JP5549310B2 - Tarpaulin - Google Patents

Description

  The present invention relates to a waterproof sheet for preventing water leakage by covering various structures such as a concrete floor structure and a balcony handrail wall of a house.

  Conventionally, a waterproof sheet combining a self-adhesive layer such as asphalt compound and a release layer such as release paper is known, and disclosed in, for example, Patent Documents 1 to 5.

  Patent Document 1 includes a synthetic resin layer (a) containing a water repellent and an acrylic resin, a base material layer (b) impregnated with an acrylic resin, a modified asphalt compound layer (c), A waterproof sheet material in which a release layer (d) is laminated in the order of (a), (b), (c), and (d) is described. Further, in Patent Document 1, a synthetic resin film is used as a release film, polyethylene such as low density polyethylene and high density polyethylene, polyolefin film such as polypropylene, aromatic polyester such as polyethylene terephthalate and polybutylene terephthalate, etc. And a synthetic resin film such as a polyamide film such as nylon 6 (registered trademark).

  Patent Document 2 describes a waterproof sheet including a base material layer including a polyester film and a modified asphalt layer that adheres to the polyester film. Patent Document 2 describes that the waterproof sheet preferably has release paper.

  Patent Document 3 includes a pressure-sensitive adhesive layer having stretchability on the lower surface, and a stretchable waterproof layer having pressure-sensitive adhesive property on the upper surface. A release paper or a release film is formed on the surface of the pressure-sensitive adhesive layer. An extensible adhesive waterproof sheet is described in which an outer layer is formed on the surface of the extensible waterproof layer with a transfer foil having tack-free properties. Patent Document 3 describes that the extensible waterproofing layer and the adhesive layer are mainly composed of modified asphalt and elastomer.

  In Patent Document 4, a sheet-shaped substrate, a release film bonded to the sheet-shaped substrate, and an adhesive layer containing modified asphalt bonded so as to be easily peeled from the release film are laminated. The formed waterproof sheet is described. In Patent Document 4, a sheet-like substrate, a release film bonded so as to be easily peeled from the sheet-like substrate, and an adhesive layer containing modified asphalt attached to the release film are laminated. The waterproof sheet formed is described. In Patent Document 4, the release film is preferably a single layer or a multilayer film, and the release film is preferably made of a thermoplastic resin. For example, polyolefins, polyamides, polyesters, polyvinyl chloride, It is described that polyvinylidene chloride, polystyrene and the like can be used.

  Patent Document 5 discloses a finish for a rising portion, characterized by comprising a waterproof sheet and a corner member having a right-angled triangular cross-section bonded to the waterproof sheet across the waterproof sheet, or a shape having a notch at the top. A waterproof sheet is described. Patent Document 5 describes that the waterproof sheet has a self-adhesive layer and a release paper entirely or partially. Patent Document 5 describes that the release sheet is most commonly release paper, but is not limited to paper and can be a synthetic resin sheet or metal sheet having an inactive layer on the adhesive surface. ing.

  Patent Document 6 discloses a modified asphalt composition containing asphalt, a styrene synthetic rubber, and a tackifier, and the tackifier includes at least one selected from process oil and polybutene. A modified asphalt composition is described in which the tackifier is 0.5 to 12 parts by weight with respect to 100 parts by weight of the total mass of the synthetic rubber. In Patent Document 6, a release film can be used as the release layer used in the self-adhesive waterproof sheet (e), a synthetic resin film is used as the release film, and polyethylene such as low-density polyethylene and high-density polyethylene is used. It is described that a synthetic resin film such as a polyolefin film such as polypropylene, a polyester film such as an aromatic polyester such as polyethylene terephthalate or polybutylene terephthalate, or a polyamide film such as nylon 6 (registered trademark) can be used.

JP 2009-243247 A JP 2009-235852 A JP 2009-001965 A JP 2001-018320 A Japanese Patent Laid-Open No. 06-307032 JP 2007-262374 A

  A waterproof sheet including an asphalt compound layer generally has a release paper as a release sheet on the surface where the asphalt compound layer is exposed. When the asphalt compound layer has the release paper, it is possible to prevent the asphalt compound from adhering to an unexpected place before the construction of the waterproof sheet, and the workability during the construction can be improved. The release sheet is peeled off when the waterproof sheet is applied.

