KR102620931B1 - Shear reinforcing method of rebar concrete column structure using corner reinforcement aluminium angle and corner bead and structure of the same - Google Patents

Abstract

The present invention improves seismic performance by inducing distribution of shear force and ductile behavior of the column by inserting an engineering plastic reinforcement panel attached with an A method of shear reinforcement of reinforced concrete column structures using corner reinforcement aluminum angles and corner beads to fix the corners of engineering plastic reinforcement panels so that even unskilled people can ensure the reliability of reinforcement work as each subsidiary material is constructed in a prefabricated manner. and its structure is provided. A method for seismically reinforcing a reinforced concrete column structure according to an appropriate embodiment of the present invention includes (a) a surface treatment step of removing foreign substances attached to the surface of the reinforced concrete column structure; (b) attaching corner beads to each of the four corners of the reinforced concrete column structure with adhesive to increase the corner restraint effect of the engineering plastic reinforcement panel; (c) inserting an engineering plastic reinforcement panel with a stress reinforcement brace attached on the inside into a corner bead and placing it in close contact with each of the four sides of the reinforced concrete column structure to distribute shear force and increase shear strength; (d) fixing the corner reinforcement aluminum angle in close contact with the corner bead using adhesive; (e) fixing the corner reinforced aluminum angle and the engineering plastic reinforcement panel to the reinforced concrete column structure using anchor bolts.

Description

Shear reinforcing method of rebar concrete column structure using corner reinforcement aluminum angle and corner bead and structure of shear reinforcing method of rebar concrete column structure using corner reinforcement aluminum angle and corner bead to fix the corner of engineering plastic reinforcement panel the same}

The present invention relates to a method of shear reinforcement of a reinforced concrete column structure and its structure. In particular, the distribution of shear force and the ductility of the column are achieved by inserting an engineering plastic reinforcement panel attached with an Seismic performance can be improved by inducing movement, fatigue of the contractor is reduced, and each subsidiary material is prefabricated to ensure the reliability of reinforcement work even for unskilled people. The corners are used to secure the corners of engineering plastic reinforcement panels. This relates to the shear reinforcement method and structure of reinforced concrete column structures using reinforced aluminum angles and corner beads.

Methods for improving the seismic performance of conventional piloti building columns are largely divided into two methods: conventional methods and methods using other steel frames and damping devices. Existing conventional methods include cross-sectional expansion, aramid and carbon fiber reinforcement, and steel plate reinforcement. This conventional construction method has the problem that the construction method is wet construction (reinforced concrete pouring, etc.), which requires more steps and complicates the construction method.

For example, the steel plate bonding method is difficult to construct, raises problems with corrosion and fire resistance, uses anchor bolts, etc., so it does not look good when exposed, and requires continuous maintenance and increases the load burden on the foundation due to the large cross-sectional area of the pillar. There is a downside. Since the carbon fiber reinforcement method is a method of attaching wallpaper-shaped carbon fiber sheets to the surface of a column in multiple layers, the worker's work stage and fatigue are increased, and the reinforcement effect varies depending on the worker's skill level when attaching the fiber sheets. , if sufficient attachment is not achieved, there is a disadvantage that foreign substances and moisture are added to the attachment surface, resulting in no reinforcement effect at all. Therefore, there is a need for a method in which shear reinforcement can be constructed simply and easily by simply attaching and assembling without requiring any worker's skill level.

In the case of other security methods using steel reinforcement and damping devices, the on-site work process and period were reduced due to factory production, but there were still difficulties in installing steel reinforcement and damping devices on site, and space utilization was poor as well as aesthetics. It's not good either. There is also a problem that construction costs are higher than conventional construction methods.

The technology behind the present invention is Korean Patent Registration No. 10-2134400, and a device and method for reinforcing pillars of piloti buildings is known. This is a simple reinforcement device and reinforcement method that wraps around the perimeter of an existing pillar using a coupler with threads. However, this background technology has the disadvantage of reducing convenience for workers during construction because the guidelines for each member are not clear.

