KR100665207B1 - Reinforcement jacket and method for reinforcing structural column - Google Patents

Abstract

A first cover member having a rectangular shape, a second cover member extending at right angles along one longitudinal edge of the first cover member, and a reinforcing plate made of a metal material provided on the cover member; The second cover member is a method of reinforcing a pillar of a structure by using a reinforcement jacket formed by winding carbon fibers, glass fibers, kevlar or mixed fibers or FRP fibers thereof integrally, and (a) treating the surface of the pillar to be reinforced. Flattening by; (b) applying an epoxy adhesive to the surface of the pillar and the inner side of the reinforcement jacket; (c) attaching first and second reinforcement jackets to respectively cover portions of sides adjacent to each other at opposite corner portions of the pillar; (d) attaching third and fourth reinforcement jackets to the remaining corner portions of the column to cover the remaining exposed portions of the sides while overlapping portions of the first and second reinforcement jackets, respectively; (e) anchoring the areas where the reinforcement jackets overlap with each other; And (f) sealing the gaps between the reinforcing jackets.

Pillar reinforcement, carbon tube, reinforcement jacket

Description

Reinforcement jacket and method for reinforcing structural column}

The present invention will be described in detail with reference to the following drawings, but these drawings illustrate preferred embodiments of the present invention, and the technical concept of the present invention is not limited to the drawings and should not be interpreted.

1 is a perspective view showing the configuration of a reinforcing jacket according to a preferred embodiment of the present invention.

FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 1.

Figure 3 is a perspective view showing the configuration of a reinforcement jacket according to another preferred embodiment of the present invention.

Figure 4 is a perspective view showing the configuration of a reinforcement jacket according to another preferred embodiment of the present invention.

5 is a cross-sectional view taken along line V-V of FIG. 4.

6 is a flowchart illustrating a method of manufacturing a reinforcement jacket according to a preferred embodiment of the present invention.

7 is a flowchart illustrating another method of manufacturing a reinforcement jacket according to a preferred embodiment of the present invention.

8 is a flowchart illustrating a process of reinforcing a pillar of a building by using a reinforcement jacket according to a preferred embodiment of the present invention.

Figure 9 is a plan sectional view showing a state of reinforcing the pillar of the building using a reinforcement jacket according to a preferred embodiment of the present invention.

10 is a cross-sectional view showing a state of reinforcing the pillar of the building using a reinforcement jacket according to another preferred embodiment of the present invention.

The present invention relates to a reinforcing jacket and a method for reinforcing columns of a structure using the same, and more particularly, a reinforcing jacket, which can be used as a permanent structure after installation and excellent in corrosion resistance, easy to install, and reinforcing a column of a structure using the same. It is about a method.

In general, reinforced concrete buildings are constructed without concrete and reinforced materials, and it is common practice to reconstruct a building that is about 20 to 30 years old as it ages after completion. However, even though the performance of pillars, beams, and shear walls, which are the main structural members that serve as the framework of the building, have not been deteriorated, reconstruction according to the general trend of the society is based only on the fact that the service life has elapsed after completion. Economically, it is a big loss.

Therefore, methods for avoiding reconstruction of buildings and reinforcing and remodeling pillars, which are structural members, have been proposed. In the case of reinforcing a column of a building according to the existing technology, a steel plate corresponding to the shape of the column is generally supported using a crane or the like, and then attached with an anchor and welded between steel plates.

However, the existing steel plate pillar reinforcement method is not only easy to install, but also the reinforced steel plate itself has a disadvantage that it is corroded over time has a limitation in durability.

The present invention was devised to solve the above problems, and in detail, the installation and construction of the structure is simple and excellent corrosion resistance even after construction to provide a reinforcement jacket that can function as a permanent reinforcement structure. have.

Another object of the present invention is to provide a method of reinforcing a column of a structure using such a reinforcement jacket.

In order to achieve the above object, the reinforcing jacket according to the present invention includes a rectangular first cover member; A second cover member extending at right angles along one longitudinal edge of the first cover member; And a reinforcing plate of a metal material interposed in the cover member, wherein the first and second cover members are integrally formed by winding carbon fibers, glass fibers, kevlar, or mixed fibers or FRP fibers thereof.