  In recent years when dealing with environmental problems such as global warming is important, it is necessary to recycle materials as much as possible. Also in the waterproof sheet, it is preferable to recycle the release sheet after use. However, since a laminate layer of polyethylene or the like is interposed in the release paper after use, it is difficult to recycle the release paper as paper. Therefore, the present situation is that the used release paper is discarded. On the other hand, a resin material can be cited as a material that can be recycled. Therefore, the release sheet can be recycled by using a resin film (release film) as the release sheet.

  However, depending on the type of resin film, there is a problem that the oil content of the asphalt compound permeates and permeates the release sheet and is exposed to the surface of the release sheet. Since the waterproof sheet may be stored for a relatively long time before construction, it is required that the oil content of the asphalt compound does not penetrate into the release material even when the waterproof sheet is stored for a long period of time.

  A polyamide-based synthetic resin such as nylon (registered trademark) is known as a material in which the oil content of asphalt compound is difficult to penetrate. However, since the price of the polyamide-based synthetic resin is high, the cost of the waterproof sheet is also increased.

  Therefore, an object of the present invention is to obtain a recyclable and low-cost waterproof sheet that prevents the oil content from being exposed to the surface of the release sheet due to the penetration of the asphalt compound of the asphalt compound layer. Another object of the present invention is to obtain a waterproof sheet having a releasable release sheet.

  In order to obtain a recyclable and low-cost waterproof sheet, the inventors of the present invention reduce the amount of expensive oil-impermeable resin used, and in order to supplement the mechanical strength, It has been found that a low-cost resin material is used together with the resin. The low-cost resin material permeates and permeates the oil, but the oil-impervious resin is present, so that the oil permeation of the release sheet can be prevented. Further, the presence of a low-cost resin material can provide sufficient mechanical strength as a release sheet. By using a multilayer release film layer having a resin layer of an oil-impermeable resin and a resin layer of a low-cost resin material as a release sheet, it is found that a recyclable and low-cost waterproof sheet can be obtained. It came to.

  That is, the present invention includes a base material layer (A layer), an asphalt compound layer (B layer), and a multilayer release film layer (C layer), which are laminated in the order of A layer, B layer and C layer. The sheet is a multilayer release film layer (C layer), a first synthetic resin layer (C1 layer) in contact with an asphalt compound layer (B layer), and an intermediate synthetic resin layer (C2 layer) made of an oil-impermeable resin. And a second synthetic resin layer (C3 layer) that does not contact the asphalt compound layer (B layer) in this order. As a result, exposure of oil to the surface of the release sheet due to penetration of the asphalt compound in the asphalt compound layer can be prevented, and a recyclable and low-cost waterproof sheet can be obtained.

  The preferable aspect of the waterproof sheet of this invention is shown below. In the present invention, these embodiments can be appropriately combined.

(1) The oil-impermeable resin comprises at least one selected from the group consisting of an ethylene / vinyl alcohol copolymer, polyvinylidene chloride, polyacrylonitrile, a polyamide-based synthetic resin, and polyethylene terephthalate. By using the above-mentioned resin as the oil-impermeable resin, it is possible to prevent the oil contained in the asphalt compound from penetrating into the multilayer release film layer (C layer).

(2) The first synthetic resin layer (C1 layer) and the second synthetic resin layer (C3 layer) are films made of polypropylene. This is because polypropylene is inexpensive and a film having a predetermined mechanical strength can be obtained.

(3) The intermediate synthetic resin layer (C2 layer) is made of a polyamide-based synthetic resin film having a thickness of 10 μm or less, and the first synthetic resin layer (C1 layer) and the second synthetic resin layer (C3 layer) have a thickness of 10 μm. That's it. When the intermediate synthetic resin layer (C2 layer) is made of a polyamide-based synthetic resin film, the impermeability of oil contained in the asphalt compound can be further ensured. Moreover, a multilayer peeling film layer (C layer) can have sufficient mechanical strength because a 1st synthetic resin layer (C1 layer) and a 2nd synthetic resin layer (C3 layer) are 10 micrometers or more.

(4) The first synthetic resin layer (C1 layer) and the intermediate synthetic resin layer (C2 layer) are joined by an adhesive, and the intermediate synthetic resin layer (C2 layer) and the second synthetic resin layer (C3 layer) are bonded. It is joined by the agent. As a result, the C1, C2, and C3 layers can be integrated as a multilayer release film layer (C layer).

(5) surface in contact with the asphalt compound layer (B layer) of the first synthetic resin layer (C1-layer) is silicone over down process. As a result, the asphalt compound layer (B layer) and the multilayer release film layer (C layer) can be easily peeled during construction.

