KR19990019540A - Structure reinforcement method with joint anchor at end of stiffener - Google Patents

Abstract

In order to increase the load capacity of a concrete structure, a reinforcing method of reinforcing the structure by attaching a steel plate or other suitable reinforcing materials such as carbon fiber is disclosed. Structure reinforcement method according to the reinforcement of the present invention, the step of forming a groove on the surface of the structure to be reinforced at the end position of the reinforcement, inserting the reinforcement into the groove and the groove is inserted into the reinforcement Injecting epoxy into the reinforcement, thereby increasing the adhesion strength of the reinforcing member end and ultimately increasing the load capacity of the reinforced structure.

Description

Structure reinforcement method with joint anchor at end of stiffener

According to the present invention, in a structure such as a concrete structure, a steel sheet or other suitable reinforcement material is used in a part of a beam or slab in which a collapse phenomenon or collapse is expected due to cracking or deterioration of a beam, or a load or slab that needs to increase load capacity. It relates to a reinforcement method to reinforce the structure by attaching.

Usually, the destruction of a member reinforced with steel sheets, carbon fibers, glass fibers, etc. is caused by 1) the sinusoidal failure of the raw concrete starting at the end of the reinforcing member, and 2) the shear failure occurring in the original concrete running parallel to the reinforcement. 3) adhesion failure at the interface of epoxy and raw concrete starting at the end of the reinforcement member, 4) shear failure of the epoxy layer, 5) adhesion failure between the epoxy layer and the reinforcement, and 6) reinforcement resulting from the lack of reinforcement It is divided into six types of flexural tensile failure including

In the case of reinforcing members, the failure of 3), 4) and 5) types of epoxy falling off or cracking of epoxy is rarely generated when proper quality epoxy is applied. In addition, 6) type of fracture that occurs when the amount of reinforcement is insufficient rarely occurs in the case of steel sheet, and other reinforcement can be solved by increasing the amount of reinforcement through proper design. However, the failure type of 2) is caused by the decrease of the surface strength of the original concrete and the concentration of shear stress at the end of the reinforcing member, which is caused by cracking at the end before the reinforcing member exerts its design load. Will be. The occurrence of adhesion failure at this end means that the reinforcement is not functioning properly, and therefore, a solution that can solve or alleviate this problem must be taken. If attachment failure at the end of such stiffeners can be prevented through appropriate methods, ultimately, destruction of 1) occurs. Even when the shear reinforcement is combined, the fracture along the edge at the end of the shear reinforcement is the most representative failure, and since the shear reinforcement itself has a short attachment length, the failure starts from the attachment failure at the end. In the case of the construction method, the development of a reinforcement method that can prevent end fracture is the most important problem that must be solved urgently.

The most typical of the reinforcement method is the reinforcement method of steel plate attachment, which is injection method and compression method. For carbon fiber or glass fiber, the crimping method is the representative reinforcement method, and the injection method is used for reinforcing steel plate. It is a method of injecting epoxy resin therebetween at intervals of about 2 to 5 millimeters (mm) from existing structures. The injection method is widely used in Korea. This is a construction method that is often used because it is difficult to use the crimping method because the spacing between the reinforcement and the existing structure is not constant because the construction state of the existing structure is often poor. Steel plate crimping is a method of directly attaching reinforcement to the structure by applying epoxy between the surface of the structure and the adhesive surface of the reinforcement, which is widely used in advanced foreign countries. Because of this, it is possible to attach the reinforcing member directly to the structure. In addition, the crimped reinforcement method using carbon fiber or glass fiber is similar to the crimping method of steel sheet, but since the reinforcement itself is not rigid, construction is being conducted in a similar way to wallpaper wallpaper.

All of these adhesive reinforcement methods are appropriately cut and processed to reinforce the construction. Since the existing methods show various problems and brittle fractures mentioned above, the present invention solves or at least mitigates these problems. A new concept of end reinforcement is proposed. In the case of attachment reinforcement, it is suggested to propose a method to disperse and weaken the stress generated in the raw concrete at the end of the reinforcement, to prevent the occurrence of breakage at the end of the reinforcement, and to show the design performance of the reinforcement. It is an object of the invention.

