JPH10231575A - Spraying construction method of concrete wall and composition for this construction - Google Patents

Abstract

PROBLEM TO BE SOLVED: To apply thick coating with one-time spraying by laying reinforcing material on a construction face, then adding a polymer catalyst in main material with cement and fiber pieces mixed therein, and an aqueous solution of acrylic acid salt or the like, and mixing them inside a nozzle. SOLUTION: Aggregate such as ballast or crushed stone, and fiber pieces formed by cutting carbon fiber in about 1-2cm are mixed in Portland cement or the like to prepare main material. A polymer catalyst formed of an oxidizing agent such as sodium peroxide or calcium peroxide is added in an aqueous solution of acrylic acid salt or methacrylic acid salt. At the time of construction, reinforcing material 12 formed of a carbon fiber net body is fixed to a construction face 11 by anchors 14. After laying the reinforcing material 12, the main material, aqueous solution and polymer catalyst are sprayed on the reinforcing material 12 while being mixed inside a spray nozzle of a sprayer, and main material cement is instantaneously hardened to form a concrete wall 15. Thick coating can therefore be applied with one-time spraying work to form the concrete wall 15.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to the construction of concrete walls such as new or existing tunnels, slopes, civil engineering structures such as upper and lower bridge works, and buildings such as buildings, such as mountains or roads and waterways. The present invention relates to a spraying method and a composition for the spraying.

[0002]

2. Description of the Related Art Conventionally, for example, in tunnel construction, an excavated surface is often wet by running water or infiltration water from a mountain, and it is difficult to construct a concrete wall on such an excavated surface. In addition, in repairing an existing concrete wall, the wall surface or the surface from which the concrete wall has been removed is often wet, and it is difficult to construct a new concrete wall on the repaired surface.

[0003] Therefore, as described in Japanese Patent Publication Nos. 2-27299 and 4-142229, a composition containing an oxidizing agent in either cement or an aqueous solution of acrylate or methacrylate is disclosed. BACKGROUND ART A spraying construction method is known in which an object is sprayed on an excavation surface or a repair surface (hereinafter, referred to as “construction surface”) to construct a concrete wall.

[0004] By spraying using this composition, even if a large amount of water adheres to the construction surface, the adhesiveness is good, and
Since it hardens in 0 seconds or less, it is particularly suitable for constructing a concrete wall where the construction surface is wet.

[0005]

However, in such a conventional construction method, there is an advantage that a considerable compression / bending strength can be obtained in a very short time, but brittle fracture ("brittle fracture" means (Refer to "destruction of material without deformation").

That is, a concrete wall using a conventional construction method hardens instantaneously and strongly adheres to a construction surface, and can sufficiently obtain a compressive strength and the like, but on the other hand, it has been used for concrete for a long time. There is a problem that there is a risk of being destroyed at once by the application of a tensile force, and the signs before the failure are apparently invisible.

[0007] Further, there is a problem that a thick coating of 30 mm or more cannot be applied by one spraying, and the spraying operation must be performed in several times.

[0008] In the conventional construction method, since no treatment of running water or infiltration water from the construction surface is performed,
After the construction, there is a problem that water stays between the constructed concrete wall and the construction surface or water leaks from the concrete wall.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems, and has the advantages of the conventional construction method and is capable of being thickly applied by a single spraying operation. It is an object of the present invention to provide a method for spraying concrete walls, which can prevent brittle fracture of the walls and prevent water from the construction surface from staying inside the concrete walls, and a composition for the spraying.

[0010]

Means for Solving the Problems The present invention has been made to solve the above-mentioned problems, and the means for solving the problems is to lay a reinforcing material 12 along a construction surface 11 and then cement And a fiber mixed with a main material, an aqueous solution of acrylate or methacrylate, and a polymerization catalyst added to at least one of the main material and the aqueous solution, and the main material and the aqueous solution are mixed inside the nozzle. The composition used in the spraying construction method is, as described in claim 7, when the concrete wall is sprayed and constructed on the construction surface. A composition for construction used, comprising a main material in which cement and fiber pieces are mixed, and an aqueous solution of acrylate or methacrylate, and polymerized on at least one of the main material and the aqueous solution. Add catalyst Consisting of configuration.

