KR20190102933A - Exterior Emergency Reinforcement Method of Concrete Structures Using Steel Band - Google Patents

Abstract

According to the present invention, an emergency exterior reinforcement method of a reinforced concrete structure comprises a first and a second reinforcing step. The first reinforcing step includes: a step of arranging a support member on a reinforced concrete structure; a step of arranging a steel band of a grid structure supported on the support member around the structure; and a step of giving tension to the steel band. The second reinforcing step includes: a step of using a fixing bolt to attach a first reinforcing plate to an outer circumferential surface of the reinforced concrete structure, and using a fixing bolt to attach a second reinforcing plate in a direction opposite to the attached first reinforcing plate; a step of installing one or more eyebolts through the first and the second reinforcing plate; a step of coupling a ring of one side of a steel wire rope to an eyebolt installed on the first reinforcing plate, and coupling a ring of the other side of the steel wire rope to an eyebolt installed on the second reinforcing plate to connect the eyebolts and the steel wire rope; and a step of adjusting tension by adjustment nuts and the eyebolts to which both ends of the steel wire rope are coupled. Simple assembly and installation at a site are possible by binding devices such as steel bands, steel wire ropes, reinforcing plates, and bolts to provide excellent constructability. Therefore, improved effects as a seismic reinforcing method before an earthquake occurs can be expected. The emergency exterior reinforcement method of a reinforced concrete structure using a steel band can be applied as effective emergency reinforcement in earthquake restoration requiring quickness to suppress abrupt collapses by destruction or deformation immediately after an earthquake disaster.

Description

Exterior Emergency Reinforcement Method of Concrete Structures Using Steel Band}

The present invention relates to a method for reinforcing concrete structures, and more particularly, to an emergency external reinforcing method for reinforced concrete structures, which may include a steel band, a steel wire rope, and a reinforcing plate to improve reinforcing effects.

Aged concrete structures suffer from deterioration in durability due to chemical reactions of materials and physical effects of external factors. In particular, aging facilities and inadequate seismic design concrete structures are very vulnerable to earthquakes. It is important to prevent additional damage and to ensure the stability of the structure, since the damaged building structure immediately after the earthquake may cause all or part of the building to collapse due to aftershocks, etc., which may cause personal injury and economic loss.

As such, many seismic reinforcement methods have been proposed for the performance recovery of damaged concrete structures.

As a seismic reinforcing method of a concrete structure used in the prior art, there is a method of using a fiber sheet and a steel sheet as a reinforcing material and attaching to an existing structure with an epoxy resin. However, the existing reinforcement method has a problem that is affected by various factors, such as the performance and construction state of the epoxy to bond it to the structure rather than the performance of the reinforcing material.

In addition, the method of reinforcing the structure by installing a reinforcing member and curing the concrete between the formwork and the reinforcing member is generally not suitable for emergency recovery because the construction time during which the concrete is poured and curing is delayed and recovery is delayed. More load may be applied to the seismic reinforcement performance. In particular, it is very difficult to evaluate the suitability of reinforcement after deflection and reinforcement work due to the aging of the member, and additional load is applied to prevent such deformation before deformation occurs, There is a problem.

On the other hand, the reinforcement method using tension material such as steel band or steel wire rope and reinforcement plate to be developed as part of post-tensioning method is used for reinforcement of various structures due to its high adaptability and reinforcement efficiency. There are several advantages in terms of structure and economy. The post-tension external reinforcement method is an active method, which acts in a direction opposite to the stress on the member's load to reduce the stress caused by the existing fixed load and increases the strength of the member, thus allowing the member to receive the load. It is a method that can effectively increase and restore the deformation of the structure at the same time to restore the deformation or stress of the existing structure to reinforce.

In addition, by appropriately restraining the ductility lacking concrete there is an advantage that can be induced to improve the ductility and strength of the reinforced concrete member. In addition, when a restraint effect is added to an aging building that is likely to be brittle and destroyed, or a structure having non-seismic details, structural performance equivalent to that of a new building may be secured.

Accordingly, an economical and eco-friendly technology for applying the post-tension method as a reinforcement reinforcement method to existing reinforced concrete members has been developed, and non-attached pillar reinforcement techniques without using an adhesive to concrete structures have been proposed. Such methods have the advantage of greatly increasing the ductility of the RC column. However, this method has a very high unit cost of the reinforcement, and requires a skilled technician, there is a problem that the construction cost is very increased in accordance with the increase in labor costs.

