KR200283095Y1 - Strengthening structure using cfrp(carbon fiber reinforced polymer) plates & steel anchorage with formed shear key - Google Patents

Abstract

The present invention relates to a carbon plate reinforcement structure using a steel anchorage formed with a shear key, and more specifically, a steel plate having a shear key to improve reinforcement performance by attaching a thin plate-shaped carbon plate to a structure without corrosion and light weight. The present invention relates to a carbon plate attachment reinforcement structure using an anchorage.

The present invention, in the reinforcement of the structure, by applying a number of rows of epoxy adhesive to the surface of the bridge beam or slab, and then reinforcing by attaching a carbon plate to the epoxy adhesive, while fixing the both ends of the carbon plate as a fixing means Provided is a carbon plate attachment reinforcement structure using a steel anchorage formed with a shear key, characterized in that fixed with a sphere.

Description

STRENGTHENING STRUCTURE USING CFRP (CARBON FIBER REINFORCED POLYMER) PLATES & STEEL ANCHORAGE WITH FORMED SHEAR KEY}

The present invention relates to a carbon plate reinforcement structure using a steel anchorage formed with a shear key, and more specifically, a steel plate having a shear key to improve reinforcement performance by attaching a thin plate-shaped carbon plate to a structure without corrosion and light weight. The present invention relates to a carbon plate attachment reinforcement structure using an anchorage.

The load capacity of all structures decreases with time, and damages occur in structures such as bridges due to the operation of large vehicles and overload vehicles.The reinforcing structures of these structures include top plate reconstruction structures, fiber sheet structures, Steel plate reinforcement structure and existing carbon plate attachment structure are used.

Among the above-mentioned structures, the fiber sheet structure has disadvantages such as the structure and work complexity that have been widely used in the past, the problem of adhesion between the adhesive and the sheet as the number of sheets attached increases, and the weakness of cracks and the inability to observe the reinforcement parts. It is always a nesting structure.

In addition, the steel plate reinforcement structure is heavy and poor construction, and there is a high possibility of corrosion, and there is a problem such as burden the additional load on the existing structure.

In addition, in the case of the attachment structure using the existing carbon plate is a structure that has a vulnerability to the attachment, such as easily falling off at both ends of the attached carbon plate.

The present invention is devised to solve the above-described problems, the present invention, to solve the problems of the carbon plate attachment structure by developing a steel anchorage to overcome the weakness of the attachment at both ends of the existing carbon plate, In particular, the new structure forms a steel anchorage with shear keys formed at both ends of the carbon plate. Its application is that the bond strength of epoxy exhibits greater adhesion strength on steel than concrete. It can be minimized, and also the design of the carbon plate using a steel anchorage formed with a shear key that is distinguished in that the steel anchorage is distinguished from the reinforcement structure using a conventional carbon plate, which is a structure using a carbon plate that is light, constructable, and not corroded. Its purpose is to provide an attachment reinforcement structure.

1 is a view schematically showing a reinforcing structure with a carbon plate using the steel anchorage of the present invention.

Figure 2 is a detailed view of the portion of Figure 1 installed the steel anchorage of the present invention.

3 is a bottom view of a bridge beam for explaining a carbon plate attachment reinforcement structure using a steel anchorage of the present invention.

Figure 4 is an exploded state of the steel anchorage and the carbon plate of the present invention.

5 is a state of coupling of the steel anchoring device and the carbon plate of the present invention.

Figure 6 is an exploded state of the steel anchorage of the present invention.

7 is a view showing the state of the shear key cut off the D-D and E-E of Figure 6;

8 is a view showing another structure of the shear key of the steel anchorage of the present invention.

Figure 9 is a view showing another structure for the shear key of the steel anchorage of the present invention.

