JPH11138671A - Reinforced fiber base - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a reinforced fiber base formed of fiber reinforced plastic(FRP), more minutely the reinforced fiber base optimum for the repair and reinforcement of a hand lay-up molded concrete structure. SOLUTION: In a fabric forming a reinforced fiber base formed of warps 8 and wefts 9, at least one of which is formed of reinforced fibers, fibers are oriented in parallel in the two directions or more on its one face, and press sheets 3 formed of a mesh having clearances therein through in the thickness direction are bonded and integrated between fibers by a bonding agent 4, a fiber bending rigidity index (fiber tensile elasticity X (fiber diameter)<4> X number of filaments) constituting the press sheets 3 is 1×10<-3> kgf.mm<2> or more.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fiber reinforced plastic (FRP) reinforced fiber substrate, and more particularly, to a reinforced fiber substrate most suitable for repairing and reinforcing concrete structures by hand lay-up molding.

[0002]

2. Description of the Related Art Recently, the weakening of cement-based structures and the decrease in durability have become problems, such as the generation of rust on reinforcing bars due to the neutralization of concrete and the fatigue of reinforcing bars due to a sudden increase in traffic volume. I have. As a countermeasure, for example, in the case of a floor slab of a road bridge, a reinforcing method of bonding a fiber reinforced plastic containing a reinforcing fiber base material (for example, a carbon fiber base material) to the lower surface of the floor slab has been adopted. This method has a high reinforcing effect, is excellent in durability, and because the reinforcing work is easy,
It is becoming widely adopted.

As such a reinforcing method, for example,
First, after smoothing the lower surface of the floor slab, apply a primer, apply a resin as an adhesive from above, attach a reinforcing fiber fabric, and bond the reinforcing fiber fabric while impregnating the resin by hand lay-up molding It is to let. Here, as a reinforcing fiber woven fabric, a unidirectional woven fabric in which reinforcing fiber yarns (for example, carbon fiber yarns) are arranged in one direction is often used because the reinforcing fiber is a reinforcement at a place where a tensile force acts in a longitudinal direction in many cases. In addition, a high-viscosity resin is used to prevent the resin from dripping.

In this method, since the worker applies the resin to the fabric and impregnates the fabric with the roller using a roller or a spatula, the quality of the resin impregnation depends on the skill of the worker. In addition, because the impregnation work is manual work and the use of high-viscosity resin, the air in the resin impregnation failure and the air embraced at the time of pasting gather at the center of the strand cross section and become a void, Strands are partially lifted and tend to bulge in units of strands. When this swelling occurs, the surface becomes uneven after the resin is cured, and the appearance deteriorates. Furthermore, if there are many voids in the FRP, rainwater and the like that have entered from the cracks in the concrete accumulate in the voids, and in the winter, the water freezes and the volume expands.
Cracks occur and grow inside the RP, and the floor slab and F
It may lead to the separation of RP.

On the other hand, JP-A-8-156152 describes a reinforcing fiber sheet in which a woven fabric is integrated with a support made of a nonwoven fabric. In the reinforcing fiber sheet, the woven fabric and the nonwoven fabric are integrated, and the nonwoven fabric covers the surface of the woven fabric. Therefore, even if voids due to poor resin impregnation gather at the center of the cross section of the strand, the nonwoven fabric is used as a surface of the reinforcing fiber strand. , Swelling of the strand unit is less likely to occur. However, since the support is a non-woven fabric, the voids between the fibers are small, so that the permeability of the excess resin containing air after the resin impregnation to the non-woven fabric deteriorates, voids tend to remain inside the FRP, and the FRP with many voids Will be. Furthermore, the excess resin containing air tends to remain between the reinforcing fiber sheet and the concrete or between layers of the reinforcing fiber sheet because the resin permeability of the nonwoven fabric is poor and the woven fabric and the nonwoven fabric are integrated. Become. Then, in a portion where the amount of resin is large, a partial sheet swells,
The surface of the FRP becomes uneven, and the appearance deteriorates.

[0006]

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems in the prior art, that is, to improve the impregnation of resin into a reinforcing fiber woven fabric while improving the concrete structure such as a floor slab. An object of the present invention is to provide a reinforcing fiber base material capable of obtaining an FRP having a smooth surface since the surface of the FRP for reinforcing an object is unlikely to be uneven due to voids.

