KR102211339B1 - Seismic Reinforcement System for Reinforced Concrete Structures - Google Patents

Abstract

The present invention relates to a seismic reinforcement system for a reinforced concrete structure, which can improve site constructability due to a non-welding assembly structure, solidly support impact in case of an earthquake to promote improvement of seismic reinforcement performance, simply adjust an installation angle of a steel frame member without being affected by an inclination of an installation surface of the reinforced concrete structure, and pressurize and clamp a baseplate to the reinforced concrete structure by seesaw motion to reinforce fixing force by an anchor bolt. To this end, the seismic reinforcement system for a reinforced concrete structure includes a baseplate (10), an engraved joint part (20), a connecting member (30), a steel frame member (40), and a reinforcement layer (50).

Description

Seismic Reinforcement System for Reinforced Concrete Structures

The present invention relates to a seismic reinforcement system of a reinforced concrete structure, and more particularly, improves field workability due to a non-welded assembly structure, and aims to improve seismic reinforcement performance by firmly supporting an impact when an earthquake occurs, and in particular, a reinforced concrete structure A seismic reinforcement system for reinforced concrete structures in which the installation angle of the steel frame member is simply adjusted without being affected by the slope of the installation surface, and the base plate is pressurized and clamped to the reinforced concrete structure by a seesaw motion to reinforce the fixing force by the anchor bolts. will be.

In general, as interest in seismic reinforcement in preparation for earthquakes has increased, seismic reinforcement of building structures such as schools and public facilities is being made a lot.Mainly, seismic reinforcement of existing reinforced concrete structures is a friction damper equipped with a toggle or brace, a viscous damper, Vibration reinforcement methods such as slit steel dampers and seismic reinforcement methods such as steel frame brace, steel frame, and CF column reinforcement are actively used.

However, the performance of the various types of seismic reinforcement methods described above can be said to have been secured to some extent through various experiments and a number of achievements. They are bound to be useless.

Therefore, the importance of research and development on the seismic reinforcement device and the joint structure that can secure the integrated behavior of the existing reinforced concrete structure along with the development of the seismic reinforcement device or the construction method itself is increasing.

Accordingly, in Patent Registration No. 10-1870309 disclosed in the prior art, a base plate in the form of a flat plate attached along the surface of a reinforced concrete structure to be reinforced; Anchor bolts embedded in a reinforced concrete structure through the anchor bolt mounting holes formed in the base plate; A steel frame member mounted along the base plate; And, one end is welded to the outer surface of the base plate, the other end is temporarily fastened with bolts arranged in a direction perpendicular to the outer surface of the base plate at predetermined distances along the steel frame member to flow to the steel frame member A plurality of connection members capable of being coupled; A gap is formed between the base plate and the surface of the reinforced concrete structure even when the anchor bolt is embedded and mounted to form an empty space, and is arranged in a vertical direction with the outer surface of the base plate. The connecting member, which is temporarily fastened with a bolt that is movably coupled to the steel frame member, is fixed to the steel frame member 300 by completely tightening the bolt after welding to the base plate at the site, and the bolt is broken even when an external force acts. Until this occurs, the integrated behavior of the reinforced concrete structure and the steel frame member is secured, and the technology in which the connection member is installed so as not to deviate from the inner area covered by the steel frame member has been previously registered.

However, the prior art is a technology to efficiently respond to earthquakes by securing the integral behavior of a reinforced concrete structure and a steel frame member for seismic reinforcement, but after attaching the base plate to the surface of the reinforced concrete structure to construct the steel frame member, the steel frame member The connection member temporarily assembled with bolts on the base plate is welded to the outer surface of the base plate, and the connection member and the steel frame member are finally joined by fully tightening the temporary tightened bolts, and then concrete is poured, so workability is reduced by field welding. And air is delayed, especially when a crack occurs in the concrete when an earthquake occurs, the seismic load transmission power to the steel member decreases, and the seismic shock damping function is significantly deteriorated.