Another technology behind the present invention is Korean Patent Publication No. 10-2020-0008685, which proposes a 'concrete column earthquake-resistant reinforcement method'. This involves installing a corner support of the length of the reinforcement section at the corner of the concrete column, installing a steel material in the through hole of the corner support, and checking the target fastening torque value after first fastening the fastening member. Although the above background technology prevents external forces from being concentrated on the corners of a concrete column, it cannot prevent seismic destruction or damage occurring in the center of the column. In addition, when fastening members, a uniform fastening axial force cannot be obtained, so professional construction technology is required.

Korean Patent Registration No. 10-2134400 Korean Patent Publication No. 10-2020-0008685

The present invention improves seismic performance by inducing distribution of shear force and ductile behavior of the column by inserting an engineering plastic reinforcement panel attached with an A method of shear reinforcement of reinforced concrete column structures using corner reinforcement aluminum angles and corner beads to fix the corners of engineering plastic reinforcement panels so that even unskilled people can ensure the reliability of reinforcement work as each subsidiary material is constructed in a prefabricated manner. The purpose is to provide the structure and structure.

A method for seismically reinforcing a reinforced concrete column structure according to an appropriate embodiment of the present invention includes (a) a surface treatment step of removing foreign substances attached to the surface of the reinforced concrete column structure; (b) attaching corner beads to each of the four corners of the reinforced concrete column structure with adhesive to increase the corner restraint effect of the engineering plastic reinforcement panel; (c) inserting an engineering plastic reinforcement panel with a stress reinforcement brace attached on the inside into a corner bead and placing it in close contact with each of the four sides of the reinforced concrete column structure to distribute shear force and increase shear strength; (d) fixing the corner reinforcement aluminum angle in close contact with the corner bead using adhesive; (e) fixing the corner reinforced aluminum angle and the engineering plastic reinforcement panel to the reinforced concrete column structure using anchor bolts.

In addition, in order to increase the internal strength of the reinforced concrete column structure by smoothing the stress flow of the upper slab of the reinforced concrete column structure when an earthquake occurs, after step (e), the top of the reinforced concrete column structure is used as a head reinforcement material. It is characterized in that a step of connecting to the slab is further included.

In addition, the stress reinforcement brace is made of steel plates of a certain thickness and is characterized in that it is shaped like an X.

In addition, the stress reinforcing brace is characterized in that a plurality of stress reinforcement braces are connected to the reinforced concrete column structure along the height direction of the reinforced concrete column structure and attached to the reinforced concrete column structure.

In addition, after installing the anchor bolts, the step of injecting epoxy resin between the engineering plastic reinforcement panel around the reinforced concrete column structure to integrate it is further included.

On the other hand, the structure for earthquake-proof reinforcement of a reinforced concrete column structure according to the present invention is to remove foreign substances attached to the surface of the reinforced concrete column structure and then apply the corner restraint effect of the engineering plastic reinforcement panel to the four corners of the reinforced concrete column structure. A corner bead attached with adhesive to increase the size; In order to distribute shear force and increase the shear strength of the reinforced concrete column structure, an engineering plastic reinforcement panel is inserted into the corner bead and placed in close contact with each of the four sides of the reinforced concrete column structure, and has a stress reinforcing brace attached to the inside; A corner reinforcement aluminum angle is fixedly attached to the corner bead using adhesive; It is characterized by including an anchor bolt that secures the corner reinforced aluminum angle and the engineering plastic reinforcement panel to the reinforced concrete column structure.

Here, in order to increase the internal strength of the reinforced concrete column structure by smoothing the stress flow of the upper slab of the reinforced concrete column structure when an earthquake occurs, a head reinforcement connected to the slab is installed at the top of the reinforced concrete column structure. Do it as

In addition, the stress reinforcement brace is made of steel plates of a certain thickness and is characterized in that it is shaped like an X.

