JP2007002514A - Structure of concrete reinforcing layer and method for forming the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a structure of a concrete reinforcing layer having both a sufficient reinforcing effect and sufficient visibility and excellent workability and a method for forming the same.
SOLUTION: A reinforcing layer 1 comprising a primer layer 3, a resin layer 4, a reinforcing net 5 fixed to the lower layer side in the resin layer 4, and a reinforcing sheet 6 fixed to the upper layer side is formed on the concrete surface 2. The primer layer 3 is made of an epoxy resin, and the resin layer 4 is made of a visible light curable vinyl ester resin having a total light transmittance of 30% or more, preferably 50% or more and a refractive index of 1.5 to 1.6. The reinforcing net 5 is made of a high-density polyethylene biaxial mesh having a mesh size of 1.5 to 2.5 cm, and the reinforcing sheet 6 is made of a transparent glass cloth having a thickness of 0.4 to 0.75 mm. As the reinforcing sheet 6, a prepreg sheet obtained by impregnating a transparent glass cloth with a visible light curable vinyl ester resin in advance in the resin layer 4 is used.
[Selection] Figure 2

Description

  The present invention relates to a structure of a reinforcing layer formed on a concrete surface for the purpose of preventing the occurrence of cracks, their progress, and peeling, and a method for forming the reinforcing layer.

  It can be said that it is almost unavoidable that normal concrete cracks on the surface after a certain number of years after construction. For this reason, concrete structures that require a high degree of soundness and safety over many years, such as concrete as a tunnel lining wall, and peeling that could lead to a serious accident cannot be allowed. For concrete structures and the like, it is necessary to regularly monitor whether or not cracks have occurred, their degree, changes over time, etc., and depending on the situation, it is also necessary to repair or reinforce them.

  Conventionally, as a measure to repair or reinforce existing concrete that has deteriorated or aged, methods such as adding new concrete to the surface of existing concrete or attaching reinforcing steel plates have been implemented. Since the surface of the existing concrete is concealed, subsequent visual observation is impossible, and it is not applicable when it is necessary to continue monitoring thereafter.

  Therefore, in recent years, for example, as shown in Patent Document 1 and Patent Document 2, a method of adhering a net-like or mesh-like reinforcing material made of high-strength fibers to a concrete surface has been proposed. This is based on the fact that a net-like or mesh-like reinforcing material formed of high-strength fibers such as glass fiber, carbon fiber, and aramid fiber is integrally fixed to a concrete surface with a substantially transparent adhesive. . According to this, not only an excellent reinforcing effect can be obtained for the concrete surface layer portion due to the tensile strength of the high-strength fibers, but also the concrete surface can be visually observed through the gap even after the reinforcing material is fixed. It is suitable when it is necessary to constantly observe findings and their progress.

In particular, in the construction method shown in Patent Document 2, it has also been proposed to employ a photosensitive resin (photo-curable resin) as a resin for fixing the reinforcing material, and according to this, compared to the case of using a normal adhesive material. Since the curing time can be greatly shortened and construction in a short construction period is possible, it is effective as a concrete peeling prevention method for tunnel lining walls, and it is likely to become widespread in the future.
JP 2001-355343 A Japanese Patent Laid-Open No. 2003-293692

  By the way, in the construction methods shown in Patent Documents 1 and 2, the functions that are contradictory to each other, such as sufficient reinforcement for the concrete surface layer portion and ensuring high visibility on the concrete surface, are provided for both the reinforcing material and the adhesive material. Although there is a demand for efficient construction, there is no optimum combination of reinforcing material and adhesive that can meet such demands at this time. The reality is that it is at a stage.

  In view of the above circumstances, the present invention provides a structure of a very effective concrete reinforcing layer that has both a sufficient reinforcing effect on the concrete surface layer portion and a sufficient visibility on the concrete surface, and also has excellent workability, and a method for forming the same. For the purpose.