Accordingly, the present invention was conceived to solve the above problems, and improved on-site workability due to the non-welded assembly structure, and improved seismic reinforcement performance by firmly supporting the impact when an earthquake occurs, and in particular, the installation surface of reinforced concrete structures To provide a seismic reinforcement system for a reinforced concrete structure that is not affected by the inclination and the angle of installation of the steel frame is simply adjusted, and the base plate is pressurized and clamped to the reinforced concrete structure by a seesaw motion to reinforce the fixing force by the anchor bolts. There is a purpose.

In order to achieve this object, a feature of the present invention includes a base plate 10 having a fastening hole 12 formed thereon so as to be mounted on the reinforced concrete structure 1 with anchor bolts 2; A concave joint portion 20 formed on the surface of the base plate 10; A connecting member 30 fitted with the concave joint part 20 and formed with a positive joint part 32 connected to be flowable, and having a multi-plate 34 provided at the other end; A steel member 40 mounted on the multi-plate 34 and spaced apart from the base plate 10 to form a mold space 42; And a concrete reinforcement layer 50 that is poured in the space between the reinforced concrete structure 1 and the base plate 10 and the mold space 42 to fix the position of the base plate 10 and the multi-plate 34; It characterized in that it comprises.

At this time, the intaglio joint part 20 includes a'b'-shaped locking portion 21 consisting of a connecting piece 21a and a locking piece 21b by locally picking and bending the base plate 10, and a'b'-shaped Consisting of a through hole 22 penetrating from the front of the base plate 10 to the rear surface by the locking portion 21, and a locking groove 23 extending from the through hole 22 to the rear surface of the locking piece 21b, The locking piece (21b) is formed at an inclined angle closer to the base plate (10) toward the end, so that the locking groove (23) is formed as an inclined groove, and the embossed joint (32) is bent at the end of the connecting member (30). It is formed as a'a'-shaped ring plate (32a), and the'a'-shaped ring plate (32a) is characterized in that it is formed at an inclination angle opposite to the locking piece (21b).

In addition, the'a'-shaped ring plate (32a) is inserted into the through hole (22) with the connecting member (30) inclined, and when the connecting member (30) is rotated in the opposite direction, the'a'-shaped ring plate (32a) The engaging groove 23 is engaged and bound, and the connecting member 30 is restrained on the base plate 10 by the engagement by the inclination angle of the'a'-shaped ring plate 32a and the inclination angle of the locking piece 21b. It characterized in that it is provided so as to.

In addition, the multi-plate 34 is bent at a right angle to the end of the connecting member 30 to have a through hole 34a, and the steel member 40 by a connecting bolt 35 fastened through the through hole 34a. ) Is bound, and the connection bolt 35 is fastened in both directions to the connection nut 35a through the steel member 40 and the multi-plate 34, and the end of the connection bolt 35 is toward the base plate 10 It is characterized in that it is provided so as to act as an extension force that is spaced apart from the base plate 10 and the steel member 40 as the pressing force of the connection bolt 35 is transmitted toward the engaging piece 21b.

In addition, a pair of space adjustment bolts 36 parallel to the connection bolt 35 are fastened to both sides of the steel member 40, and the space adjustment bolt 36 is from the steel member 40 toward the base plate 10. It is characterized in that it is provided so that the separation distance between the base plate 10 and the steel member 40 is adjusted from both sides as the pressing force is transmitted.

In addition, the intaglio joint part 20 includes a pair of arcuate locking portions 24 formed by locally picking and bending the base plate 10, and a rail hole formed between the pair of arcuate locking portions 24 (25), and an arc-shaped locking groove (26) formed on the rear surface of the arch-shaped locking portion (24), and the embossed joint portion (32) is inserted into the arc-shaped locking groove (26) and an arcuate head portion ( It is characterized in that it is formed of 32b).