[0007]

In order to achieve the above-mentioned object, the present invention provides a woven fabric in which at least one of a warp yarn and a weft yarn is made of a reinforcing fiber, wherein the fiber is oriented on one surface thereof in two or more directions in parallel, A pressing sheet made of a mesh having a void portion penetrating in the thickness direction of the sheet between fibers is bonded to an adhesive by an adhesive, and the bending stiffness of the fibers constituting the pressing sheet in the integrated reinforcing fiber base material. Index (tensile modulus of fiber x (diameter of single fiber)
⁽⁴ × the number of filaments) is 1 × 10 ⁻³ kgf · mm ² or more.

[0008] The reinforcing fiber woven fabric may be a staple woven fabric in which the intersections of the warp and the weft are adhered by a staple.

[0009] The pressing sheet may be a biaxial mesh in which constituent fibers are oriented in parallel in two directions.

The reinforcing fiber base material according to the present invention is particularly suitable for reinforcing concrete structures such as floor slabs and beams of road bridges.

[0011]

FIG. 1 shows a reinforcing fiber substrate according to one embodiment of the present invention. In the reinforcing fiber base material 1, the reinforcing fiber fabric 2 and the pressing sheet 3 are integrated by the same adhesive as the adhesive 4 used for fixing the intersections of the fibers constituting the pressing sheet. In the reinforcing fiber fabric 2, a warp yarn 5 made of reinforcing fiber yarns arranged in a direction parallel to each other and in a sheet shape and a weft yarn 6 made of an auxiliary yarn orthogonal to the warp yarn 5 intersect each other to form a flat. This is a unidirectional reinforced fiber woven fabric having a texture, and the intersections of the warp yarns 5 and the weft yarns 6 are adhered to each other by the sighting agent 7. The holding sheet 3 is composed of a warp yarn 8 whose fibers extend in the same direction as the warp yarn 5 of the reinforcing fiber woven fabric and a weft yarn 6 of the same reinforcing fiber woven fabric.
Weft yarns 9 in which fibers extend in the same direction intersect with each other in a layer configuration, and the intersection is a biaxial mesh fixed by the adhesive 4.

In the above description, the reinforcing fiber woven fabric is a unidirectional reinforcing woven fabric in which a warp yarn made of a reinforcing fiber yarn and a weft yarn serving as an auxiliary yarn are crossed with each other. A yarn group is formed substantially without bending, and a weft direction auxiliary yarn group that intersects with the reinforcing fiber yarns is located on both sides of the yarn group.
A so-called non-crimp structure woven fabric may be used in which the warp direction auxiliary yarn group parallel to the reinforcing fiber yarn group forms a woven structure and integrally holds the reinforcing fiber yarn group.

Further, the reinforcing fiber woven fabric may be a plain woven structure in which warp yarns and weft yarns composed of reinforced fiber yarns intersect with each other, or a twill weave structure or a satin, even if the woven fabric is not the unidirectional reinforced fiber woven fabric or the non-crimp structure woven fabric. It may be a bidirectional woven fabric such as a woven structure.

As the reinforcing fiber used in the reinforcing fiber yarn of the present invention, a high-strength and high-modulus fiber is preferable. For example, carbon fiber, glass fiber, polyamide fiber and the like can be used. Among them, a carbon fiber multifilament yarn in which a large number of filaments are bundled has a high strength and a high elastic modulus, and is preferable because it is not attacked by alkali. In particular, a carbon fiber is a multifilament yarn in which 5,000 to 50,000 filaments having a single yarn diameter of about 5 to 8 μm are bundled, and has a tensile strength of 2,000 to 7,
000 MPa and a tensile modulus of 200 to 700 GPa are preferred. Further, it is preferable that the tensile strength and the tensile modulus of the reinforcing fibers are large, because a small amount of the reinforcing fibers can efficiently reinforce the floor slab or the like.

[0015] The auxiliary yarn of the unidirectional reinforcing fabric is
Glass fiber, polyester fiber, polyaramid fiber, nylon fiber, ABS fiber, polyethylene fiber, polypropylene fiber, vinylon fiber, etc. Among them, glass fiber, polyaramid fiber and vinylon fiber have low heat shrinkage, The dimensional stability of the material is good and preferable.