Preferably, the reinforcing plate is a plurality of metal plates arranged at a predetermined interval, the through hole is formed in the reinforcing plate and the cover member surrounding it.

More preferably, further comprising a third cover member extending at right angles to face the second cover member along the other longitudinal direction edge of the first cover member.

According to another embodiment of the present invention, a rectangular first cover member; A second cover member extending at right angles along one longitudinal edge of the first cover member; And a reinforcing plate of a metal material attached to at least one side of both sides of the cover member, wherein the first and second cover members are wound with carbon fibers, glass fibers, kevlar, or mixed fibers or FRP fibers thereof. An integrally formed reinforcement jacket is provided.

According to another aspect of the present invention, a rectangular first cover member, a second cover member extending at right angles along one longitudinal edge of the first cover member, and a reinforcement of a metal material provided in the cover member. A method of reinforcing a pillar of a structure using a reinforcement jacket including a plate, wherein the first and second cover members are formed by winding carbon fibers, glass fibers, kevlar, or mixed fibers or FRP fibers thereof integrally, a) treating and planarizing the surface of the column to be reinforced; (b) applying an epoxy adhesive to the surface of the pillar and the inner side of the reinforcement jacket; (c) attaching first and second reinforcement jackets to respectively cover portions of sides adjacent to each other at opposite corner portions of the pillar; (d) attaching third and fourth reinforcement jackets to the remaining corner portions of the column to cover the remaining exposed portions of the sides while overlapping portions of the first and second reinforcement jackets, respectively; (e) anchoring the areas where the reinforcement jackets overlap with each other; And (f) sealing the gap between the reinforcing jackets. A pillar reinforcing method for a structure is provided.

Preferably, in the step (e), the anchor is fastened to the through-holes formed in the reinforcing plate and the jacket located at the portion where the reinforcing jackets overlap each other.

More preferably, in step (c), the first cover member and the second cover member of the first reinforcement jacket each cover a first side of the pillar and a portion of the second side adjacent thereto, 2 The first cover member and the second cover member of the reinforcement jacket cover the third side of the pillar and a portion of the fourth side adjacent thereto, and in step (d), the first cover of the third reinforcement jacket The member and the second cover member respectively cover the remaining exposed portions of the first side and the third side of the pillar while overlapping the first cover member of the first reinforcing jacket and the first cover member of the second cover member. The first cover member and the second cover member of the fourth reinforcement jacket are respectively overlapped with the second side surface of the pillar while overlapping the second cover member of the first reinforcement jacket and the second cover member of the second cover member. To cover the remaining exposed areas of the fourth side.

According to another embodiment of the present invention, a rectangular first cover member, second and third cover members extending at right angles to face each other along one longitudinal edge of the first cover member, and the cover member Reinforcing plate of a metal material provided in the, wherein the first, second, third cover member using a reinforcement jacket formed integrally by winding carbon fibers, glass fibers, kevlar or mixed fibers or FRP fibers thereof CLAIMS 1. A method of reinforcing pillars of a structure, comprising: (a ') treating and planarizing a surface of a column to be reinforced; (b ') applying an epoxy adhesive to the surface of the pillar and the inner side of the reinforcement jacket; (c ') attaching a first reinforcement jacket to cover one side of the post and a portion of both sides adjacent thereto; (d ') attaching a second reinforcement jacket to cover the other side of the column and the remaining exposed portions of both sides while overlapping a portion of the first reinforcement jacket on both sides of the column; (e ') anchoring the sites where the reinforcement jackets overlap with each other; (f ') sealing the gap between the reinforcing jackets; And (g ') injecting epoxy into the reinforcement jacket and drying the reinforcement jacket.

Here preferably, in step (c '), the first cover member of the first reinforcement jacket covers one side of the pillar and the second and third cover members respectively cover part of both sides, and the step ( In d '), the first cover member of the second reinforcement jacket covers the other side opposite to the one side, and the second and third cover members respectively correspond to the second and third cover members of the first reinforcement jacket. Cover the remaining exposed areas on both sides while overlapping.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 and 2 show the configuration of a reinforcement jacket according to a preferred embodiment of the present invention.