In addition, the multi-plate 34 is mounted on the steel frame member 40 by a connection bolt 35 while a female thread is formed so as to be screwed to the end of the connecting member 30, and connection bolts ( A pair of space adjustment bolts 36 parallel to 35) are fastened, and the space adjustment bolt 36 extends from the steel member 40 toward the base plate 10 to transmit the pressing force to the base plate 10 and the steel frame. It characterized in that it is provided so that the separation distance between the members 40 is adjusted on both sides.

In addition, the rail hole 25 is formed in the longitudinal direction of the base plate 10, and the pair of arcuate locking portions 26 disposed at both ends of the rail hole 25 have an upper end open and a lower end portion 26a It is closed by a'U' shape, and the arcuate head part 32b is provided to be fitted in the upper part of the rail hole 25 in a downward direction.

In addition, when the installation surface of the reinforced concrete structure 1 on which the base plate 10 is mounted is formed as an inclined surface, if the coupling length of the pair of spacing adjustment bolts 36 is adjusted differently, the arch-shaped locking groove 26 and The steel frame member 40 is angle-adjusted to the base plate 10 and the inclination angle by the swinging motion of the arch-shaped head part 32b, so that the position of the steel frame member 40 is not affected by the slope of the reinforced concrete structure 1 It characterized in that it is provided to be adjusted to a predetermined angle.

In addition, the base plate 10 is formed in two sections, each fastened by an anchor bolt 2, and the two-divided base plate 10 ends are overlapped with each other to form an overlapping section 14, and the overlapping section As long as the intaglio joint part 20 is formed on any one side of the base plate 10 located under (14), and the intaglio joint part 20 is formed by locally picking and bending the base plate 10 Consisting of a pair of arch-shaped locking portions 24, a rail hole 25 formed between the pair of arch-shaped locking portions 24, and an arch-shaped locking groove 26 formed on the rear surface of the arch-shaped locking portion 24, the The embossed joint part 32 is formed of an arcuate head part 32b that is inserted into the arcuate locking groove 26 and rotates, and the multi-plate 34 is formed with a female threaded part so as to be screwed to the end of the connecting member 30 While being mounted on the steel frame member 40 by the connection bolt 35, a pair of space adjustment bolts 36 parallel to the connection bolt are fastened to both sides of the steel frame member 40, and the space adjustment bolt 36 Is characterized in that it is provided to extend from the steel member 40 toward the base plate 10 so that the pressing force is transmitted.

In addition, when the pressing force is transmitted to the base plate 10 by the pitch movement of the spacing adjustment bolt 36, the distance between the steel member 40 and the reinforced concrete structure 1 is expanded, and the relief joint 32 is pulled. As the force acts, and the base plate 10 moves through the anchor bolt 2 to the support shaft by the pulling force of the embossed joint 32, one end of the base plate 10 corresponding to the overlapping section 14 is It is spaced apart from the reinforced concrete structure (1), and the other end of the base plate 10 is provided to be pressed toward the reinforced concrete structure (1).

In addition, a gripping piece 16 is formed at an end of the base plate 10 opposite the overlapping section, and the gripping piece 16 is bent toward the reinforced concrete structure 1, and the pitch of the gap adjusting bolt 36 is moved. When the pressing force is transmitted to the base plate 10 by the two-segmented base plate 10, the anchor bolt 2 is moved by a seesaw to the supporting shaft so that the gripping piece 16 is gripped on the side of the reinforced concrete structure 1 It characterized in that it is provided.

According to the above configuration and operation, the present invention improves field workability due to the non-welded assembly structure, and improves the seismic reinforcement performance by firmly supporting the impact when an earthquake occurs, and is not particularly affected by the slope of the reinforced concrete structure installation surface. The installation angle of the steel frame member is simply adjusted, and the base plate is pressurized and clamped to the reinforced concrete structure by the seesaw movement, thereby reinforcing the fixing force by the anchor bolt.