By spraying such a composition on the construction surface 11 on which the reinforcing material 12 is laid, the construction surface can be
Even if moisture adheres to 11, the concrete wall 15 is strongly adhered to the construction surface 11, and the aqueous resin solution and the polymerization catalyst instantaneously harden the cement to form the concrete wall 15.

Further, in the present invention, since the fiber pieces are mixed with the cement, the fiber pieces are connected to each other between the cement particles.
Therefore, not only 30 mm or less, but also 30 mm or more (for example, 1
Thick coating (00 mm to 150 m) can be constructed in a single spraying operation, and the compression / bending strength is stably maintained for a long time.

Further, even if a small crack is formed in the section of the concrete wall for a long time after the construction, brittle fracture hardly occurs because the fiber pieces in the concrete wall connect the crack sections to each other. In addition, the locations where the fibrous sections are created by the connection of the fiber pieces will be slowly broken. That is, since the structure acts to withstand the force acting on the concrete wall by being deformed, the structure expands before the structure is destroyed, and then has a toughness that it is destroyed.

In particular, it is preferable to use a fiber piece which is excellent in tensile strength and hardly causes deterioration due to rust or the like caused by the presence of water, for example, a carbon fiber fiber piece.

Further, after forming the waterproof layer 18 along the construction surface 11 as in the means of claim 2, the concrete wall 15 is constructed by spraying construction using the above composition. Water coming out of the construction surface 11 does not permeate into the concrete wall 15 by the waterproof sheet 16.

As a construction method for forming the waterproof layer 18, there is a means for covering the construction surface 11 with a sheet-like waterproof sheet 16 as described in claim 3. No special machinery is required.

Further, as another construction method for forming the waterproof layer 18, there is provided a means for spraying a resin capable of forming a waterproof coating film. In the case where 12 is fixed to the construction surface 11 via the anchor, after the anchor is cast on the construction surface 11 in advance, the waterproof layer 18 can be formed by resin spraying, and the anchor and the waterproof layer 18 can be formed. No curing is required to fill the joints.

Further, according to the construction method of the fourth aspect, since the hydrophilic layer 19 is formed between the construction surface 11 and the waterproof layer 18, the water flowing out of the construction surface 11 is absorbed by the hydrophilic layer 19. The water flows downward along the hydrophilic layer 19 due to the cohesive force of the water, and therefore does not stay inside.

Further, as in the construction method according to claim 5,
A hydrophilic sheet 17 is provided on one surface side of the sheet-like waterproof sheet 16, and according to the means for covering one surface side of the waterproof sheet 16 toward the construction surface 11, the hydrophilic layer 19 and the waterproof layer 18 are provided. Can be formed at the same time.

[0020]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of a method for spraying concrete walls and a composition for the spraying according to the present invention will be described.

The composition for spraying concrete walls according to the present invention comprises: a main material in which cement and fiber pieces are mixed;
Consisting of an aqueous solution of acrylate or methacrylate,
A polymerization catalyst is added to at least one of the main material and the aqueous solution of acrylate or methacrylate.

As the cement, generally used Portland cement is used, but other cements such as blast furnace cement may be used, and the type thereof is not particularly limited. In addition, the cement is mixed with aggregates such as gravel and crushed stone, and is sufficiently mixed. In addition, a small amount of an admixture is mixed as necessary.

As the fiber pieces, carbon fibers cut to about 1 to 2 cm are used. Other fibers, for example, inorganic fibers such as glass fibers, vinylon fibers, aramid fibers, other artificial fibers, hemp, silk, etc. Natural fiber and metal fiber such as steel wool may be used. When metal fibers are used, the length of the fiber pieces is preferably set to 4 to 5 cm.

When a fiber piece made of carbon fiber is used, it is mixed in a range of 1 to 5% (volume percentage) with respect to the mixture of cement and aggregate. Above all, it is preferable to mix about 3%, since the toughness is most likely to be destroyed after construction and the compressive / bending strength is maximized.

However, if a fiber piece is composed of only carbon fiber, the material cost increases. Therefore, if the construction cost, toughness destruction, concrete strength, and the like are comprehensively taken into consideration, the fiber piece of glass fiber and carbon fiber is mixed. It can be said that it is most preferable to form a piece.