<Brief description of symbols for the main parts of the drawings>

100: bridge (or alternating) 200: bridge beam (or slab)

300: steel anchorage 310: upper anchorage

320: protrusion 330: lower anchorage

340: grooved groove 350: bolt groove

400: carbon plate 500: anchor bolt

550: fixing bolt 600: epoxy adhesive

700: uneven shear key 800: uneven shear key

900: saw blade type shear key

The present invention, in order to achieve the above object, the present invention, in the reinforcement of the structure, after applying a number of rows of epoxy adhesive to the surface of the bridge beam (or slab) and then reinforcement by attaching a carbon plate to the epoxy adhesive It provides a carbon plate attachment reinforcement structure using a steel anchorage formed with a shear key, characterized in that both ends of the carbon plate is fixed to the steel anchorage as a fixing means.

In addition, the steel anchorage is composed of an upper anchorage and a lower anchorage of different sizes, while the upper anchorage is formed with a protrusion so that the center of the lower surface in the width direction protrudes to the lower and the lower anchorage relatively larger than the upper anchorage A c-groove is formed at the center of the upper surface in the width direction so that the protrusion of the upper anchorage can be seated. A plurality of bolt grooves are formed on both sides of the protrusion and the c-groove, respectively, so that the lower fixing hole is anchor bolt to the structure surface. The upper fixing unit is fixed to the lower fixing unit by fixing bolts. In addition, the upper anchorage and the lower anchorage is provided with a carbon plate reinforcement structure using a steel anchorage formed with a shear key, characterized in that the structure is formed in a structure in which the projection and the concave-shaped shear key is opposed to the groove.

Hereinafter, with reference to the accompanying drawings will be described the configuration and operating state of the present invention.

1 is a view schematically showing a carbon plate attachment reinforcement structure using a steel anchoring device of the present invention, the upper portion of the bridge (or alternating) 100, the bridge beam (or slab; hereinafter only the description of the bridge beam) 200 Is seated and the steel beam anchorage 300 is fixed to both sides of the bridge beam 200 in the longitudinal direction at the bottom, wherein the ends of the carbon plate 400 made in the form of a plate between the steel anchorage 300 It is fixed in this closely fixed state.

2 is a detailed view of the portion A and B of the portion of FIG. 1 in which the steel anchorage of the present invention is installed, wherein the steel anchorage 300 is fixed to the lower portion of the bridge beam 200 by an anchor bolt 500. .

3 is a bottom view of the bridge beam for explaining the attachment structure of the carbon plate using the steel anchorage of the present invention, the steel anchorage 300 when the steel anchorage (300) is fixed to the bridge beam 200 and the anchor bolt 500 In the state in which the carbon plate 400 is inserted in the center of the width direction of the 300, the steel anchoring device 300 and the carbon plate 400 is in close contact with each other by the anchor bolt 500 and the fixing bolt 550, respectively, the carbon plate 400 To be in close contact with the bridge beam 200 firmly.

4 is an exploded state diagram of the steel anchorage and the carbon plate of the present invention, Figure 5 is a state diagram of the combination of the steel anchorage and the carbon plate of the present invention.

As can be seen in Figure 4, the steel fixing unit 300 is composed of two upper and lower upper fixing unit 310 and lower fixing unit 330 of different sizes, the upper fixing unit 310 is the width direction Protruding portion 320 is formed such that the center of the lower surface of the lower portion protrudes downward, and the lower fixing unit 330 is a c-groove 340 so that the protruding portion 320 of the upper fixing unit 310 is seated at the center of the upper surface in the width direction. ) Is formed.

At this time, the lower fixing unit 330 is in close contact with the one end of the carbon plate 400 (only a state in which the carbon plate on one side of the drawing is in close contact with the c-shaped groove 340).

In addition, the upper fixing unit 310 and the lower fixing unit 330 constituting the steel fixing unit 300, the protrusion 320 and the c-shaped groove 340 is formed on both sides, that is, a plurality of bolt grooves 350 in the width direction, respectively ) Is formed.

As can be seen in FIG. 5. When the upper fixing unit 310 and the lower fixing unit 330, which is the steel fixing unit 300, to fix the carbon plate 400 at the center thereof, the upper part in the state where the epoxy adhesive 600 is attached to both sides of the carbon plate 400. It is fixed between the fixing unit 310 and the lower fixing unit 330.

At this time, the upper fixing unit 310 is coupled to the bolt groove formed in the center side of the lower fixing unit 330 by a fixing bolt 550.