The basis weight of the reinforcing fiber fabric is 100 to 500 g.
/ M ² is preferred. If it is less than 100 g / m ² , the reinforcing effect per sheet is small, so it is necessary to increase the number of layers, and the work of lamination and resin impregnation becomes complicated. On the other hand, if it exceeds 500 g / m ² , the thickness becomes too thick, so that the resin impregnation tends to be insufficient or the weight is heavy, so that the fabric becomes difficult to handle during the attaching operation.

In the present invention, the intersection of the warp and the weft of the reinforcing fiber woven fabric may be stagnated by a stagnant comprising a low-melting polymer. Then, even if the adhesion to the pressing sheet is lost when the roller is impregnated with the resin, the meandering of the reinforcing fibers is unlikely to occur, and the woven yarn is less likely to fray even when the woven fabric is cut during use.

As the low melting point polymer used as the above-mentioned stimulating agent, nylon, copolymerized nylon, polyester, vinylidene chloride, vinyl chloride, polyurethane and the like can be used. Among them, copolymerized nylon, for example, nylon 6, 66, and 610, and nylon 6, 12, 66, and 610 are preferred because of good adhesion to thermosetting resins.

The optimum amount of the low-melting polymer depends on the fabric structure, but is preferably ² to 30 g / m ² . 2g
If it is less than / m ² , the effect of laying the woven fabric is not sufficient, and a sufficient adhesive force cannot be obtained even when the woven fabric is bonded to the pressing sheet. Conversely, if it exceeds 30 g / m ² , it is sufficient for the purpose of woven fabric, but it tends to impair the impregnating property of the resin when impregnating the resin.

The low-melting polymer may be arranged and supplied such that a linear low-melting polymer is always arranged on the reinforcing fiber yarn, or may be arranged and supplied together with the auxiliary yarn. Good. In particular, weaving in parallel with the weft direction auxiliary yarn is preferable because it is not necessary to prepare for the number of warp yarns.

According to the above-mentioned method, the sizing agent is present on the surface of the reinforcing fiber woven fabric in a linear or dot-like manner, and is bonded at the intersection of the warp and weft of the reinforcing fiber woven fabric. Then, in this state, it is bonded to the holding sheet. As described above, since the stimulating agent is arranged on the surface of the woven fabric in a linear or dot shape, it is difficult to impregnate the resin into the reinforcing fiber woven fabric, and the resin is impregnated with the holding sheet adhered. Also,
Since the resin containing air easily passes through the pressing sheet and can be removed, voids and unimpregnated portions are not easily generated.

The bonding between the woven fabric and the pressing sheet in the reinforcing fiber base material of the present invention is performed by using an adhesive fixing the intersection of the fibers of the pressing sheet, or by newly applying an adhesive to the pressing sheet. You may. The adhesive used in this case, even when newly applied, is the same as the adhesive used for fixing the intersections of the fibers of the pressing sheet, such as a polyolefin resin or an ethylene-vinyl acetate copolymer. I just need. In addition, the amount of newly added adhesive, so as not to impair the impregnation of the resin into the reinforcing fibers,
It is preferable that the total amount is 40 g / m ² or less in combination with the amount of adhesion required for adhesion at the intersection of the pressing sheets.

When the reinforcing fiber woven fabric and the pressing sheet are overlapped with each other, the orientation direction of the fibers of the reinforcing fiber woven fabric and the pressing sheet is adjusted with respect to the respective orientation directions of the reinforcing fibers constituting the reinforcing fiber woven fabric. It is sufficient that at least one orientation direction of the constituent fibers is orthogonal. By doing so, the fibers of the pressing sheet can restrain the strands of the reinforcing fibers in the width direction, and bulging due to the bulging of the reinforcing fiber strands is less likely to occur.

As a bonding method, during weaving of a reinforcing fiber woven fabric, a press sheet is supplied in an overlapping manner before winding of the woven fabric, and a nip is made when passing between two rollers at room temperature or in a heated state. It can be manufactured by doing. Also, if the woven fabric is a blind fabric,
By heating the polymer yarn with a heater after supplying the woven fabric and the holding sheet together, it is possible to bond the holding sheet with the adhesive of the holding sheet simultaneously with the melting of the polymer. In this way, by bonding the woven fabric and the holding sheet, compared to the case of using the woven fabric alone, by increasing the thickness of the reinforcing fiber base, the bending rigidity of the reinforcing fiber base is improved,
Wrinkles are less likely to occur during sticking.