(6) The first synthetic resin layer (C1 layer) contains a black pigment, and the second synthetic resin layer (C3 layer) contains a white pigment. Since the first synthetic resin layer (C1 layer) contains a black pigment, the multilayer release film layer (C layer) can be prevented from transmitting ultraviolet rays, so that the asphalt compound layer (B layer) is prevented from being deteriorated by ultraviolet rays. be able to. In addition, since the second synthetic resin layer (C3 layer) contains a white pigment, light from the outside can be reflected. Therefore, the temperature rise of the waterproof sheet due to irradiation with sunlight or the like can be prevented, and deterioration of the waterproof sheet can be prevented.

(7) The film thickness of the multilayer release film layer (C layer) is in the range of 5 to 150 μm. As a result, the entire multilayer release film layer (C layer) can economically have sufficient mechanical strength.

(8) The multilayer release film layer (C layer) is a film layer that has been subjected to a creping process or an embossing process. As a result, when manufacturing the waterproof sheet, the asphalt compound layer (B layer) and the multilayer release film layer (C layer) can be easily adhered, and during construction, the asphalt compound layer (B layer) and the multilayer release film layer ( Peeling from the (C layer) can be facilitated. Moreover, wrinkling of the waterproof sheet can be suppressed.

  Moreover, this invention is a waterproof structure obtained by laying the above-mentioned waterproof sheet and performing a waterproof process. The waterproof structure having the waterproof sheet of the present invention is excellent in low cost and recyclability.

  ADVANTAGE OF THE INVENTION According to this invention, the exposure of the oil component to the surface of a peeling sheet by the asphalt compound of an asphalt compound layer osmose | permeates can be prevented, and a low-cost waterproof sheet can be obtained. If the waterproof sheet of this invention is used, the workability | operativity in the case of construction of a waterproof structure can be improved. Further, by using an appropriate synthetic resin as a material for the release sheet, the release sheet can be recycled.

It is typical sectional drawing of the waterproof sheet of this invention. It is typical sectional drawing of the multilayer peeling film layer (C layer) vicinity of the waterproof sheet of this invention.

  In FIG. 1, the typical sectional drawing of the waterproof sheet 10 of this invention is shown. The waterproof sheet 10 of the present invention includes a base material layer (A layer) 12, an asphalt compound layer (B layer) 13, and a multilayer release film layer (C layer) 20, and includes the A layer 12, the B layer 13 and the C layer. The waterproof sheet 10 is laminated in the order of the layers 20. The waterproof sheet 10 of the present invention is characterized by having a multilayer release film layer (C layer) 20 as shown in FIG. 2 as a release sheet.

  The multilayer release film layer (C layer) 20 used for the waterproof sheet 10 of the present invention is an intermediate synthesis composed of a first synthetic resin layer (C1 layer) 21 in contact with an asphalt compound layer (B layer) 13 and an oil-impermeable resin. A resin layer (C2 layer) 22 and a second synthetic resin layer (C3 layer) 23 not in contact with the asphalt compound layer (B layer) 13 are included in this order. Since the multilayer release film layer (C layer) 20 is a resin film, the multilayer release film layer (C layer) 20 removed at the time of construction can be recycled by selecting an appropriate resin material. In order to perform recycling more appropriately, the resin materials of the C1, C2, and C3 layers constituting the multilayer release film layer (C layer) 20 have substantially the same melting point, for example, the maximum and minimum melting points. And a melting point in the range of 100 ° C. or lower, preferably 50 ° C. or lower. Moreover, the mechanical strength can be supplemented by using the low-cost first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23 for the multilayer release film layer (C layer) 20. . By including the C1 layer and the C3 layer, the film thickness of the intermediate synthetic resin layer (C2 layer) 22 made of the oil-impermeable resin can be reduced, so that the low-cost waterproof sheet 10 can be obtained.

  Hereinafter, the waterproof sheet 10 of the present invention will be specifically described.

<Base material layer (A layer) 12>
In the waterproof sheet 10 of the present invention, the material of the base material layer (A layer) 12 is not particularly limited. In order to give good waterproof properties to the waterproof sheet 10, a material (base material) of the base material layer (A layer) 12 impregnated with an acrylic resin is used as the base material layer (A layer) 12. Preferably. As the acrylic resin, a resin containing a high molecular compound having an acrylic group such as methyl acrylate and ethyl acrylate can be used.

