KR101124529B1 - Manufacturing method and concrete structure reinforcing method using the same - Google Patents

Abstract

PURPOSE: A composite fiber panel with reinforced ductility and a method of reinforcing the vibration control of a structure using the same are provided to ensure rigidity, maximize ductility capacity and sufficiently ensure vibration control performance. CONSTITUTION: A composite fiber panel with reinforced ductility comprises first adhesive, at least one or more fiber panels(300), second adhesive, and a fiber belt(500). The first adhesive is applied along the side of a concrete structure(100) with a given height. The fiber panel is attached to the first adhesive and is arranged along the side of the concrete structure to have a given height. The fiber panel is mixed with polyester fiber to have ductility. The second adhesive is again applied along the side of the fiber panel and the concrete structure. The fiber belt is attached to the applied surface of the second adhesive diagonally or horizontally protecting the concrete structure and the fiber panel.

Description

Flexible Reinforced Composite Fiber Panel and Structure Seismic Reinforcement Method Using the Same {Manufacturing Method and Concrete Structure Reinforcing Method using the same}

The present invention relates to a seismic reinforcement method for concrete structures, and more specifically, by applying a flexible fiber panel and a fiber belt to a concrete panel using a flexible adhesive with excellent elongation to provide a composite panel, stiffness while maximizing the ductility capacity The present invention relates to a ductile-reinforced composite fiber panel and a structure seismic reinforcing method using the same.

In recent years, the frequency of earthquakes in our country is increasing, which is no longer a safe zone from earthquakes. In such a situation, if an earthquake occurs in a large city or the like, considerable damage is expected in the case of concrete structures designed and constructed before the introduction of the mandatory seismic design mandate.

Therefore, in order to prevent life and property damage due to the collapse of concrete structures (columns, etc.) due to sudden external force and aging such as earthquakes, earthquake-resistant construction of structures is required.

Conventional seismic reinforcement methods are largely divided into seismic methods such as brace installation, cross section expansion, steel sheet adhesion reinforcement method, fiber sheet attachment method, fiber board reinforcement method, vibration damping method using damper, and surface vacuum method using seismic isolation device. .

Recently, the earthquake-resistant reinforcing method, which is being studied mainly in Japan, has been developed in the form of reinforcing ductility using super soft materials. That is, the seismic reinforcement method based on the stiffness reinforcement method has been developed and applied to the seismic reinforcement method of the soft reinforcement concept.

The seismic reinforcement method of the flexible reinforcement concept uses a fiber belt made of polyester fiber having excellent ductility, thereby reinforcing the columnar structure against the lateral force such as an earthquake.

However, the conventional seismic reinforcing method is a structure that can not reinforce ductility and stiffness at the same time, and in order to further strengthen the rigidity, the thickness of the fiber belt must be applied thicker, it is difficult to apply it practically, the construction cost increases There was a problem.

In addition, in the conventional seismic reinforcement method, a high-pressure water washing process is performed to clean up the base surface. Thus, scattering dust or concrete fragments are generated during the high-pressure water washing process. There was a problem that the length is long and the workability is reduced.

Therefore, the present invention is to solve the conventional problems as described above, by using a combination of the fiber panel and the fiber belt mixed with polyester fibers along the outer side of the concrete structure using an excellent elongation, the rigidity The purpose is to provide a flexible reinforced composite fiber panel and a structure seismic reinforcing method using the same to secure sufficient seismic performance while ensuring maximum ductility.

The soft-reinforced composite fiber panel for achieving the object, the first adhesive is applied along the side of the concrete structure having a vertical length up and down, and is attached to the first adhesive and arranged to have a length vertically along the side of the concrete structure At least one reinforcing fiber panel in which polyester fibers are mixed to be ductile, a second adhesive applied along side surfaces of the fiber panel and the concrete structure, and diagonally or horizontally wrapping the concrete structure and the fiber panel. While it is characterized in that it comprises a fiber belt attached to the application surface of the second adhesive.

The fiber panel is configured by further mixing any one of glass fiber, carbon fiber and aramid fiber in addition to polyester fiber.

The fiber panel may be configured by further mixing glass and carbon fibers in addition to the polyester fiber, and the fiber panel may be configured by further mixing glass and aramid fibers in addition to the polyester fiber.

Finishing material may be further attached to the outside of the fiber belt, the fiber belt is preferably provided with a polyester fiber.