In this case, the reinforcing fiber base material can be wound up and stored in a paper tube in the same manner as winding up during ordinary weaving of fabrics. The bonding surface of the pressing sheet may be either the inner layer side or the outer layer side of the reinforcing fiber fabric.

Here, the diameter of the paper tube around which the reinforcing fiber substrate is wound is preferably 30 cm or more. This is because the distance from the center of the paper tube differs between the surface wound on the inner layer side and the surface wound on the outer layer of the reinforcing fiber base, so that the circumference difference between the inner layer side and the outer layer side is different. Since the wound state is wound around the paper tube, when the woven fabric is pulled out from the paper tube, the fibers on the inner layer surface are loosened and the fibers on the outer layer surface are loosened. Here, if the diameter of the paper tube is smaller than 30 cm, the influence of the circumferential length difference between the inner layer surface and the outer layer surface on the fiber length for one round of the paper tube increases, and
Since the reinforcing fibers are not easily stretched, the tension of the reinforcing fibers on the inner layer surface and the loosening of the reinforcing fibers on the outer layer surface tend to become apparent. For this reason, the diameter of the paper tube for winding the reinforcing fiber base is preferably 30 cm or more.

The fibers constituting the holding sheet are carbon fibers, glass fibers, metal fibers and the like. The bundle form of the fibers may be multifilament or monofilament.

The fibers constituting these holding sheets have a bending stiffness index (tensile modulus of fiber × (diameter of single fiber) ⁴ × number of filaments) of 1 × 10 ⁻³ kgf · mm ² or more. That is, the bending stiffness index is 1 × 10 ⁻³ kgf ·
If it is less than ² mm, the bending stiffness index is small, so that the force of the strand to swell in the thickness direction of the reinforcing fiber woven fabric cannot be suppressed, and the reinforcing fiber strand tends to swell. Preferably, the bending stiffness index is 5 × 1
0 ^-3 kgf · mm ² or more. The upper limit of the flexural rigidity index is not particularly limited, but if it is too large, the yarn itself becomes thicker, and the unevenness of the FPR surface when impregnated with resin becomes large, and the appearance becomes poor.
10 ⁻³ kgf · mm ² or less is preferable, and 100 × 10 ⁻³
kgf · mm ² or less is more preferable.

The form of the pressing sheet has a so-called woven structure in which a fabric having a woven structure such as a woven fabric or fibers extending in each direction intersect with each other in a layer structure, and the intersection is fixed with an adhesive. And the like.

The pressing sheet is a mesh in which the fiber directions are arranged in two or more directions in parallel, and there is a gap between the fibers in the thickness direction of the sheet. Above all, it is preferable as a biaxial mesh pressing sheet in which the fibers are oriented in parallel in two directions and have voids penetrating in the thickness direction of the sheet.

This is because when the reinforcement is performed using only the reinforcing fiber woven fabric, the impregnation work is performed manually and a high-viscosity resin is used. Parts tend to occur. For this reason, the air in the resin impregnation defective portion and the air embraced when the reinforcing fiber fabric is stuck gather at the center of the cross section of the strand with the passage of time to form a void, and the strand is swollen in units of strand by partially lifting the strand. Is more likely to occur. When this swelling occurs, the surface of the FRP becomes uneven after the resin is cured, and the appearance deteriorates.

Therefore, a reinforcing sheet is bonded to a reinforcing fiber woven fabric and a mesh sheet having a void in which fibers are oriented in two or more directions in parallel to one surface of the reinforcing fiber woven fabric, and a gap penetrates in the thickness direction of the sheet between the fibers. Then, when integrated, the force of the strands to swell in the thickness direction of the reinforcing fiber woven fabric is small, so that the fibers constituting the holding sheet hold down the strands of the reinforcing fibers, so that swelling is less likely to occur. It is.

Further, by having a void portion penetrating in the thickness direction of the sheet between the fibers, the resin permeability of the holding sheet during resin impregnation is excellent, and it becomes easy to remove the excess resin containing air, and the strand Voids inside are also less likely to occur.

Regarding the number of orientation directions of the fibers of the holding sheet, the same effect can be obtained in that the larger the number of fiber orientations in the three and four directions, the more difficult it is for the reinforcing fiber strand to swell in the thickness direction. Since the void portion penetrating in the thickness direction of the sheet between the fibers becomes small, the permeability of the resin becomes poor. For this reason, from the viewpoint of having both characteristics, the orientation direction of the fibers of the pressing sheet is preferably two directions.