1 to 2 are configuration diagrams showing a seismic reinforcement system of a reinforced concrete structure according to an embodiment of the present invention.
3 to 4 are configuration diagrams showing a seismic reinforcement system of a reinforced concrete structure according to another embodiment of the present invention.
5 to 6 are configuration diagrams showing a seismic reinforcement system of a reinforced concrete structure according to another embodiment of the present invention.
7 is a block diagram showing a state in which the seismic reinforcement system of the reinforced concrete structure of FIG. 5 is applied to a slope.
8 to 9 are configuration diagrams showing a seismic reinforcement system of a reinforced concrete structure according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a seismic reinforcement system of a reinforced concrete structure, which improves field workability due to a non-welded assembly structure, and improves seismic reinforcement performance by firmly supporting an impact in case of an earthquake, and in particular, the slope of the installation surface of a reinforced concrete structure. The installation angle of the steel frame member is simply adjusted without being affected by the base plate, and the base plate is clamped by pressure to the reinforced concrete structure by the seesaw movement, so that the base plate 10 and the intaglio joint part 20 reinforce the fixing force by the anchor bolts. ), the connection member 30, the steel member 40, consisting of the main configuration, including the reinforcing layer 50.

The base plate 10 according to the present invention is formed with a fastening hole 12 so as to be mounted on the reinforced concrete structure 1 with an anchor bolt 2. The reinforced concrete structure (1) on which the base plate (10) is installed has an anchor bolt (2) installed on the mounting surface, and is processed unevenly. After mounting the base plate (10), the reinforced concrete structure (1) and the base plate ( 10) The gap is completed by pouring concrete between them.

In addition, the concave joint portion 20 according to the present invention is formed on the surface of the base plate 10. In addition, the connecting member 30 is fitted with the concave joint part 20 to form an embossed joint part 32 that is connected to be flowable, and a multi-plate 34 is provided at the other end. Here, the configuration of the concave joint part 20 and the connection member 30 is implemented in various forms as shown in FIGS. 1 to 9, and a detailed description thereof will be referred to the following description.

In addition, the steel member 40 according to the present invention is mounted on the multi-plate 34, and is spaced apart from the base plate 10 to form a frame space 42. In FIG. 1, the steel member 40 is shown in a state formed by an H-beam, but is not limited thereto, and a configuration of a square, circular steel pipe, or a reinforcing bar structure is also possible.

In addition, the concrete reinforcing layer 50 according to the present invention is poured in the space between the reinforced concrete structure 1 and the base plate 10 and the mold space 42, to locate the base plate 10 and the multi-plate 34 It is provided to fix. At this time, in the form space 42, a formwork is installed between the reinforced concrete structure 1 and the steel frame member 40, and concrete is poured therein.

Accordingly, since the space between the base plate 10 and the steel frame member 40 is filled by the concrete reinforcing layer 50, the flow of the steel frame member 40 is prevented and the seismic reinforcement performance is improved when an earthquake occurs.

Hereinafter, an embodiment of the mounting structure of the steel member 40 by the concave joint portion 20 and the convex joint portion 32 of the present invention will be described in detail with reference to FIGS. 1 to 9.

In FIGS. 1 to 2, the intaglio joint part 20 includes a'b'-shaped locking part 21 composed of a connecting piece 21a and a locking piece 21b by locally picking and bending the base plate 10, A through hole 22 that penetrates from the front of the base plate 10 to the rear surface by the'b'-shaped locking part 21, and a locking groove 23 extending from the through hole 22 to the rear surface of the locking piece 21b. Is composed.