6 is an exploded state diagram of the steel anchoring device of the present invention, Figure 7 is a view showing the state of the cut shear key of the D-D portion and E-E portion of FIG.

The uneven shear key 700 is formed in the protrusion 320 and the c-shaped groove 340 in the upper fixing unit 310 and the lower fixing unit 330 constituting the steel fixing unit 300, respectively.

At this time, the adhesion area of the epoxy adhesive is widened by the uneven shear key 700, and the adhesion force is improved.

8 is a view showing another structure of the shear key of the steel anchoring device of the present invention, the upper fixing unit 310 and the lower fixing unit 330 constituting the steel fixing unit 300, the projection 320 and the c-groove 340 Groove shear key 800 is formed in each of the) to improve the adhesion of the epoxy adhesive.

9 is a view showing another structure for the shear key of the steel anchoring device of the present invention, the upper fixing unit 310 and the lower fixing unit 330 constituting the steel fixing unit 300, the projection 320 and the c-groove ( Saw blade type shear keys 900 are respectively formed in 340.

As can be seen in the description of the above configuration, the bridge beam 200 has a carbon plate 400 is fixed to the lower surface by the steel anchoring hole 300, so that the lower surface of the bridge beam 200 is firmly Will be reinforced.

Referring to the reinforcing structure of the carbon plate 400 in close contact with the bridge beam 200 as follows.

First, the step of applying the epoxy adhesive 600 in the reinforcement direction to the reinforcement position of the lower portion of the bridge beam (200).

That is, in order to attach the carbon plate 400 to the lower portion of the bridge beam 200, the surface of the lower surface of the bridge beam 200 is subjected to the surface treatment and anchor bolts at the position where the lower anchorage 330 of the steel anchorage 300 is to be installed. Pre-fixed with 500, the epoxy adhesive 600 is applied to the U-shaped groove 340 and the surface treatment portion of the lower fixing unit 330.

In addition, the epoxy adhesive 600 is applied to one side (the surface to be attached to the structure) of the carbon plate 400.

Second, attaching the carbon plate 400 to the upper portion of the epoxy adhesive 600 is applied.

That is, in the state in which the epoxy adhesive 600 is applied, the carbon plate 400 is attached to the lower fixing unit 330 in the opposite direction, starting from the lower fixing unit 330 on one side, before the adhesive force is reduced.

Third, fixing the upper fixing unit 310 to the lower fixing unit 330 located at both ends of the carbon plate 400 attached to the bridge beam 200.

That is, when the carbon plate 400 is attached to the lower portion of the bridge beam 200 using the epoxy adhesive 600, both ends of the carbon plate 400 is fixed to the steel fixing device 300.

At this time, in order to improve the coupling between the steel anchoring device 300 and the carbon plate 400 to form a plurality of shear keys in the steel anchoring device 300 to improve the bonding strength of the epoxy adhesive 600 attached to the carbon plate 400. do.

In the above three steps, the carbon plate 400 is attached to the lower portion of the bridge beam 200, which has a high elastic modulus and tensile strength, low weight and strong corrosion resistance of the carbon plate 400 to the structure. Attached in the form of a plate to reinforce the bridge beam (or slab) 200, the lack of bending and shear of the beam of the building, other structures.

By using the carbon plate 400 using the steel anchoring device 300, it is possible to overcome the limitations of the existing reinforcing structure, thereby enabling a wide range of applications (concrete, wood and masonry).

In addition, the existing reinforcing structure (bending, shear, etc.) to reinforce the entire reinforcement site, but the reinforcement structure using the carbon plate 400 is used by attaching the band-shaped carbon plate to the reinforcement site, so the amount of reinforcement is different. Significantly reduced compared to the structure.

In particular, in the case of the reinforcement structure using the existing carbon plate, there is a disadvantage that the dropping occurs at both ends of the carbon plate, but the carbon plate attachment reinforcement structure using the steel anchorage formed with the shear key of the present invention has a weakness for adhesion at both ends In order to overcome, the steel anchoring device 300 is newly developed and used, and thus, the structure of the reinforcing structure using the carbon plate 400 is completely complemented.