Referring to the drawings, the reinforcing jacket of the present invention includes a rectangular first cover member 10 and a second cover member 20 extending to form an approximately right angle along a longitudinal edge of the first cover member 10. And substantially form an "L" shape.

It is preferable that the first cover member 10 and the second cover member 20 are substantially integrally formed by winding the reinforcing fibers as described below.

As the reinforcing fibers according to the present invention, carbon fibers, glass fibers, Kevlar (trade name of DuPont, USA) or mixed fibers or fiber reinforced plastics (FRP) fibers thereof may be used. It is to be understood that these include both a single fiber yarn or a bundle of fibers.

In addition, a plurality of reinforcing plates 11 and 21 are embedded in the cover member 10 and 20 while being spaced at predetermined intervals. The gaps between the reinforcing plates 11 and 21 are not limited by the present invention and may be appropriately disposed at intervals corresponding to portions to be fastened by fastening means such as anchors or bolts as described below. In addition, the reinforcing plate (11) (21) may be arranged in a row or more, and regularly or irregularly depending on the fastening site.

The reinforcing plate (11) (21) is made of a metal material, to supplement the rigidity of the reinforcement jacket and to prevent the jacket from being torn or damaged when fastened by the fastening means.

The reinforcing plates 11 and 12 and the reinforcing jacket surrounding the reinforcing holes 1 are perforated so that the fastening means may be inserted as described below.

Although the reinforcing plates 11 and 21 are inserted in plural in this embodiment, a continuous metal strip may be employed without being limited thereto.

According to a preferred embodiment of the present invention, the cover member 10, 20 is bounded by the reinforcing plates 11, 21 to the inner side of the first jacket layer 30 and the outer side of the second jacket layer 31. It can be composed of).

3 shows a configuration of a reinforcement jacket according to another embodiment of the present invention. As shown, the reinforcement jacket of this embodiment extends with the first cover member 10 extending in a rectangle and facing each other at approximately right angles along both longitudinal edges of the first cover member 10. It consists of the second cover member 20 and the third cover member 40 to be formed substantially "c" shaped.

These first, second, and third cover members 10, 20, 40 are also formed integrally with each other, and inside the metal reinforcement plates 11, 21, 41 are embedded, as described above. The through holes 1 are formed in the reinforcing plates 11, 21, 41 and the cover member surrounding the reinforcing plates 11, 21, 41.

4 and 5 are shown the configuration of the reinforcement jacket according to another embodiment of the present invention. As shown, the reinforcement jacket of this embodiment also has a rectangular second cover member 20 extending substantially perpendicularly along the longitudinal edges of the first cover member 10 'and the first cover member 10'. ') The cover member is integrally manufactured by winding carbon fibers as described above.

According to the present embodiment, the plurality of reinforcing plates 11 ', 12', 21 ', 22' made of a metal material are spaced at predetermined intervals from the surface of the cover member 10 ', 20'. Attached. Preferably, the reinforcing plates 11 ', 12', 21 ', 22' are symmetrically attached to both sides of the cover member 10 ', 20', but are not limited thereto. It may also be attached to the side.

In addition, a through hole 1 'penetrating the reinforcing plates 11', 12 ', 21', 22 'and the cover member is formed, and a fastening means such as an anchor is coupled thereto as described later. .

Then, a method of manufacturing a reinforcement jacket having the configuration as described above will be described with reference to FIG.

First, to prepare a reinforcing jacket according to the present invention, a rectangular tubular mold having, for example, a rectangular cross section corresponding to the shape thereof is prepared (step S100).

Subsequently, a vinyl sheet or the like is covered on the surface of the mold to cover it (step S110). This is to facilitate demoulding the finished reinforcement jacket as described below.