  The concrete reinforcing layer structure of the present invention includes a primer layer formed on a concrete surface, a resin layer formed on the primer layer, a reinforcing net fixed to a lower layer side in the resin layer, and the reinforcing net It consists of a reinforcing sheet that is laminated at an important point above and is fixed to the upper layer side in the resin layer, the primer layer is made of an epoxy-based resin that is naturally cured by being applied to the concrete surface, and the resin layer is a primer layer It consists of a visible light curable vinyl ester resin that has been applied and cured by irradiation with visible light, and has a total light transmittance of 30% or more, preferably 50% or more, and a refractive index of 1.5 to 1.6. The reinforcing net is made of a high-density polyethylene biaxial mesh and has a mesh of 1.5 to 2.5 cm. The reinforcing sheet is made of a transparent glass cloth in the resin layer. Made from the scan, one in which the thickness has been a 0.4~0.75mm.

The method for forming a concrete reinforcing layer of the present invention is such that when the above reinforcing layer is formed, a primer layer is formed by applying an epoxy resin to the concrete surface and naturally curing, and a visible light curable vinyl is formed on the primer layer. After the primer resin is undercoated, a reinforcing net made of a high-density polyethylene biaxial mesh is laminated thereon, and the resin is further coated thereon, and the visible light curable vinyl ester resin is applied to a glass cloth as a reinforcing sheet. Using a prepreg sheet that has been impregnated in advance, the prepreg sheet is laminated at an important point on the reinforcing net, and then the resin is cured by irradiating the reinforcing net and the prepreg sheet with visible light. The reinforcing net and the reinforcing sheet are fixed in a laminated state in the resin layer.
A reinforcing net may be directly attached to the concrete surface with a visible light curable vinyl ester resin.

  The reinforcing layer of the present invention is not only capable of obtaining an excellent reinforcing effect by a double reinforcing material composed of a reinforcing net made of high-density polyethylene biaxial mesh and a reinforcing sheet made of glass cloth, but also a resin layer for fixing them. 1. A visible light curable vinyl ester resin is employed, and the total light transmittance of the resin layer is set to 30% or more, preferably 50% or more, which is sufficiently transparent, and the refractive index is equivalent to the refractive index of glass cloth. 5 to 1.6, and the corresponding mesh of the reinforcing net is 1.5 to 2.5 cm, and the thickness of the glass cloth is 0.4 to 0.75 mm. As a result, the visibility to the concrete surface can be secured sufficiently, and the concrete surface through the reinforcing layer can be visually observed without hindrance. Curing time since the visible light which is efficiently capable of irradiating be sufficiently shortened exhibits exceptional remarkable effect that is excellent in workability in.

  In the method for forming a reinforcing layer of the present invention, a visible light curable vinyl ester resin is used as the resin layer for fixing the reinforcing net, so that the reinforcing layer can be formed efficiently. In particular, by using a prepreg sheet pre-impregnated with the same resin in a glass cloth as a reinforcing sheet, the resin application process and visible light irradiation process are simplified, and more efficient construction is possible. It is optimal as a method for forming the reinforcing layer.

  One embodiment of a reinforcing layer and a method for forming the same according to the present invention will be described with reference to FIGS. 1A is a cross-sectional view schematically showing the structure of the reinforcing layer 1 of the present embodiment, FIG. 1B is a view of the reinforcing layer 1 viewed from the surface, and FIG. 2 is an enlarged cross-sectional view of the reinforcing layer 1 (FIG. 1). FIG. 3 is a sectional view showing the reinforcing layer 1 in an exploded manner for each layer.

  The reinforcing layer 1 of the present embodiment includes a primer layer 3 formed on the concrete surface 2 to be reinforced, a resin layer 4 formed on the primer layer 3, and a reinforcement fixed to the lower layer side in the resin layer 4. It consists of a net 5 and a reinforcing sheet 6 (glass cloth) which is laminated at a point on the reinforcing net 5 and fixed to the upper layer side in the resin layer 4.

  The primer layer 3 is made of a normal epoxy resin which is applied to the concrete surface 2 and is naturally cured, and the layer thickness may be about 0.4 mm at the maximum. As a material for the primer layer 3, for example, trade name Lipoxy EP-3800 manufactured by Showa Polymer Co., Ltd. can be suitably used.

