JP2000054561A - Reinforcing method of concrete structure by reinforced fiber sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a reinforcing method for a concrete structure by a reinforced fiber sheet having the same reinforcing effect as the case where the continuous reinforced fiber sheet is wound and capable of facilitating execution and reducing an execution period even in the concrete structure of a column and a beam with a side wall. SOLUTION: In a concrete structure in which a wall part 101 is integrally formed on a column part 100, a through hole 104 is drilled in the wall part 101 connected to the column part 100. A reinforced fiber anchor is set in the through hole 104, both the ends 3 of the reinforced fiber 2 of the reinforced fiber anchor is connected to a reinforced fiber sheet 10 stuck on the concrete column part 100 by resin.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for reinforcing a concrete structure such as an architectural or civil structure, such as a column or beam with a wall, or a wall-type pier.

[0002]

2. Description of the Related Art Conventionally, a method of reinforcing a columnar body such as a pier, a middle pillar of a subway, or a pillar of a building, particularly a structure such as a concrete pillar constructed of reinforced concrete (RC) or steel reinforced concrete (SRC). As a method of rolling up reinforced concrete around concrete columns,
There is a method of attaching a steel plate.

[0003] The method of rolling up reinforced concrete (RC) involves increasing the weight, newly increasing the cross-sectional area,
There are problems such as a long curing period and a long construction period because concrete is cast on site. The method of attaching the steel plates requires welding the steel plates to each other or joining them by bolting, and has the problems that the steel plates are heavy and workability is poor.

Therefore, in recent years, a reinforcing method of winding a carbon fiber sheet around a concrete column has been proposed.

That is, as shown in FIG. 7, a width (W _O ) of 20 to 50 c is formed by arranging carbon fibers f in one direction.
m continuous carbon fiber sheet 10 is wound around the concrete column 100 by a predetermined number of turns, or a width (W _O ) shorter than the circumference of the concrete column 100.
A plurality of reinforcing fiber sheets 10 cut to a size of 20 to 50 cm and a length of 1 to 2.5 m are used, and a predetermined number of the reinforcing fiber sheets 10 It is performed by laminating and winding into a layer, impregnating the reinforcing fiber sheet 10 with a resin, and curing the resin.

[0006]

However, as shown in FIG. 8, for example, as shown in FIG.
0, when reinforcing a so-called pillar with a sleeve wall, the sleeve wall 101 is broken once, and the carbon fiber sheet 10 is continuously wound around the pillar 100 around the concrete pillar 100 to reinforce the pillar.
After the winding, the sleeve wall 101 was restored. Such a reinforcing method is complicated and has a problem that the construction period is long.

[0007] Therefore, as shown in FIGS. 8 and 9, the pillar 10 with the sleeve wall is reinforced by the pillar 10 divided by the sleeve wall 101.
On both sides of 0, the carbon fiber sheet 10 is wound in a U-shape around substantially half the circumference of the column 100, and both ends of the carbon fiber sheet 10 are fixed to the column 100 with anchor bolts 102, L-shaped angles 103, and the like. Has been adopted. This method does not require the trouble of breaking and restoring the sleeve wall 101, but requires processing of an L-shaped angle.
In addition, the fixing work of the anchor bolt 102 is complicated,
While having the problem that it takes time for construction, the carbon fiber sheet 10 is intermittent on both sides of the column,
It cannot be wound in a closed form and has a problem in terms of the reinforcing effect.

It is an object of the present invention to provide a concrete structure such as a column with a sleeve wall, a beam, etc., which has the same reinforcing effect as when a continuous reinforcing fiber sheet is wound, and is easy to construct.
An object of the present invention is to provide a method for reinforcing a concrete structure with a reinforcing fiber sheet capable of shortening a construction period.