The other fibers may be mixed with cement in a range of about 1 to 5% (volume percentage). For example, natural fibers such as hemp may exceed this range, and may be appropriately mixed depending on the type. Adjust the mixing amount. Of course, different types of fibers such as a mixture of glass fibers and carbon fibers may be mixed and mixed with cement. The main material is sufficiently mixed until the cement, aggregate, and fiber pieces are substantially uniformly dispersed.

Next, an aqueous solution of an acrylate or a methacrylate (hereinafter referred to as “aqueous solution such as an acrylate”) is
It is polymerized by a polymerization catalyst to form a polymer. As the salt, an alkali metal salt, an alkaline earth metal salt or the like is used. As the polymerization catalyst, for example, an oxidizing agent is used, and hydrogen peroxide or a water-soluble compound that generates hydrogen peroxide is used. Examples of the water-soluble compound that generates hydrogen peroxide include sodium peroxide, calcium peroxide, sodium perborate, sodium percarbonate, and other persulfates such as sodium persulfate. Aqueous solutions such as acrylates are known in the art (JP-B-2-27299, JP-B-4-14).
229) can be used, and a known polymerization catalyst may be used for forming the polymer.

Next, a method for spraying a concrete wall according to the present invention will be described. First, as shown in FIG. 1 and FIG. 2, a spraying construction device used for spraying construction is divided into two trucks 1 and 2 and installed. Three
Is a main material hopper installed on the bed of the truck 1, and the main material sufficiently mixed in advance is supplied to the main material hopper 3. Reference numeral 3a denotes a conveyor provided below the main material hopper 3, and reference numeral 5 denotes a stirring / transporting machine provided behind the truck 1 for conveying the main material supplied to the main material hopper 3 while stirring. Reference numeral 4 denotes a lifting device that lifts the stirring and transporting device 5.

Reference numeral 6 denotes a spraying machine for injecting a main material or the like into a main material injection port of a spray nozzle, which is installed on the other truck 2. Reference numeral 7 denotes a self-propelled vehicle which can move independently of the trucks 1 and 2 and has an arm 7a which can move up, down, left and right. For example, a backhoe without a bucket is used. A spray nozzle 8 is attached to a tip end of an arm 7a of the self-propelled vehicle 7, and the spray nozzle 8 is connected to a hose 8a.
Is connected to the spraying machine 6 of the truck 2 via 9
Indicates a water tank, and water is sprayed by the pump 9a.
Injected into 8.

The spray nozzle 8 has a conventionally known structure, and the main material injection port and the resin injection port are
Independently provided inside the nozzle at opposing positions, the main material, resin and catalyst aqueous solution are mixed and integrated inside the nozzle, and water supplied to the rear end of the nozzle is blown by air supplied from the compressor. It is sprayed from the nozzle tip while reaching the inside and mixing with the main material and an aqueous solution such as acrylate.

In the conventional spraying equipment, each equipment such as a main material hopper, a stirring and conveying machine, a spraying machine, a resin supply machine, a pump and the like is separately carried into and out of a construction site, where each equipment is combined to form a spraying plant. Because of this configuration, a special plant yard was required, and a construction preparation period and a clearing period were required.However, by installing each device on trucks 1 and 2, it was compact, In addition, there is an advantage that carrying out becomes extremely simple. For example, in repairing and rehabilitating tunnel construction during operation, trucks 1 and 2 can be moved to the construction site inside the tunnel, so there is no need to prepare long nozzle hoses, and from the tunnel entrance to the construction site Is particularly significant when the distance is long.

Further, when the plant yard is not close, a spraying plant cannot be constructed and cannot be constructed, but such a problem has been solved. Further, since the spray nozzle 8 is attached to the arm 7a of the self-propelled vehicle 7, it is not only possible to easily spray a high place or a place with a poor scaffolding, etc. Since there is no need to directly hold, it is possible to increase the spraying pressure, and thus, it is possible to produce a water-blocking effect and a dense sprayed concrete by high pressure. In addition, by using the self-propelled vehicle 7, construction efficiency is improved, and the construction period can be shortened.

Next, a method for spraying concrete walls according to the present invention will be described. <First Embodiment> As shown in FIG. 3, first, a reinforcing member 12 made of a net of carbon fibers is laid along a construction surface 11. At this time, the reinforcing material 12 is fixed to the construction surface 11 via the anchor 14, but the fixing of the reinforcing material 12 is not necessarily limited to the means using the anchor. As shown in FIG. 4, the carbon fiber network is made of carbon fiber impregnated with a resin and formed in a lattice shape.