  The resin layer 4 is made of a visible light curable vinyl ester resin that cures when irradiated with visible light having a wavelength region of, for example, 380 to 450 nm, and the layer thickness fixes the reinforcing net 5 and the entire reinforcing sheet 6 together. The total light transmittance of the resin layer 4 is at least 30% or more, preferably 50% or more, and the refractive index is 1.5 to Set to a range of 1.6. Such a refractive index range is equivalent to the refractive index of the epoxy resin as the primer layer 3 and the glass cloth as the reinforcing sheet 6, and therefore the refractive index of each layer of the reinforcing layer 1 is equal, and the resin Combined with the total light transmittance of the layer 4 being 30% or more, the transparency of the entire reinforcing layer 1 is sufficiently secured, and the visibility to the concrete surface 2 through the reinforcing layer 1 can be sufficiently secured. As shown in (b), the crack 9 on the concrete surface can be clearly visually observed through the reinforcing layer 1. In other words, when the refractive index of the resin layer 4 exceeds the above range, it is not preferable because the visibility is reduced due to the reflection loss at the boundary surface due to the difference from the refractive index with other layers. As the visible light curable vinyl ester resin for forming the resin layer 4, for example, trade name Lipoxy LC-3800 manufactured by Showa Polymer Co., Ltd. can be suitably used.

The reinforcing net 5 is made of a high-density polyethylene biaxial mesh in which fiber bundles 7 made of high-density polyethylene are integrated in a lattice shape in an orthogonal state, and the width dimension (dimension a in the figure) of the fiber bundle 7 in each direction is 1. The thickness (dimension b in the figure) is about 0.2 mm (therefore, about 0.4 mm at the intersection of the fiber bundles 7 in both directions), and the scale (c dimension in the figure) is 1.5 to 2.5 cm. The basis weight is about 45 g / m ² . If the mesh size is less than 1.5 cm, visibility to the concrete surface 2 is not sufficiently obtained, which is not preferable. If the mesh size exceeds 2.5 cm, peeling of fine concrete pieces may not be prevented, It is not realistic because it becomes extremely difficult. As the reinforcing net 5, for example, a product of Kurashiki Boseki Co., Ltd., trade name Kurenet DN5500, having a mesh size of 2.0 cm can be suitably employed.

  The reinforcing sheet 6 is made of a glass cloth having a thickness of 0.4 to 0.75 mm. The glass cloth is a cloth-like material woven with glass fibers, and is itself white and opaque. However, when it is fixed in the resin layer 4, the glass cloth is transparent as in the case of solid glass, and is refracted in that state. Since the ratio is about 1.58 and is within the range of the refractive index of the resin layer 4 described above, excellent transparency and visibility can be secured in the resin layer 4. However, if the thickness of the glass cloth as the reinforcing sheet 6 exceeds 0.75 mm, the visibility is unavoidably lowered, and if it is less than 0.4 mm, a sufficient reinforcing effect cannot be obtained.

  When the glass cloth as the reinforcing sheet 6 is laminated, it is conceivable to laminate the glass cloth itself on the reinforcing net 5 and apply a resin thereon, but the glass cloth is impregnated with the resin in advance as described later. If the prepreg sheet 8 (for example, # 230 glass cloth type prepreg sheet) is used, the workability is further improved. That is, if a prepreg sheet 8 in which a glass cloth is impregnated with the same visible light curable vinyl ester resin as the resin for forming the resin layer 4 is used, only by laminating it on the reinforcing net 5, Since it is possible to simultaneously laminate the glass cloth and apply the resin for fixing the glass cloth, it is efficient.

  The reinforcing net 5 is fixed to the entire area to be reinforced, but the reinforcing sheet 6 is not necessarily fixed to the entire area, and may be fixed only to a necessary portion. In addition, there are glass mats and non-woven fabrics as glass fiber materials similar to glass cloth, but these are inferior in terms of visibility and strength because fibers are not woven in a vertical and horizontal manner like glass cloth, this embodiment The reinforcing sheet 6 is not preferable.

