KR101166216B1 - Panel for reinforcing conc'c body - Google Patents

Abstract

PURPOSE: A composite fiber panel for reinforcement having ductility is provided to reduce brittle fracture by reinforcing a structure without a process for polishing the foundation surface of the structure. CONSTITUTION: A composite fiber panel for reinforcement having ductility comprises adhesive(200), a fiber panel(300) for reinforcement, and one or more anchor bolts(400). The adhesive is spread on the outer surface(110) of a concrete structure(100). The fiber panel, made of polyester fiber having ductility, is spread on the outer surface of the concrete structure where the adhesive is spread and reinforces the rigidity of the concrete structure. The anchor bolts are inserted into the concrete structure through the fiber panel and the adhesive and fix the fiber panel to the concrete structure.

Description

Flexible reinforced composite fiber panel {Panel for reinforcing conc'c body}

The present invention relates to a technique for reinforcing concrete structures, and in detail, by attaching a polyester-based fiber having excellent ductility to a polyurethane-based adhesive having excellent elongation, thereby improving the rigidity of the concrete structure. By doing so, the present invention relates to a ductile-reinforced composite fiber panel that can simultaneously provide strength improvement and ease of construction.

In general, the collapse of concrete structures occurs when members of the structure are destroyed by excessive load or lack of strength, which damages the stability of the entire structure and deforms the structure to reduce the internal space. Done.

In order to compensate for this, conventional concrete structure reinforcement method is applied to the steel plate adhesion reinforcement method, fiber sheet attachment method and fiber plate reinforcement method.

First, the steel plate bonding reinforcement method is excellent in reinforcement performance against earthquakes due to the use of high strength steel sheet, but due to the heavy weight, the workability is inferior. .

Fiber sheet attachment method for resolving the above problems is a reinforcement method using a fiber sheet, it is lightweight but has a high reinforcement performance without increasing its own weight, there is an advantage that there is no restriction in the shape of the structure, impregnation work in the field There was a problem that the workability and uniformity of quality is poor.

In addition, the fiber panel reinforcing method is a reinforcing method using both a high strength fiber sheet and a fiber panel as shown in FIG. 1, and has been widely used in recent years because of its excellent reinforcing performance and light weight, and thus excellent workability and construction quality. .

As shown in Figure 1, the conventional fiber panel reinforcement method, first ground surface grinding (S10) of the structure, high pressure water cleaning (S20) for cleaning the surface, epoxy metering and mixing (S30), epoxy adhesive Construction is completed through the process of coating (S40), fiber reinforced panel attachment (S50), anchor installation and finishing (S60).

However, the conventional fiber panel reinforcing method has a high rigidity due to the material properties of the high-strength fiber sheet and the fiber panel, but the elongation is lowered in some cases may lead to brittle fracture at the time of fracture. As such, when brittle fracture occurs, there is a problem that causes more dangerous cases than before reinforcement.

In addition, although epoxy adhesives, which are mainly used as adhesives for fiber panels, are excellent in basic physical properties such as adhesive performance, they have a problem of causing brittle fracture since the elongation of the adhesive is low.

In addition, the conventional fiber panel reinforcing method has a problem of environmental pollution, and the air pollution is long and the workability is deteriorated because scattering dust or concrete fragments are generated in the base surface treatment process.

Therefore, the present invention is to solve the conventional problems as described above, after applying a polyurethane-based adhesive excellent in elongation (elongation), comprising a polyester fiber excellent in ductility on the application surface of the adhesive By applying the fiber panels together, it is possible to easily reinforce the structure without the process of arranging the base surface of the structure, thereby providing the ease of construction and reducing the brittle fracture while maintaining the reinforcing performance. The purpose is to provide.

Flexible reinforcing composite fiber panel for achieving the above object, the adhesive is applied to the polyurethane-based on the outer peripheral surface of the concrete structure, and the reinforcing fibers are mixed with the adhesive applied surface to complement the strength, the polyester fiber having ductility is mixed And at least one anchor bolt having one end inserted into the structure through the panel and the adhesive.

Here, the fiber panel may be molded by mixing a glass and carbon fiber, the fiber panel may be molded by a mixture of glass and aramid fibers.

The adhesive and the fiber panel may be provided on one surface or a plurality of surfaces of the structure, respectively.

In addition, a finish may be further attached to the outer circumferential surface of the fiber panel.

On the other hand, the concrete structure reinforcement method using a flexible reinforced composite fiber panel to achieve the above object, the step of applying a polyurethane-based adhesive to the outer peripheral surface of the concrete structure, to complement the strength of the structure, the adhesive coating surface Adhering a fiber panel for reinforcement reinforced with polyester fibers mixed therewith, and inserting one end of an anchor bolt into the structure through the fiber panel and the adhesive to fix the fiber panel. Characterized in that.