When the main material and an aqueous solution of acrylate or the like are sprayed simultaneously with water from the tip of the nozzle after the reinforcing material 12 is laid, even if water is attached to the construction surface 11, the aqueous solution of acrylate or the like is sprayed. The polymerization catalyst strongly adheres to the working surface 11, which instantaneously hardens the cement.

Further, in the present invention, since the fiber fragments are mixed with the cement, the fiber fragments will be connected to each other between the cement particles. Therefore, if a spraying machine having a high spraying ability is used, It is possible to construct a concrete wall 15 having a thickness of about 150 mm by a single spraying (when spraying with a conventional composition, even if using a spraying machine with a high spraying capacity, 30 mm at a time) Can only be sprayed to the extent).

Further, since the fiber pieces are mixed, a tensile force is applied to the concrete wall for a long period of time after the construction, and even if a certain cross-section is cracked, the concrete wall exhibits toughness and fracture. In addition, there is an advantage that it is difficult to exhibit brittle fracturability that leads to a burst at a stroke, and the compression / bending strength is stably maintained for a long period of time.

That is, even if a small crack is generated in the cross section, brittle fracture is unlikely to occur because the fiber pieces in the concrete wall connect the crack cross sections to each other. Before it gets swollen,
It is also possible to visually identify before the concrete wall is destroyed, and it is possible to obtain a great effect that accidents can be prevented beforehand.

Particularly, carbon fibers have excellent tensile strength and are not deteriorated by rust or the like. Therefore, when used as fiber pieces, the above effects can be surely achieved.

In the present embodiment, the reinforcing material 12 laid on the construction surface 11 is exemplified by a mesh made of carbon fiber. For example, a mesh made of steel, glass fiber, aramid fiber, nylon It may be a fiber or a network made of vinylon fiber or the like. However, since carbon fibers do not have deterioration such as rust and have high strength, carbon fibers can be said to be most preferable from the viewpoint of reinforcing concrete walls for a long time.

<Second Embodiment> As shown in FIG. 5, first, a waterproof sheet 16 is laid along the construction surface 11, and a reinforcing material 12 is laid thereon, so that the main material and an aqueous solution of acrylate or the like are laid. At the same time to build the concrete wall 15.

The waterproof sheet 16 may be a sheet made of a synthetic resin such as polyethylene, for example, and is fixed to the construction surface 11 via an anchor 14 or the like. As the reinforcing member 12, those exemplified in the first embodiment are used.

Since the waterproof layer 18 is formed on the construction surface 11 by covering with the waterproof sheet 16 as described above, the water coming out of the construction surface 11 does not permeate into the concrete wall 15. Therefore, water leakage from the concrete wall 15 can be prevented, and furthermore,
Even when the reinforcing material 12 is made of a material that deteriorates due to the presence of moisture, for example, iron or the like, there is no deterioration due to rust, and as a result, the durability of the concrete wall 15 can be improved.

Further, a waterproof sheet 16 previously formed in a planar shape is used.
Is used, so that there is an advantage that no special machine is required when the waterproof sheet is laid.

<Third Embodiment> As shown in FIG. 6, after forming a waterproof layer 18 on the construction surface 11 by spraying a solution resin on the construction surface 11 to form a coating film along the construction surface 11. Then, a reinforcing material 12 is laid thereon, and a main material and an aqueous solution such as an acrylate are sprayed at the same time to construct a concrete wall 15.

The solution resin forming the waterproof coating film is a room temperature curing type, a thermosetting type, or a thermoplastic type resin, for example,
Urethane, acrylic, methyl methacrylate, silicon,
Polyester, vinyl ester, vinyl acetate and the like are applicable, and when spraying a solution resin, a primer may be applied as appropriate.

According to the construction method according to this embodiment, not only the functions and effects of the above-described first and second embodiments are exerted, but also the anchor 14 for fixing the reinforcing material 12 is cast on the construction surface 11 in advance. Waterproof layer, so you can spray the solution resin
There is an advantage that the curing of 18 is unnecessary and the construction work is simplified.

That is, the waterproof sheet as in the second embodiment
If it is a method of covering with the waterproof sheet 16 and fixing the waterproof sheet 16 with the anchor 14, the work of filling the joint between the waterproof sheet 16 and the anchor 14 must be performed. If so, such curing is no longer necessary.