Therefore, the technology that applies seismic details to prevent brittle fracture and ductile behavior before energy dissipation occurs due to cracks in other parts due to rapid stiffness change, in particular, simplifies field work and saves resources. As an emergency seismic reinforcement method for the purpose of securing the stability of the structure through rapid construction, it is required to develop a technology for repair and reinforcement that introduces a tension force that can suppress the deflection of the reinforced concrete member.

Korean Patent Registration No. 10-1553205

The present invention has been made in order to solve the above problems of the prior art, the reinforcement method can be easily assembled and installed in the field with a binding device such as steel band, steel wire rope, reinforcement plate, bolts, etc. Therefore, the reinforcement can be applied as an emergency reinforcement effective for earthquake recovery that requires high speed to prevent rapid collapse due to the destruction or deformation immediately after the earthquake, as well as high seismic reinforcement method before earthquake. The purpose is to provide a process.

In addition, it does not require skill when manufacturing, and to provide a concrete structure reinforcement method that can reduce the manufacturing cost with a simple configuration.

The present invention can reinforce the compressive fracture weaving and strength of the concrete by introducing post-tension by using a reinforcement to the existing concrete structure constructed, emergency external reinforcement of reinforced concrete structure using a steel band enhanced construction convenience and speed The purpose is to provide a method.

The objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

Emergency external reinforcement method of the reinforced concrete structure using a steel band according to the present invention, comprising the steps of: providing a support member on the reinforced concrete structure; Providing a steel band having a lattice structure supported by the support member along a circumference of the structure; A first reinforcing step comprising the step of applying a tension force to the steel band, and attaching the first reinforcing plate to the outer circumferential surface of the reinforced reinforced concrete structure using a fixing bolt, the opposite direction to the attached first reinforcing plate Attaching the second reinforcement plate using a fixing bolt; Installing at least one eye bolt through the first reinforcing plate and the second reinforcing plate; Fastening one side ring of the steel wire to the eye bolt installed on the first reinforcing plate, and connecting the other side ring of the steel wire to the eye bolt installed on the second reinforcing plate; And a second reinforcing step including adjusting tension with the eye bolt and the adjusting nut fastened to both ends of the steel wire rope.

In the providing of the support member, the bent portion is formed to be simultaneously contacted with a pair of adjacent surfaces forming corners of the reinforced concrete structure such that the bent portion is in close contact with the edge of the structure, and the steel band is bent. The outside of the bent portion may be rounded to prevent breakage by the portion.

In addition, the steel band may include a plurality of engaging holes formed at regular intervals on the upper and lower ends and a hook provided at one end of the upper and lower ends.

In the step of applying tension to the steel band, the steel band by fitting the locking ring of the one end of the steel band to the circumference of the reinforced concrete structure to be wrapped in the corresponding locking hole in the other end of the steel band The left and right ends of the steel band may be tied to each other to press fix the steel band.

Here, one end of the steel band may be overlapped with the other end on one surface of the structure such that the steel band surrounds the reinforced concrete structure.

One end portion and the other end portion of the steel band may be combined to be inserted into and fixed to the reinforced concrete structure by passing through one or more fixing bolts in the lattice inner space of the steel band at the overlapped position.

The steel wire rope may be provided by inserting one end of the steel wire rope into an annular ring of the eye bolt and fixing it with a U bolt.

In addition, the adjustment nut is fastened to the bolt portion of the eye bolt provided with a screw thread on the outer circumferential surface of the first reinforcement plate and the second reinforcement plate to enable tension control of the steel wire by loosening or tightening the adjustment nut. do.

One or more steel wire ropes may be provided on both sides of the reinforced concrete structure.

In addition, the length of the reinforcement plate is longer than the length of the reinforced concrete structure of one side to which the reinforcement plate is attached, the attached reinforcement plate may have a length portion protruding symmetrically to both sides of the reinforced concrete structure.

Emergency external reinforcement method of the concrete structure using the reinforcement of the present invention for solving the above problems has the following effects.

First, there is an advantage that the reinforcement effect is greatly improved compared to the emergency reinforcement method used conventionally.

Second, since the work difficulty is low, it can be easily assembled and installed with a binding device such as a bolt, so that an unskilled person can easily perform the construction and the construction cost is economical.

Third, since it is possible to apply to the concrete structure of the already built building, there is an advantage that can be applied as an effective reinforcement for the reinforcement of the old aging buildings, etc., and also effective for earthquake recovery that requires promptness immediately after an earthquake disaster.

The effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view of a step provided with a supporting member in a concrete structure in the emergency external reinforcement method of the reinforced concrete structure according to an embodiment of the present invention;
2 is a perspective view showing the appearance of a steel band supported by the support member along the concrete structure in the emergency external reinforcement method of the reinforced concrete structure according to an embodiment of the present invention;
Figure 3 is a perspective view showing that in the emergency external reinforcement method of the reinforced concrete structure according to an embodiment of the present invention, the fixing bolt is additionally fastened to the overlapping position of both ends of the steel band;
4 is a perspective view showing the reinforcing plate attached to the outer circumferential surface of the reinforced concrete reinforcement structure reinforced by a steel band in the emergency external reinforcement method of the reinforced concrete structure according to an embodiment of the present invention;
5 is a perspective view showing that the steel wire rope is fastened to the reinforcement plate in the emergency external reinforcement method of the reinforced concrete structure according to an embodiment of the present invention;
6 is a perspective view showing an embodiment of the reinforced concrete structure in the emergency external reinforcement method of the reinforced concrete structure according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of this embodiment, the same name and the same reference numerals are used for the same configuration and additional description thereof will be omitted.

The present invention is a reinforcement method to prevent the column or beam of the concrete structure more bent and sag when the lateral force such as earthquake or wind is applied, and to secure the safety by strengthening the strength. In addition, the present invention can be applied as an emergency reinforcement measures in use until the overall reinforcement and reconstruction when safety risks due to collapse such as cracking, deformation, lack of strength of concrete structures emerge. That is, the reinforcement method of the present invention is a method that is easy to construct and to constrain the deformation of the concrete to enable emergency reinforcement for the damage of the concrete structure, as well as to improve the ductile behavior and load capacity.

As part of the post-tensioning method, the reinforcement method of the present invention introduces prestress into a concrete structure by using a tension member such as a steel band or steel wire rope and a reinforcement plate, thereby providing strength and ductility by external force caused by the reinforcement device. It is a way to improve.

Emergency external reinforcement method of the reinforced concrete structure according to the present invention, using the steel band 120, steel wire rope 150, reinforcing plates (130, 140) as the main reinforcement, steel band to the reinforced concrete structure (100) A first reinforcement step having a 120 and a second reinforcement step of applying the reinforcement plates 130 and 140 and the steel wire rope 150 are provided.

Hereinafter, each of these steps and the emergency external reinforcement method of the reinforced concrete structure manufactured accordingly will be described in detail.

The first reinforcing step of the emergency external reinforcement method of the reinforced concrete structure according to the present invention comprises the step of providing a support member 110 in the reinforced concrete structure 100, the support member along the circumference of the reinforced concrete structure 100 And providing a steel band 120 supported by the 110 and applying tension to the steel band 120.

The reinforced concrete structure 100 may include various concrete structures, such as beams and columns, formed in a lengthwise direction applied to a building.

1 is a perspective view showing a state in which the support member 110 is provided in the reinforced concrete structure 100 in the emergency external reinforcement method of the reinforced concrete structure according to the present invention.

As shown in Figure 1, the emergency external reinforcement method of the reinforced concrete structure according to the present invention has a step of having a support member 110 for supporting the steel band 120 to be described later in the corner of the reinforced concrete structure 100 May be included. The support member 110 may be installed using a bolt (not shown).

The support member 110 is a component supporting the steel band 120 is provided at the edge of the reinforced concrete structure 100, it may be formed in various forms. In the present embodiment, the support member 110 is provided so that the bent portion 111 of the inner side is in close contact with the edge of the reinforced concrete structure (100). The outer side of the bent portion 111 is formed to be round. The reason for doing this is to prevent the steel band 120 from breaking due to the pressure applied to the edge when the steel band 120 is in contact with the support member 110.

A step of providing a steel band 120 supported on the support member 110 along the circumference of the reinforced concrete structure 100 in the reinforced concrete structure 100 provided with the support member 110 is performed.

The steel band 120 is a component that is provided to wrap the circumference of the reinforced concrete structure 100 to apply a tension force to the structure 100, referring to Figure 2 reinforcement structure 200 according to an embodiment of the present invention ) Wraps the reinforced concrete structure 100 from one end of the steel band 120 to the other end thereof, and may be provided to overlap both ends of the steel band 120. Since the steel band 120 is configured in the form of a lattice of steel, the stress distribution of the member may be uniform and effective in crack control.