[0009]

The above object is achieved by a method for reinforcing a concrete structure with a reinforcing fiber sheet according to the present invention. In summary, the present invention relates to a method of reinforcing a pillar portion in a concrete structure having a wall portion integrally formed with the pillar portion, and (a) drilling a through hole in the wall portion connected to the pillar portion. (B) attaching a reinforcing fiber sheet to each side of the pillar portion divided by the wall portion;
(C) installing a reinforcing fiber anchor having a plurality of reinforcing fibers arranged in a tubular member through the through-hole;
(D) injecting a resin into the tubular member of the reinforcing fiber anchor to impregnate the reinforcing fiber with the resin;
Removing the tubular member within the pot life of the resin,
(F) Positioning both ends of the reinforcing fiber at each end of the reinforcing fiber sheet, then expanding each end into a fan shape, and bonding both ends of the reinforcing fiber to the reinforcing fiber sheet with resin. And (g) a step of curing the resin, the method comprising the steps of:
It is.

According to one embodiment of the present invention, the reinforcing fiber sheet has a support and reinforcing fibers arranged on the support, and the reinforcing fiber anchor includes a tubular member and a tubular member. And reinforcing fibers arranged in the same. The tubular member is a metal or resin pipe.

Preferably, the reinforcing fibers are carbon fibers,
Glass fiber, inorganic fiber including ceramic fiber, aramid fiber, polyethylene fiber, polypropylene fiber, organic fiber including nylon fiber, or titanium fiber, stainless steel fiber, metal fiber including iron fiber alone or by mixing multiple types Can be used, and the resin is
It can be a room temperature or thermosetting epoxy resin, polyester resin, polyamide resin, polycarbonate resin, or radical reaction resin.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A method for reinforcing a concrete structure with a reinforcing fiber sheet according to the present invention will be described below in more detail with reference to the drawings. Referring to FIG. 1, a reinforcing column according to the present invention is applied to a concrete column 100 with a sleeve wall having a rectangular cross section.
A description will be given of a case where the present invention is applied.

According to the present invention, the concrete column 100 having the sleeve wall 101 has, for example, 25 cm, 3 cm on both sides of the concrete column 100 divided by the sleeve wall 101.
A reinforcing fiber sheet 10 having a predetermined width W of, for example, 3 cm or 50 cm is stuck in a U-shape over substantially half the circumference of the concrete column 100. The reinforcing fiber sheet 10
It is attached at a predetermined pitch P along the longitudinal direction of the concrete column 100. The reinforcing fiber sheets 10 on both sides of the concrete column 100 are located in a corresponding arrangement relationship, that is, in pairs on the same circumference. FIG. 1 (A)
In the embodiment shown in FIG. 1, W = P, that is, a series of reinforcing fiber sheets 10 on each side are arranged adjacent to each other, but the present invention is not limited to this, and is shown in FIG. As described above, W <P, that is, each reinforcing fiber sheet 10
Can be arranged apart from each other.

The outer peripheral surface of the concrete column 100 is preferably subjected to a surface treatment such as applying a primer or the like,
Thereafter, the reinforcing fiber sheet 10 is attached with a resin, that is, an adhesive. As the method, for example, (1) After applying an adhesive to one or both surfaces of the reinforcing fiber sheet 10 and impregnating the reinforcing fiber sheet 10 with the adhesive,
It is stuck on the outer peripheral surface of the concrete pillar 100. (2) An adhesive is applied to the outer surface of the concrete column 100, and the reinforcing fiber sheet 10 is wound thereon, so that the reinforcing fiber sheet 10 is impregnated with the adhesive. If necessary, an adhesive is further applied to the surface of the reinforcing fiber sheet 10. and so on.

The reinforcing fiber sheet 10 stuck on the concrete pillars 100 in the required number of layers in this manner cures the impregnated adhesive by heating as necessary.

Referring to FIGS. 5 (a) and 5 (b), an embodiment of the reinforcing fiber sheet 10 is shown. A reinforcing fiber f continuous on a support 11 is laid through an adhesive 12, for example. They are arranged in one direction.

As the support 11, glass cloth, glass paper (non-woven fabric), aramid fiber cloth, or aramid non-woven fabric is used. The thickness of the support 11 (t
₁ ) is _{1 to} 500 μm, preferably 5 to 100 μm,
The thickness of the adhesive 12 (t ₂₎ is 1 to 100 [mu] m, and preferably from 10 to 30 [mu] m.

The reinforcing fiber sheet 10 has an overall thickness (T)
Is 0.05 to 5 mm, and the width (W) is 2 to 100 cm, for example, 25 cm, 33 cm, 50 cm, or the like as described above.

