforcement part 130.

That is, in the partial reinforcing part and all reinforcing part restraining step (S240), the upper and lower restraining force generating parts 142 and 144 are directly attached to the upper and lower partial reinforcing parts 122 and 124 and the entire reinforcing part 130 during the step. A cable that generates a restraining force by winding, or a bolt that generates a restraining force by pulling while being connected to each of the large surfaces of the upper and lower partial reinforcing parts 122 and 124 and the entire reinforcing part 130 is applied to this.

Here, in the partial reinforcing part and the entire reinforcing part restraining step (S240), for example, when the upper and lower restraining force generating parts 142 and 144 are cables, the first clip part 1222 is formed with a 90° angle groove part 1222b. The upper and lower portions of the reinforcing parts 122 and 124 are wrapped around the corners, and the cable is inserted into the circular arc groove part 1222a while the second clip part 1222-1 is provided on the front surface of the entire reinforcing part 130. Tighten the binding device 146 to the adjacent end of the cable to bind the upper and lower partial reinforcing parts 122 and 124 and the entire reinforcing part 130.

In addition, in the partial reinforcing part and the entire reinforcing part restraining step (S240), in another embodiment, when the upper and lower restraining force generating parts 142 and 144 are bolts, the third clip part 1222' is a 90 ° angle groove part. (1222b') to surround the corner of the upper and lower partial reinforcing parts 122 and 124, and to remove the fourth clip part 1222-1' provided on the entire front surface of the reinforcing part 130. 4 After passing both ends of the bolt through the clip part 1222-1' through the through hole 1222a' of the third clip part 1222', tighten the nut N to partially reinforce the upper and lower parts 122 , 124) and the entire reinforcement part 130 are constrained.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. you will be able to understand Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting.

100: composite reinforcement device for concrete columns
110: wrapping unit
120: some reinforcement
130: overall reinforcement
140: binding force generating unit

Claims (2)

A device for reinforcing a concrete column having a circular or polygonal cross-sectional shape installed between upper and lower structures in a complex manner,
a lapping unit for wrapping and wrapping the entire surface of the pillar in a state where the adhesive is applied to the surface of the pillar;
Some reinforcing parts provided to be in close contact with the outer surfaces of the upper and lower structures and adjacent ends of the pillars wrapped with the lapping part at predetermined intervals;
a total reinforcing part having a height corresponding to the height of the pillar between the partial reinforcing part and the partial reinforcing part and provided to be in close contact with the outer surface of the pillar; and
A restraining force generating unit that binds the partial reinforcement part and the entire reinforcement part by winding upper and lower ends of the partial reinforcement part and the entire reinforcement part;
The restraining force generating part is connected to each of the large surfaces of the partial reinforcing part or the cable for pressing the first and second clips provided on the surface of the partial reinforcing part and the entire reinforcing part or the partial reinforcing part and the entire reinforcing part, or each of the large surfaces of the partial reinforcing part. It is a bolt that generates a restraining force by pulling each of the opposite surfaces of the third clip portion provided in the portion in a connected state,
When the cross section of the concrete column is a square, a portion of the reinforcement part is located at each corner, and the entire reinforcement part is located in the center between the corners.
A first step of applying an adhesive to the surface of the concrete pillar installed between the upper and lower structures;
A second step of wrapping the entire surface of the pillar to which the adhesive is applied by wrapping it with a lapping part;
A third step of bringing some reinforcing parts into close contact with the outer surfaces of the upper and lower structures, respectively, of the pillars wrapped with the lapping part at predetermined intervals;
A fourth step of bringing the entire reinforcing part into close contact with the outer surface of the pillar while having a height corresponding to the height of the pillar between the partial reinforcing part and the partial reinforcing part; and
A fifth step of binding the partial reinforcing part and the entire reinforcing part by winding the upper and lower ends of the partial reinforcing part and the entire reinforcing part with a restraining force generating part; and
The fifth step presses the first and second clips provided on the surface of the partial reinforcement part and the entire reinforcement part or the partial reinforcement part and the entire reinforcement part through a cable to generate a restraining force, or through a computerized bolt. Generating a restraining force by pulling in a state in which each of the large surfaces of the partial reinforcing portion is connected or each of the opposite surfaces of the third clip portion provided in the partial reinforcing portion is connected to each other,
When the cross section of the concrete column is a square, a part of the reinforcement part is located at each corner, and the entire reinforcement part is located between the corners.

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