The fixing of the anchor bolt may further include drilling a recess into one surface of the structure through the fiber panel and the adhesive to fasten the anchor bolt.

The fiber panel may be provided with a mixture of glass and carbon fibers, and the fiber panel may be provided with a mixture of glass and aramid fibers.

The adhesive and the fiber panel, may be provided on one surface or a plurality of surfaces of the structure, respectively.

On the other hand, after fixing the anchor bolt (S300), it may further comprise the step of attaching the finishing material to surround the outer peripheral surface of the fiber panel.

As described above, since the present invention uses a polyurethane-based adhesive having excellent elongation, the structure can be easily reinforced without a process of arranging the base surface of the structure. Therefore, there is no background cleaning process to provide shortening of the air and easy constructability, and dust or concrete fragments are not generated during the background cleaning process, so there is no problem of environmental pollution.

In addition, by applying a combination of a polyurethane-based adhesive excellent in elongation and a polyurethane-based fiber panel excellent in ductility, there is an advantage that can reduce brittle fracture while maintaining the reinforcing performance.

1 is a block diagram sequentially illustrating each step of the conventional fiber panel reinforcing method.
Figure 2 is a cross-sectional view showing a flexible reinforced composite fiber panel according to the present invention.
Figure 3 is a cross-sectional view showing that the fiber panel of the flexible reinforced composite fiber panel according to the present invention is applied to the composite fiber panel by further applying glass, carbon and aramid (fiber) to the fiber.
Figure 4 is a process diagram sequentially showing each step of the concrete structure 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 2 to 4, the flexible reinforced composite fiber panel according to the present invention, the adhesive is applied to the polyurethane-based excellent elongation (elongation) on the outer peripheral surface 110 of the concrete structure 100 ( 200, the reinforcing fiber panel 300 is attached to the adhesive surface 200 is applied to supplement the strength, the polyester fiber 310 having ductility is mixed, and the fiber panel 300 and the At least one anchor bolt 400 has one end inserted into the structure 100 through the adhesive 200.

Here, the concrete structure 100 includes a beam, a slab and a column used in the building of reinforcement, and the other structure 100 may also be a reinforcement. At least one groove 120 is formed on the outer circumferential surface 110 of the structure 100 so that one end of the anchor bolt 400 may be inserted.

Polyurethane material used as the adhesive (200) is a one-component type, it is tough and resistant to chemicals, has good elasticity and is also used as a substitute for rubber. Sufficient adhesion may be provided even when foreign matter such as dust is attached to the outer circumferential surface 110 of the 100 or fine bends are formed.

Therefore, the high-pressure water cleaning operation for cleaning the base surface of the outer circumferential surface 110 of the structure 100 is removed before the adhesive 200 is applied, thereby providing ease of construction and preventing dust or concrete fragments from occurring. .

In addition, since the polyurethane-based adhesive 200 can easily maintain the adhesive strength without deterioration, the adhesive state of the fiber panel 300 is not deformed even after time. Here, the adhesive 200 may provide an adhesive strength of about 0.7 MPa.

As shown in Figures 2 and 3, the fiber panel 300 is to supplement the strength so that the structure 100 can withstand the external strength or load, the plate 200 having a certain shape and thickness of the adhesive 200 It is attached to the coated surface. That is, the adhesive 200 should be applied in advance to the structure 100 in accordance with the shape of the fiber panel 300.

Here, the fiber panel 300 may use various kinds of fibers. Preferably it can be molded with a mixture of glass and carbon fibers and can also be molded with a mixture of glass and aramid fibers.

That is, by mixing the polyester fibers 310 in a 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.

Therefore, the fiber panel 300 is not only provided with a certain strength by the fibers, but also provides excellent ductility by mixing the polyester fibers 310, thereby strengthening the rigidity of the structure 100 and brittle fracture Can be prevented.

That is, in the case of reinforcing only the strength as in the conventional structure 100 reinforcement method, when an external force of a certain strength or more acts on the structure 100, brittle fracture may occur, which may be compensated for.

As described above, the adhesive 200 and the fiber panel 300 may be provided on one surface or a plurality of surfaces of the structure 100, respectively. That is, by strengthening a portion or a plurality of portions of the structure 100 to increase the rigidity for the existing structure (100).

Such a fiber panel 300 and the adhesive 200, the through hole is formed at the same position as the groove 120 of the structure 100 so that the insertion end 410 of the anchor bolt 400 through.

The anchor bolt 400, the threaded insertion end 410 is inserted into the groove 120 of the structure 100 through the through hole of the fiber panel 300 and the adhesive 200, the head 420 is The outer surface of the fiber panel 300 is installed in the form of supporting the structure 100 direction.

