KR102064733B1 - Construction Method for Reforcing Device of Concrete Structure - Google Patents

Abstract

Provide the construction method of concrete structure reinforcement device.
The present invention comprises the steps of installing a latching interval material to enable precise construction in the rectangular column or circular column reinforcement position; The reinforcing device is a step of forming a rectangular column portion of the shape of any one of the ㅡ type, a type, c type, or in the case of a circular column portion of the semi-circular shape to combine the reinforcement and the fixing material so that the cross-section is not closed; Moving the reinforcing device, in which the reinforcing material and the fixing material are primarily coupled, to the position of the locking spacing device whose upper end is connected to another reinforcing device first constructed in a row at the top of the rectangular column or the circular column; Inserting a reinforcing material into the reinforcing device coupled to the first secondary connection; Fastening the reinforcement device to apply a restraining force to a rectangular pillar portion or a circular pillar portion of a concrete structure; It includes, and repeatedly used to remove the locking gap installed after the fastening of the reinforcement device is completed, the step of installing the locking gap, the locking gap is the fixing of the upper reinforcement device of the upper and lower reinforcement adjacent to each other As the upper end is connected to the ash and the lower end is connected to the fixing member of the lower reinforcement device is installed, the installation heat of the latching spacing material is installed one by one less than the reinforcement heat of the reinforcing device reinforcement concrete construction method To provide.

Description

Construction Method for Reforcing Device of Concrete Structure

The present invention relates to a construction method using a reinforcement device for reinforcing the seismic performance for concrete structures.

In view of the recent surge in urban demand due to the rapid development of urbanization, the improvement of the level of demand for improving the quality and utilization of aging inventory, the need for environmentally friendly buildings, and the prevention of land development due to indiscriminate new buildings. 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 buildings and recently constructed buildings are different from each other according to the construction time. The design of the old buildings, unlike the new buildings, does not reflect the seismic design at all. There were many risks of human injury.

In addition, with increasing environmental concerns and economic efficiency, governments will reduce environmental waste and restructure existing apartments as much as possible. 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, so it is free to choose from new buildings and can be constructed as a modern building. Weakness was a problem.

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

Republic of Korea Utility Model Registration No. 0230888 in the pillar of the reinforced concrete structure, the outer surface of the column is arranged with a network EMP (Expanded Metal Plate), the EMP (Expanded Metal Plate) to be installed on the pillar The mortar layer is cast on the outer circumferential surface of the column and the expanded metal plate (EMP), and the pillar having the expanded metal plate (EMP) reinforcement structure configured as described above has an iron plate network as an anchor to the column. There is disclosed a method of fixing and reinforcing the mortar by placing a die on its outer surface.

However, this method has to form a mortar layer on the outer surface of the column and to cure it, the air is prolonged and the strength of the column to be reinforced according to the working conditions of the site is different, there is a problem that the construction cost increases.

In addition, the construction speed is too slow, the construction labor costs are high, there was a problem that the economic efficiency and quality is not secured.

Therefore, the present invention is to solve the problems as described above, the object is to pre-tension by placing a steel material connected to both ends at the edge of the concrete structure, such as a column or beam supporting the load in the plane of the concrete structure By applying to the concrete structure to prevent the shear deformation of the concrete structure by the external force, such as earthquake, to provide a construction method of the concrete structure reinforcement device that can ensure the structural safety.

Another object of the present invention is to provide a method for constructing a concrete structure reinforcement device for easily constructing a reinforcement device while maintaining a constant distance at the same time from the top and bottom of the column, and to improve the construction speed and construction quality.

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.

In a preferred embodiment of the present invention as a specific means for achieving the above object, in the method for constructing a reinforcement device consisting of a fixing material and a reinforcing material to improve the seismic performance of the concrete structure consisting of a rectangular column portion or a circular column portion, Installing a locking spacer to enable precise construction in a rectangular column portion or a circular column portion reinforcement position; Wherein the reinforcing device is a rectangular pillar portion in the shape of any one of the --type, a-type, c-type, or in the case of a circular pillar portion of the semi-circular to the first step of combining the reinforcement and the fixing member so that the cross-section is not closed; The upper end of the locking spacer is first connected to the reinforcement device first constructed in a row at the top of the rectangular column or the circular pillar, and then the other reinforcing device in which the reinforcement and the fixing material are primarily coupled to the lower end of the locking spacer. Moving up to a position of the locking spacer; Inserting a reinforcing material into the reinforcing device coupled to the first secondary connection; Fastening the reinforcement device to apply a restraining force to a rectangular pillar portion or a circular pillar portion of a concrete structure; It includes, and repeatedly used to remove the locking gap installed after the fastening of the reinforcement device is completed, the step of installing the locking gap, the locking gap is the fixing of the upper reinforcement device of the upper and lower reinforcement adjacent to each other As the upper end is connected to the ash and the lower end is connected to the fixing member of the lower reinforcing device is installed, the installation heat of the latching spacing material is installed one by one less than the reinforcement heat of the reinforcing device reinforcement concrete construction method To provide.