As the reinforcing fibers f, carbon fibers are preferable, and PAN-based fibers, pitch-based fibers and the like can be used. Reinforcing fiber f is not limited to carbon fiber only, and may be glass fiber, inorganic fiber including ceramic fiber, aramid fiber, polyethylene fiber, polypropylene fiber, organic fiber including nylon fiber, titanium fiber, stainless steel. Steel fibers, metal fibers including iron fibers, and the like can also be used. If necessary, a plurality of such fibers may be mixed and used as a hybrid type.

Regarding the physical properties of the reinforcing fiber f, the elastic modulus is preferably not less than 0.3 × 10 ⁶ kgf / cm ² and 5.0.
× 10 ⁶ kgf / cm ² or less.

The adhesive to be applied to the reinforcing fiber sheet 10, that is, the matrix resin impregnated into the reinforcing fibers f is as follows.
Room temperature-curable or thermosetting epoxy resin, thermosetting resin such as polyester resin, or, if desired, thermoplastic resin such as polyamide resin or polycarbonate resin, or radical reaction resin such as MMA resin. Can be used.

At this time, the reinforcing fiber volume content of the reinforcing fiber sheet 10 impregnated with the adhesive (resin), that is, (volume of reinforcing fiber f) / (volume of reinforcing fiber f + volume of impregnated adhesive) ) X 100 (%) is 10% (volume) or more, 7
0% (volume) or less. 10% reinforced fiber content
When the volume is less than (volume), the thickness (T) of the reinforcing fiber sheet 10 for securing the required fiber amount becomes large.

In accordance with the present invention, as will be better understood with reference also to FIGS.
A hole 104 having a diameter of about 10 to 30 mm is formed to penetrate the reinforcing fiber sheet 10 attached to the concrete pillar 100. This hole 104 should be
It is preferable to drill on the 0 side. Further, the hole 104 does not need to be circular, and may be a U-shape in which the column 100 side is a plane, or may be a rectangular hole.

The reinforcing fiber anchor 1 according to the present invention is installed through a hole 104 formed in the sleeve wall 101.
Next, the reinforcing fiber anchor 1 will be described.

FIG. 6 shows an embodiment of the reinforcing fiber anchor 1 of the present invention. In this embodiment, the so-called reinforcing fiber anchor 1 has a reinforcing fiber bundle 2 having a large number of reinforcing fibers f, and a tubular member 4 arranged so as to surround the reinforcing fiber bundle 2. That is, in the tubular member 4, the reinforcing fiber bundle 2 is disposed so as to extend through the center hole 6, and between the tubular member 4 and the reinforcing fiber bundle 2, as described in detail later, Voids sufficient for resin injection are maintained.

The reinforcing fiber bundle 2 is generally produced by arranging reinforcing fibers f in a parallel state. That is, it is produced by bundling a plurality of strands (reinforcement fiber bundles) produced by converging a predetermined number of reinforcing fibers f in parallel or loosely by twisting them further in parallel or loosely.

As the reinforcing fibers f, carbon fibers, glass fibers, inorganic fibers including ceramic fibers, aramid fibers,
Organic fibers including polyethylene fibers, polypropylene fibers, and nylon fibers, or metal fibers including titanium fibers, stainless steel fibers, and iron fibers can be used alone or in combination of two or more. By mixing and using fibers of various physical properties, the characteristics of each fiber are exhibited at each level of tensile stress, and good deformation performance can be obtained. For example, when a fiber having a large elongation at break such as aramid fiber and a fiber having a large elastic modulus such as a carbon fiber are mixed, a composite having a high initial elasticity and a large elongation at break is obtained.

Normally, carbon fiber is preferably used as the reinforcing fiber anchor 1 for concrete structures.
Any type of carbon fiber, such as AN type, pitch type and others, may be used. Preferably, the strength is 100 kgf
/ Mm ² or more, and a high-strength and high-elasticity carbon fiber having an elastic modulus of 10 Tonf / mm ² or more is used. If organic fibers are used, the organic fibers have a strength of 100
Kgf / mm ² or more, the elastic modulus preferably at 2Tonf / mm ² or more.

