KR20030010499A - Reinforcement mixed with Wirerope and Spring for Concrete Structure and Repair Method using thereof - Google Patents

Abstract

PURPOSE: A reinforcement material is provided to ensure a tension force of the material by using stainless spring wire obtained by shot-peening treatment and applying a strong tensile stress of wire rope and tightening turn-buckle, and to improve a coupling integrity with mortar filer material. CONSTITUTION: The material comprises a wire rope(11) having hooked portions(11a,11b); a spring wire(12) wound in coil form around the wire rope(11) having both ends secured to both ends of the rope(11) to apply compression stress corresponding to load; a turn-buckle(13) formed with circular ring portion(13a) to engage with the hooked portion(11b) and to endow tensile force to the wire rope(11) and the spring wire(12). The wire rope(11) and the spring wire(12) has increased tensile strength and anti-fatigue strength by shot-peening treatment to furnish compression stress by impacting small iron balls to surface of the reinforcement material.

Description

Reinforcement mixed with Wirerope and Spring for Concrete Structure and Repair Method using Technical}

The present invention relates to repairing and reinforcing aging or weakened concrete structures, in particular using the rigidity of the shot peening stainless steel wire, the strong tension of the wire rope and the individual tightening of the turnbuckle to ensure the reinforcement of the reinforcement. The present invention relates to a reinforcing material for a concrete structure in which a wire rope and a spring are combined to enhance the stability of the concrete structure by securing a tension force and improving a bonding force with a mortar filler, and to repair and reinforce a concrete structure using the same.

Various concrete structures constructed for civil construction are degraded due to the change in weather and the deterioration of concrete quality due to the action of various polluted water and compounds such as seawater, groundwater and rainwater.

Therefore, if a concrete structure is periodically subjected to safety diagnosis, and the damage is found to be less than the strength required by the structure or abnormal peeling, peeling, cracking, etc., the concrete structure will be repaired to improve the rigidity and load-bearing capacity of the structure. · Reinforcement work must be carried out.

Conventionally, as examples of techniques related to repair and reinforcement of concrete structures, techniques such as Korean Patent Laid-Open Publication No. 1999-024271 and 2002-0039389 have been disclosed.

These prior arts are methods to enhance the load-bearing capacity of concrete structures using stainless steel wire mesh assembled in the form of lattice. Stainless steel wire mesh acts as a reinforcing bar and adheres to reinforcing mortar to form a finishing layer. It is a construction method that behaves like a mother and exerts a reinforcing effect.

Structural principle of reinforcement according to these prior arts is the same principle of construction and structure of existing concrete, it is just to use the new reinforcement stainless steel wire mesh as a substitute for reinforcing bar and to form the cover thickness using reinforcing mortar .

Therefore, in the aspect of reinforcement due to the lack of rigidity and overload of aging reinforced concrete, the stainless steel wire mesh for reinforcing bars is attached to existing concrete by reinforcing mortar to increase the moment resistance of reinforcing steel that resists the tension of beam or slab. Will be used.

However, the prior art techniques for repairing and reinforcing concrete structures using wire mesh as described above depend on the tension state of the wire mesh attached to the concrete structure. There are disadvantages.

First, the wire mesh made of 1 roll (usually 33 strands) is tensioned and fixed at the same time, so it is impossible to guarantee the tension of individual mesh strands. There was a disadvantage of being reduced.

Second, when applied to the rough chipping surface of the damaged concrete spheres, there is a problem that the wire mesh is wrinkled along the uneven surface to reduce the reinforcing effect.

Third, since the wire mesh is manufactured in the form of a roll of approximately 30m in length and cut and used according to the construction length in the field, construction joints for the remaining consumption are necessarily accompanied, and weaknesses due to the joints are generated and the tensile strength is weak. There was a problem.

Fourth, both ends (1 to 2m) of the wire mesh to which the tensioner is pressed during construction has a problem that the tensile force is inevitably lost after removing the tensioner.