  As the acrylic resin, it is preferable to use a resin containing an alkyl acrylate / styrene copolymer and an alkyl acrylate / methacrylic acid copolymer in a predetermined ratio in order to ensure waterproofing. The alkyl acrylate / styrene copolymer has a function as an adhesive. The alkyl acrylate / methacrylic acid copolymer has a function as a thickener. Therefore, by setting these copolymers to a predetermined ratio, the base material layer (A layer) 12 is excellent in impregnation into the base material, and is filled in the voids inside the base material layer (A layer). The base material layer (A layer) 12 excellent in waterproofness can be obtained by curing. Specifically, the acrylic resin is based on 100% by weight of the entire acrylic resin, 90 to 99.9% by weight of alkyl acrylate / styrene copolymer, 0.1% of alkyl acrylate / methacrylic acid copolymer. 10 to 10% by weight, more preferably 95 to 99.5% by weight of alkyl acrylate / styrene copolymer, and more preferably 0.5 to 2% by weight of alkyl acrylate / methacrylic acid copolymer.

  From the viewpoint of impregnation of the base material layer (A layer) 12 into the base material, it is preferable to use an alkyl acrylate / styrene copolymer and an alkyl acrylate / methacrylic acid copolymer in the form of an aqueous emulsion. . An aqueous emulsion of an alkyl acrylate / styrene copolymer has a composition of 40 to 60% by weight of copolymer and 60 to 40% by weight of water, specifically a copolymer, for example, based on 100% by weight of the aqueous emulsion. A composition having a composition of 49% by weight and 51% by weight of water can be used. The aqueous emulsion of alkyl acrylate / methacrylic acid copolymer has a composition of 20 to 40% by weight of copolymer and 80 to 60% by weight of water, specifically based on the weight of aqueous emulsion. A composition having a composition of 28% by weight and 72% by weight of water can be used.

  The base material layer (A layer) 12 includes a base material that is at least one selected from the group consisting of a woven fabric, a knitted fabric, and a non-woven fabric. As materials for the woven fabric, the knitted fabric, and the nonwoven fabric, polyester, polyamide, polycarbonate, polyphenylene oxide, polyethersulfone, polyamideimide, polyesterimide, polyimide, polysulfone, polyether, and other inorganic materials such as glass can be used. A preferable base material is a fiber made of nylon 11 (registered trademark), nylon 12 (registered trademark), or a synthetic resin such as polyester or glass, or an inorganic substance, in terms of water absorption and mechanical strength. . Moreover, it is preferable that a base material is a nonwoven fabric from the point of mechanical strength. When the water absorption and mechanical strength are comprehensively determined, the substrate is more preferably a polyester nonwoven fabric.

The basis weight of the woven fabric, knitted fabric and nonwoven fabric used for the base material layer (A layer) 12 is not particularly limited, but the basis weight of the woven fabric, knitted fabric and nonwoven fabric is preferably 30 to 200 g / m ² . The range, particularly preferably in the range of 30 to 180 g / m ² is preferable because it has flexibility and excellent workability.

  The base material layer (A layer) 12 in which the base material is impregnated with the acrylic resin can be obtained by applying or dipping the aqueous emulsion containing the acrylic resin described above on the surface of the base material and drying it. it can. When the base material layer (A layer) 12 contains an acrylic resin, even when the base material layer (A layer) 12 is exposed at the end portion, water permeation from the base material layer (A layer) 12 is allowed to penetrate. The base material layer (A layer) 12 that can be prevented and is excellent in waterproofness can be obtained.

  The aqueous emulsion for impregnating the base material may contain additive components such as pigments in addition to the acrylic resin.

<Water repellent layer 11>
It is preferable to form the water repellent layer 11 on one surface of the base material layer (A layer) 12 using a water repellent and an acrylic resin. By forming the water repellent layer 11, it is possible to impart water repellency to the surface of the waterproof sheet 10 of the present invention and to ensure waterproofness.

  As the water repellent, any water repellent can be used, but it is preferable to use a wax water repellent from the viewpoint that waterproofness and water repellency can be improved by combining with an acrylic resin. Moreover, since the ease of application | coating operation can be improved, a solid paraffin can be used preferably as a wax-type water repellent, and the emulsion of a solid paraffin and ethanolamine can be used suitably especially.