On the other hand, the tubular member 4 can be made of various materials and sizes. Generally, the inner diameter of the center hole 6 is 2 to 100 mm, the thickness is 0.01 mm to 50 mm, and the center hole 6 is made of steel pipe or the like. It can be a metal pipe,
A pipe made of a resin material such as polyethylene, polypropylene, nylon, vinyl chloride, or a rubber resin can also be used.

According to the method for reinforcing a concrete structure according to the present invention, the resin-impregnated reinforcing fiber anchor 1 is cut to a desired size, and the reinforcing fiber bundle 2 is shown in FIGS. Thus, from both ends, for example, L ₁ = 1
It is preferable that the projection is about 10 cm to about 10 cm in the later work. In this state, the reinforcing fiber anchor 1 is inserted into the wall hole 104 formed in the sleeve wall 101. This state is shown in FIG.

Next, a resin is injected into the tubular member 4 of the reinforcing fiber anchor 1, and the reinforcing fiber bundle 2 in the tubular member 4 is impregnated with the resin. The resin used may be the same as the resin impregnated in the reinforcing fiber sheet 10 described above, and may be a cold-setting or thermosetting epoxy resin, or a vinyl ester resin, an MMA resin, or an unsaturated polyester. resin,
A radical reaction resin such as a urethane resin can be suitably used.

When the injection of the resin into the tubular member 4 is completed, only the tubular member 4 is taken out from the wall hole 104 while the resin is in a usable state. Next, both end portions 3 projecting outward from the wall holes 104 of the resin-impregnated reinforcing fiber anchor 1 are
Reinforced fiber sheet 1 attached to concrete structure
4 and is opened in a fan shape as shown in FIG. 4, and is pasted on the reinforcing fiber sheet 10, preferably with the same resin as the resin impregnated with the reinforcing fiber sheet, and cured. The operation of attaching the reinforcing fiber anchor 1 to the reinforcing fiber sheet 10 is preferably performed while the resin in which the reinforcing fiber bundle 2 is impregnated with the resin is usable.

As a result, the reinforcing fiber sheet 10 attached to the concrete pillar 100 is
Thus, the same effect as when the reinforcing fiber sheet 10 is wound around a pillar can be achieved. That is, according to the present invention, by simply making a small hole 104 in the wall, the two U-shaped reinforcing fiber sheets 10 stuck on both sides of the concrete column 100 are connected by the reinforcing fiber anchor 1 to form a pseudo closed type. Can be reinforced.
Also, the construction period can be shorter than before.

In the present invention, the width of the reinforcing fiber sheet 10
The length of the end portion 3 of the reinforcing fiber anchor 1 and the number of the reinforcing fiber bundles 2 are appropriately selected so that the reinforcing fiber anchor end portion 3 is opened in a fan shape and is effectively fixed on the reinforcing fiber sheet 10. . At this time, the shape of the sector is determined from the following points. (1) If the angle of the fan is too large, the efficiency of the force transmitted to the yarn decreases, and as a result, it becomes impossible to bear the tension generated in the sheet. (2) If the length of the fan is long, a relatively large seat width (W) can be shared even at a small angle.
Since the column width is about 70 to 90 cm, the length of the fan is limited by the position of the wall.

As an example, the reinforcing fiber anchor 1 is
In FIG. 1, the outer diameter (D1) is 20 mm and the inner diameter (D2) is 1
A fiber bundle (strand) made of 24000 PAN-based carbon fibers was arranged in parallel in one direction and used as the reinforcing fiber bundle 2 with a length of 0 mm and a length (L1) of 500 mm. The strength of the carbon fiber is 490 Kgf / mm2, the elastic modulus is 24 Tonf / mm2, and the protruding length of both ends (L2)
Was set to 100 mm.

In the above embodiment, the reinforcing fiber sheets 10 attached to both sides of the concrete column 100 are connected by using one reinforcing fiber anchor 1.
It is also possible to connect using a plurality of cables.

In the above embodiment, the column having the wall portion is described as the concrete column 100 with the sleeve wall. However, the column with the wall may be a beam or a girder having a wall. May be a wall-type pier or the like, and the reinforcing method of the present invention may be applied to these walled column portions to achieve the same operation and effect as described in the above embodiment.