In addition, the prior art techniques for repairing and reinforcing concrete structures using wire mesh are factory-produced as a uniform form of wire mesh, so it is difficult to increase or decrease the amount of reinforcement for each section according to repair or reinforcement purposes, and cracks or weak parts in the structure If there is a member of the enlarged cross-section is to be installed over the entire period there was a very uneconomical problem.

In addition, since the wire assembled in the form of a mesh drifts down due to its own weight, it is difficult to reinforce a lower portion of a structure having an arcuate cross section such as a tunnel.

In addition, because the reinforcement surface (bridges, curved bridges, etc.) and the end line portion is not a sphere requires a separate cutting work is very troublesome and slow.

On the other hand, as another example of the technology related to the repair and reinforcement of the conventional concrete structure, as disclosed in Korean Patent Publication No. 10-0311054, fine silica sand or the like on the surface of carbon fiber, glass fiber or aramid fiber (aramid fiber) There is a repair and reinforcement method to increase the load capacity of concrete structures using fiber rod reinforcement impregnated with garnet aggregate.

As such, the repair and reinforcement method of concrete structures using fiber rod reinforcement has light fiber rod reinforcement, good mortar adhesion, high tensile strength, no corrosion, and the increase and decrease of reinforcement according to reinforcement purpose and cutting and construction There are several advantages such as being advantageous.

However, the repair and reinforcement method of the concrete structure using the fiber rods as described above had a number of problems due to the characteristics of the fiber rod material.

First, the fiber rod has a problem in that it is not easy to exert the effect of seismic resistance because it is easy to break (break even when folded by hand) when a strong impact is applied to the tensile force.

Second, since the fire resistance of the aramid carbon fiber rod is reduced, there is a risk that the fiber rod burns out in the event of a fire, and there is a problem in that the construction cost is increased due to the need for insulation mortar, fireproof coating, and the like.

Third, the end of the fiber rod is inserted into a stainless steel band or bracket, and fixed with taca pins or ties, so that there is a risk of pulling or shearing at the fixing part.

Fourth, when the construction surface is irregular, there is a problem in reducing the reinforcing effect because the fiber rod is installed bent.

Fifth, long spans or fibrous rods longer than 15m are not only difficult to transport and store, but also bend over a certain curvature, making construction almost impossible, resulting in excessive joint construction and tension transfer member and connection slip. .

Sixth, not only the pullout strength between the fiber rod and the mortar is uncertain, but the cross section of the fiber rod is wide, making it difficult to obtain a firm adhesive force with the old concrete.

Accordingly, the present invention has been made to solve the above-mentioned problems in the prior art, the object of the present invention is to use the rigidity of the spring wire and the strong tension of the wire rope and the individual tension of the turnbuckle to ensure the tension of the reinforcement It is to provide a reinforcement for concrete structures combined with wire ropes and springs, and a repair and reinforcement method for concrete structures using the same, which secures the structure and improves the bonding strength with the mortar filling material to maximize the rigidity and load capacity of the concrete structure. .

Another object of the present invention is to perform a short peening treatment of the base material of the wire rope and the spring wire, the reinforcement for the concrete structure combined with the wire rope and spring improved tensile strength and fatigue strength, and repair and repair of the concrete structure using the same To provide a reinforcement method.

Another object of the present invention can be introduced into the construction of a straight or flat section, as well as the construction of a curved or curved section, such as a reinforcement surface or an arcuate cross section, not a sphere, as well as a long section can be carried out without construction. The present invention provides a reinforcement for concrete structures in which wire ropes and springs are combined to greatly improve workability, and a repair and reinforcement method for concrete structures using the same.

1 is a perspective view of a reinforcing material according to a first embodiment of the present invention

Figure 2 is a perspective view of the reinforcing material according to a second embodiment of the present invention

Figure 3a and Figure 3b is a construction example of the planar and side cross-sectional state according to the preferred construction method of the present invention

Figure 4 is a construction example of the side cross-sectional state applying the preferred construction method of the present invention to the bridge

Figure 5 is a construction example of the side cross-sectional state applying the preferred construction method of the present invention to the arcuate tunnel

Figure 6 is a construction example of the side cross-sectional state applying the preferred construction method of the present invention to the quadrangular box structure

Figure 7a is a construction example of the side cross-sectional state applying the preferred construction method of the present invention to a PC beam bridge or steel beam beam bridge

7B is an enlarged plan view of lines A-A and B-B in FIG. 7A.