When the preparation process is completed as described above, the reinforcing fibers are firstly wound on the outer surface thereof while rotating the mold to make the first jacket layer 30 (step S120). During the winding, the reinforcing fiber is supplied together with the epoxy resin adhesive, and the reinforcing fiber wound on the outer surface of the mold is firmly attached.

When the reinforcing fibers are wound up to a predetermined thickness, the formation of the first jacket layer 30 is completed, and then the reinforcing plates 11 and 21 made of metal are disposed (step S130). At this time, the reinforcement plates 11 and 21 can be attached and fixed with an epoxy resin adhesive.

After arranging the reinforcing plates 11 and 21, the second jacket layer 31 is formed by supplying reinforcing fibers and then winding them on the outer circumferential surface thereof (step S140). In this case, as described above, the epoxy resin adhesive is applied together so that the winding reinforcing fibers are firmly bound.

After winding the second jacket layer 31 to a predetermined thickness, it is dried and demolded (step S150). At this time, since the plastic sheet is inserted between the mold and the reinforcement jacket, the dried jacket body can be easily separated.

Subsequently, since the shape of the demolded reinforcement jacket body is, for example, a rectangular tube shape, it is cut in the longitudinal direction so as to have a shape suitable for use in the reinforcement column (step S160). According to this embodiment, a reinforcement jacket of the shape shown in FIG. 1 is obtained, for example, by cutting opposite corner portions to have two adjacent surfaces, or reinforcement of the shape as shown in FIG. 3 by removing only one side wall. You can get a jacket.

In addition, the through hole (1) is drilled in the portion where the reinforcing plate is located for coupling the fastening means such as anchors.

FIG. 7 discloses a process for manufacturing a reinforcement jacket having a configuration as shown in FIGS. 4 and 5. As shown, in the present manufacturing process, as described above, preparing the mold (step S200) and covering with vinyl (step S210) are the same.

In this embodiment, since the reinforcing plate does not need to be inserted inside the cover member, the reinforcing fiber winding is performed continuously by the thickness of the jacket (step S220).

Subsequently, when the reinforcing fiber winding is completed, drying and demolding (step S230), it is appropriately cut (S240).

Then, reinforcing plates 11 ', 12', 21 ', 22' are bonded to one side or both sides of the cover member of the reinforcement jacket by fixing with epoxy adhesive or the like (step S250).

When the reinforcing plate is completely fixed, the through hole (1 ') penetrating it is to be drilled (step S260).

Then, the method of reinforcing the pillar of the structure using the reinforcement jacket manufactured through the above process will be described.

The process for the method of reinforcing a column of a structure according to the invention is shown in FIG. 8. In addition, a state of reinforcing the pillar of the structure using the reinforcement jacket of the shape shown in Figure 1 is shown in FIG.

Looking at the method of reinforcing the pillar of the present invention with reference to FIGS. 8 and 9, first, the surface of the pillar 100 to be reinforced is treated and planarized (step S300). That is, the surface of the concrete is ground evenly by grinding or smoothing the surface of the concrete using a filling material such as putty.

After the surface treatment of the pillar 100 as described above, to apply the epoxy adhesive to install the reinforcement jacket on the pillar (step S310). Preferably, the epoxy adhesive is evenly applied to the side surface of the pillar 100 and the inner side of the reinforcement jacket.

After the epoxy adhesive is applied, the reinforcing jacket is mounted on the pillar 100 and attached (step S320). According to the present embodiment, the reinforcement jacket having an L-shaped cross section is installed to be located at each corner of the pillar 100.

Specifically, the first reinforcement jacket 100a and the second reinforcement jacket 100b are respectively installed to surround the opposite corner portions of the pillar 100. In this case, the first reinforcement jacket 100a has a first cover member 10a covering a part of the first side surface 101 of the pillar 100, and the second cover member 20a has the pillar 100. Are installed in the longitudinal direction so as to cover a part of each of the second side surfaces 102.

Similarly, in the second reinforcement jacket 100b, the first cover member 10b covers a part of the third side surface 103 of the pillar 100, and the second cover member 20b of the pillar 100 is formed. It is installed in the longitudinal direction to cover a portion of the fourth side 104.