However, unlike the present embodiment, the steel band 120 may be formed of various materials, and also may be formed in a closed curve shape.

In the emergency external reinforcement method of the reinforced concrete structure according to an embodiment of the present invention, the reinforcing structure 200 is a plurality of engaging holes 121 and the formed at regular intervals on the upper and lower ends of the steel band 120 and the It includes a locking ring 122 provided toward the inner side of one end of the upper and lower ends of the steel band (120).

The catching hole 122 corresponding to the catch ring 122 of one end of the steel band 120 to correspond to the circumference of the reinforced concrete structure 100 to be wrapped by the steel band 120 at the other end of the steel band 120 ( 121 to the left and the right end of the steel band 120 by fitting to each other to perform the step of applying a tension force to the reinforced concrete structure 100 by pressing.

In this step, since the steel band 120 has a state where one end and the other end are separated from each other, it is necessary to tension the steel band 120 and fix them to each other. Therefore, by fastening to the locking hole 121 to be fitted with the locking ring 122 in accordance with the circumference of the concrete structure among the plurality of locking holes 121 formed in the steel band 120 at a predetermined interval, steel The band 120 may be fixed in a tense state. That is, because the locking ring 122 is hooked to the locking hole 121, there is an advantage that the operator can easily use without a separate fastening means.

The steel band 120 may be provided with a sufficient length to surround the reinforced concrete structure 100 and wrapped around the periphery of the reinforced concrete structure 100 of the steel band 120 on one surface of the structure. One end may overlap the other end.

The method of fixing one end and the other end of the steel band 120 to each other in the reinforcing structure 300 according to an embodiment of the present invention as shown in Figure 3 one end and the other end of the steel band 120 It may further comprise combining to be fixed to one or more fixing bolts 10 in the overlapping position. That is, the steel band 120 passes through one or more fixing bolts 10 in the lattice inner space of the steel band 120 at a position where the steel band 120 overlaps with the steel band 120 so as to be inserted into the reinforced concrete structure 100 and fixed. In addition to fixing the band 120 itself, the coupling of the steel band 120 to the reinforced concrete structure 100 can be further in close contact. One end portion and the other end portion of the steel band 120 meets and overlaps in two layers so that both ends of the steel band 120 can be stably coupled and fixed.

Since the lattice structure and the plurality of locking holes 121 of the steel band 120 according to the present invention are perforated at regular intervals, corresponding positions are matched to the circumference of the reinforced concrete structure without great limitation on the circumferential size and shape of the reinforced concrete structure. Can be combined in Since the entire inside of the steel band 120 has a lattice structure, when the two ends of the steel band 120 overlap, the overlapping lattice inner spaces can be matched, so that fixing bolts are easily coupled through the fitted lattice inner space. Do. In addition, since the plurality of engaging holes 121 are formed at regular intervals, the engaging ring 122 can be caught by the corresponding engaging holes 121 at any position in accordance with the circumference of the reinforced concrete structure. Therefore, it is easy and efficient to attach the steel band 120 to the reinforced concrete structure 100 because both ends of the steel band 120 can be quickly and easily coupled. The method of fixing one end and the other end of the steel band 120 to each other may be implemented by various methods.

The degree of attachment of the reinforcement to the reinforced concrete structure is a very important requirement for seismic performance. In the case of attaching using a prior art adhesive or the like, when the load is applied to the target structure, only the adhesive such as epoxy resin is dependent, and the reinforcement material is changed due to the change in temperature due to the difference in physical properties (linear expansion coefficient, elastic modulus, etc.) between materials. When the and structure are separated from each other and peeling phenomenon occurs, the reinforcing effect is lost.

Therefore, in the present invention, in addition to the first reinforcing step of installing the steel band 120 without using a separate adhesive, a reinforcing step of applying the reinforcing plates 130 and 140 and the steel wire rope 150 to reinforce the second reinforcing step. Perform

As a second reinforcement step of the emergency external reinforcement method of the reinforced concrete structure according to the present invention, the reinforcement structure 400 is fixed to the first reinforcement plate 130 on the outer circumferential surface of the first reinforced reinforced concrete reinforcement structure (200, 300) Attaching the second reinforcing plate 140 using the fixing bolt 10 in a direction opposite to the first reinforcing plate 130 attached thereto, and attaching the second reinforcing plate 140 using the bolt 10. 130 and the second reinforcing plate 140 through the one or more eye bolts 20 is installed.