In addition, another preferred embodiment of the present invention, in the method for constructing a reinforcement device consisting of a fixing material and a reinforcing material to improve the seismic performance of the concrete structure consisting of a rectangular column portion or a circular column portion, the rectangular column portion or circular column portion Installing a supporting spacer and a locking spacer to enable precise construction at the reinforcement position; Wherein the reinforcing device is a rectangular pillar portion in the shape of any one of the --type, a-type, c-type, or in the case of a circular pillar portion of the semi-circular to the first step of combining the reinforcement and the fixing member so that the cross-section is not closed; The reinforcing device, the reinforcing material and the fixing material are primarily coupled to the reinforcing device installed in the first column in the first column in the top of the rectangular column or the circular column, and moved to the position of the support spacing member installed on the bottom surface of the rectangular column or circular column. Connecting the upper end of the locking spacing member, and then moving the reinforcing member and the fixing member to the position of the locking spacing member so as to hook the other reinforcing device coupled to the lower end of the locking spacing member; Inserting a reinforcing material into the reinforcing device coupled to the first secondary connection; Fastening the reinforcement device to apply a restraining force to a rectangular pillar portion or a circular pillar portion of a concrete structure; It includes, and repeatedly used to separate the support spacing member and the locking spacing installed after the fastening of the reinforcement device is completed, the step of installing the support spacing and the locking spacing, the support spacing is the bottom of the concrete structure pillar The support interval is primarily arranged to contact the bottom surface, and arranged to contact the lower surface of the fixing member of the lowermost reinforcing device, and then a plurality of supporting spacers are disposed between the fixing members of the upper and lower reinforcing devices adjacent to each other, thereby supporting the supporting interval. The installation hot water of the ash is repeatedly installed the same number of times as the reinforcement heat of the reinforcement device, and the locking gap is connected to the upper end of the upper reinforcement device by the fixing member of the upper and lower reinforcement devices adjacent to each other, and the lower end is fixed to the fixing material of the lower reinforcement device. The installation heat of the locking spacing is repeatedly installed one row less than the reinforcement heat of the reinforcement device by being connected by the locking connection. Provides a concrete reinforcing unit construction method according to claim.

At this time, after inserting the reinforcing material and the second connection step, it comprises the step of checking the horizontal level of the fastened reinforcement device using a level gauge.

At this time, the support spacing member or the locking spacing material is built in the attachment device so as to contact the fixing material or the reinforcing material to be attached so as not to be separated by the fastening vibration when the reinforcing material is fastened.

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

Construction of concrete structure reinforcement device that can prevent shear deformation of concrete structure and ensure structural safety by simple and quick construction while keeping the distance between upper and lower reinforcement devices adjacent to each other by hanging and supporting spaces Since construction speed is high, productivity can be increased and labor cost can be reduced by reducing labor cost.

It can reduce the construction cost because it can be reused repeatedly by removing the supporting gap and the hanging gap.

1a to 1d is a detailed view showing a state in which a supporting spacer or a locking spacer is installed in the reinforcement position of the upper and lower portions of the rectangular pillar portion or the circular pillar portion of the concrete structure.
Figure 2a is a detailed view showing a state in which the reinforcing material and the fixing material combined to have the shape of the --type, a-type, c-type, such as the square column.
Figure 2b is a detailed view showing a state in which the reinforcement and the fixing material combined to be a semi-circular of the circular column.
3A to 3D are detailed views illustrating a state in which a primary coupled reinforcement and a fixing material are installed at a support spacing member or a locking spacing position.
4a to 4d is a secondary connection by inserting a reinforcement in order to fasten the first coupled reinforcement and the fixing member, and fastening so as to apply a restraining force to the concrete structure pillar after checking the horizontal state of the reinforcement device using a horizontal gauge It is a detailed view which shows the state to make.
5A to 5D are detailed views showing a state in which a reinforcement device is installed by repeatedly using a supporting spacer or a latching spacer.
6 is a process flowchart of the reinforcing device construction method according to a preferred embodiment of the present invention.
7a to 7b is a process diagram showing the construction of the reinforcement device using the reinforcement device construction method according to a preferred embodiment 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.