The adhesive used for bonding the intersections of the fibers constituting the holding sheet and for bonding to the woven fabric is a polyolefin resin, an ethylene-vinyl acetate copolymer, or the like. / M ² . If it is smaller than this, the adhesion between the woven fabric and the pressing sheet is weak, and if it exceeds 40 g / m ² , the adhesion between the woven fabric and the pressing sheet becomes stronger, but on the other hand, the impregnating property of the resin is easily hindered. This range is preferred.

The spacing between the fibers oriented parallel to each direction constituting the holding sheet is preferably in the range of 2 to 10 mm. When the interval is 2 mm or less, the area of the void portion penetrated in the sheet thickness direction by the fibers constituting the holding sheet,
That is, since the mesh size is too small, the permeability of the resin deteriorates. On the other hand, if it is larger than 10 mm, the interval for holding the strands of the reinforcing fibers becomes wide, so that swelling in units of strands tends to occur. Thus, the spacing between the fibers oriented in parallel to each direction constituting the holding sheet is 2-1.
If it is 0 mm, the excess resin containing air can be squeezed out and removed by rolling the reinforcing fiber base material, and the strands of the reinforcing fiber can be pressed at appropriate intervals by the fibers of the pressing sheet. Therefore, swelling in units of strands is unlikely to occur, and the FRP has a smooth surface.

It is preferable that the cover factor of the pressing sheet is 5 to 40%. If the cover factor exceeds 40%, the area of the cover sheet covering the reinforcing fiber fabric becomes large, so that the resin does not easily pass through the sheet, and it becomes difficult to remove excess resin containing air during resin impregnation. For this reason, the FRP tends to remain inside the FRP, and the FRP has many voids. On the other hand, if the cover factor is less than 5%, the ratio of the area in which the pressing sheet covers the reinforcing fiber woven fabric is small, and swelling in strand units is likely to occur. From this, when the cover factor of the sheet is 5 to 40%, excess resin containing air can be squeezed out and removed by rolling the reinforcing fiber base material, and the strands of the reinforcing fiber can be removed. Further, since the pressing sheet is pressed with an appropriate area by the fibers, the swelling of the strand unit is less likely to occur, and the FRP has a smooth surface. More preferably, the cover factor of the pressing sheet is 10 to 30%.

The cover factor (Cf) in the present invention
Is an element related to the size of the gap formed between the fiber yarns of the holding sheet. When an area having an area S1 is set on the holding sheet, the area of the gap formed between the fiber yarns in the area S1 Let S2 denote the value defined by the following equation.

Cf = [(S1-S2) / S1] × 100 The thickness of the pressing sheet is usually about 0.1 to 1 mm. When the thickness is 0.1 mm or less, since the fabric itself is soft, voids tend to cause swelling in units of strands in the thickness direction of the sheet. Further, the sheet form becomes unstable, and the form of the sheet tends to collapse when the impregnating roller is applied during resin impregnation. On the other hand, if it exceeds 1 mm, the bending stiffness of the base material increases, so that the swelling of the strand unit is less likely to occur, but the unevenness of the surface by the pressing sheet itself and the amount of resin brought into the pressing sheet also increase. The weight increases. Therefore, the thickness of the holding sheet is 0.1
A range of １1 mm is preferred.

The holding sheet of the present invention is arranged on the opposite side of the side of the structure to be reinforced with respect to the woven fabric made of reinforcing fibers, that is, "the structure to be reinforced / the woven fabric made of reinforcing fibers". / Pressing sheet ”is preferred. However, if necessary, a sheet similar to the pressing sheet may be arranged between the structure to be reinforced and the woven fabric made of reinforcing fibers. This does not preclude arranging a sheet similar to a holding sheet.

[0041]

EXAMPLES (Example 1, Comparative Examples 1 and 2) In order to clarify the effects of the present invention, one direction in which the reinforcing fibers are oriented in one direction as shown in FIG. 1 under the conditions shown in Table 1. The fabric was woven. Next, between the nip roll provided between the surface roller and the take-up roll of the loom, the fabric is passed together with the press sheet supplied from another place, and the fabric and the press sheet are integrated with the adhesive, The reinforcing fiber base material of the present invention was obtained.