On the other hand, the structure seismic reinforcement method using a flexible reinforced composite fiber panel for achieving the above object, the step of applying a first adhesive along the side of the concrete structure having a vertical length; Attaching a fiber panel mixed with polyester fibers along a side of the concrete structure to be attached to the first adhesive; Re-applying a second adhesive along side surfaces of the fiber panel and the concrete structure; And winding the fiber belt so as to wrap diagonally or horizontally along the side of the concrete structure and attaching the coated surface to the coated surface of the second adhesive. Characterized in that it comprises a.

The fiber panel may be configured by further mixing any one of glass fiber, carbon fiber and aramid fiber in addition to the polyester fiber, or the fiber panel may be configured by further mixing glass and carbon fiber in addition to the polyester fiber. In addition, the fiber panel may be configured by further mixing the glass and aramid fibers in addition to the polyester fiber. And the fiber belt may use a polyester fiber.

In addition, after the step of attaching the fiber belt, the step of attaching a finish to the outside of the fiber belt; May be further included.

As described above, the present invention by using the adhesive with excellent elongation, it is possible to easily reinforce the concrete structure without the process of cleaning the base surface of the concrete structure. Therefore, the background cleaning process is eliminated, thus providing shortening of the air and easy constructability, and dust or concrete fragments are not generated during the background cleaning process, so that there is no problem of contamination.

In addition, by applying a combination of a fiber panel and a fiber belt mixed with polyester fibers on the outer peripheral surface of the concrete structure, it is possible to maximize the ductility while ensuring rigidity. In other words, it is possible to sufficiently secure the seismic performance has the advantage of being able to counter the lateral forces such as earthquakes.

1 is a front view showing a flexible reinforced composite fiber panel according to the present invention.
Figure 2 is a front sectional view showing a flexible reinforced composite fiber panel according to the present invention.
Figure 3 is a cross-sectional view showing a flexible reinforced composite fiber panel according to the present invention.
Figure 4 is a flow chart sequentially showing each step of the structure seismic reinforcement method using a flexible reinforced composite fiber panel according to the present invention.

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

In describing the present invention, the defined terms are defined in consideration of the function of the present invention, and should not be understood in a limiting sense of the technical elements of the present invention.

As shown in Figures 1 to 4, the flexible reinforced composite fiber panel according to the present invention, by reinforcing the ductility as well as the strength of the concrete structure 100 for supporting the interlayer of the building, by the lateral force acting in the event of earthquake This is to prevent the concrete structure from being destroyed.

To this end, the first adhesive 200 is applied along the side of the concrete structure 100 having a length up and down, and is attached to the first adhesive 200 to increase the length up and down along the side of the concrete structure 100 At least one reinforcing fiber panel 300 is arranged to have a flexible (polyester) fiber is mixed to have a flexible, and the second adhesive is applied again along the side of the fiber panel 300 and the concrete structure (100) 400 and a fiber belt 500 attached to the second adhesive 400 coated surface while obliquely or horizontally wrapping the concrete structure 100 and the fiber panel 300.

Herein, the concrete structure 100 corresponds to a column supporting each of the floors of the building, and structures such as beams and slabs may also be subjected to reinforcement.

The first adhesive 200 is to be applied along the side of the concrete structure 100, the width and shape of the coating surface can be determined according to the shape of the fiber panel 300.

In addition, the first adhesive 200 may be applied along the side of the concrete structure 100 to have a length vertically to fit the fiber panel 300 having a vertical length. Of course, it may be applied in a state surrounding all of the sides of the concrete structure 100.

Here, the first adhesive 200 is a polyurethane (polyurethane) adhesive, which is tough and well resistant to chemical properties and good elasticity, foreign matter such as dust is attached to the side of the concrete structure 100 or It provides sufficient adhesion even when fine bends are formed.

In addition, since the polyurethane adhesive does not deteriorate easily, adhesion is maintained over time. As a result, even after a long time, the attachment state of the fiber panel 300 and the fiber belt 500 is not easily changed.

Therefore, before proceeding with the process of applying the first adhesive 200 along the side of the concrete structure 100, it is possible to eliminate the work of washing the base surface of the concrete structure 100 with high pressure water, the process water At the same time, it can provide ease of installation.

The fiber panel 300 is attached along the side of the concrete structure 100, reinforces the strength and ductility to withstand the lateral force acting when the earthquake occurs. The fiber panel 300 is attached in a plate shape having a length perpendicular to the first adhesive 200 applied along the side of the concrete structure 100.