  As the acrylic resin used in combination with the water repellent, the same alkyl acrylate / styrene copolymer and alkyl acrylate / methacrylic acid copolymer as in the case of forming the base material layer (A layer) 12 are predetermined. It is preferable to use a resin that is contained at a ratio of 1 to 5 in order to obtain good affinity and integration with the acrylic resin impregnated in the base material layer (A layer) 12 and to ensure waterproofing.

  For the formation of the water repellent layer 11, use is made of an emulsion for forming a synthetic resin layer in which a water repellent (for example, an emulsion of solid paraffin and ethanolamine) and an aqueous emulsion of an acrylic resin are mixed at a predetermined ratio. Can do. The composition excluding water in the emulsion for forming the synthetic resin layer is 100% by weight of the aqueous emulsion excluding water, preferably 80 to 99% by weight of acrylic resin and 0.1 to 5% by weight of water repellent. More preferably 85 to 95% by weight of acrylic resin and 0.5 to 3% by weight of water repellent, particularly preferably 90 to 93% by weight of acrylic resin and 1 to 2% by weight of water repellent. Is preferable from the viewpoint of ensuring waterproofing of the waterproof sheet 10 surface. In addition, an aqueous emulsion can contain additive components, such as inorganic materials, such as a pigment, as components other than acrylic resin and a water repellent.

  The water repellent layer 11 can be formed by applying the above-mentioned predetermined emulsion to one surface of the base material layer (A layer) 12 and drying it. The application and drying of the predetermined emulsion can be repeated a plurality of times to obtain a stronger water-repellent layer 11. Considering the manufacturing cost of the waterproof sheet 10, it is preferable to repeat application and drying twice.

<Asphalt compound layer (B layer) 13>
As a material of the material of the asphalt compound layer (B layer) 13, a known asphalt compound, preferably a modified asphalt can be used. The modified asphalt preferably contains 10 to 40 parts by weight of polymer and 100 to 100 parts by weight of an inorganic filler with respect to 100 parts by weight of asphalt, and particularly preferably 20 to 45 parts by weight of polymer with respect to 100 parts by weight of asphalt. And those containing 0 to 70 parts by weight of the inorganic filler are preferred.

  Modified asphalt is a modified product with high homogeneity of components prepared by heating and mixing 3 to 30 hours at 120 to 200 ° C. containing 3 components of asphalt and polymer, asphalt, polymer and inorganic filler. It is preferable to use asphalt because of its excellent waterproof / moisture resistance, stretchability, and the like.

  In addition to the components described above, modified asphalt includes process oil, petrolatum, ceresin, petroleum resin, and other water repellents, pigments, thickeners, light-proofing agents, and weathering agents that are commonly used in blending synthetic resins and rubbers. An inorganic or organic compounding agent such as may be added.

  As the asphalt contained in the modified asphalt, natural asphalt, natural asphaltite, petroleum asphalt such as straight asphalt, blown asphalt, cutback asphalt, or a mixture of these asphalts is preferable.

  Polymers contained in the modified asphalt include natural rubber, synthetic rubber, a mixture of natural rubber and synthetic rubber, polyethylene, ethylene vinyl acetate copolymer, copolymer of ethylene and acrylic acid derivative, polypropylene, polybutene-1 , Poly-4-methylpentene-1, polystyrene, acrylonitrile / styrene copolymer, ABS resin, polyvinyl chloride, polyacrylonitrile, a polymer of styrene and butadiene (for example, SBS, SBR, etc.), etc. it can. In particular, rubber systems such as SBS, SBR and BR are suitable.

  The inorganic filler contained in the modified asphalt includes calcium carbonate, magnesium silicate, calcium silicate, aluminum silicate, anhydrous silicic acid, clay, carbon black, talc, mica, barium sulfate, diatomaceous earth, silica, etc. Fibrous inorganic fillers such as inorganic fillers, asbestos and glass fibers can be used.

  The modified asphalt used for the asphalt compound layer (B layer) 13 has a penetration of preferably 50 dmm to 300 dmm, more preferably 70 dmm to 280 dmm, more preferably 85 dmm to 260 dmm, particularly preferably 100 dmm. The range of ˜240 dmm is preferable because of excellent flexibility. The penetration can be measured by the method defined in JIS K2207-1996.

  The softening point of the modified asphalt used for the asphalt compound layer (B layer) 13 is preferably in the range of 50 to 120 ° C, more preferably in the range of 60 to 115 ° C, more preferably in the range of 65 to 110 ° C, particularly preferably. A range of 70 to 105 ° C. is preferable in order to have good flexibility. The penetration can be measured by the method defined in JIS K2207-1996.

