KR101818153B1 - Strengthening Apparatus for Reinforced Concrete Sturcure And Strengthening Method Using the Same - Google Patents

Abstract

The present invention relates to a method of reinforcing a reinforced concrete (FRP) rebar by connecting a reinforced bar (reinforcing bar) and a plurality of FRP rebars by removing a damaged section of a concrete structure using a reinforcing fastener, The present invention relates to a concrete structure reinforcing apparatus for reinforcing concrete structures reinforced by a reinforced concrete structure and a reinforced concrete structure reinforced by the reinforced concrete structure, A fastener including a fastener body having a fixing part formed on one side surface thereof and a rebounding part connected to one side of the fastener body while being connected thereto; A reinforcement rib installed to pass between the fastener body and the rib fastening portion; And a filler filled in the groove portion of the concrete structure so that the fastener and the reinforcing rib are embedded.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforced concrete structure reinforcing apparatus and a reinforcing method using the reinforced concrete structure,

More particularly, the present invention relates to an apparatus and a reinforcing method for reinforcing a concrete structure, and more particularly, to a method of reinforcing a reinforced concrete (FRP) fastener, and reinforced by reinforcing the damaged section by filling with a cross-sectional restorative material, and a reinforcing method using the reinforced concrete structure.

As the concrete structure is subjected to drying shrinkage after construction, or as a load is applied to the structure, microcracks are generated at the interface between the mortar and the aggregate and gradually develop into cracks in the structure. The tensile strength is exceeded.

Cracks in concrete structures may cause structural damage, durability deterioration, appearance damage, corrosion of reinforcing steel and deterioration of waterproofing performance. Therefore, efforts must be made to prevent cracks in the design phase, It is required to apply the reinforcement method so that the structure can effectively exhibit its performance without cracks occurring or progressing during construction or use.

Conventionally, in order to reinforce a concrete structure, a method of fixing a glass fiberboard and a steel plate with an anchor bolt on the surface of a structure, a method of burying a carbon plate in a structure or bonding a carbon plate to a surface of a structure has been applied. However, in the case of the reinforcing method using a glass fiberboard or a steel sheet, the weight of the reinforcing material itself is so heavy that it is difficult to construct and the effect of reinforcement is deteriorated and it is difficult to bond the glass fiberboard and the dissimilar material called steel sheet. May be damaged.

Further, in the case of the method of filling the carbon plate, if the strength of the carbon plate is not sufficiently secured, the reinforcing effect can not be obtained, the concrete can be seized during the filling process, and the reinforcing bars in the concrete structure may be damaged. In the case of the method in which the carbon plate is adhered to the surface of the structure, it is difficult to maintain the adhesiveness uniformly between the carbon plate and the structure, There is a problem with the accuracy of

In order to solve such a problem, the composite FRP reinforced plate which is light in weight and maximizes the adhesion performance between the heterogeneous materials is fixed on the surface of the concrete structure in the registered patent No. 10-1012807, A reinforcement method capable of improving bonding reliability is disclosed.

However, the conventional technique of reinforcing a concrete structure using an anchor or a mechanical fastening device inevitably causes an anchor hole to be drilled directly on the reinforcing surface, which is a lower end portion of the concrete, so that the existing structure is damaged. Concentration in the surrounding concrete may cause detachment and destruction of the coated concrete.

In this way, existing anchor-based system reinforcement methods have plate corrosion caused by drilling anchor holes in plates used as reinforcement plates, and corrosion problems caused by part of anchors and bolts exposed to the outside.

In addition, Japanese Patent Application No. 10-0530453 discloses a structure in which a damaged portion is removed from a lower side of a concrete structure, holes are formed at regular intervals, and anchor made of a chemical or stainless steel material is provided. A section of a concrete structure to be repaired is disclosed.