Figure 8 is a construction example of the side cross-sectional state according to another construction method of the present invention

Figure 9 is a construction example of a planar state in which the reinforcement superimposed in a lattice form concentrated in accordance with the present invention

Figure 10 is an installation example of the planar state in which the reinforcement is additionally installed parallel to the reinforcement according to the present invention

<Description of Symbols for Major Parts of Drawings>

10a, 10b: reinforcing material 11: wire rope 11a: one side ring

11b: other side ring portion 11c: wire assembly clip 12: spring wire

13: Turnbuckle 13a: Body 13b: Eye bolt

13c: round ring 14: second turn buckle 21: anchor bolt

22: washer 23: nut 24: connecting clamp

24a: mounting groove 25: fixing clip 26: retaining pin

C: Concrete Structure M: Mortar Finish

Reinforcing material for a concrete structure of the present invention for achieving the above objects has a predetermined length, the wire rope forming a closed one side and the other side ring forming a circle at both ends; A spring wire wound in the form of a coil along an outer circumference of the wire rope and fixed at both ends of the wire rope to apply compressive stress in response to a load; It is bound to the other ring portion of the wire rope, the free end is formed with a circular ring portion, the length is stretched and stretched turnbuckle to impart a tensile force to the wire rope and the spring wire;

In addition, the wire rope and the spring wire has a second feature that the tensile strength and the fatigue strength have been increased through a shot peening treatment to impart a compressive stress by colliding small steel balls sprayed at high speed to the material surface. do.

In addition, it is a third feature that the second turnbuckle having the same structure as the turnbuckle is further provided by being bound to one side ring portion of the wire rope.

Repair and reinforcement method of the concrete structure of the present invention for achieving the above objects a) remove the neutralized and degraded portion of the surface of the concrete structure to be repaired by chipping or grinding and washing with high pressure water, and then Applying step; b) preparing and preparing a plurality of reinforcing materials having the first feature or the second feature with a construction length; c) drilling holes in the concrete structure in which anchor bolts are to be fixed to the concrete structure at a design interval to be adjacent to the reinforcement along two rows of the reinforcement, and anchoring the anchor bolts; d) Insert the circular ring portion of one side ring portion of the wire rope and the other end portion of the wire rope provided at one end of the reinforcement to the anchor bolts of one side and the other row installed in step c) and fasten with washers and nuts. Then, first tightening the turnbuckle to tension the wire rope and the spring wire; e) applying a fixing pin to the fixing clip at regular intervals of the wire rope and the spring wire tensioned in step d) to fix the pin to the concrete structure, and further tightening the turnbuckle to correct the tension force; f) performing high-pressure water washing in the section in which the reinforcing material is installed through the steps, evenly applying the new and old adhesion reinforcing primer on the entire surface, and then forming a mortar finish layer according to the designed reinforcement finishing thickness; It is characterized by.

The present invention is another feature of the repair and reinforcement method of the concrete structure, a) to remove the neutralized and deteriorated surface of the concrete structure to be repaired by chipping or grinding, after washing with high pressure water, by applying a concrete surface reinforcement Giving step; b) preparing and preparing a plurality of reinforcing materials having a configuration of the third feature as a construction length; c) drilling holes in the concrete structure in which the anchor bolts are to be fixed at a design interval to which the stiffeners will be adjacent along two rows of the stiffeners, and installing anchor bolts; d) the turnbuckles and the second turnbuckles provided with the anchor bolts of the one row and the other row installed in step c), respectively, and fastened with washers and nuts, and then the turnbuckles and the second turnbuckles; Tightening the turnbuckle to primary tension the wire rope and spring wire; e) applying a fixing pin to the fixing clip at regular intervals of the wire rope and the spring wire tensioned in step d) to fix the pin to the concrete structure, and further tightening the turnbuckle to correct the tension force; f) performing high pressure water washing in the section in which the reinforcing material is installed through the above steps, evenly applying the new and old adhesion reinforcing primer to the entire surface, and then forming a mortar finish layer according to the designed reinforcing finishing thickness; Provide technical configuration.