Specific examples and characteristics of each layer constituting the reinforcing layer 1 and characteristics of the entire reinforcing layer 1 are shown below.
・ Primer layer 3
Epoxy resin (Showa Polymer Co., Ltd., EP-3800)
Layer thickness 0.15mm, total light transmittance 94.5%, refractive index 1.57
・ Resin layer 4
Visible light curable vinyl ester resin (Showa Polymer Co., Ltd., LC-3800),
Layer thickness 0.45mm, total light transmittance 81.1%, refractive index 1.56
・ Reinforcement net 5
High density polyethylene biaxial mesh (Kurashiki Boseki Co., Ltd., Kurenet DN5500),
Mesh size 2.0cm
・ Reinforcement sheet 6
Prepreg sheet (# 230 glass cloth impregnated with visible light curable vinyl ester resin, LCS-3800, Showa Polymer Co., Ltd.)
Layer thickness 0.406mm, total light transmittance 88.8%, refractive index 1.58
-Reinforcing layer 1 as a whole Layer thickness of about 0.9 mm, total light transmittance 68.0%, refractive index 1.60

  In order to form the reinforcing layer 1 on the concrete surface 2, first, the concrete surface 2 is pretreated with water stop, washing, sanding, etc., if necessary, and then cured by applying an epoxy resin as a primer. To form a primer layer 3. After correcting the unevenness as required, a visible light curable vinyl ester resin is formed on the primer layer 3 to form a resin layer 4, and a high-density polyethylene biaxial mesh as a reinforcing net 5 is coated thereon. And the same resin is overcoated thereon.

  Next, a prepreg sheet 8 in which a glass cloth serving as a reinforcing sheet 6 is impregnated with a visible light curable vinyl ester resin in advance is laminated at an important point on the reinforcing net 5, and then the reinforcing net 5 and the prepreg sheet 8 are bonded to each other. For example, visible light is irradiated by a metal halide lamp. As a result, the resin impregnated in the prepreg sheet 8 and the entire resin applied to the lower layer are cured in a short time of about 20 minutes to form the resin layer 4, and a sufficient strength is immediately manifested. The glass cloth as the reinforcing net 5 and the reinforcing sheet 6 is firmly fixed in the resin layer 4 in a laminated state. Thereafter, appropriate finishing, for example, finish coating of acrylic resin for improving weather resistance, may be performed as necessary.

  FIGS. 4 to 9 show specific construction examples when the reinforcing layer 1 is formed on the surface of the tunnel lining wall as a concrete peeling prevention method for the tunnel lining wall. In this case, as shown in FIG. 4, only the reinforcing net 5 is fixed in a range extending from both sides of the tunnel to the top (the structure for the fixing is the structure of the reinforcing layer 1 shown in FIGS. 1 to 3). The reinforcing sheet 6 may be omitted), the edge of the reinforcing net 5, the joint part between the reinforcing nets 5, and the part that needs to be strengthened, and further glass as the reinforcing sheet 6. Crosses are laminated, and the reinforcing net 5 and the reinforcing sheet 6 are fixed to the concrete surface as a tunnel lining wall with the structure shown in FIGS.

  That is, as shown in FIG. 4, the reinforcing net 5 having a fixed width dimension in the tunnel axis direction is fixed to the entire surface with a visible light curable vinyl ester resin from both sides of the tunnel to the top without any gaps. 5 and FIG. 6 (enlarged view of the V and VI parts in FIG. 4B), a belt-like reinforcing sheet 6 (prepreg sheet) is provided at the edge of 5 and the joint part between the reinforcing nets 5. By laminating 8) to form the reinforcing layer 1 having the above structure, the fixing strength of the entire reinforcing net 5 to the concrete surface can be sufficiently increased. In addition, in the joint part of the reinforcement nets 5 as shown in FIG. 6, the reinforcement sheets 6 are laminated so as to straddle the edges of both the reinforcement nets 5 without overlapping each other. To do. When the edges of both reinforcing nets 5 are overlapped, not only is there a difference in level, but there is a concern that the layer thickness becomes excessive and the visibility is lowered, which is not preferable.

  Further, in the case where a remarkable crack that particularly needs to be monitored has already occurred on the concrete surface, a reinforcing sheet 6 can be laminated and strengthened at the position of the crack 9 as shown in FIG. preferable. Further, when there is an installation object 10 such as a lighting fixture or the like protruding on the concrete surface as shown in FIG. 8, the reinforcing net 5 is cut off at that position to form an opening, thereby interfering with the installation object 10. In that case, the reinforcing sheet 6 may be laminated around the opening and strengthened. Furthermore, as shown in FIG. 9, the reinforcing sheet 6 may be similarly laminated and strengthened at the position of the investigation boring hole 11 filled with concrete.