[0038]

As described above, the method of reinforcing a concrete structure with a reinforcing fiber sheet according to the present invention is directed to a concrete structure in which a wall portion is formed integrally with a pillar portion in a wall portion connected to the pillar portion. A through hole is formed in the through hole, a reinforcing fiber anchor is installed in the through hole, and both ends of the reinforcing fiber of the reinforcing fiber anchor are connected to the reinforcing fiber sheet attached to the concrete pillar portion with resin. Therefore, even for concrete structures such as columns with sleeve walls and beams, the same reinforcing effect as when a continuous reinforcing fiber sheet is wound, the construction is easy, and the construction period can be shortened. Can be played.

[Brief description of the drawings]

FIG. 1 is a perspective view of a concrete column with a sleeve wall for explaining a reinforcing method according to the present invention, and FIG. 1 (A) shows an embodiment in which reinforcing fiber sheets are attached adjacent to each other;
(B) shows an embodiment in which the reinforcing fiber sheets are attached to each other while being separated from each other.

FIG. 2 is a plan view of the concrete column with a sleeve wall shown in FIG.

FIG. 3 is a view for explaining a mode in which reinforcing fiber sheets attached to both sides of a concrete column are connected by a reinforcing fiber anchor.

FIG. 4 is a diagram illustrating a mode in which reinforcing fiber sheets attached to both sides of a concrete column are connected by a reinforcing fiber anchor.

FIG. 5 is a view for explaining the structure of a reinforcing fiber sheet;
FIG. 5A is a cross-sectional view, and FIG. 5B is a perspective view.

FIG. 6 is a perspective view illustrating a structure of a reinforcing fiber anchor.

FIG. 7 is a perspective view for explaining a conventional method of reinforcing a concrete column.

FIG. 8 is a perspective view for explaining a conventional method of reinforcing a concrete column with a sleeve wall.

FIG. 9 is a plan view for explaining a conventional method of reinforcing a concrete column with a sleeve wall.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 reinforcing fiber anchor 2 reinforcing fiber bundle 4 tubular member 10 reinforcing fiber sheet 11 support 12 adhesive 100 concrete column 101 sleeve wall 104 wall hole

Claims (6)

[Claims] 1. A method of reinforcing a pillar portion in a concrete structure having a wall portion integrally formed with the pillar portion, comprising: (a) forming a through hole in a wall portion connected to the pillar portion; b) attaching a reinforcing fiber sheet to each side of the pillar portion divided by the wall portion, and (c) installing a reinforcing fiber anchor having a plurality of reinforcing fibers arranged in a tubular member through the through-hole. (D) injecting a resin into the tubular member of the reinforcing fiber anchor and impregnating the reinforcing fiber with the resin; (e) removing the tubular member within the usable life of the resin; (F) Positioning both ends of the reinforcing fiber at each end of the reinforcing fiber sheet, then expanding each end into a fan shape, and bonding both ends of the reinforcing fiber to the reinforcing fiber sheet with resin. And (g) curing the resin. A method for reinforcing a concrete structure, comprising: 2. The method for reinforcing a concrete structure according to claim 1, wherein the reinforcing fiber sheet has a support and reinforcing fibers arranged on the support. 3. The reinforcing fiber anchor according to claim 1, wherein the reinforcing member comprises a tubular member;
3. The method for reinforcing a concrete structure according to claim 1, further comprising reinforcing fibers arranged in a tubular member. 4. The method for reinforcing a concrete structure according to claim 3, wherein the tubular member is a metal or resin pipe. 5. The reinforcing fibers include carbon fibers, glass fibers, inorganic fibers including ceramic fibers, aramid fibers,
4. An organic fiber including polyethylene fiber, polypropylene fiber, nylon fiber, or a metal fiber including titanium fiber, stainless steel fiber, iron fiber, or a mixture of a plurality thereof. Or the method of reinforcing a concrete structure of 4. 6. The resin is a room-temperature-curable or thermosetting epoxy resin, a polyester resin, a polyamide resin,
The method for reinforcing a concrete structure according to claim 2, wherein the method is a polycarbonate resin or a radical reaction resin.