In addition, the locking piece 21b is formed at an inclined angle closer to the base plate 10 toward the end, so that the locking groove 23 is formed as an inclined groove. Here, the embossed joint part 32 is formed of a'b'-shaped ring plate 32a that is bent at the end of the connecting member 30, and the'b'-shaped ring plate 32a has an inclination angle opposite to the locking piece 21b Is formed by

At this time, the'a'-shaped ring plate (32a) is inserted into the through hole (22) with the connecting member (30) inclined, and when the connecting member (30) is rotated in the opposite direction, the'a'-shaped ring plate (32a) The engaging groove 23 is engaged and bound, and the connecting member 30 is restrained on the base plate 10 by the engagement by the inclination angle of the'a' shaped ring plate 32a and the inclination angle of the locking piece 21b. As it is provided so that it is excellent in field workability by no welding.

In addition, the multi-plate 34 is bent at a right angle to the end of the connecting member 30 to have a through hole 34a. The steel member 40 is bound by the connection bolt 35 fastened through the through hole 34a.

At this time, the connection bolt 35 penetrates the steel member 40 and the multi-plate 34 and is fastened to the connection nut 35a in both directions, and the end of the connection bolt 35 extends toward the base plate 10 and is engaged. As the pressing force of the connecting bolt 35 is transmitted to the side (21b) side, it is provided so that an expansion force that is spaced apart from the base plate 10 and the steel member 40 acts.

That is, since the steel member 40 is fastened by a single connection bolt 35 and an expansion force that is spaced apart from the base plate 10 and the steel member 40 is configured to act, the steel member 40 at the site The work speed according to the installation is improved.

In Figures 3 to 4, the steel member 40 is fastened to both sides of a pair of space adjustment bolts 36 parallel to the connection bolt 35, the space adjustment bolt 36 is a base plate in the steel member 40 It extends to the (10) side and is provided so that the separation distance between the base plate 10 and the steel member 40 is adjusted from both sides while the pressing force is transmitted.

In FIG. 5, the concave joint portion 20 is formed between a pair of arcuate locking portions 24 and a pair of arcuate locking portions 24 formed by locally picking and bending the base plate 10. Consisting of a rail hole 25 and an arc-shaped locking groove 26 formed on the back surface of the arch-shaped locking portion 24, the embossed joint portion 32 is inserted into the arch-shaped locking groove 26 and pivoted into an arch-shaped head It is formed as a part 32b.

In addition, the multi-plate 34 is mounted on the steel frame member 40 by a connection bolt 35 while a female thread is formed so as to be screwed to the end of the connection member 30, and connection bolts ( A pair of space adjustment bolts 36 parallel to 35) are fastened, and the space adjustment bolt 36 extends from the steel member 40 toward the base plate 10 to transmit the pressing force to the base plate 10 and the steel frame. It is provided so that the separation distance between the members 40 is adjusted on both sides.

6, the rail hole 25 is formed in the length direction of the base plate 10, and the pair of arcuate locking portions 26 disposed at both ends of the rail hole 25 have an upper end open and a lower end portion ( It is closed by 26a) and formed in a'U' shape, and the arc-shaped head portion 32b is provided to be fitted in the upper portion of the rail hole 25 in a downward direction, so that the arc-shaped head portion 32b is formed in the rail hole 25 When inserted, the arch-shaped head portion (32b) is temporarily mounted in a state that is caught in the finishing piece (26a), so the convenience and safety of high place work is ensured.

Accordingly, as shown in FIG. 7, when the reinforced concrete structure 1 on which the base plate 10 is mounted is formed as an inclined surface, when the coupling length of the pair of spacing adjustment bolts 36 is differently adjusted, the arch-shaped locking groove The steel frame member 40 is angle-adjusted to the base plate 10 and the inclination angle by the pivoting motion of 26 and the arch-shaped head part 32b, so as not to be affected by the inclination of the reinforced concrete structure 1 40) As the position is provided to be adjusted to a predetermined angle, the installation angle of the steel frame member is simply adjusted without being affected by the slope of the reinforced concrete structure installation surface.

