KR101547423B1 - Fiber reinforcement of the concrete structures - Google Patents

Abstract

The present invention provides a fiber reinforcing material for a concrete structure, capable of urgent construction without special precautions in case of constructing a fiber reinforcing material on a reinforcing portion damaged in a concrete structure, comprising: a composite fiber shaped in a flat surface; a male Velcro formed on one surface of the composite fiber; and a female Velcro formed on an other surface of the composite fiber. The composite fiber is formed by weaving fiber thread made of polypropylene fiber and rubber thread. The male Velcro formed as an elastic hook is densely placed by being covered on one entire surface of the composite fiber. The female Velcro formed as a loop is densely placed by being covered on the entire other surface of the composite fiber.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a fiber reinforcing material for a concrete structure,

The present invention relates to a fiber reinforcing material for a concrete structure, and more particularly, to a fiber reinforcing material for a concrete structure having a reinforcing member made of a composite fiber in the form of a Velcro.

Generally, the concrete structure is made of materials having different physical properties such as cement, aggregate, and admixture. When the concrete structure is exposed to the external environment, the concrete structure is often damaged or damaged. For example, in the case of a concrete cladding structure or a concrete water treatment structure, strength and durability may be deteriorated due to neutralization or deterioration of the concrete due to harmful wastewater. In case of a concrete port structure, In concrete piers, the strength and durability of the structure are lowered due to the neutralization of the concrete and the corrosion of the reinforcing steel due to the vibration or the harmful corrosion environment. As a result, the concrete structure is damaged by scouring or cracking.

In recent years, as the shape of concrete structures has diversified and become more complicated, more load is applied than the design load. In case of abandonment of cracks or cracks in concrete structures, There is also a risk of becoming.

Therefore, in order to improve the strength of the concrete structure or to reinforce the damaged part of the concrete structure, in the past, mainly the reinforcement method using the iron plate was used, but the weight of the concrete structure due to the weight of the iron plate was increased, There is a problem such that corrosion occurs.

Therefore, a reinforcing method using a fiber reinforcing material which is lighter in weight than a steel plate or a reinforcing bar and is free from the risk of corrosion is widely applied. A fiber reinforcing material composed of a single fiber is mainly used for an anchor or an adhesive on a damaged reinforced portion of a concrete structure (See Patent Document 1).

When the fiber reinforcing material is attached to the reinforcing portion by using an anchor and an adhesive or the like, anchor holes for fixing the anchor to each of the concrete structure and the fiber reinforcing material must first be formed. By causing the anchor holes of the fiber reinforcing material to damage the fiber reinforcing material Not only the reinforcement strength of the fiber reinforcement is reduced but also the anchor hole formed in the concrete structure damages the concrete itself, thereby causing a problem that the performance of the entire concrete structure is significantly lowered. Further, even in the case of an adhesive, since the adhesive strength is lowered due to environmental factors such as time elapsed or exposure of the fiber reinforcing material to high temperature, the performance of the fiber reinforcing material may be drastically deteriorated, and the fiber reinforcing material may be reinforced In addition to performance, there is a risk that the fiber reinforcement will fall out of the concrete structure.

In addition, when the conventional fiber reinforcing material is attached to the reinforcing portion by using an anchor and an adhesive, it takes a long time to complete the reinforcing operation as well as complicated construction procedures such as removing impurities at the damaged portion to which the fiber reinforcing material is to be attached in advance Therefore, there is a problem in that it is not possible to cope with the situation when the construction is urgent and the construction is urgently required.

In addition, such a conventional reinforcing method requires much time and costs because it requires a lot of equipment and materials as well as a lot of time.

Therefore, the present inventor has devised a reinforcing method using velcro as a method which can be easily installed at a low cost and can cope with urgent need for reinforcement even when necessary.

Velcro is a fastener that is composed of a pair of hooks and loops which are separated from each other by a male and a female. The straps are used instead of fastening straps such as zipper rings and sneaker boots, straps for bicycle pedals, gloves , A hat, a jumper, and the like. It is widely used because it is easy to attach and detach.

However, since the conventional velcro is focused only on the binding force, in order to use it as a fiber reinforcing material for reinforcing the damaged portion of the concrete structure, the fiber reinforcing material must be strongly adhered to the concrete structure, It is necessary to improve adhesion, tensile strength and stretchability.

Patent Document 1: Korean Patent No. 791,360

The present invention provides a fiber reinforcing material for a concrete structure that can be urgently installed without any special precautions to prevent sudden accidents when the fiber reinforcing material is applied to the damaged reinforcing portion of the concrete structure as described above .