  As described above, in addition to laminating the reinforcing net 5 over the entire area of the tunnel lining wall, the reinforcing layer 1 is formed by further laminating the reinforcing sheet 6 at the important points, thereby forming the tunnel covering. It is possible to prevent the situation where concrete pieces are peeled off due to deterioration or aging of the work wall, and even after the reinforcement layer 1 is formed, the concrete surface can be visually observed through the reinforcement layer 1, so that cracks after reinforcement The occurrence of 9 and its progress can be monitored without any problems.

  The present invention is not limited to the tunnel lining wall as in the above embodiment, but includes, for example, concrete floor slabs of highways and railway viaducts, walls, balustrades, and underpasses at road intersections. Widely applied to concrete structures of various uses and forms, such as wall surfaces and concrete chimneys, when it is necessary to prevent the peeling of concrete pieces from them or to monitor their soundness and safety It is natural that we can do it. Of course, appropriate design changes can be made without departing from the scope of the present invention in consideration of the concrete structure to be targeted, its purpose of reinforcement, the degree of required reinforcement performance and visibility, and other various conditions. Needless to say, for example, as a method of forming the reinforcing layer, various modifications are possible including simply directly attaching the reinforcing net with a visible light curable vinyl ester resin.

It is a figure which shows typically the structure of the reinforcement layer which is embodiment of this invention. FIG. It is sectional drawing which decomposes | disassembles and shows each layer of a reinforcement layer equally. It is a figure which shows the example of application to a tunnel lining wall. It is a figure which shows the example of application to the edge part of a reinforcement net | network. It is a figure which shows the example of application to the joint part of a reinforcement net | network between the same. It is a figure which shows the example of application to a crack part similarly. It is a figure which shows the example of application to the position of various installation objects. It is a figure which shows the example of application to the position of the boring hole for investigation same as the above.

Explanation of symbols

1 Reinforcing layer 2 Concrete surface 3 Primer layer (epoxy resin)
4 Resin layer (Visible light curable vinyl ester resin)
5 Reinforcement net (high-density polyethylene biaxial mesh)
6 Reinforcement sheet (glass cloth)
7 Fiber bundle 8 Prepreg sheet 9 Crack 10 Installed object 11 Drilling hole for investigation

Claims (3)

It is a structure of a reinforcing layer formed on the concrete surface to prevent cracking and progress of the surface layer of concrete, and peeling of concrete pieces,
A primer layer formed on a concrete surface, a resin layer formed on the primer layer, a reinforcement net fixed to a lower layer side in the resin layer, and a resin layer laminated on a key point on the reinforcement net It consists of a reinforcing sheet fixed to the upper layer inside,
The primer layer is made of an epoxy resin that has been naturally cured by being applied to the concrete surface,
The resin layer is made of a visible light curable vinyl ester resin coated on the primer layer and cured by irradiation with visible light, and has a total light transmittance of 30% or more and a refractive index of 1.5 to 1.6. Set,
The reinforcing net is made of a high-density polyethylene biaxial mesh, and the mesh is 1.5 to 2.5 cm.
The reinforcing sheet is made of a transparent glass cloth in the resin layer and has a thickness of 0.4 to 0.75 mm. A method for forming a reinforcing layer for forming a reinforcing layer having a structure according to claim 1 on a concrete surface,
A primer layer is formed by applying an epoxy resin on the concrete surface and allowing it to cure naturally.
After undercoating a visible light curable vinyl ester resin on the primer layer, a reinforcing net made of a high-density polyethylene biaxial mesh is laminated on the primer layer, and the resin is overcoated on top of that.
Using a prepreg sheet in which the visible light curable vinyl ester resin is pre-impregnated into a glass cloth as a reinforcing sheet, the prepreg sheet is laminated at a point on the reinforcing net,
Thereafter, the reinforcing net and the prepreg sheet are irradiated with visible light to cure the resin to form a resin layer, thereby fixing the reinforcing net and the reinforcing sheet in a laminated state in the resin layer. A method for forming a concrete reinforcing layer. A method for forming a concrete reinforcing layer for forming a reinforcing layer on a concrete surface in order to prevent cracking and progress of the surface layer portion of concrete, and peeling of a concrete piece,
A method for forming a concrete reinforcing layer, wherein a reinforcing net is directly attached to a concrete surface with a visible light curable vinyl ester resin.

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