The internal space of the grid of the steel band 120 according to the present invention is a structure that can be easily passed through the fixing bolt 10, the steel band 120 and the reinforced concrete structure 100 by the fixing bolt 10 Not only increases the strength of the attachment by fastening between, but also the structure leading to the reinforced concrete structure 100, steel band 120, reinforcing plates (130, 140) can be bound by the fixing bolt 10 to have a strong sense of unity. have.

4 shows attaching the reinforcement plates 130 and 140 using fixing bolts 10 on both surfaces symmetrically opposite to the outer circumferential surfaces of the first reinforced reinforced concrete reinforcement structures 200 and 300, respectively. The reinforcement plates 130 and 140 are attached to one surface opposite to the other surface except for one surface of the reinforced concrete structure 100 including a portion where both ends of the steel band 120 overlap. The fixing bolt 10 is inserted into and fastened to the reinforced concrete structure 100 by penetrating the inner space of one of the reinforcing plates 130 and 140 and the steel band 120. Since the shape of the lattice structure of the steel band 120 may be damaged when excessive stress is concentrated, the strength of the steel band 120 may be lowered. In the present invention, the reinforcing plates 130 and 140 may be attached to the steel band 120. Supporting the tension of the steel band 120 to increase the adhesion performance so as not to be separated or destroyed in the reinforced concrete structure.

In addition, the reinforcing plate (130, 140) is fixed to the tension control of the steel wire rope 150 to be described later, attached to both sides of the outer peripheral surface of the reinforced concrete structure 100 to reinforce the cross section itself of the structure 100 Can play a role. The reinforcing plates 130 and 140 may form a high modulus of elasticity or high tensile strength. As shown in FIG. 4, the length b of the reinforcement plates 130 and 140 is longer than the length a of the reinforced concrete structure 100 on one surface to which the reinforcement plates 130 and 140 are attached. 130 and 140 have lengths protruding symmetrically to both sides of the reinforced concrete structure 100.

Thereafter, one or more eyebolts 20 are installed through the protruding lengths of the reinforcing plates 130 and 140. The eye bolt 20 includes an annular annular portion and a bolt portion provided with a thread, and fastens the bolt portion provided with the threaded portion to the reinforcement plates 130 and 140, and connects the steel wire 150 to the annular annular portion. Insert in the form of a ring. As shown in FIG. 5, the one side ring of the steel wire rope 150 is fastened to the eye bolt 20 installed on the first reinforcement plate 130, and the eye is installed on the second reinforcement plate 140. Fastening the other ring of the steel wire rope 150 to the bolt 20 to perform the step of connecting. Here, the tension force of the steel wire rope 150 may be obtained by tightening the adjusting nut 30 and may be controlled by the adjusting nut 30 as in the torque control method of the high tension bolt.

The steel wire rope 150 may be manufactured so that one end portion is inserted into the annular ring of the eye bolt 20 and a part of the overlapped portion is more firmly fixed to the U bolt 40. The U bolt contributes to maintaining the restraining effect on the reinforced concrete structure 100 by preventing loosening of the steel wire rope 150.

Thereafter, the step of adjusting the tension with the eye bolt 20 and the adjustment nut 30 is fastened to both ends of the steel wire rope (150).

The steel wire rope 150 is a tension or tension force by the loosening or tightening of the eye bolt 20 and the adjusting nut 30, which has the effect of restraining the concrete cross section from the outside. That is, the fluidity of the steel wire 150 may buffer the shock transmitted due to the shaking of the building, and may induce ductile breakdown under repeated loads such as earthquakes. The steel wire rope 150 may be provided with one or more pairs to further improve reinforcement performance.

6 shows an embodiment of the reinforcing structure 400 through the first reinforcing step and the second reinforcing step in the concrete structure reinforcing method according to an embodiment of the present invention, the concrete column or beam to be repaired or reinforced By wrapping the steel band 120 according to the invention and attaching the steel wire rope 150 by attaching the reinforcing plates (130, 140), it is possible to efficiently control the displacement of the concrete structure from the earthquake load during the earthquake, during celebration The resistance strength is increased and the flexural strength against lateral load is also increased to restore deflection and cracks and to reinforce concrete structures.