In addition, the stress reinforcing brace is characterized in that a plurality of stress reinforcement braces are connected to the reinforced concrete column structure along the height direction of the reinforced concrete column structure and attached to the reinforced concrete column structure.

According to the shear reinforcement method and structure of a reinforced concrete column structure using corner reinforcement aluminum angles and corner beads to fix the corners of the engineering plastic reinforcement panel of the present invention, an engineering plastic reinforcement panel with an X-shaped brace attached is attached to the corner bead. After inserting and fixing it with a corner reinforced aluminum angle, seismic performance can be improved by distributing shear force and inducing ductile behavior of the column.

In addition, when additional head reinforcement is installed, adhesion to the slab can be secured and the internal strength of the reinforced concrete column structure can be improved by smoothing the flow of stress.

In addition, wet work that requires impregnating existing FRP with special resin is eliminated, thereby reducing worker fatigue, and since each subsidiary material is constructed in a prefabricated manner, even unskilled workers can ensure the reliability of reinforcement work.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention along with the detailed description of the invention. Therefore, the present invention is limited to the matters described in the attached drawings. It should not be interpreted as limited.
Figure 1 is a perspective view of earthquake-resistant reinforcement in a reinforced concrete column structure according to an embodiment of the present invention.
Figure 2 is a plan cross-sectional view of Figure 1.
Figure 3 is a state diagram in which earthquake-resistant reinforcement materials are separated from the reinforced concrete column structure in Figure 1.
Figure 4 is a front view showing the inner surface state of the engineering plastic reinforcement panel applied in Figure 1.
Figure 5 is a diagram showing a state in which head reinforcement is installed in the reinforced concrete column structure of Figure 1.
6A to 6D are flowcharts of shear reinforcement construction of a reinforced concrete column structure according to an embodiment of the present invention.

Below, the present invention will be described in detail with reference to embodiments shown in the attached drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

First, looking at the cross section of the reinforced concrete column structure constructed by this method, the corner beads 12 and the reinforced concrete column structure 100 are respectively attached to the corners of the reinforced concrete column structure 100, as shown in FIGS. 1 to 3. In order to distribute shear force and increase shear strength, it is inserted into the corner bead (12) and placed in close contact with the surface of the reinforced concrete column structure (100), and a stress reinforcing brace (141) is attached to smooth the stress flow on the inside. The plastic reinforcement panel (14), the corner reinforcement aluminum angle (16) fixed to the corner bead (12) using adhesive, the corner reinforcement aluminum angle (16), and the engineering plastic reinforcement panel (14) are attached to the reinforced concrete column structure ( Includes an anchor bolt (18) for securing to 100). Additionally, in order to increase the internal strength of the reinforced concrete column structure 100 by smoothing the stress flow of the upper slab 110 of the reinforced concrete column structure 100, the reinforced concrete column structure 100 is installed as shown in FIGS. 5 and 6D. A head reinforcement member 20 connected to the slab 110 may be further installed at the top of the .

In the reinforced concrete column structure 100 having this structure, the reinforcement of the corners is improved by the dual structure of the corner bead 12 and the corner reinforcement aluminum angle 16. In addition, the corner bead (12), the corner reinforcement aluminum angle (16), and the engineering plastic reinforcement panel (14) are firmly installed in the reinforced concrete column structure (100) through the anchor bolt (18). Epoxy resin is injected around the circumference to provide integrated shear reinforcement. In addition, since the reinforced concrete column structure 100 has a structure in which an engineering plastic reinforcement panel 14 surrounds the periphery, cross-sectional rigidity is improved. Moreover, when a seismic load acts on the reinforced concrete column structure 100, shear force distribution and shear reinforcement occur through the stress reinforcement brace 141 of FIG. 4, thereby inducing ductile behavior of the reinforced concrete column structure 100 and improving earthquake resistance performance. You can. In addition, when additionally installing the head reinforcement 20 as shown in FIGS. 5 and 6D, adhesion to the slab 110 can be secured and the internal strength of the reinforced concrete column structure 100 can be improved by smoothing the flow of stress. there is.