The present invention also provides a fiber reinforcing material for a concrete structure having excellent adhesion, tensile strength and stretchability so that the fiber reinforcing material can be strongly adhered to the concrete structure.

 The present invention also provides a fiber reinforcing material for a concrete structure that is economical and easy to install.

The fiber reinforcing material of the concrete structure according to the present invention includes a flat composite fiber, a Velcro formed on one side of the composite fiber, and an arm velcro formed on the other side of the composite fiber, wherein the composite fiber is made of polypropylene fiber Wherein the elastic fiber is formed by weaving a fiber yarn and a rubber yarn, wherein the elastic fiber hook is densely formed on the entire surface of one side of the composite fiber, And is formed by positioning.

Further, in the fiber reinforcing material of the concrete structure according to the present invention, the composite fiber is formed by weaving the polypropylene fiber in a state in which the rubber fiber is stretched, and the fiber yarn further comprises carbon fibers and glass fibers, Is characterized by being any one of rayon based carbon fiber, PAN based carbon fiber and pitch based carbon fiber.

Further, the fiber reinforcing material of the concrete structure according to the present invention is characterized in that an annular fixing ring is formed at one end portion in the longitudinal direction of the composite fiber.

Further, the fiber reinforcing material of the concrete structure according to the present invention is characterized in that the insulating material is applied to improve durability and fire resistance.

Further, the fiber reinforcing material of the concrete structure according to the present invention is characterized in that the loop of the arm velcro is made of a fiber bob.

Since the fiber reinforcing material of the concrete structure according to the present invention is made of Velcro, when reinforcing the damaged reinforcement portion of the concrete structure, emergency construction can be easily performed without special precautions.

Further, the fiber reinforcing material of the concrete structure according to the present invention is excellent in elasticity (stretchability) because the composite fiber is formed by weaving the fiber yarn made of polypropylene fiber in a state in which the rubber yarn is stretched, Tensile strength and tensile modulus are very high because they contain more fibers.

Therefore, the fiber reinforcing material of the concrete structure according to the present invention is excellent in elastic force (stretchability), and has a very high tensile strength and tensile elastic modulus, so that the fiber reinforcing material can be adhered very strongly to the damaged reinforcing portion of the concrete structure.

Further, the fiber reinforcing material of the concrete structure according to the present invention is excellent in durability and fire resistance by applying an insulating material.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a fiber reinforcing member of a concrete structure according to the present invention, in which FIG. 1 (a) is a structure of a fiber reinforcing material, and FIG.
FIG. 2 is a view showing an example of applying a fiber reinforcing material to a concrete structure according to the present invention, wherein (a) is an example of attaching a fiber reinforcing material to a circular structure, and (b) Fig.
3 is a view for explaining an example in which a fiber reinforcing material of a concrete structure according to the present invention is applied to a concrete structure between walls.
4 is a view showing another embodiment of a fiber reinforcing material of a concrete structure according to the present invention.

A specific embodiment of the present invention will be described in detail below with reference to Figs.

FIG. 1 is a view showing a structure of a fiber reinforcing material of a concrete structure according to the present invention. FIG. 2 (b) is a view for explaining a method of applying the fiber reinforcing material of the concrete structure according to the present invention. (B) is a view showing an example in which a fiber reinforcing material is attached to a rectangular structure, and Fig. 3 is a view showing an example of a concrete structure of the concrete structure according to the present invention. FIG. 4 is a view illustrating an example in which a fiber reinforcing material is applied to a concrete structure between walls, and FIG. 4 is a view showing another embodiment of a fiber reinforcing material of a concrete structure according to the present invention.

As shown in FIG. 1, the fiber reinforcing member 10 of the concrete structure comprises a flat composite fiber 11, a Velcro 12 formed on one side of the composite fiber 11, And formed as a velcro shape including the arm velcro 13 formed.

The composite fiber 11 is formed by weaving a fiber yarn made of polypropylene fiber having a high tensile strength and a rubber yarn in a stretched state by a molding apparatus. As described above, the composite fibers 11 are excellent in elastic force and tensile strength by weaving the fiber yarns made of polypropylene fibers having high tensile strength together with the rubber yarns in a stretched state.

Further, it is preferable that the fiber yarn further comprises carbon fiber or glass fiber.

The carbon fiber is a fibrous carbon material having a carbon content of 90% or more by mass. The tensile strength and the tensile elastic modulus of the carbon fiber are excellent, so that the tensile strength and tensile elastic modulus of the composite fiber 11 can be increased. Ray-based carbon fibers, PAN based carbon fibers, or Pitch based carbon fibers may be appropriately selected.