Emergency external reinforcement method of the reinforced concrete structure of the present invention is a structure that can visually check the excessive deflection and severe crack state of the concrete structure because it does not require additional concrete casting for the reinforcement. There is a possibility that the cross-sectional performance of the reinforced concrete structure may be degraded by not adding additional concrete to the reinforcement, but in the present invention, the steel band 120 and the reinforcement plates 130 and 140 may be applied together to reinforce the cross-section of the reinforced concrete structure. As well as the reinforcement according to the present invention can be easily confirmed by the visual inspection of the stress and deformation state and damage of the steel band 120, steel wire rope 150, reinforcement plate (130, 140) of the concrete structure It is possible to predict the time of breakdown, so it is easy to manage safety and post evaluation. Therefore, the present invention can be applied as a quick emergency reinforcement measures to take a post reinforcement measures.

As described above, a preferred embodiment according to the present invention has been described, and the fact that the present invention can be embodied in other specific forms in addition to the above-described embodiments without departing from the spirit or scope thereof has ordinary skill in the art. It is obvious to them. Therefore, the above-described embodiments should be regarded as illustrative rather than restrictive, and thus, the present invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

100: reinforced concrete structure 110: support member
111: bend 120: steel band
121: hook hole 122: hook
130: first reinforcing plate 140: second reinforcing plate
150: steel wire rope 10: fixing bolt
20: eye bolt 30: adjusting nut
40: U bolt 200, 300, 400: reinforcement structure

Claims (10)

Providing a support member to the reinforced concrete structure;
Providing a steel band having a lattice structure supported by the support member along a circumference of the structure;
A first reinforcing step comprising imparting tension to the steel band;
Attaching a first reinforcement plate to an outer circumferential surface of the reinforced reinforced concrete structure using a fixing bolt, and attaching a second reinforcement plate using a fixing bolt in a direction opposite to the attached first reinforcing plate;
Installing at least one eye bolt through the first reinforcing plate and the second reinforcing plate;
Fastening one side ring of the steel wire to the eye bolt installed on the first reinforcing plate, and connecting the other side ring of the steel wire to the eye bolt installed on the second reinforcing plate;
Emergency external reinforcement method of the reinforced concrete structure, characterized in that it comprises a second reinforcing step comprising the step of adjusting the tension with the eye bolt and the control nut fastened both ends of the steel wire rope. The method of claim 1,
In the providing of the support member, the bent portion is formed to be simultaneously contacted with a pair of adjacent surfaces forming corners of the reinforced concrete structure such that the bent portion is in close contact with the edge of the structure, and the steel band is bent. Emergency exterior reinforcement method of reinforced concrete structure, characterized in that the outer side of the bent to form a round to prevent fracture by the part. The method of claim 1,
The steel band is an emergency external reinforcement method of the reinforced concrete structure, characterized in that it comprises a plurality of engaging holes formed at regular intervals on the upper and lower ends and the engaging ring provided on one end of the upper and lower ends. The method of claim 3,
In the step of applying tension to the steel band, the steel band by fitting the locking ring of the one end of the steel band to the circumference of the reinforced concrete structure to be wrapped in the corresponding locking hole in the other end of the steel band Emergency external reinforcement method of the reinforced concrete structure, characterized in that the left and right ends of the steel band can be mutually bound to fix the steel band. The method of claim 1,
Emergency external reinforcement method of the reinforced concrete structure, characterized in that the one end of the steel band can be superimposed on the other end on one surface of the structure so that the steel band surrounds the reinforced concrete structure. The method of claim 5,
Reinforcing reinforcement is characterized in that the one end and the other end of the steel band is superimposed to pass through the one or more fixing bolts in the inner space of the lattice of the steel band in the overlapping position can be inserted and fixed to the reinforced concrete structure Emergency external reinforcement of concrete structures. The method of claim 1,
Emergency external reinforcement method of the reinforced concrete structure, characterized in that one end of the steel wire rope is inserted into the annular ring of the eye bolt and fixed with U bolt. The method of claim 1,
The adjustment nut is fastened to the bolt portion of the eye bolt provided with a thread on the outer circumferential surface of the first reinforcement plate and the second reinforcement plate to enable tension control of the steel wire by loosening or tightening the adjustment nut. Emergency external reinforcement method of the reinforced concrete structure characterized in that. The method of claim 1,
The steel wire rope emergency external reinforcement method of the reinforced concrete structure, characterized in that each can be provided at least one on both sides of the reinforced concrete structure. The method of claim 1,
The length of the reinforcement plate is longer than the length of the reinforced concrete structure of the one side to which the reinforcement plate is attached, the reinforcement plate attached has a length portion protruding symmetrically to both sides of the reinforced concrete structure Emergency External Reinforcement.

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