In FIG. 8, the base plate 10 is formed in two sections and fastened by anchor bolts 2, respectively, and an overlapping section 14 is formed with the ends of the two-divided base plate 10 superimposed on each other, An intaglio joint part 20 is formed on one side of the base plate 10 located under the overlapping section 14. Here, the intaglio joint portion 20 is a pair of arcuate locking portions 24 formed by locally picking and bending the base plate 10, and a rail hole 25 formed between the pair of arcuate locking portions 24 ), and an arch-shaped locking groove 26 formed on the rear surface of the arch-shaped locking portion 24.

And the embossed joint part 32 is formed of an arched head part 32b that is inserted into the arched locking groove 26 and rotated, and the multi-plate 34 is female screwed to the end of the connecting member 30 As an addition is formed, it is mounted on the steel frame member 40 by the connection bolt 35, and a pair of spacing adjusting bolts 36 parallel to the connecting bolt are fastened to both sides of the steel frame member 40, and the spacing adjusting bolt ( 36) is provided to extend from the steel member 40 toward the base plate 10 to transmit the pressing force.

At this time, when the pressing force is transmitted to the base plate 10 by the pitch movement of the spacing bolt 36, the distance between the steel member 40 and the reinforced concrete structure 1 is expanded, and the relief joint 32 is pulled. As the force acts, and the base plate 10 moves through the seesaw with the anchor bolt 2 by the pulling force of the embossed joint part 32, one end of the base plate 10 corresponding to the overlapping section 14 is It is spaced apart from the reinforced concrete structure (1), and the other end of the base plate 10 is provided to be pressed toward the reinforced concrete structure (1).

9, a gripping piece 16 is formed at an end of the base plate 10 on the opposite side of the overlapping section, and the gripping piece 16 is bent toward the reinforced concrete structure 1, and the gap adjusting bolt 36 When the pressing force is transmitted to the base plate 10 side by pitch movement, the two-divided base plate 10 moves through the seesaw to the anchor bolt 2, and the gripping piece 16 is placed on the side of the reinforced concrete structure (1). It is provided to be gripped.

As the base plate 10 is pressurized and clamped to the reinforced concrete structure 1 by the seesaw motion, the fixing force by the anchor bolt 2 is reinforced, so that the seismic reinforcement performance is improved.

10: base plate 20: intaglio joint
30: connection member 40: steel frame member
50: reinforcement layer

Claims (12)