  The viscosity of 160 ° C. of the modified asphalt used for the asphalt compound layer (B layer) 13 is preferably in the range of 30000 to 120,000 mPa · sec, more preferably in the range of 32000 to 115000 mPa · sec, and more preferably in the range of 34,000 to 110000 mPa · sec. The range, particularly preferably in the range of 35,000 to 100,000 mPa · sec, is preferable because of excellent adhesion to the base material layer (A layer) 12.

<Adhesion of asphalt compound layer (B layer) 13>
In the present invention, the asphalt compound layer (B layer) 13 is formed by adhering the modified asphalt having the above composition to the surface of the base material layer (A layer) 12 opposite to the surface on which the water repellent layer 11 is formed. Form. By setting it as such a structure, the waterproofing by the waterproof sheet 10 of this invention can be ensured.

  The asphalt compound layer (B layer) 13 can be formed, for example, by using a laminating roll. That is, the above-described modified asphalt is poured between the base material layer (A layer) 12 and the multilayer release film layer (C layer) 20 and integrated using a laminating roll, whereby the waterproof sheet of the present invention. 10 can be obtained. Moreover, the waterproof sheet 10 thus obtained can be cooled using a chilled roll to ensure the adhesion of the modified asphalt.

<Multilayer Release Film Layer (C Layer) 20>
The multilayer release film layer (C layer) 20 used for the waterproof sheet 10 of the present invention is an intermediate synthesis composed of a first synthetic resin layer (C1 layer) 21 in contact with an asphalt compound layer (B layer) 13 and an oil-impermeable resin. A resin layer (C2 layer) 22 and a second synthetic resin layer (C3 layer) 23 not in contact with the asphalt compound layer (B layer) 13 are included in this order. Since the multilayer release film layer (C layer) 20 is a resin film, the multilayer release film layer (C layer) 20 removed during construction can be recycled by using an appropriate synthetic resin as the material of the release sheet. is there.

  The intermediate synthetic resin layer (C2 layer) 22 is made of an oil-impermeable resin that does not transmit the oil contained in the asphalt compound. Since the oil component is the component most easily permeable to the components of the asphalt compound, the intermediate synthetic resin layer (C2 layer) 22 does not transmit all the components of the asphalt compound. The oil-impermeable resin that can be used as the intermediate synthetic resin layer (C2 layer) 22 is selected from the group consisting of ethylene / vinyl alcohol copolymer, polyvinylidene chloride, polyacrylonitrile, polyamide synthetic resin, and polyethylene terephthalate. At least one kind. From the viewpoint of ensuring oil impermeability, the oil impervious resin used as the material of the intermediate synthetic resin layer (C2 layer) 22 is selected from the group consisting of an ethylene / vinyl alcohol copolymer and a polyamide synthetic resin. It is preferable to consist of at least one. From the viewpoint of ensuring oil impermeability, the oil impervious resin is more preferably a polyamide-based synthetic resin such as nylon (registered trademark). An oil-impermeable resin film obtained by forming the above-described oil-impermeable resin into a film can be used as the intermediate synthetic resin layer (C2 layer) 22.

  Since the oil-impermeable resin is a relatively expensive resin, it is preferable to reduce the amount used to reduce the cost of the waterproof sheet 10. That is, it is preferable to reduce the thickness of the intermediate synthetic resin layer (C2 layer) 22 in order to reduce the cost of the waterproof sheet 10. Therefore, the film thickness of the intermediate synthetic resin layer (C2 layer) 22 is preferably 10 μm or less, more preferably 8 μm or less, and further preferably 5 μm or less. Further, the intermediate synthetic resin layer (C2 layer) 22 needs to have a film thickness that does not transmit oil. Therefore, the lower limit of the film thickness of the intermediate synthetic resin layer (C2 layer) 22 is preferably 0.5 μm, more preferably 1 μm or more, and further preferably 2 μm or more. In addition, the above-mentioned film thickness can be preferably selected in the case of a polyamide-based synthetic resin film.