And, in performing the repair and reinforcement method of the concrete structure according to the above features, to prepare a connection clamp that is formed repeatedly in the belt-shaped steel reinforcement mounting groove at a predetermined interval, the step d) and e) It characterized in that it further comprises a technical configuration for connecting the reinforcement to the mounting groove in the unit of 10 to 20 lines while orthogonal to the connecting clamp at a predetermined interval of the reinforcement during the step operation.

In addition, in performing the repair and reinforcement method of the concrete structure according to the above features, the central portion, the crack generating portion and the weak portion of the concrete structure after performing the step e), while orthogonal to the first installed reinforcement materials After the new reinforcement overlapping in the form of a lattice is excreted in the same manner as c) to e) and concentrated reinforcement, step f) is performed.

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

Figure 1 shows the reinforcing member and fixing member for a concrete structure according to the first embodiment of the present invention.

As shown in this figure, the reinforcing material 10a according to the first embodiment of the present invention has a wire rope 11 that forms a closed one side and the other side ring part 11a, 11b in a circular shape at both ends. A spring wire 12 wound around the outer circumference of the wire rope 11 so that both ends thereof are fixed to both ends of the wire rope 11 and the other ring portion of the wire rope 11. It consists of a turnbuckle 13 which is bound to 11b).

It is preferable to use stainless steel that does not corrode the above materials.

In particular, the wire rope 11 and the spring wire 12 are subjected to a shot peening treatment (or a shot blast treatment) for imparting compressive stress by colliding small metal balls sprayed at high speed to the material surface. It increases tensile strength and fatigue strength at the same time, and increases adhesion to construction mortar. The wire rope 11 has a tensile strength of 16,000 to 17,000 kg / ㎠ or more, and the spring wire 12 has a tensile strength of 7,000 to 8,000 kg / ㎠ Use the above.

One and the other ring portions 11a and 11b formed at both ends of the wire rope 11 are folded by overlapping both ends with a predetermined portion, and then the two overlapping lines are fixed with a U-shaped wire assembly clip 11c. It forms a closed ring part. At this time, before the wire assembly clip 11c is fastened to the other ring portion 11b, the turnbuckle 13 is first inserted and then fastened so that the wire rope 11 and the turnbuckle 13 are connected to the unitary body.

The spring wire 12 is wound in close contact with the outer surface of the wire rope 11 while maintaining a pitch of about 8 to 20 mm using a thickness about 1/3 of the wire rope 11. The spring wire 12 serves to secure the integration by increasing the bonding force with the mortar filler after installation.

In addition, the spring wire 12 maintains the linearity of the wire rope 11 by its elasticity (prevents crying or wrinkles when installed on the reinforcing surface) to improve the accuracy of the construction, after the construction Along with the rope 11, by applying a tensile force to the sphere to ensure the rigidity and load capacity of the structure.

The turnbuckle 13 is a constituent member which exerts a tensile force on the wire rope 11 and the spring wire 12 while the length is stretched by screwing.

In this embodiment, the turnbuckle 13 is composed of a body 13a and a pair of close eyebolts 13b screwed to both sides of the body 13a, each of the pair of eyebolts 13b. It consists of a left screw and a right screw, and a circular ring portion 13c is formed at the end of the eye bolt 13b.

The turnbuckle 13 is reduced in length as the two eye bolts 13b are moved together in the opposite direction as the body 13a is rotated in the forward and reverse directions, or it is increased while being moved together in the opposite directions of the two bolts.

On the other hand, reference numerals are fixing members used when installing the reinforcing material (10a), 21 is an anchor bolt, 22 washer, 23 is a nut, 24 is a connecting clamp, 24a is a mounting groove, 25 is a fixing clip, 26 is Represents a push pin.

Figure 2 shows a reinforcement for concrete structures according to a second embodiment of the present invention.

As shown in this figure, the reinforcing material 10b according to the second embodiment of the present invention has all the constitutions of the reinforcing material 10a of the first embodiment described above.