In the case of the present invention by using the adhesive strength of the epoxy adhesive has a greater adhesion strength in the steel anchoring device 300 used in the present invention than the concrete design that can achieve effective attachment at both ends of the carbon plate 400 This can be called.

In addition, the carbon plate attached reinforcement structure using the steel anchorage formed with the shear key of the present invention is a reinforcement structure that can easily and quickly reinforce structures such as bridge beams, slabs, and the like.

The effect of the configuration and operation of the present invention described above will be described.

The reinforcing structure with carbon plate using the steel anchorage formed with the shear key of the present invention is a reinforcing structure due to the ultra-light reinforcing material because it is reinforced by attaching the carbon plate, which is a thin plate of high elastic modulus, tensile strength, strong corrosion resistance and low weight structure, to the structure. It has the advantage that no additional load is generated and there is no fear of corrosion.

In addition, the reinforcing structure with a carbon plate using the steel anchoring device formed with a shear key of the present invention, since the use of a carbon plate having a low-weight and thin plate shape, it is possible to obtain convenience of handling, as well as excellent workability.

In addition, the carbon plate reinforcement structure using the steel anchorage formed with the shear key of the present invention is a structure that attaches to the surface of the structure by using a carbon plate that the existing reinforcement structure was mainly limited to concrete, various structures, In other words, it can be applied to concrete, masonry and wood structures, etc., which has the advantage of expanding the scope of application.

In addition, the reinforcing structure with a carbon plate using the steel anchorage formed with the shear key of the present invention is that the existing reinforcing structure (bending, shearing, etc.) reinforces the entire reinforcing portion. Since it is arranged by the required number using the method has the advantage that the amount of reinforcement is significantly reduced compared to other structures.

In addition, the carbon plate reinforcement structure using the steel anchorage formed with the shear key of the present invention has the advantage that the steel anchorage can be completely compensated for the problem that the dropping occurs at both ends of the carbon plate having the existing carbon plate reinforcement structure Have

Claims (4)

In reinforcement to the structure, After applying a plurality of rows of epoxy adhesive 600 to the surface of the bridge beam 200, the carbon plate 400 is attached to the epoxy adhesive 600 and reinforced, and both ends of the carbon plate 400 are fixed means. Reinforcing structure with a carbon plate using a steel anchorage formed with a shear key, characterized in that fixed to the steel anchorage (300). The method of claim 1, The steel fixing unit 300 is composed of an upper fixing unit 310 and a lower fixing unit 330 having different sizes, while the small upper fixing unit 310 has a protrusion 320 so that the center of the lower surface in the width direction protrudes downward. ) Is formed and the lower anchorage 330 is larger than the upper anchorage 310, the c-groove 340 is formed so that the protrusion 320 of the upper anchorage 310 is seated at the center of the upper surface in the width direction. A plurality of bolt grooves 350 are formed on both sides of the protrusion 320 and the c-shaped groove 340, respectively, and the lower fixing unit 330 bridges the anchor bolts 500 through the bolt grooves 350 installed on both sides. It is fixed to the beam 200, the upper fixing unit 310 and the lower fixing unit 330 is formed in a structure in which the concave-convex shear key 700 is opposed to the protrusion 320 and the c-shaped groove 340, respectively, the upper fixing unit 310 is fixed to the central bolt groove of the lower anchorage 330 by fixing bolts 550 are coupled to each other Reinforcing structure with a carbon plate using a steel anchorage formed with a shear key. The method according to claim 1 or 2, The upper fixing unit 310 and the lower fixing unit 330 constituting the steel fixing unit 300 is a structure formed in a structure in which the concave-type shear key 800 is opposed to the protrusion 320 and the c-shaped groove 340, respectively. Reinforcement structure with carbon plate using steel anchorage formed with shear key. The method according to claim 1 or 2, The upper fixing unit 310 and the lower fixing unit 330 constituting the steel fixing unit 300 is a structure formed in a structure in which the saw blade type shear key 900 is opposed to the protrusion 320 and the c-shaped groove 340, respectively. Reinforcement structure with carbon plate using steel anchorage formed with shear key.