  The multilayer release film layer (C layer) 20 used for the waterproof sheet 10 of the present invention includes a first synthetic resin layer (C1 layer) 21 and a second synthetic resin layer (C3 layer) 23. The first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23 serve to compensate for a decrease in mechanical strength due to the relatively thin intermediate synthetic resin layer (C2 layer) 22. Therefore, as a material for the first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23, a relatively thick film using an inexpensive resin can be used. Specifically, as the first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23, polyethylene such as low density polyethylene and high density polyethylene, polyolefin film such as polypropylene, polyethylene terephthalate, poly A polyester film such as an aromatic polyester such as butylene terephthalate can be used. Since it is inexpensive and a film having a predetermined mechanical strength can be obtained, a film made of polypropylene is used for the first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23. preferable. The first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23 may use the same type of resin film or different types of resin films.

  The first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23 are used so that the multilayer release film layer (C layer) 20 has a sufficient mechanical strength. It can select suitably according to the kind of resin. Specifically, the film thickness of the first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23 is preferably 10 μm or more, more preferably 11 μm or more, and 12 μm or more. More preferably. Depending on the application, the film thickness of the first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23 may be 20 μm or more or 30 μm or more. Since it is uneconomical when the first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23 are too thick, the first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C1 layer) 21 The upper limit of the thickness of the synthetic resin layer (C3 layer) 23 is preferably 200 μm, more preferably 100 μm, and even more preferably 50 μm. The film thicknesses of the first synthetic resin layer (C1 layer) 21 and the second synthetic resin layer (C3 layer) 23 are not necessarily the same, and may be different from each other.

  The multilayer release film layer (C layer) 20 as a whole needs to be low in cost and have sufficient mechanical strength. Also, it is necessary that the film thickness is moderate so that it does not hinder manufacturing and is not easily damaged during construction or use. Accordingly, the film thickness of the entire multilayer release film layer (C layer) 20 is preferably in the range of 20 to 200 μm, more preferably in the range of 22 to 150 μm, and further in the range of 25 to 100 μm. preferable.

  The first synthetic resin layer (C1 layer) 21 and the intermediate synthetic resin layer (C2 layer) 22 can be integrated by joining with a known adhesive 25. Similarly, the intermediate synthetic resin layer (C2 layer) 22 and the second synthetic resin layer (C3 layer) 23 can be integrated by joining with a known adhesive 26.

Surface in contact with the first synthetic resin layer (C1-layer) 21 asphalt compound layer (B layer) 13, by being silicone over down process, the time of construction, asphalt compound layer (B layer) and 13, multi-layer release film layer Separation from (C layer) 20 can be facilitated. Silicone over down process of the first synthetic resin layer (C1-layer) 21, the first synthetic resin layer (C1-layer) 21, an intermediate synthetic resin layer (C2 layer) 22 and the second synthetic resin layer (C3-layer) 23 a junction Can be performed after being integrated.

  In the multilayer release film layer (C layer) 20 of the waterproof sheet 10 of the present invention, the first synthetic resin layer (C1 layer) 21 preferably contains a black pigment. Carbon black can be used as the black pigment. Since the first synthetic resin layer (C1 layer) 21 contains a black pigment, the multilayer release film layer (C layer) 20 can be prevented from transmitting ultraviolet rays, so that the asphalt compound layer (B layer) 13 is deteriorated by ultraviolet rays. Can be prevented.

  In the multilayer release film layer (C layer) 20 of the waterproof sheet 10 of the present invention, the second synthetic resin layer (C3 layer) 23 preferably contains a white pigment. Titanium white can be used as the white pigment. When the second synthetic resin layer (C3 layer) 23 contains a white pigment, light from the outside can be reflected. Therefore, the temperature rise of the waterproof sheet 10 due to irradiation with sunlight or the like can be prevented, and deterioration of the waterproof sheet 10 can be prevented.

  The multilayer release film layer (C layer) 20 of the waterproof sheet 10 of the present invention is preferably a film layer subjected to a creping process or an embossing process. As a result, when the waterproof sheet 10 is manufactured, the asphalt compound layer (B layer) 13 and the multilayer release film layer (C layer) 20 are easily adhered, and at the time of construction, the asphalt compound layer (B layer) 13 and the multilayer Peeling from the release film layer (C layer) 20 can be facilitated. Moreover, wrinkle generation | occurrence | production of the waterproof sheet 10 can also be suppressed.

  The waterproof sheet 10 of the present invention has the multilayer release film layer (C layer) 20 as a release sheet, thereby preventing oil from being exposed to the surface of the release sheet. Therefore, it prevents deterioration during storage, prevents adhesion to an unexpected place during storage and transportation, and prevents dirt on the clothes, shoes, and sheet heating elements of the installer during construction of the waterproof sheet 10. can do. Moreover, according to this invention, the multilayer peeling film layer (C layer) 20 peeled at the time of construction is recyclable.