The reinforcement method for reinforcing the structure is mainly used reinforcement method using a steel plate and reinforcement method using a special fiber material, the reinforcement method using a steel plate is difficult to work due to the heavy weight of the steel sheet, but the material cost is relatively low, special fiber material The reinforcing method using the method has a disadvantage that it takes a lot of material cost because the price of the special fiber material is higher than that of the steel sheet, but it is easy to work because it is lighter than the steel sheet. Recently, a reinforcing method using such a special fiber material as a reinforcing material has been widely used. In addition to carbon fiber, there are various kinds of special fiber materials with excellent engineering performance, such as glass fiber, boron fiber, Keveler fiber, aramid fiber, etc. Carbon fiber is the most representative type of fiber used in construction sites.

In connection with the repair and reinforcement of the structure, a patent application has been published or published in Korea. First of all, the Korean Patent Publication No. 95-9058 attaches a reinforcement plate to the bottom of an existing beam and can double shear reinforcement at its end. A method of reinforcing the slab floor with a carbon fiber sheet is proposed in the reinforcing method of the form in which several reinforcing plates are attached, and Korean Patent Publication No. 96-23523 filed by Shobond, a Japanese reinforcing company . Korean Patent Publication No. 96-14559, filed by Tonen, a Japanese carbon fiber producer, shows how to reinforce concrete slabs using carbon fiber sheets. It shows how to divide the area into reinforcements. Another Korean Patent Publication No. 96-23520 filed by Showbond discloses a method for reinforcing the cement of the slab top plate.

1 illustrates a concrete structure reinforced using a conventional reinforcement method. Referring to Figure 1, the concrete structure 110 is reinforced by using a conventional reinforcement method, at the bottom of the concrete structure 110, for example, the reinforcement 112, such as a reinforcement plate or carbon fiber sheet at a slight gap. After placing and placing, the epoxy layer 114 is hardened by injecting epoxy between the concrete structure 110 and the reinforcing material 112 and is reinforced by attaching the reinforcing material 112.

When the load (A) acts on the concrete structure 110 reinforced by the reinforcement method above, the action of the force as shown in the enlarged illustration (B) occurs on the interface, cross-sectional view (B) of the interface for the purpose of understanding For reference, tensile forces (T ₁ , T ₂ ) act on both ends of the microelement of the reinforcing member 112 attached to the lower end by the load (A), and the tensile forces (T ₁ , T ₂ ) is a shear force (V) is a force of the same magnitude and opposite direction between the parallel planes adjacent to each other. This shear force reaches a maximum value at the end of the reinforcement. If the attachment of the reinforcement by the external load is not broken, the sinusoidal tension is generated in combination with the tensile stress acting on the bottom of the structure. In this case, when the sinusoidal tension acting on the concrete becomes larger than the tensile strength of the concrete, cracks occur in the concrete, and the cracks cause adhesion failure or sinusoidal fracture at the end (D). This breakdown proceeds abruptly throughout the reinforcement 112 so that the reinforcement 112 is no longer acting to increase the load capacity of the structure as the reinforcement 112 is separated from the concrete structure 110. As described above, the conventional reinforcement method using the reinforcing material has a disadvantage in that the drop-off easily occurs at the end (D) by the shear force acting on the concrete.

The technical problem to be achieved by the present invention is to provide an anchor through the joint and the reinforcement insert at the end of the reinforcement to increase the adhesion at the end of the reinforcement to increase the adhesion strength of the attached reinforcement.

1 is a perspective view of a concrete structure reinforced using a conventional reinforcement method.

2 is a perspective view of a concrete structure reinforced by a reinforcing method according to an embodiment of the present invention.

3 is a bottom view of FIG. 2.

4 is a side view of FIG. 2.

5 to 6 is a bottom view of a concrete structure reinforced by a reinforcement method according to other embodiments of the present invention.

* Explanation of symbols for main parts of the drawings

120, 130, 140 ... concrete structures, 122 ...

124 pieces of reinforcing fiber, 132, 142 reinforcement insert grooves,

126, 136, 146 ... reinforcement plate

Structural reinforcement method by the reinforcement of the present invention to achieve the above object, in the reinforcement method of attaching and reinforcing the reinforcement to the structure, in order to increase the adhesion of the end of the reinforcement, the structure to be reinforced at the end position of the reinforcement Forming a groove on the surface of the groove to a predetermined depth; Inserting a reinforcement into the groove; And injecting epoxy into the groove into which the reinforcing material is inserted.