However, in the configuration of the reinforcement 10a according to the first embodiment, the reinforcement 10b according to the second embodiment has the same structure as the second turnbuckle 14 having the same structure as the turnbuckle 13. One side of the ring portion (11a) is bound to have a feature that is further provided.

Thus, the reinforcement (10b) is provided with two turnbuckles (13, 14) is effectively used in the case of a long section or construction period that requires a large tension in the reinforced concrete structure or when the construction error of the anchor bolt is large.

Figure 3a and Figure 3b is a construction state diagram to repair and reinforce the concrete structure using the reinforcing material (10a) according to the first embodiment configured as described above in accordance with the present invention.

With reference to these drawings, the preferable construction method of the repair / reinforcement method of the concrete structure which concerns on this invention is demonstrated.

First, the neutralized and deteriorated portions of the surface of the concrete structure C to be repaired are removed by chipping or grinding, followed by high pressure water washing.

Then, the concrete surface strengthening agent is applied to the concrete surface arranged as above.

Next, after cutting the factory-assembled short pinning wire rope 11 and the spring wire 12 to the construction length, the wire assembly clip 11c and the turnbuckle 13 are assembled at both ends to form a plurality of reinforcing materials ( Prepare 10a).

On the other hand, the reinforcing material (10a) by setting the construction length in advance in the factory as a finished product, or by preparing a short pinning processing wire rope (11) and spring wire (12) manufactured in the factory for wire assembly at any time necessary in the field The clip 11c and the turnbuckle 13 can be assembled and used, and the technical concept of the present invention is not changed by changing the production time.

After preparing the reinforcing material (10a) and then drilled holes in the concrete structure (C) to the anchor bolt 21 to be fixed at intervals designed along two rows facing each other in the direction coinciding with the main root of the concrete structure, the holes Anchor bolts 21 are fixed to them.

One side of the anchor bolt 21 installed as described above, the one end of the wire rope 11 provided at one end of the reinforcing material (10a) is inserted into the ring portion 11a and with a washer (22) and a nut (23) with a nut After the fastening, the circular bolt portion 13c of the turnbuckle 13 provided at the other end of the reinforcing materials 10a to the anchor bolts 21 of the other row is fastened with the washer 22 and the nut 23. The reinforcing material (10a) is installed in the same direction as the main root of the concrete structure (C).

At this time, the connecting clamp 24 is inserted into the rod portion near the one end portion 11a of the wire rope 11 and the turnbuckle 13 connected to unit the reinforcing material 10a in units of 10 to 20 lines. Work is done by lifting and installing the units.

The connection clamp 24 is prepared after the reinforcement mounting groove 24a is repeatedly formed at a predetermined interval on the strip-shaped steel and prepared before use. The connecting clamp 24 also serves to unite the reinforcing materials to install a good unit, but also has a function to enhance the reinforcing effect after installation.

Next, the turnbuckle 13 is tightened to primarily tension the wire rope 11 and the spring wire 12.

Thereafter, the fixing wire 25 is fixed to the concrete structure C by applying the fixing clip 25 at predetermined intervals of the tensioned wire rope 11 and the spring wire 12.

Then, the connecting clamps 24 are added to the rod portion of the reinforcing material 10a at intervals designed between the previously installed connecting clamps 24.

Then, while checking the reinforcement (10a) loosened tensile state to further tighten the turnbuckle 13 to ensure a complete tension state, and to confirm whether there is no protruding portion for the mortar finish and correct.

Next, high-pressure water washing is performed for the entire section in which the reinforcing material 10a is installed through the above processes, and the new and old adhesion enhancing primer is evenly applied to the entire surface.

Then, the alumina-based polymer mortar is filled in a shotcrete or plastering method over two or three times according to the designed reinforcement finish thickness to form a mortar finish layer (M).

After finishing the final surface as above, apply mortar for strengthening the surface finish, and give a wet curing for about 7 days to avoid direct sunlight and vibration.

The present invention repairs and reinforces the old or damaged concrete structure through the above work process, and finally repairs and reinforces the work by performing the surrounding cleanup work.