Here, the fiber panel 300 may be any one of glass fibers, carbon fibers, aramid fibers, or may be composed of a mixture of glass fibers and carbon fibers, or may be composed of a mixture of glass fibers and aramid fibers. This corresponds to a common material, but because the polyester fibers having high ductility are mixed together, they provide constant strength and ductility at the same time.

For example, when the fiber panel 300 is applied to the concrete structure 100 of the rectangular or polygonal shape, it may be arranged in a plurality so as to equally space on a plurality of side surfaces formed in the concrete structure 100. Of course, it may be attached to each of a plurality of side plates as a single, it is possible to apply the same in the case of a circular column.

The second adhesive 400 is applied to the outer surface of the fiber panel 300 and the concrete structure 100 so that the fiber belt 500 to be described later can be attached, such as the first adhesive 300 described above Polyurethane adhesives are used.

Here, the second adhesive 400 may be widely applied along the side of the concrete structure 100 so as to cover all of the fiber panel 300, unlike the first adhesive 200.

The fiber belt 500 is installed by winding the longitudinal direction along the side surface of the concrete structure 100 in an oblique manner, and is provided with polyester fibers having ductility. That is, the fiber belt 500 may use a winding method while moving in the opposite direction from the top or bottom of the concrete structure 100 in the longitudinal direction, wherein one side of the fiber belt 500 is the side of the concrete structure 100 It is attached to the second adhesive 400 applied to the fixed.

Alternatively, the fiber belt 500 may be cut into a predetermined length and installed in a state of wrapping the outside of the concrete structure 100. That is, the horizontally wound fiber belt 500 may be arranged in a plurality along the vertical direction of the concrete structure 100.

Therefore, the fiber belt 500 is installed in a state surrounding the outside of the concrete structure 100, and the above-described fiber panel 300 is to support the side of the structure 100 in the interior of the fiber belt 500, concrete While providing the rigidity of the structure 100 can maximize the ductility, it is possible to reduce the thickness of the fiber panel and the fiber belt can also reduce the construction cost.

In addition, a finish (not shown) may be further attached to the outside of the fiber belt 500, which may be applied in the form of a general waterproof synthetic resin or paint.

On the other hand, referring to Figure 4 describes the structure seismic reinforcement method using a flexible reinforced composite fiber panel according to the present invention is as follows, and some components that are the same as the above-described configuration is not repeated.

First, the step (S100) of applying a first adhesive 200, which is a polyurethane adhesive along the side of the concrete structure 100 having a length up and down to support the interlayer of the building proceeds. At this time, the application area and the shape of the first adhesive 200 may be applied differently depending on the shape of the fiber panel 300 to be attached.

Here, the polyurethane (polyurethane) adhesive used as the first adhesive 200 is tough and well resistant to chemicals, and has good elasticity. That is, due to the characteristics of the polyurethane adhesive, even if foreign matter such as dust is attached to the side of the concrete structure 100, or even fine bending is formed can provide sufficient adhesion.

Therefore, since the base surface work is deleted on the side surface of the concrete structure 100 before applying the first adhesive 200, ease of construction is provided, and dust generation during the base surface work can be eliminated. In addition, the adhesion state of the fiber panel 300 is not deformed because the adhesive force can be maintained without deterioration even after time.

Next, the step (S200) of adhering the fiber panel 300 mixed with polyester fibers along the side of the concrete structure 100 to be attached to the first adhesive 200 is carried out. After completion, the fiber panel 300 is fixedly positioned on the concrete structure 100 with one surface attached to the first adhesive 200.

Here, the fiber panel 300 may be used in addition to the polyester fiber, mixed with various types of fibers, preferably a composite fiber panel configured by further mixing glass and carbon fibers, or glass and aramid (aramid) ) It may be a composite fiber panel composed by further mixing the fibers.

That is, by mixing polyester fibers in a composite fiber panel made of glass and carbon fibers or a mixture of glass and aramid fibers, it is possible to provide a reinforcing fiber panel 300 having excellent ductility.

Next, the step of applying the second adhesive 400, which is a polyurethane adhesive again along the side of the fiber panel 300 and the concrete structure (100) (S300). In the step (S300), the second adhesive 400 is widely applied along the side of the concrete structure 100 so as to surround all of the fiber panel 300.