The glass fiber is characterized not only in heat resistance and fire resistance, but also in tensile strength.

Therefore, the composite fiber 11 is excellent in stretchability by woven with the fiber yarn in a state in which the rubber yarn is stretched, and the carbon fiber and the glass fiber are added to the fiber yarn to improve tensile strength and tensile elasticity.

The elastic velcro 12 is formed by densely arranging elastic claws on the entire surface of one side of the composite fiber 11 and the elastic velcro 13 is formed on the other side of the composite fiber 11 And the loop is formed by a fiber boule in order to improve the adhesion with the concrete structure 20. [

As described above, the fiber reinforcing material of the concrete structure according to the present invention is formed by forming the number of the velcro 12 and the arm velcro 13 on both sides of the composite fiber 11 woven with the composite material, Not only the reinforcing material can be easily and quickly applied, but also the elasticity and tensile strength of the composite fiber 11 are excellent, so that the fiber reinforcing material can be strongly adhered to the damaged concrete structure.

In the fiber reinforcing material of the concrete structure according to the present invention, the number of the Velcro (12) and the Arm Velcro (13) are formed on both sides of the composite fiber (11) ) And fire resistance (chemical resistance).

Next, a construction method of a fiber reinforcing material (hereinafter referred to as "fiber reinforcing material") of a concrete structure according to the present invention will be described.

First, as shown in FIG. 1 (b), when the damaged portion ((a) portion) exists in the concrete structure 20, the fibrous boules of the arm velcro 13 of the fiber reinforcing member 10 To face the concrete structure (20). Since the surface of the fiber reinforcing member 10 contacting the concrete structure 20 is formed of a fiber boule, the binding force of the fiber reinforcing member 10 to the concrete structure 20 can be improved.

It is also possible to attach the fiber reinforcing member 10 to the damaged portion (the (a) portion) of the concrete structure 20 by using one fiber reinforcing member 10, but as shown in FIG. 2, It is preferable to adhere. At this time, since the hooks and the fiber bobbles are formed on the entire surfaces of both sides of the composite fiber 11, the binding force between the fiber reinforcements 10 is strengthened and the front face is uniformly bound.

In addition, since the fiber reinforcing material 10 is excellent in flexibility, it can be easily installed regardless of the shape of the concrete structure 20, as shown in FIG.

3 (a), when a damaged portion (a damaged portion) is generated in the column 20 made of a concrete structure between the walls 30 of the building, as shown in Fig. 3 (b) The wall 30 contacting the column 20 can be easily cut after cutting the fiber reinforcing member 10 to the extent that the fiber reinforcing member 10 is inserted therein.

Next, as shown in Fig. 4 (a), it is preferable to further form an annular fixing ring 14 at one end of the fiber reinforcing member 10 in the longitudinal direction.

Since the concrete structure 20 is usually large in its circumference, it is often difficult for a worker to attach the fiber reinforcing member 10 to the concrete structure 20 alone. If it is not easy to attach the fiber reinforcing member 10 to the concrete structure 20 due to the circumference of the concrete structure 20 or the like, The fiber reinforcing member 10 can be easily attached to the concrete structure 20 by fixing the lengthwise one side of the fiber reinforcing member 10 to the concrete structure 20 using the fixing ring 14 .

10 Fiber Reinforcement 11 Composite Fiber
12 Number Velcro 13 Arm Velcro
14 Fixing rings 20 Concrete structures (columns)
30 Walls

Claims (5)

And a male velcro formed on the other surface of the conjugate fiber, wherein the male velcro is formed on one side of the conjugate fiber,
Wherein the composite fiber is formed by weaving a fiber yarn made of polypropylene fiber and a rubber yarn and is formed by weaving the polypropylene fiber in a state in which the rubber yarn is stretched,
Wherein the number of Velcro is formed by densely arranging elastic claws over the entire surface of one side of the composite fiber,
The arm velcro is formed by densely looping the entire surface of the other surface of the composite fiber,
Wherein the fiber yarn further comprises carbon fiber or glass fiber. The method of claim 1, wherein
Wherein the carbon fiber is one of rayon-based carbon fiber, PAN-based carbon fiber, or pitch-based carbon fiber. The method according to claim 1,
Characterized in that an annular fixing ring is formed at one longitudinal end of the composite fiber. 4. The method according to any one of claims 1 to 3,
Wherein the fiber reinforcing material of the concrete structure is coated with an insulating material to improve the durability and the fire resistance of the concrete structure. 4. The method according to any one of claims 1 to 3,
Wherein the loops of the arm velcro are made of fiber bobs.

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