Figure 4 shows a construction example applying the above preferred construction method to the slab bridge or continuous bridge structure, Figure 5 shows a construction example applied to the arch tunnel structure, Figure 6 is a culvert or underground car diagram consisting of a quadrangular box shape The construction example applied to this is shown, and FIGS. 7A and 7B show the construction example applied to PC beam bridge or steel beam beam bridge with reference.

8 shows a construction example in which the concrete structure is repaired and reinforced using the reinforcing material 10b according to the second embodiment of the present invention.

The work process and method according to this construction example are almost the same as the preferred construction method described above. However, in carrying out the construction example, the reinforcing material 10b having two turnbuckles 13 and 14 is used. You only need to change the parts of the work.

That is, when fastening the reinforcing material (10b) to the anchor bolt 21, the turnbuckles provided at both ends of the reinforcing material (10b) to the anchor bolts 21 of one row and the other side fixed to the concrete structure (C) 13) and the circular ring portion 13c of the second turnbuckle 14 are fastened with the washer 22 and the nut 23, and then the turnbuckle 13 and the second turnbuckle 14 are tightened to wire rope 11 And only the portion that primarily tensions the spring wire 12.

The remaining work processes and methods are the same as the preferred construction method described above, so detailed description thereof will be omitted.

On the other hand, the repair and reinforcement method of the concrete structure according to the present invention can be carried out in parallel with the reinforcement of the other structures in addition to the construction examples described above, or it can be repaired and reinforced by transforming to various structural forms.

For example, in the case of a central part, a crack generating part, or a weak part which requires greater rigidity and load capacity than other parts of the concrete structure to be repaired, as shown in FIG. While the new reinforcement (10a) overlapping in the form of a grid is concentrated and reinforced to form a mortar finish layer (M), or as shown in Figure 10 additionally installed the reinforcement (10a) in parallel between the first installed reinforcement After the mortar finish layer (M) may be formed, or two concentrated reinforcement methods according to FIGS. 9 and 10 may be performed together.

As described above, the present invention utilizes the rigidity of the spring wire made of short peening treatment, the strong tension of the wire rope and the individual tightening of the turnbuckle to improve the firm tension of the reinforcement and the bonding force between the high strength mortar filler and the concrete structure. As a method for repairing and reinforcing, the present invention has the following effects.

First, since the spring wire that gives elasticity to the stiffness wraps the wire rope, the tensile strength and the fatigue strength of the stiffener are high.

Second, since the wire rope and the spring wire is shot peening (or sand blasted), the adhesion to the mortar filler is good.

Third, because the spring wire wraps the wire rope, it maintains the basic linearity and reinforces the reinforcement individually by using a turnbuckle to fix it so that it can be effectively bonded to the concrete sphere while coping with the bending and tension of the structure. Less bending and bending of tension member

Fourth, since the reinforcement can be completed through the factory half assembly and on-site semi-assembly, it is possible to construct long sections without construction joints.

Fifth, simply install both ends of the reinforcement reinforcement on the anchor bolts and fasten them with nuts and use a turnbuckle to relax, so installation is easy and quick. Construction error can be reduced.

Sixth, it is easy to increase and decrease the amount of reinforcement such as additional reinforcement and intensive reinforcement of weak areas according to the purpose of repair and reinforcement.

As described above, the present invention is a very useful invention that can improve the stability of the concrete structure at the maximum cost, easy and fast construction, economical construction.

Claims (7)