A base plate 10 having a fastening hole 12 formed to be mounted on the reinforced concrete structure 1 with an anchor bolt 2;
A concave joint portion 20 formed on the surface of the base plate 10;
A connecting member 30 fitted with the concave joint part 20 and formed with a positive joint part 32 connected to be flowable, and having a multi-plate 34 provided at the other end;
A steel member 40 mounted on the multi-plate 34 and spaced apart from the base plate 10 to form a frame space 42; And
Concrete reinforcement layer 50, which is poured in the space between the reinforced concrete structure 1 and the base plate 10 and the mold space 42, and is provided to fix the position of the base plate 10 and the multi-plate 34; including and,
The intaglio joint part 20 includes a'b'-shaped locking portion 21 consisting of a connecting piece 21a and a locking piece 21b by locally picking and bending the base plate 10, and a'b'-shaped locking portion It is composed of a through hole 22 penetrating from the front of the base plate 10 to the rear surface by 21 and a locking groove 23 extending from the through hole 22 to the rear surface of the locking piece 21b, and the locking piece (21b) is formed at an inclined angle closer toward the base plate 10 toward the end, so that the locking groove 23 is formed as an inclined groove, and the embossed joint part 32 is bent at the end of the connecting member 30. A seismic reinforcement system of a reinforced concrete structure, characterized in that it is formed with a'shaped ring plate (32a), and the'a' shaped ring plate (32a) is formed at an inclination angle opposite to the locking piece (21b). delete The method of claim 1,
The'a'-shaped ring plate (32a) is inserted into the through hole (22) with the connecting member (30) inclined, and when the connecting member (30) is rotated in the opposite direction, the'a'-shaped ring plate (32a) is caught It is engaged in the groove 23 and is bound, and the connecting member 30 is provided to be constrained on the base plate 10 by the engagement by the inclination angle of the'a'-shaped ring plate 32a and the inclination angle of the engaging piece 21b. Seismic reinforcement system of a reinforced concrete structure, characterized in that. The method of claim 1,
The multi-plate 34 is bent at a right angle to the end of the connecting member 30 to have a through hole 34a, and the steel member 40 is formed by a connecting bolt 35 fastened through the through hole 34a. It is bound, and the connection bolt 35 penetrates the steel member 40 and the multi-plate 34 and is fastened in both directions to the connection nut 35a, and the end of the connection bolt 35 extends toward the base plate 10. Seismic reinforcement system of a reinforced concrete structure, characterized in that the connecting bolt (35) pressing force is transmitted to the engaging piece (21b) side, and the expansion force is provided so that the distance between the base plate (10) and the steel frame member (40) acts. The method of claim 4,
A pair of spacing adjusting bolts 36 parallel to the connecting bolt 35 are fastened to both sides of the steel member 40, and the spacing adjusting bolt 36 extends from the steel member 40 toward the base plate 10 Seismic reinforcement system of a reinforced concrete structure, characterized in that the separation distance between the base plate 10 and the steel member 40 is adjusted from both sides while the pressing force is transmitted. delete delete delete delete The method of claim 1,
The base plate 10 is formed in two parts and fastened by anchor bolts 2, respectively, and an overlapping section 14 is formed with the ends of the base plate 10 divided into two overlapping each other, and the overlapping section 14 ), a pair of intaglio joints 20 is formed on one side of the base plate 10, and the intaglio joint 20 is formed by locally picking and bending the base plate 10 Consisting of an arch-shaped locking portion 24, a rail hole 25 formed between the pair of arc-shaped locking portions 24, and an arch-shaped locking groove 26 formed on the back surface of the arch-shaped locking portion 24, the embossed joint The part 32 is formed of an arch-shaped head part 32b that is inserted into the arch-shaped locking groove 26 and rotates, and the multi-plate 34 is connected while a female screw part is formed so as to be screwed to the end of the connecting member 30. It is mounted on the steel frame member 40 by the bolt 35, and a pair of spacing adjusting bolts 36 parallel to the connecting bolt are fastened to both sides of the steel frame member 40, and the spacing adjusting bolt 36 is a steel frame A seismic reinforcement system of a reinforced concrete structure, characterized in that it extends from the member 40 toward the base plate 10 to transmit a pressing force. The method of claim 10,
When the pressing force is transmitted to the base plate 10 by the pitch movement of the spacing adjustment bolt 36, the pulling force of the embossed joint 32 increases as the distance between the steel member 40 and the reinforced concrete structure 1 is expanded. And the base plate 10 corresponding to the overlapping section 14 as the base plate 10 moves through the seesaw with the anchor bolt 2 by the pulling force of the embossed joint part 32, and one end of the base plate 10 corresponding to the overlap section 14 is reinforced concrete A seismic reinforcement system of a reinforced concrete structure, characterized in that it is spaced apart from the structure (1), and the other end of the base plate (10) is provided to be pressed toward the reinforced concrete structure (1). The method of claim 11,
A gripping piece 16 is formed at an end of the base plate 10 on the opposite side of the overlapping section, and the gripping piece 16 is bent toward the reinforced concrete structure 1, and by pitch movement of the spacing bolt 36 When a pressing force is transmitted to the base plate 10, the two-divided base plate 10 moves through the anchor bolts 2 as a seesaw movement, and the gripping piece 16 is provided to be gripped on the side of the reinforced concrete structure 1 Seismic reinforcement system of a reinforced concrete structure, characterized in that.

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