Japanese Patent Application No. 10-1404487 discloses a method of repairing and reinforcing a structure using a basalt fiber strand and a ratchet wheel anchor bolt. The damaged portion is chipped and the surface is trimmed to provide a ratchet wheel anchor bolt, And then rotating the ratchet wheel at the opposite end to give a certain tensile force to the fiber strands and finishing with a mortar composition.

However, there is a limit to the effect of disadvantages and reinforcements which are easy to separate from the existing concrete structure. In addition, there is a difficulty in maintenance of the stiffener when the stiffener is embedded on the restoration surface or adhered with adhesive.

Registration No. 10-1012807 (registered on Jan. 27, 2011) Registration No. 10-0530453 (registered on November 16, 2005) Registration No. 10-1404487 (registered May 30, 2014)

Wu, Y. F., Yan, J. H., Zhou, Y. W. and Xiao, Y. (2010). "Ultimate strength of reinforced concrete beams retrofitted with hybrid bonded fiber-reinforced polymer," ACI Structural Journal, Vol. 107, No. 4, pp. 451-460.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a reinforcing fastener and reinforcing fiber reinforced plastic (FRP) rebars which are formed by removing a damaged section of a concrete structure, , Which is a method of reinforcing the FRP rebar in existing concrete by reinforcing the damaged section by filling the damaged section with the restorative material, and solving various problems of the Near Surface Mounting method, And a reinforcing method using the concrete structure reinforcement device.

According to another aspect of the present invention, there is provided a concrete structure reinforcing apparatus comprising: a reinforcing bar fixing part installed to surround a reinforcing bar exposed to the outside through a groove formed by removing a damaged section of a concrete structure, A fastener including a fastening portion coupled to one side of the fastener body while being connected thereto; A reinforcement rib installed to pass between the fastener body and the rib fastening portion; And a filler filled in the groove portion of the concrete structure so that the fastener and the reinforcing rib are embedded.

A method of reinforcing a concrete structure using the concrete structure reinforcing apparatus of the present invention, as described above,

(a) exposing a reinforcing bar to the outside by removing a damaged section of the concrete structure;

(b) joining the reinforcing bar of the fastener body to the externally exposed reinforcing bar;

(c) installing a reinforcing rib so as to pass through one surface of the fastener body;

(d) fixing a reinforcing lever by coupling a fastening portion to one surface of the fastener body; And,

(e) filling a filler material in the groove portion from which the damaged section of the concrete structure is removed;

And a control unit.

According to the present invention, the filling material filled in the groove portion in which the damaged section of the concrete structure is removed as the endless restoring material is kept firmly attached to the concrete structure by the reinforcing ribs, so that the filling material peels off .

In particular, since a plurality of reinforcing ribs (preferably FRP ribs) firmly supporting filler materials and reinforcing action are firmly connected to the reinforcing bars of the concrete structure by the fasteners, the strength of the restoration section is greatly increased, It is possible to minimize the size of the filler and to reduce the filling of the filler.

In addition, there is an advantage in that the disadvantage of being susceptible to brittle fracture can be improved by dispersing the stress by a plurality of reinforcing ribs.

In addition, since there is no need to drill anchor holes in the restoration section, it is possible to solve the problems of damage and construction of concrete structures due to anchor holes.

1 is a perspective view of a concrete structure to which a concrete structure reinforcing apparatus according to an embodiment of the present invention is applied.
2 is a perspective view of a concrete structure reinforcing apparatus according to an embodiment of the present invention.
3 is an exploded perspective view of the concrete structure reinforcing apparatus of FIG.
4 is a sectional view of the concrete structure reinforcing apparatus of FIG.
5 is a plan view showing an example of a reinforcement structure of a concrete structure by a concrete structure reinforcing apparatus according to the present invention.
6 is a plan view showing another example of a reinforcement structure of a concrete structure by a concrete structure reinforcing apparatus according to the present invention.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of a concrete structure reinforcing apparatus and a reinforcing method using the same according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, a concrete structure reinforcing apparatus according to an embodiment of the present invention includes reinforcing bars 2 (see FIG. 1) exposed through a groove 3 formed by removing a damaged section of a concrete structure 1 A reinforcing rib 20 installed so as to pass through one side of the fastener 10 and a reinforcing rib 20 connected to the reinforcing rib 20 so that the fastener 10 and the reinforcing rib 20 are embedded. And a filler (30) filled in the groove (3) of the concrete structure (1).