According to this embodiment, the reinforcement jacket has an "L" shape in which the first cover member and the second cover member are substantially perpendicular to each other, so that, for example, even if the side surfaces of the pillar 100 are not exactly perpendicular to each other, Since the first cover member and the second cover member have some flexibility, the first cover member and the second cover member may be as close as possible to the corner portion.

Next, the third reinforcement jacket 100c and the fourth reinforcement jacket 100d are attached to the remaining corner portions of the pillar 100. In this case, the third and fourth reinforcement jackets 100c and 100d are installed so that a part thereof overlaps with the first and second cover members 100a and 100b that are already attached.

That is, the first cover member 10c of the third reinforcement jacket 100c is installed to partially overlap with the second cover member 20b of the second reinforcement jacket 100b that is installed in advance, and thus the fourth side surface of the pillar 100. The remaining exposed area of 104 will be covered. At the same time, the second cover member 20c of the third reinforcement jacket 100c is installed to partially overlap with the first cover member 10a of the first reinforcement jacket 100a installed in advance, so that the first side surface of the pillar 100 is provided. The remaining exposed portion of 101 will be covered.

In addition, the first cover member 10d of the fourth reinforcement jacket 100d is installed to partially overlap with the second cover member 20a of the first reinforcement jacket 100a that is pre-installed, so that the second side surface of the pillar 100 is provided. The remaining exposed area of 102 will be covered. At the same time, the second cover member 20d of the fourth reinforcement jacket 100d is installed to partially overlap with the first cover member 10b of the pre-installed second reinforcement jacket 100b, so as to partially overlap the third side surface of the pillar 100. The remaining exposed portion of 103 will be covered.

Preferably, the reinforcement jackets are overlapped with each other by applying an epoxy adhesive.

According to the present invention, the reinforcement jackets are firmly fastened to the pillars 100 by fastening means such as anchors or bolts. Preferably, reinforcement plates 11a and 21a are formed at portions where the cover members of the reinforcement jackets overlap each other. (11b) (21b) (11c) (21c) (11d) (21d) are provided, and the anchors (51) (52) (53) (54) are fixed to the through holes (1) formed so as to penetrate them. do. Moreover, it is preferable to fix anchoring jacket firmly by anchoring besides an overlap part as needed.

Subsequently, when the installation of the reinforcement jacket is completed, the sealing work to fill the gap between the reinforcement jacket is performed (step S330). That is, sealing members 61, 62, 63 and 64, such as epoxy, containing a curing agent are applied to the ends where the reinforcing jackets meet with each other and sealed.

When the sealing operation is completed as described above, the reinforcement of the pillar is completed by cleaning the foreign matter or non-uniform surface of the jacket surface and finishing (step S340).

10 is a view showing a column reinforcement of a structure according to another embodiment of the present invention. In this embodiment, as shown in Fig. 3, a reinforcement jacket having a cross-section of the letter "C" is used.

The pillar reinforcement method of the building according to the present embodiment is the same as in the above-described embodiment. However, the first reinforcement jacket 200a is installed to cover one side 103 of the pillar 100 and a portion of two adjacent sides 102 and 104 adjacent thereto, and then the opposite side of the one side 103. The second reinforcement jacket 200b is installed to cover the other exposed portion of the other side 101 and the two side surfaces 102 and 104 adjacent thereto.

Specifically, the first cover member 10a of the first reinforcing jacket 200a contacts the one side 103 of the pillar 100, and the second cover member 20a contacts a portion of the adjacent side 104. The cover contact is made, and the third cover member 40a contacts to cover a portion of the adjacent side surface 102.

In addition, the first cover member 10b of the second reinforcement jacket 200b is in contact with the other side 101 of the pillar 100, and the second cover member 20b is formed of the first reinforcement jacket 200a. 2 covers the remaining portion of the side 104 while overlapping the cover member 20a, and the third cover member 40b is laterally overlapped with the third cover member 40a of the first reinforcing jacket 200a. Cover the rest of 102.