Reinforcement device construction method according to a preferred embodiment of the present invention, as shown in Figures 1a to 7a, the step of installing a supporting spacer or a locking spacer in the pillar portion (S1), the first coupling step of the reinforcement and the fixing material ( S2), the step of moving the first combined reinforcement device to the supporting spacer or the locking spacer position (S3), inserting the reinforcement in the primary coupled reinforcement device for the second connection (S4), fastened reinforcement device Checking the level of the step (S5), the step of fastening so as to apply a restraining force (S6), and after completion of the completion of the supporting spacer or the locking spacer removal step (S7).

Installing the supporting spacer 160 or the locking spacer 170 in the concrete structure pillar portion (C), as shown in Figure 1a to 1d, so that the reinforcement device is constructed in the correct construction position According to the reinforcement position of the concrete structure pillar (C), the lower reinforcement is an example of installing the support interval 160 and the upper reinforcement is installed the locking interval 170.

The shape of the base spacer 160 is shown and described only in the form of ㅡ type, a-a, but is not limited thereto, and may be manufactured and installed in other shapes.

The locking spacing member 170 is used at the time of reinforcing the upper portion of the pillar (C) of the concrete structure and can be installed after the reinforcing device is pre-installed in the first column at the top of the column to install the locking spacing member 170.

In addition, although the installation position of the locking spacing member 170 is illustrated and described as being installed in the fixing member, the installation position is not limited thereto and may be installed in the reinforcing member.

The bent portion that is bent at approximately right angles to the top and the bottom of the engaging gap 170, the end of the fixing member so as to be smoothly connected to each fixing member of the upper, lower side reinforcement without contacting the outer surface of the pillar portion It is preferable to have a length of a size relatively smaller than the width size.

The first coupling step (S2), as shown in Figures 2a to 2b, in the case of a square pillar coupled to the reinforcement 120 and the fixing member 110 to the shape of ㅡ, a-type, c-type, etc., of the circular pillar The circular reinforcing material 130 and the circular fixing material 140 and the auxiliary fixing material 150 to be semi-circular to combine the primary bonding so that the cross-section is not closed.

The step (S3) of moving the primary coupled reinforcement to the position of the support spacer 160 or the locking interval 170 is as shown in Figures 3a to 3d, the primary coupled reinforcement to the concrete structure pillar It is to move to the supporting spacer 160 or the locking spacer 170 installed in the portion (C).

Inserting the reinforcing material 120 to the primary coupled reinforcing device 120 to connect the secondary (S4), as shown in Figures 4a to 4d, fastening the primary coupled reinforcing device to the concrete structure pillar (C) In order to perform the secondary connection work using the reinforcement 120 and the circular reinforcement 130 to.

Checking the level of the fastening reinforcement device (S5) is as shown in Figure 4a, by placing the level gauge 180 on the fixing member 110, the horizontal state of the secondary coupled reinforcement device and horizontal If this is not the case, install a reinforcement device so that it is level.

Fastening so as to apply a restraining force to the secondary coupled reinforcement (S6), as shown in Figure 4a to 4d, the reinforcement of the secondary coupled reinforcement device 120, the circular reinforcement 140 to the tool Use the fastening work to apply sufficient restraint force to the pillar (C) of the concrete structure.

After completion of the reinforcement device fastening, the receiving spacer 160 or the locking spacer 170 is removed (S7), as shown in FIGS. 5A to 5D, after the first row reinforcement is completed in the concrete structure pillar (C). It is to be used repeatedly by removing the support spacing 160 or the locking spacing 170 installed for thermal reinforcement.

Here, the installation of the support spacing 160 is repeatedly installed the same number of times as the reinforcing device reinforcement hot water, and the installation of the locking spacing 170 to be repeatedly installed less than a reinforcement device reinforcing water.

Finally, as shown in Figure 6, by repeating the construction method to finish the construction of the reinforcement device.

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.

In addition, the present invention in the reinforcement device for improving the seismic performance of the concrete structure, it is installed in contact with the fixing member or reinforcement to enable a quick and accurate construction at the reinforcement position of the rectangular column or circular column, so as to enable repeated separation use It is to construct a reinforcement device to improve the seismic performance, characterized in that the use including the produced spacer spacing or jamming spacer.

In the present invention, the earthquake-resistant member or the locking spacer is seismic performance characterized in that the attachment device is built in the support spacer or the locking spacer in contact with the fixing member or the reinforcing material so as not to be separated by the fastening vibration when tightening the reinforcing member It is a method of constructing a reinforcement device for improvement. Here, the built-in attachment device means that the fixing material or the reinforcement material is a steel material, so that the attachment device having a magnet function is built in the steel material so as not to be detached and detached well.