The fastener 10 is a component functioning to connect the reinforcement 2 embedded in the concrete structure 1 and the reinforcing ribs 20 and is connected to the outside through the groove 3 of the concrete structure 1. [ A fastener body 11 formed on one side of a reinforcing bar 13 provided to surround the exposed reinforcing bar 2 and a rebounding part 12 coupled to one side of the fastener body 11 .

The fastener body 11 has a substantially rectangular parallelepiped block shape and has a reinforcing bar fixing portion 13 integrally formed on one side thereof to be coupled to the reinforcing bar 2. The reinforcing bar fixing part 13 includes a first fixing block formed integrally with one side surface of the fastener body 11 and having an arcuate first reinforcing steel receiving groove 13c for receiving a part of the reinforcing bar 2 And a second fixing block 13b formed with a second reinforcing bar receiving groove 13d for receiving the remaining portion of the reinforcing bars 2 and coupled to the first fixing block 13a. The second fixing block 13b may have a semicircular ring shape and may be coupled or welded to the outside of the first fixing block 13a by means of an adhesive or a fastening means such as a screw.

A plurality of first rib-installing grooves 14 are formed at regular intervals on the other side surface of the fastener body 11 in the form of a semi-circular groove supported by a part of the reinforcing ribs 20 inserted therein.

A plurality of second rib-installing grooves (12) in the form of a semicircular groove are formed on one side of the reinforcement part (12) fixed to one side of the fastener body (11) so that the remainder part of the reinforcing rib (20) (15) are formed at regular intervals. The fastener body 11 has a substantially rectangular parallelepiped shape and is fixed to one side of the fastener body 11 while fixing the reinforcing rib 20 together with the fastener body 11. [

The fastener body 11 and the rebound portion 12 are preferably made of a metal material and can be coupled to each other by screws 16, bolts, adhesives, or the like.

The surface of the fastener body 11 and the rib 12 is coated with titanium so that the surface of the fastener body 11 is roughly surface-treated so as to increase the binding force with the reinforcing bars 2 and the reinforcing ribs 20, .

The reinforcing ribs 20 are preferably made of fiber reinforced plastic (FRP) and are preferably FRP-rebar. As shown in FIG. 5, a plurality of reinforcing ribs 20 are arranged in line in the grooves 3 of the concrete structure 1, So as to reinforce the strength of the damaged section of the concrete structure 1. As shown in Fig.

The filler 30 may be made of cement mortar, cement paste, or the like, which is filled in the groove 3 formed by removing the damaged end face of the concrete structure 1.

A method of reinforcing a concrete structure using the concrete structure reinforcing apparatus of the present invention will be described below.

First, the damaged section of the concrete structure 1 is removed to expose the reinforcing bar 2 to the outside. The reinforcing bar 2 may be a cast iron or a reinforcing bar.

So that the reinforcing bars 2 are inserted into the first reinforcing bar receiving grooves 13c of the first fixing block 13a of the fastener body 11 when the reinforcing bars 2 are exposed by removing the damaged section of the concrete structure 1. [ The fastener body 11 is arranged and the second fastening block 13b on the opposite side of the fastener body 11 is fastened to the first fastening block 13a using an adhesive or a fastening means such as a screw, The fastener body 11 is engaged.

The reinforcement rib 20 is inserted into the first rib installation groove 14 formed on the other side surface of the fastener body 11 and the reinforcement member 12 is inserted into the fastener body 11 The reinforcement ribs 20 are firmly fixed to the fastener 10 when the reinforcing ribs 20 are pressed against the fastener body 11 by being fastened to one side by fastening means such as screws 16.