<Fourth Embodiment> As shown in FIG. 7, a waterproof sheet 16 provided with a hydrophilic sheet 17 (indicated by a dotted line) on one side is used. After forming the waterproof layer 18 by covering it up,
The concrete wall 15 is constructed by laying 12 and simultaneously spraying the main material and an aqueous solution such as acrylate.

For the hydrophilic sheet 17, for example, artificial fibers such as vinylon fibers and natural fibers such as cotton may be used.
The hydrophilic sheet 17 is not limited to a sheet-like sheet, and a net-like sheet may be provided on the waterproof sheet 16, or a belt-like sheet may be provided on the waterproof sheet 16 at predetermined intervals. You may.

When the hydrophilic sheet 17 is provided on the waterproof sheet 16 as in this embodiment, the hydrophilic sheet 17
Since the hydrophilic layer 19 will be formed between the construction surface 11 and the waterproof layer 18 by the following, after the construction, water flowing out of the construction surface 11,
Water does not penetrate into the concrete wall 15 by the waterproof sheet 16 and the water absorbed by the hydrophilic sheet 17
Since the water flows downward along the hydrophilic layer 19 due to the cohesive force of water, there is an advantage that the water does not stay inside.

Further, the hydrophilic sheet 17 is provided along the construction surface 11.
After laying, even if the waterproof layer 18 is formed by spraying the solution resin, the hydrophilic layer 19 is formed between the construction surface 11 and the waterproof layer 18, so that the same operation and effect as described above can be obtained. Play.

The means for forming the hydrophilic layer 19 is not limited to the hydrophilic sheet 17. For example, a fine aggregate, a fiber material or the like may be added to an acrylic resin emulsion and applied or sprayed on the construction surface 11 to form the hydrophilic layer. 19 may be formed. Such a means is also commonly referred to as “drop coating”, and since there are innumerable holes in the hydrophilic layer 19, water flowing out of the construction surface 11 through the holes flows down. Since the formation of the waterproof layer 18 can be performed and the finished surface can be flattened, there is an advantage that the operation of forming the waterproof layer 18 in the next step becomes easy. In short, the hydrophilic layer 19 may have a structure that allows water to pass therethrough, and the means is not limited to the above embodiment.

Further, as shown in FIG.
If a water-permeable pipe 20 is buried at the lower end of the pipe 19 and a drain passage 22 communicating with the side groove 21 outside the concrete wall 15 is provided at an appropriate position, water flowing down the hydrophilic layer 19 can be provided. Has the advantage that it is almost completely discharged to the outside.

<Fifth Embodiment> As shown in FIG. 8, a reinforcing material 12 is further laid on the surface of the concrete wall 15 constructed by each of the above-mentioned spraying construction methods. At the same time to build the concrete wall 15.

As described above, the considerably thick concrete wall 15 can be constructed by blowing twice, so that the working time can be further reduced as compared with the conventional method. By forming the waterproof layer 18 and using the reinforcing material 12 made of a carbon fiber network at the time of the second spraying, there are two advantages that waterproofing and drainage can be performed, and reinforcement of the concrete wall can be performed for a long time. Can be combined.

[0056]

As described above, according to the method for spraying a concrete wall and the composition for the spraying according to the present invention, the conventional advantages of instantly bonding and hardening even on a wet construction surface are maintained. By mixing fiber pieces with cement, the concrete wall can have a great effect of toughness breaking, so that the concrete wall expands before it breaks, so It is also possible to distinguish them by their appearance and prevent accidents before they happen.

Furthermore, the mixing of the fiber pieces allows the concrete wall to be constructed thicker by one spraying operation, so that there is an advantage that the number of operations can be reduced as compared with the conventional case. Further, the compression / bending strength can be stably maintained for a long period of time.

Further, according to the second aspect of the present invention, after the construction, the water coming out of the construction surface is blocked by the waterproof sheet and does not permeate into the concrete wall, thereby further extending the life of the concrete wall. There is an advantage that water leakage can be prevented. In particular, when the reinforcing material is formed of iron or the like, the reinforcing material is not easily deteriorated by rust,
The effect appears remarkably.