In addition, reinforcing plates 21a, 21b, 41a, and 41b are provided at the portion where the cover members overlap, and anchors 72 and 73 are provided in the through holes 1 'formed therein. Is combined. Preferably, the anchors 71 and 74 are coupled to the reinforcing plates 11a and 11b embedded in the reinforcement jacket in addition to the overlapped portions.

After the reinforcement jacket is attached, the sealing members 81 and 82 are applied to the gaps, including the upper and lower ends of the pillars, and the sealing operation is performed. Can be installed additionally. In the case of using a "c" shaped reinforcement jacket, the gap between the inner walls of the reinforcement jacket may occur when adjacent sides of the pillars do not form a right angle with each other, and thus epoxy is filled to fill such gaps.

Therefore, the epoxy is injected into the reinforcing jacket through the injection hose. For example, when epoxy is injected from the upper end of the pillar, the gap is filled between the reinforcing jacket and the pillar. At this time, even if the high pressure epoxy injection pressure causes stress concentration at the anchoring portion of the reinforcing jacket, damage or rupture of the reinforcing jacket can be prevented due to the provision of the reinforcing plate. The epoxy injection position and direction is not limited by the present invention.

When the epoxy injection process is complete, it is dried and subjected to surface treatment of the reinforcement jacket as described above.

Although the embodiment of the present invention has been shown and described with a reinforcement jacket whose cross section corresponds to the corner portion of the polygon as "L" shaped or "c" shaped, it is not limited to this, for example, the reinforcement jacket is semicircular or arc shaped in cross section. It should be understood that the same method can be applied to reinforcing circular columns.

The reinforcement jacket of the present invention is easy to install and construct when reinforcing a pillar of a building and has excellent corrosion resistance even after construction, and thus can be used as a permanent structure.

In particular, according to the pillar reinforcement method of the present invention, the anchor binding portion is protected by a reinforcement plate embedded in the reinforcement jacket, thereby preventing damage or rupture of the reinforcement jacket at the time of construction, and thus the process reliability is very excellent.

In addition, the reinforcement jacket of the present invention has a certain degree of flexibility as a cross-section "L" shape, "c" shape or semi-circular shape, there is an advantage that can be suitably employed in the construction of various shapes of pillars.

Claims (16)

delete delete A rectangular first cover member; A second cover member extending at right angles along one longitudinal edge of the first cover member; And, A third cover member extending at right angles to face the second cover member along the other longitudinal direction edge of the first cover member; And And a plurality of metal reinforcement plates interposed to be arranged at predetermined intervals in the cover member. The first, second and third cover members are made of carbon fiber, glass fiber, kevlar or mixed fiber or FRP fiber thereof Reinforcement jacket, characterized in that the through plate is formed in the reinforcing plate and the cover member surrounding it. delete delete delete delete delete delete delete delete A rectangular first cover member, a second cover member extending at right angles along one longitudinal edge of the first cover member, and facing the second cover member along the other longitudinal edge of the first cover member. And a third cover member extending at right angles to each other, and a plurality of metal reinforcing plates interposed in the cover member to be arranged at predetermined intervals, wherein the first, second and third cover members comprise carbon fiber, glass fiber, kevlar Or a mixture of these fibers or FRP fibers, and the reinforcing plate and the cover member surrounding the reinforcing plate by using a reinforcement jacket formed with a through hole, (a ') treating and planarizing the surface of the column to be reinforced; (b ') applying an epoxy adhesive to the surface of the pillar and the inner side of the reinforcement jacket; (c ') attaching a first reinforcement jacket such that the first cover member of the first reinforcement jacket covers one side of the pillar and the second and third cover members respectively cover part of both sides; (d ') a first cover member of the second reinforcement jacket covers the other side opposite the one side, and the second and third cover members respectively overlap with the second and third cover members of the first reinforcement jacket. Attaching a second reinforcement jacket to cover the remaining exposed portions of both sides; (e ') coupling an anchor to a through hole formed in the reinforcing plate and the jacket positioned at the portion where the reinforcing jackets overlap each other; (f ') sealing the gap between the reinforcing jackets; And (g ') injecting epoxy into the reinforcement jacket and drying it. delete delete delete delete

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