Using the obtained reinforcing fiber base material and the room-temperature-curable epoxy resin, an upward sticking experiment was performed using a slate plate, and the workability during sticking and the impregnation property of the resin were examined. Evaluation was evaluated. Table 1 summarizes the results.

[0043]

[Table 1] In Example 1 of the present invention in Table 1, the woven fabric adhered to the pressing sheet and the form was stable, so that wrinkles did not occur at the time of sticking. Further, although the impregnating roller was pressed strongly from above the holding sheet to impregnate the resin, the fibers were not disturbed, the fibers could be oriented straight, the resin did not sag, and the sticking operation could be easily performed. Further, when the cross section was observed, the resin was impregnated into the entire reinforcing fiber substrate, and although some small voids were observed, the surface was smooth without swelling in strand units.

On the other hand, in Comparative Example 1, in the case of the reinforcing fiber woven fabric alone, the voids gathered at the center of the cross section of the reinforcing fiber strand and the force of the strand to rise in the thickness direction could not be suppressed. A number of voids were generated, and when a cross section of the portion where the bulge occurred was observed, many voids were generated.

Further, in Comparative Example 2, although the woven fabric and the pressing sheet were integrated, the bending rigidity of the fibers constituting the pressing sheet was low, so that the strands formed by the voids were raised in the thickness direction as in Comparative Example 1. As a result, the swelling force of the strand unit occurred. In addition, the surface was uneven, and the appearance was poor.

[0046]

According to the reinforcing fiber base material of the present invention, in the fabric made of reinforcing fiber yarn, the surface thereof is made of a mesh composed of fibers having a flexural rigidity index of 1 × 10 ⁻³ kgf · mm ² or more. Since the pressing sheet adheres and covers the surface, the fiber orientation of the reinforcing fibers is not disturbed at the time of resin impregnation, and the strands are gathered at the center of the cross section of the reinforcing fiber strands of the voids, so that the strands are oriented in the sheet thickness direction. Since bulging and bulging in strand units are less likely to occur, an FRP with a smooth surface and good appearance can be obtained. In addition, since the holding sheet also has an appropriate resin permeability, the resin is impregnated with the reinforcing fibers by rolling the surface of the holding sheet during roller impregnation, and the excess resin containing air is squeezed out. As it becomes easy to take, F
FRP with few voids can be obtained inside RP.

[Brief description of the drawings]

FIG. 1 is a perspective view of a reinforcing fiber base material according to one embodiment of the present invention.

[Explanation of symbols]

 1: Reinforcing fiber base material 2: Reinforcing fiber fabric 3: Holding sheet 4: Adhesive for holding sheet 5: Warp yarn composed of reinforcing fiber yarn 6: Weft auxiliary thread 7: Membrane for reinforcing fiber fabric 8: Holding sheet Warp yarn 9: Weft yarn of holding sheet

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification code FI D06M 17/00 D06M 17/00 H B29K 105: 08

Claims (8)

[Claims] 1. A woven fabric in which at least one of a warp yarn and a weft yarn is made of a reinforcing fiber, on one surface thereof, the fibers are oriented in parallel in two or more directions, and there is a gap between the fibers in the thickness direction of the sheet. In a reinforced fiber base material in which a holding sheet made of a mesh is adhered by an adhesive and integrated, a bending stiffness index of a fiber constituting the holding sheet (tensile elastic modulus of fiber × (diameter of single fiber))
⁴ × the number of filaments) is 1 × 10 ⁻³ kgf · mm ² or more. 2. The reinforcing fiber base according to claim 1, wherein the crossing point between the warp yarn and the weft yarn is a staple woven fabric bonded by a staple agent. 3. The reinforcing fiber base according to claim 1, wherein the reinforcing fibers are carbon fibers. 4. The reinforcing fiber base according to claim 1, wherein in the pressing sheet, fibers constituting the pressing sheet are biaxial meshes oriented in parallel in two directions. 5. The reinforcing fiber base according to claim 1, wherein the spacing between the fibers constituting the holding sheet is 2 to 10 mm. 6. The reinforcing fiber base according to claim 1, wherein the cover sheet has a cover factor of 5 to 40%. 7. The reinforcing fiber base according to any one of 1 to 6, wherein the reinforcing fiber base is wound around a tube having a diameter of 30 cm or more. 8. A reinforcing fiber base for a concrete structure, wherein the reinforcing fiber base is used to reinforce a concrete structure.