The fastener 10 is fixed to the reinforcing bar 2 and a plurality of reinforcing ribs 20 are fixed to the fastener 10 so that the reinforcing bars 2 and the reinforcing ribs 20 are connected to each other, 1 is filled with a filling material 30 such as cement mortar and cured, the repair and reinforcement of the concrete structure 1 is completed.

The filling material 30 filled in the groove 3 from which the damage end face of the concrete structure 1 is removed as the end face restoring material is kept firmly attached to the concrete structure 1 by the reinforcing ribs 20 And the phenomenon that the filler 30 is peeled off or removed after maintenance and reinforcement does not occur.

In addition, since there is no need to drill anchor holes in the restoration section, it is possible to solve the problems of damage and construction of concrete structures due to anchor holes.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined by the appended claims. And it is to be understood that such modified embodiments belong to the scope of protection of the present invention defined by the appended claims.

1: Concrete structure 2: Rebar
3: groove 10: fastener
11: fastener body 12:
13: reinforcing bar fixing portion 13a: first fixing block
13b: second fixing block 13c: first reinforcing bar receiving groove
13d: second reinforcing bar receiving groove 14: first rib installing groove
15: second rib installation groove 16: screw
20: Rebar for reinforcement 30: Filler

Claims (8)

A fastener main body 11 formed on one side of a reinforcing bar fixing part 13 installed to surround a reinforcing bar 2 exposed to the outside through a groove 3 formed by removing a damaged section of the concrete structure 1, A fastener (10) including a rebound portion (12) joined to one side of the fastener body (11) while being connected thereto;
A plurality of reinforcing ribs 20 made of a fiber reinforced plastic (FRP) and disposed inside the groove 3 so as to pass between the fastener body 11 and the rib fixing portion 12 in the form of a rod, ;
A filler (30) filled in the groove (3) of the concrete structure (1) so that the fastener (10) and the reinforcing rib (20) are embedded;
Lt; / RTI >
The reinforcing bar fixing part 13 includes a first fixing block formed integrally with one side surface of the fastener body 11 and having an arcuate first reinforcing steel receiving groove 13c for receiving a part of the reinforcing bar 2 And a second fixing block 13b formed with a second reinforcing bar receiving groove 13d for receiving the remaining portion of the reinforcing bar 2 and coupled to the first fixing block 13a,
A plurality of first ribs are formed at one side of the fastener body 11 to be spaced apart from each other by a part of the reinforcing ribs 20 inserted therein. Wherein a plurality of second rib-installing grooves (15), which are supported while inserting the remaining part of the reinforcing ribs (20), are formed at intervals on the surface of the fixed rib fixing part (12). delete delete 2. The concrete structure reinforcement apparatus according to claim 1, wherein the fastener body (11) and the rebound portion (12) are coupled to each other by screws or bolts. The concrete structure reinforcement apparatus according to claim 1, wherein the surface of the fastener body (11) and the ribs (12) are coated with titanium. 6. The reinforced concrete structure as claimed in claim 5, wherein the surface of the titanium-coated fastener body (11) and the surface of the rebar part (12) are roughly surface-treated. The concrete structure reinforcement apparatus according to claim 1, wherein a plurality of the reinforcing ribs (20) are arranged in a lattice form inside the grooves (3) of the concrete structure (1). A method for reinforcing a concrete structure using a concrete structure reinforcing apparatus according to any one of claims 1 to 7,
(a) exposing the reinforcing bars (2) to the outside by removing the damaged section of the concrete structure (1);
(b) coupling the reinforcing bar 13 of the fastener body 11 to the externally exposed reinforcing bars 2;
(c) installing a reinforcing rib (20) so as to pass through one surface of the fastener body (11);
(d) fixing the reinforcing ribs (20) by fitting the ribs (12) to one surface of the fastener body (11); And,
(e) filling the filler material (30) in the groove (3) where the damaged section of the concrete structure (1) is removed;
And a reinforcing method of the concrete structure.

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