In addition, a finish (not shown) may be further attached to the outer circumferential surface of the fiber panel 300. The finish may be coated with a synthetic resin or paint for waterproof coating.

On the other hand, referring to Figure 4 describes the concrete structure 100 reinforcement method using a flexible reinforced composite fiber panel according to the present invention.

First, in order to attach the fiber panel 300 to the outer circumferential surface 110 of the concrete structure 100, the step of applying a high-performance polyurethane-based adhesive 200 with excellent elongation (S100) to a predetermined thickness. At this time, the adhesive 200 used in the step (S100) is applied in various areas and forms according to the shape of the fiber panel 300 to be attached.

Here, the polyurethane (polyurethane) used as the adhesive 200 has the characteristics of being tough and well resistant to chemicals, and has the advantage of good elasticity, the outer peripheral surface 110 of the concrete structure 100 due to the characteristics of the material Sufficient adhesion can be provided even when foreign matter such as dust is attached or fine bends are formed.

That is, since the base surface work of the outer circumferential surface 110 of the concrete structure 100 is deleted before applying the adhesive 200, ease of construction is provided, and dust generation may be eliminated during the base surface work. And since the adhesive force can be maintained without deterioration easily over time, the attachment state of the fiber panel 300 is not deformed.

Next, in order to supplement the strength that the concrete structure 100 can withstand the external force or load, in step (S200) of attaching the reinforcing fiber panel 300 mixed with the polyester fiber 310, the adhesive 200 The fiber panel 300 is attached to the coated surface.

That is, after completing the step (S200) of attaching the fiber panel 300, the fiber panel 300 is fixedly positioned on the structure 100 with one surface attached to the adhesive 200. In this state, it becomes a state which can perform the anchor bolt coupling process mentioned later.

Finally, the step of fixing the fiber panel 300 by inserting one end of the anchor bolt 400 into the interior of the structure 100 through the fiber panel 300 and the adhesive 200 (S300).

Here, the step (S300) of fixing the anchor bolt 400 is to fasten the anchor bolt 400, the groove 120 to one surface of the structure 100 through the fiber panel 300 and the adhesive 200. The method may further include puncturing.

That is, after attaching the fiber panel 300 to the adhesive 200 applied to the structure 100, the operator using the specific tool grooves in the structure 100 through the fiber panel 300 and the adhesive 200 ( 120).

In this state, the fiber panel 300 and the fiber panel having a certain strength and ductility by inserting and fastening the insertion end 410 of the anchor bolt 400 to the groove 120 through the through hole formed in the adhesive 2000 The 300 can be firmly fixed to the structure.

On the other hand, after fixing the anchor bolt (S300), may further comprise the step of attaching the finishing material to surround the outer peripheral surface of the fiber panel (300).

As a result, since the present invention uses a polyurethane-based adhesive 200 having excellent elongation, it is possible to easily reinforce the structure 100 without the process of arranging the base surface of the structure 100, thereby shortening and ease of air. One construction can be provided. And during the background cleaning process, it is possible to prevent environmental pollution due to the generation of scattering dust.

In addition, by applying a polyurethane-based adhesive 200 excellent in elongation and a polyurethane-based fiber fiber panel 300 having excellent ductility, there is an advantage that can reduce brittle fracture while maintaining the reinforcing performance.

Although the technical concept of the soft-reinforced composite fiber panel according to the present invention and the concrete structure reinforcement method using the same have been described with the accompanying drawings, this is for the purpose of limiting the present invention by way of example. 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: structure 110: outer surface
120: groove 200: adhesive
300: fiber panel 310: polyester fiber
400: anchor bolt 410: insertion end
420: head

Claims (11)

An adhesive applied to the outer circumferential surface of the concrete structure and composed of a polyurethane series having a high elongation to prevent brittle fracture from occurring;
A flexible polyester fiber is mixed with a molded structure mixed with glass fibers and carbon fibers or a molded structure mixed with glass fibers and aramid fibers to be adhered to the coated surface of the adhesive to reduce brittle fracture while supplementing strength. Reinforcing fiber panels; And
At least one anchor bolt to which one end is inserted into the structure through the reinforcing fiber panel and the adhesive to fix the reinforcing fiber panel to the concrete structure; Flexible reinforced composite fiber panel comprising a. delete delete The method of claim 1,
The adhesive and the fiber panel, the flexible reinforced composite fiber panel, characterized in that each provided on one or a plurality of surfaces of the structure. The method of claim 1,
A flexible reinforced composite fiber panel, characterized in that the finishing material is further attached to the outer peripheral surface of the fiber panel. delete The method of claim 1,
Concave grooves are formed on the outer circumferential surface of the concrete structure, and the anchor bolt is a flexible reinforced composite fiber panel, characterized in that configured to be inserted into the groove through the reinforcing fiber panel through the through hole. delete delete delete delete

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