First, a method for seismically reinforcing the reinforced concrete column structure 100 will be sequentially described.

First, there is a surface treatment step to remove foreign substances attached to the surface of the reinforced concrete column structure 100.

Next, as shown in Figure 6a, the step of attaching corner beads 12 to each of the four corners of the reinforced concrete column structure 100 with adhesive to increase the corner restraint effect of the engineering plastic reinforcement panel 14, which will be described later. have The adhesive can be, for example, resin or epoxy resin.

Next, as shown in FIG. 6b, in order to distribute the shear force and increase the shear strength of the reinforced concrete column structure 100 when an earthquake occurs, an engineering plastic reinforcement panel 14 with a stress reinforcement brace 141 attached on the inside is used as a corner bead ( 12) and is placed in close contact with each of the four sides of the reinforced concrete column structure 100.

Here, the stress reinforcing brace 141 is made of a steel plate of a certain thickness and is shaped like an At this time, a plurality of stress reinforcing braces 141 may be attached to the reinforced concrete column structure 100 by connecting them along the height direction of the reinforced concrete column structure 100.

Next, as shown in FIG. 6C, there is a step of fixing the corner reinforcement aluminum angle 16 to the corner bead 12 using adhesive. The corner reinforcement aluminum angle 16 allows the previously constructed reinforced concrete column structure 100 to be joined to the engineering plastic reinforcement panel 14 to ensure shear performance through high-strength epoxy resin. In addition, the corner reinforcement aluminum angle 16 restrains the corner of the engineering plastic reinforcement panel 14 and integrates it with the reinforced concrete column structure 100 to induce ductile behavior.

Next, as shown in FIG. 6C, there is a step of fixing the corner reinforcement aluminum angle 16 and the engineering plastic reinforcement panel 14 to the reinforced concrete column structure 100 using anchor bolts 18. The anchor bolt 18 is installed in a hole drilled to a certain depth of the reinforced concrete column structure 100 by inserting the corner reinforcement aluminum angle 16 and the corner bead 12. The anchor bolt 18 may be a well-known set anchor bolt, screw anchor bolt, chemical anchor, etc.

After installing the anchor bolts (18), epoxy resin is injected between the engineering plastic reinforcement panels (14) around the reinforced concrete column structure (100) to attach the engineering plastic reinforcement panels (14) to the reinforced concrete column structures (100). It can be integrated into .

Meanwhile, in order to increase the internal strength of the reinforced concrete column structure 100 by smoothing the stress flow of the upper slab 110 of the reinforced concrete column structure 100 when an earthquake occurs, after installation of the anchor bolt 18, Figure 6d There may be a further step of connecting the top of the reinforced concrete column structure 100 to the slab 110 using the head reinforcement 20 as shown. The head reinforcement 20 can connect the top of the slab 110 and the concrete column structure 100 using the same anchor bolt 18.

In this way, this reinforcement method reduces worker fatigue by eliminating wet work that requires impregnating existing FRP with special resin, and since each subsidiary material is constructed in a prefabricated manner, even unskilled workers can ensure the reliability of reinforcement work.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various variations and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such variations and modifications, but is limited by the claims appended below.