110: fixing material
120: reinforcement
130: circular fixing material
140: circular reinforcement
150: auxiliary fixing material
160: support spacing
170: hanging gap
180: level
C: pillar of concrete structure

Claims (5)

In the method of constructing a reinforcement device consisting of a fixing material and a reinforcing material in order to improve the seismic performance of the concrete structure consisting of a rectangular column or a circular column,
Installing a locking spacer to enable precise construction in the rectangular pillar portion or the circular pillar portion reinforcement position;
Wherein the reinforcing device is to form a rectangular pillar portion of any of the shape of ㅡ, a type, c type, or in the case of a circular pillar portion of the semi-circular to the first step of combining the reinforcement and the fixing member so that the cross-section is not closed;
The upper end of the locking spacer is first connected to the reinforcement device pre-installed in a row on the top of the rectangular column or the circular column, and then the other reinforcing device to which the reinforcing member and the fixing member are primarily coupled is connected to the lower end of the locking interval member. Moving up to a position of the locking spacer;
Inserting a reinforcing material into the reinforcing device coupled to the first secondary connection;
Fastening the reinforcement device to apply a restraining force to a rectangular pillar portion or a circular pillar portion of a concrete structure; Including,
After the fastening of the reinforcement device is completed, remove the hanging spacer installed and use repeatedly,
The step of installing the locking spacing,
The locking spacing is installed by the upper end is connected to the fixing member of the upper reinforcement device of the upper and lower reinforcement device adjacent to each other and the lower end is connected to the fixing member of the lower reinforcement device, the installation heat of the locking spacing is reinforced by the reinforcing device Concrete structure reinforcement construction method characterized in that the repeated installation less than one column. In the method of constructing a reinforcement device consisting of a fixing material and a reinforcing material in order to improve the seismic performance of the concrete structure consisting of a rectangular column or a circular column,
Installing a support spacing member and a locking spacing member to enable precise construction in the rectangular pillar portion or the circular pillar portion reinforcement position;
Wherein the reinforcing device is a rectangular pillar portion in the shape of any one of the --type, a-type, c-type, or in the case of a circular pillar portion of the semi-circular to the first step of combining the reinforcement and the fixing member so that the cross-section is not closed;
The reinforcing device with the reinforcing material and the fixing material first coupled to the reinforcing device installed in the first column in the first column on the top of the rectangular column or the circular column to move to the position of the supporting spacer installed on the bottom surface of the rectangular column or circular column. Connecting the upper end of the locking spacing member, and then moving the reinforcing member and the fixing member to the position of the locking spacing member so as to hook the other reinforcing device coupled to the lower end of the locking spacing member;
Inserting a reinforcing material into the reinforcing device coupled to the first secondary connection;
Fastening the reinforcement device to apply a restraining force to a rectangular pillar portion or a circular pillar portion of a concrete structure; Including,
After the fastening of the reinforcement device is completed, separate the support spacing member and the locking spacing installed and use repeatedly,
The step of installing the supporting spacer and the latching spacer,
The support spacing member is primarily disposed to contact the bottom bottom surface of the pillar portion of the concrete structure, disposed to contact the bottom surface of the fixing material of the lowermost reinforcing device, and then a plurality of supporting members between the fixing materials of the upper and lower reinforcing devices adjacent to each other. Since the spacer is disposed and installed, the installation heat of the support spacer is repeatedly installed the same number of times as the reinforcement heat of the reinforcement device.
The locking spacing is installed by the upper end is connected to the fixing member of the upper reinforcement device of the upper and lower reinforcement device adjacent to each other and the lower end is connected to the fixing member of the lower reinforcement device, the installation heat of the locking spacing is reinforced by the reinforcing device Concrete structure reinforcement construction method characterized in that the repeated installation less than one column. The method according to claim 1 or 2,
After the secondary connection by inserting the reinforcement,
Method of constructing a concrete structure reinforcement device comprising the step of checking the level of the fastening reinforcement device using a horizontal system. The method of claim 2,
The support spacing member is a concrete structure reinforcement construction method characterized in that the attachment device is built so as to be attached to the fixing material or reinforcement to be separated from the separation by the fastening vibration when the reinforcement is fastened. The method of claim 2,
The support spacing member or the holding spacing member is a concrete structure reinforcement construction method characterized in that the attachment device is built so that the attachment to the fixing member or reinforcement to be attached so as not to be separated by the fastening vibration when tightening the reinforcement.

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