Here, the second adhesive 400 is applied to the outer surface of the fiber panel 300 and the concrete structure 100 so that the fiber belt 500 can be attached, the same as the first adhesive 300 described above Polyurethane adhesives are used. Here, the second adhesive 400 may be widely applied along the side of the concrete structure 100 so as to cover all of the fiber panel 300, unlike the first adhesive 200.

Finally, winding the fiber belt 500 so as to wrap diagonally or horizontally along the side of the concrete structure 100 is attached to the application surface of the second adhesive 400 (S400) to complete the construction.

In addition, after the step of attaching the fiber belt 500 (S400), the step of attaching the finishing material to surround the outside of the fiber belt 500 (S500) may be further included. Here, the finish may be applied in the form of a general waterproof synthetic resin or paint.

As a result, the present invention can achieve the reinforcement of the concrete structure 100 easily by using a polyurethane adhesive excellent in elongation (elongation), without the process of arranging the base surface of the concrete structure 100. Therefore, the background cleaning process is eliminated, thus providing shortening of the air and easy constructability, and dust or concrete fragments are not generated during the background cleaning process, so that the problem of contamination does not occur.

In addition, by applying a combination of the fiber panel 300 and the fiber belt 500 mixed with polyester fibers along the side of the concrete structure 100, it is possible to maximize the ductility while ensuring rigidity. In other words, the seismic performance can be sufficiently secured to counter the lateral forces such as earthquakes.

Although the technical concept of the soft-reinforced composite fiber panel and the concrete structure reinforcement method using the same according to the present invention has been described above with the accompanying drawings, this is to illustrate the best embodiment of the present invention by way of example to limit the present invention. no.

Therefore, it is obvious that any person with ordinary skill in the art can make various modifications and imitations such as dimensions, shapes, structures, etc. without departing from the scope of the technical idea of the present invention. Is included in the scope of the technical idea of the present invention.

100: concrete structure 200: first adhesive
300: fiber panel 400: second adhesive
500: fiber belt

Claims (12)

A first adhesive applied along a side of the concrete structure having a length vertically;
At least one reinforcing fiber panel attached to the first adhesive, arranged to have a length vertically along the side of the concrete structure, and mixed with polyester fibers to have ductility;
A second adhesive applied again along the sides of the fiber panel and the concrete structure; And
A fiber belt attached to an application surface of the second adhesive while wrapping the concrete structure and the fiber panel diagonally or horizontally; Flexible reinforced composite fiber panel comprising a. The flexible reinforced composite fiber panel according to claim 1, wherein the fiber panel is formed by further mixing any one of glass fiber, carbon fiber and aramid fiber in addition to the polyester fiber. The flexible reinforced composite fiber panel according to claim 1, wherein the fiber panel is configured by further mixing glass fibers and carbon fibers in addition to the polyester fibers. The flexible reinforced composite fiber panel according to claim 1, wherein the fiber panel is formed by further mixing glass fibers and aramid fibers in addition to the polyester fibers. The flexible reinforced composite fiber panel according to claim 1, wherein a finish is further attached to the outside of the fiber belt. The flexible reinforced composite fiber panel according to claim 1, wherein the fiber belt is polyester fiber. Applying a first adhesive along a side of the concrete structure having a vertical length;
Attaching a fiber panel mixed with polyester fibers along a side of the concrete structure to be attached to the first adhesive;
Re-applying a second adhesive along side surfaces of the fiber panel and the concrete structure; And
Winding the fiber belt so as to wrap diagonally or horizontally along the side of the concrete structure and attaching the coated surface to the coated surface of the second adhesive; Concrete structure reinforcement method using a ductile reinforced composite fiber panel, characterized in that to proceed. 8. The method of claim 7, wherein the fiber panel is configured by further mixing any one of glass fiber, carbon fiber, and aramid fiber in addition to the polyester fiber. 8. The method of claim 7, wherein the fiber panel is configured by further mixing glass fiber and carbon fiber in addition to the polyester fiber. 8. The method of claim 7, wherein the fiber panel is configured by further mixing glass fiber and aramid fiber in addition to the polyester fiber. 8. The method of claim 7, wherein the fiber belt is a polyester fiber. According to claim 7, After the step of attaching the fiber belt, the concrete structure reinforcement method using a flexible reinforced composite fiber panel, characterized in that further comprising the step of attaching a finish to the outside of the fiber belt.

Images