A wire rope 11 having a predetermined length and forming one and the other ring portions 11a and 11b closed in a circular shape at both ends; A spring wire 12 wound around the outer circumference of the wire rope 11 so that both ends thereof are fixed to both ends of the wire rope 11 and apply compressive stress in response to a load; Bind to the other ring portion 11b of the wire rope 11, a circular ring portion 13c is formed at its free end, and the tension is applied to the wire rope 11 and the spring wire 12 while the length is stretched Turnbuckle 13 to be; reinforcement for concrete structures, characterized in that the wire rope and the spring composite. The wire rope 11 and the spring wire 12 have tensile strength and fatigue through a shot peening process that imparts a compressive stress by colliding small steel balls sprayed at high speed to the material surface. Reinforcement for concrete structures, a composite wire rope and spring, characterized in that the strength is increased. The wire according to claim 1 or 2, wherein the second turnbuckle (14) having the same structure as the turnbuckle (13) is further attached to one loop (11a) of the wire rope (11). Reinforcement material for concrete structure which combined rope and spring. a) removing the neutralized and deteriorated portion of the surface of the concrete structure (C) to be repaired by chipping or grinding, washing with high pressure water, and then applying a concrete surface hardener; b) preparing and preparing a plurality of reinforcing materials (10a) having a configuration of claim 1 or 2 to the construction length; c) After drilling the holes in the concrete structure (C) to the anchor bolt 21 to be fixed to the two rows to match the length of the reinforcement (10a) to the design interval to be adjacent to the anchor bolt (an anchor bolt ( 21) driving the installation; d) provided at one end of the wire rope 11 provided at one end of the reinforcing material (10a) to the anchor bolts 21 of the one side and the other side of the row provided in step c) Insert the circular ring 13c of the turnbuckle 13 and fasten it with the washer 22 and the nut 23, and then tighten the turnbuckle 13 to tension the wire rope 11 and the spring wire 12 first. step; e) fixing the fixing pins 25 at fixed intervals of the wire rope 11 and the spring wire 12 tensioned in the step d) and fixing the fixing pins 26 to fix them to the concrete structure C, and then turnbuckles Further tightening (13) to correct tension; f) performing high pressure water washing in the section where the reinforcing material (10a) is installed through the steps, evenly applying the primer for reinforcing the old and new adhesion to the entire surface, to form a mortar finish layer (M) according to the designed reinforcement finish thickness Repair and reinforcement method of the concrete structure, characterized in that the step is carried out. a) removing the neutralized and deteriorated portion of the surface of the concrete structure (C) to be repaired by chipping or grinding, washing with high pressure water, and then applying a concrete surface hardener; b) preparing and preparing a plurality of reinforcing materials (10b) having a configuration of claim 3 to the construction length; c) After drilling the holes in the concrete structure (C) to the anchor bolt 21 to be fixed to the two rows to match the length of the reinforcement (10b) to the design interval to be adjacent to the anchor bolt (an anchor bolt ( 21) driving the installation; d) the circular ring portion 13c of the turnbuckle 13 and the second turnbuckle 14 provided at both ends of the reinforcing material 10b to the anchor bolts 21 of one row and the other row installed in the step c), respectively. Inserting and fastening with the washer 22 and the nut 23, and then tightening the turnbuckle 13 and the second turnbuckle 14 to first tension the wire rope 11 and the spring wire 12; e) fixing the fixing pins 25 at fixed intervals of the wire rope 11 and the spring wire 12 tensioned in the step d) and fixing the fixing pins 26 to fix them to the concrete structure C, and then turnbuckles (13) or further tightening the second turnbuckle 14 to correct tension; f) performing high pressure water washing in the section where the reinforcing material (10b) is installed through the above steps, evenly applying the new and old adhesion reinforcing primer to the entire surface, and then to form a mortar finish layer (M) according to the designed reinforcement finish thickness Repair and reinforcement method of the concrete structure, characterized in that the step is carried out. The method of claim 5, wherein the reinforcing material mounting groove (24a) in the belt-shaped steel to prepare a connection clamp 24 is formed repeatedly at a predetermined interval, and the reinforcing material (10a, 10b) during the steps d) and e) Repairing and reinforcing the concrete structure, characterized in that by connecting the connection clamp 24 at regular intervals of the reinforcement (10a, 10b) by inserting into the mounting groove (24a) in units of 10 to 20 lines. According to claim 5 or 6, wherein the center portion, the crack generating portion and the weak portion of the concrete structure (C), after performing the step e), and first orthogonal to the installed reinforcement (10a, 10b) in a grid form The overlapping new reinforcing material (10a, 10b) is excreted and concentrated in the same manner as the above c) to e), and after the step f) repair and reinforcement method of the concrete structure characterized in that the step.