100: Reinforced concrete column structure
12: corner bead
14: Engineering plastic reinforcement panel
141: Stress reinforcement brace
16: Corner reinforced aluminum angle
18: Anchor bolt

Claims (9)

In a method for earthquake-resistant reinforcement of a reinforced concrete column structure (100),
(a) a surface treatment step of removing foreign substances attached to the surface of the reinforced concrete column structure 100;
(b) attaching corner beads 12 to four corners of the reinforced concrete column structure 100 with adhesive to increase the corner restraint effect of the engineering plastic reinforcement panel 14;
(c) In order to distribute shear force and increase shear strength, an engineering plastic reinforcement panel (14) with a stress reinforcement brace (141) attached on the inside is inserted into the corner bead (12) and placed on all four sides of the reinforced concrete column structure (100). Arranging them in close contact with each other;
(d) fixing the corner reinforcement aluminum angle (16) in close contact with the corner bead (12) using adhesive;
(e) fixing the corner reinforcement aluminum angle 16 and the engineering plastic reinforcement panel 14 to the reinforced concrete column structure 100 using anchor bolts 18,
In order to increase the internal strength of the reinforced concrete column structure 100 by smoothing the stress flow of the upper slab 110 of the reinforced concrete column structure 100 when an earthquake occurs, after step (e), the reinforced concrete column structure ( Connecting the top of 100) with the slab 110 using head reinforcement 20; reinforcing bars using corner reinforcement aluminum angles and corner beads to fix the corners of the engineering plastic reinforcement panel, comprising: Shear reinforcement method for concrete column structures. delete According to clause 1,
The stress reinforcement brace (141) is a shear reinforcement method of a reinforced concrete column structure using corner reinforcement aluminum angles and corner beads to fix the corners of the engineering plastic reinforcement panel, which is made of steel plates of a certain thickness and has an . According to clause 3,
The stress reinforcement brace 141 is a corner reinforcement for fixing the corners of the engineering plastic reinforcement panel, which is characterized in that a plurality of stress reinforcement braces are connected along the height direction of the reinforced concrete column structure 100 and attached to the reinforced concrete column structure 100. Shear reinforcement method of reinforced concrete column structures using aluminum angles and corner beads. According to clause 1,
After installing the anchor bolt (18), injecting epoxy resin between the engineering plastic reinforcement panel (14) around the reinforced concrete column structure (100) to integrate it. A stress reinforcement brace further comprising: Shear reinforcement method of reinforced concrete column structures using attached engineering plastic reinforcement panels. In the structure for earthquake-resistant reinforcement of the reinforced concrete column structure 100,
After removing foreign substances attached to the surface of the reinforced concrete column structure 100, corner beads are attached with adhesive to increase the corner restraint effect of the engineering plastic reinforcement panel 14 at the four corners of the reinforced concrete column structure 100. (12) and;
In order to distribute the shear force and increase the shear strength of the reinforced concrete column structure 100, it is inserted into the corner bead 12 and placed in close contact with each of the four sides of the reinforced concrete column structure 100, and a stress reinforcing brace 141 is installed on the inside. An attached engineering plastic reinforcement panel (14);
A corner reinforcement aluminum angle (16) is fixedly attached to the corner bead (12) using an adhesive;
It includes an anchor bolt (18) for fixing the corner reinforcement aluminum angle (16) and the engineering plastic reinforcement panel (14) to the reinforced concrete column structure (100),
In order to increase the internal strength of the reinforced concrete column structure 100 by smoothing the stress flow of the upper slab 110 of the reinforced concrete column structure 100 when an earthquake occurs, a slab ( Shear reinforcement structure of a reinforced concrete column structure using corner reinforcement aluminum angles and corner beads to fix the corners of the engineering plastic reinforcement panel, characterized in that the head reinforcement (20) connected to (110) is installed. delete According to clause 6,
The stress reinforcement brace (141) is a shear reinforcement structure of a reinforced concrete column structure using corner reinforcement aluminum angles and corner beads to fix the corners of the engineering plastic reinforcement panel, which is made of steel plates of a certain thickness and has an . According to clause 8,
The stress reinforcement brace 141 is a corner reinforcement for fixing the corners of the engineering plastic reinforcement panel, which is characterized in that a plurality of stress reinforcement braces are connected along the height direction of the reinforced concrete column structure 100 and attached to the reinforced concrete column structure 100. Shear reinforcement structure of reinforced concrete column structures using aluminum angles and corner beads.

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