According to the third aspect of the present invention, no special machine is required for laying the waterproof sheet, so that the construction is simple, and is suitable for, for example, repairing only a part. According to the means of claim 6, when the anchor is used for fixing the reinforcing material, the anchor and the waterproof layer can be formed only by laying the anchor on the construction surface in advance and then spraying the resin to form the waterproof layer. Therefore, curing work is not required after the formation of the waterproof layer. Either method can simplify the operation.

According to the fourth aspect of the present invention, the water coming out of the construction surface is absorbed by the hydrophilic layer, and the water flows downward along the hydrophilic layer due to the cohesive force of the water. The water is reliably discharged to the outside without stagnation inside, and according to the means of claim 5, since the hydrophilic layer and the waterproof layer can be simultaneously constructed, the operation can be simplified. Can be.

[Brief description of the drawings]

FIG. 1 is a partially omitted reference view showing a spray application apparatus used in a spray application method according to the present invention.

FIG. 2 is a partially omitted reference view showing the spraying construction apparatus.

FIG. 3 is a partially omitted cross-sectional view showing a concrete wall constructed by an embodiment of the spray construction method according to the present invention.

FIG. 4 is a partially omitted perspective view showing one embodiment of a reinforcing member.

FIG. 5 is a partially omitted sectional view showing another embodiment of the spraying method according to the present invention, showing a concrete wall having a waterproof layer formed by a waterproof sheet.

FIG. 6 is a partially omitted cross-sectional view showing a concrete wall on which a waterproof layer is formed by spraying a solution resin, according to another embodiment of the spraying method according to the present invention.

FIG. 7 shows another embodiment of the spraying method according to the present invention, in which (a) is a partially omitted sectional view showing a concrete wall provided with a waterproof layer provided with a hydrophilic sheet, and (b) is a sectional view. ,
The principal part enlarged sectional view of (a).

FIG. 8 is a partially omitted sectional view showing a concrete wall constructed by another embodiment of the spray construction method according to the present invention.

[Explanation of symbols]

11 ... construction surface, 12 ... reinforcement, 15 ... concrete wall, 16 ... waterproof sheet, 17 ... hydrophilic sheet, 18 ... waterproof layer, 19 ... hydrophilic layer

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code FI C04B 24:26 14:38)

Claims (7)

[Claims] After laying a reinforcing material (12) along a construction surface (11), a main material in which cement and fiber pieces are mixed, an aqueous solution of acrylate or methacrylate, and the main material Alternatively, a polymerization catalyst is added to at least one of the aqueous solution, and the main material and the aqueous solution are mixed inside the nozzle and sprayed while being integrated to construct a concrete wall (15). Method. 2. After forming a waterproof layer (18) along the construction surface (11) and laying a reinforcing material (12) along the waterproof layer (18), cement and fiber pieces are mixed. A main material, an aqueous solution of an acrylate or a methacrylate, and a polymerization catalyst added to at least one of the main material and the aqueous solution, and the main material and the aqueous solution are mixed inside the nozzle and sprayed while being integrated. A method for spraying a concrete wall, comprising constructing a concrete wall (15). 3. The method for spraying a concrete wall according to claim 2, wherein the waterproof layer (18) is formed by laying a sheet-like waterproof sheet (16) on the construction surface (11). 4. A hydrophilic layer (19) is formed along the construction surface (11), a waterproof layer (18) is further formed, and a reinforcing material (12) is laid along the waterproof layer (18). Thereafter, a main material in which cement and fiber pieces are mixed, an aqueous solution of acrylate or methacrylate, a polymerization catalyst is added to at least one of the main material or the aqueous solution, and the main material and the aqueous solution are nozzled. A method for spraying a concrete wall, wherein a concrete wall (15) is constructed by spraying while mixing and integrating inside. 5. A hydrophilic sheet (17) is provided on one side of a sheet-like waterproof sheet (16), and one side of the waterproof sheet (16) is covered toward a construction surface (11). The hydrophilic layer
The method for spraying a concrete wall according to claim 4, wherein the waterproofing layer (18) and the waterproof layer (18) are formed. 6. The waterproof layer (18) is formed by spraying a resin capable of forming a waterproof coating film.
The method of spraying concrete wall described. 7. A construction composition used when spraying a concrete wall onto a construction surface, comprising a main material in which cement and fiber pieces are mixed, and a acrylate or methacrylate salt. A composition for spraying a concrete wall, comprising an aqueous solution, wherein a polymerization catalyst is added to at least one of the main material and the aqueous solution.