In addition, the groove is preferably formed to form a straight line, X-shaped cross, V-shape in consideration of the processing characteristics of the structure, the adhesive properties of the reinforcement, or the load applied to the structure.

In addition, the reinforcing material inserted into the groove is preferably carbon fiber, aramid fiber, glass fiber, or Kevlar fiber.

Hereinafter, with reference to the accompanying drawings will be described preferred embodiments of the reinforcing method by the reinforcing material attached according to the present invention.

Figure 2 is a perspective view of a concrete structure reinforced by a reinforcement method according to an embodiment of the present invention, Figure 3 and Figure 4 is a bottom view and a side view of Figure 2, respectively. Referring to Figure 2, the concrete structure 120 reinforced by the reinforcement method according to an embodiment of the present invention forms a linear groove 122 in the circular concrete structure of the end portion of the piece of carbon fiber in the groove 122 formed The 124 is inserted and then reinforced by injecting epoxy into the groove 122 into which the carbon fiber piece 124 is inserted and adhering the reinforcing plate 126 with an adhesive. 3 shows that a plurality of pieces of carbon fiber 124 are inserted in a line and arranged in a line, and FIG. 4 shows that a piece of carbon fiber 124 is inserted into a groove 122 formed on a circle concrete structure. It was shown.

When the concrete structure 120 reinforced as described above acts as an anchor as the carbon fiber pieces 124 are inserted into the grooves 122 formed at the end, and the reinforcing plate 126 is directly attached to the original concrete, Compared with the increase in the adhesive strength of the reinforcing plate 126 is to increase the load capacity of the concrete structure (120).

5 and 6 show a bottom view of the concrete structure reinforced by the reinforcing method according to another embodiment of the present invention, respectively. 5 and 6, the concrete structure (130, 140) reinforced by the reinforcement method according to an embodiment of the present invention is to form a groove in the circular concrete structure of the end portion formed carbon fiber, aramid fiber, It is reinforced by inserting a reinforcement such as a piece of glass fiber or Kevlar fiber and injecting epoxy into the groove to form reinforcing material insertion grooves 132 and 142 and then adhering the reinforcing plates 136 and 146 with an adhesive. . In the embodiment of FIG. 5, the reinforcing material insertion groove 132 is formed in an X-shape shape as shown, and in the embodiment of FIG. 6, it is formed in a V-shape.

Concrete structures 130 and 140 reinforced as described above have the reinforcement insert grooves 132 and 142 formed at the end acting as anchors so that the reinforcing plates 136 and 146 directly to the original concrete as described in the embodiment of FIG. 2. The adhesion strength of the reinforcement plates 136 and 146 is increased compared to the case of attachment, thereby increasing the load capacity of the concrete structures 130 and 140, and in particular, the orientation of the structure, the adhesive properties of the reinforcement, or the load applied to the structure. In consideration of characteristics, the shape of the reinforcement insert grooves 132 and 142 may be selectively applied.

As described above, the structure reinforcement method by the reinforcement of the present invention, the adhesion strength of the reinforcement is increased, ultimately induce the breakdown of the reinforcement when the failure to increase the load capacity of the reinforced structure, and can induce predicted failure Therefore, the reinforcement design is possible, and can be reinforced in various forms in consideration of the orientation of the structure, the adhesive properties of the reinforcement, or the characteristics of the load applied to the structure.

Claims (3)

In the reinforcement method of attaching and reinforcing the reinforcement to the structure, in order to increase the adhesion of the end of the reinforcement, Forming grooves at a predetermined depth on a surface of the structure to be reinforced at an end position of the reinforcement; Inserting a reinforcement into the groove; And Reinforcing method comprising the step of injecting epoxy into the groove is inserted into the reinforcing material. The method of claim 1, wherein the groove is formed to form a straight, cross-shaped, cross-shaped, V-shaped in consideration of the processing characteristics of the structure, the adhesive properties of the reinforcement, or the load applied to the structure. Reinforcement method. The reinforcing method of claim 1, wherein the reinforcing material inserted into the groove is carbon fiber, aramid fiber, glass fiber, or Kevlar fiber.