<Waterproof sheet 10>
The waterproof sheet 10 of the present invention can be obtained by cutting the waterproof sheet 10 of the present invention obtained as described above into a predetermined size according to the size of the place to be waterproofed. The end portions of the plurality of waterproof sheets 10 can be bonded by overlapping and pressing the respective asphalt compound layers (B layers) 13 together. Therefore, when the size of the place where waterproofing is performed is large, the plurality of waterproof sheets 10 can be connected and applied by bonding.

  The waterproof sheet 10 of the present invention has a tensile strength in the longitudinal direction of the waterproof sheet 10 measured according to JIS A 6013: 2005, preferably 35 N / cm or more, more preferably 40 N / cm or more, and particularly preferably 45 N. The waterproof sheet 10 having a high durability is that the tensile strength in the width direction of the waterproof sheet 10 is preferably 20 N / cm or more, more preferably 22 N / cm or more, and particularly preferably 24 N / cm or more. Can be formed.

  The waterproof sheet 10 of the present invention has a tear strength in the longitudinal direction of the waterproof sheet 10 measured according to JIS A 6013: 2005, preferably 3N or more, more preferably 4N or more, particularly preferably 4.5N or more. In addition, the tear strength in the width direction of the waterproof sheet 10 is preferably 5 N or more, more preferably 5.5 N or more, and particularly preferably 6 N or more from the viewpoint that the highly durable waterproof sheet 10 can be formed.

  The waterproof sheet 10 of the present invention has an elongation percentage in the longitudinal direction of the waterproof sheet 10 measured in accordance with JIS A 6013: 2005, preferably 20% or more, more preferably 25% or more, and particularly preferably 30% or more. It is preferable that the elongation in the width direction of the waterproof sheet 10 is preferably 20% or more, more preferably 24% or more, and particularly preferably 28% or more because the waterproof sheet 10 that can follow the base deformation can be formed. .

  Construction of the waterproof sheet 10 of the present invention is performed by removing the multilayer release film layer (C layer) 20 and removing and attaching an asphalt compound layer (B layer) 13 to the target object. At this time, the waterproof sheet 10 is bonded so that the end portions thereof overlap. In order to ensure waterproofing, both the length d1 of the end portion in the long side direction and the length d2 of the end portion in the short side direction are preferably 2 mm to 100 mm, more preferably 4 mm to 50 mm, Preferably it is 6 mm-30 mm. Since the waterproof sheet 10 of the present invention is low cost and excellent in recyclability, the waterproof structure obtained by laying the waterproof sheet 10 of the present invention and applying waterproof treatment is also low in cost and excellent in recyclability. It can be said that there is.

  Hereinafter, the present invention will be described in more detail based on examples. However, the present invention is not limited by the following examples.

<Example 1>
The waterproof sheet of Example 1 was produced as follows.

<Base material layer (A layer)>
The base material layer used for the waterproof sheet of Example 1 includes a polyester film and a polyester nonwoven fabric. A polyester nonwoven fabric having a basis weight of 50 g / m ² was used. The polyester film and the polyester nonwoven fabric were bonded using an adhesive.

<Asphalt compound layer (B layer)>
As a material for the asphalt compound layer used in the waterproof sheet of Example 1, a modified asphalt compound was used. As the modified asphalt compound, a synthetic rubber modified type having a penetration of 150 dmm was used. The penetration was measured by the method specified in JIS K2207-1996.

<Multilayer release film layer (C layer)>
As the material of each layer constituting the multilayer release film layer (C layer) used in the waterproof sheet of Example 1, the following materials were used.
First synthetic resin layer (C1 layer): polypropylene film (film thickness 28 μm)
Intermediate synthetic resin layer (C2 layer): nylon 6 (registered trademark) with a film thickness of 4 μm
Second synthetic resin layer (C3 layer): polypropylene film (film thickness 18 μm)

The first synthetic resin layer (C1 layer) was laminated and joined in the order of the C1 layer, C2 layer, and C3 layer so that the silicon coating was the outer surface. Each layer was adhere | attached with the adhesive agent, and the multilayer peeling film layer (C layer) was obtained. The thickness of the adhesive was 2 to 3 μm. The C1 layer, after bonding of the C2 layer and C3 layers, by subjecting the silicone over down process on the surface of the first synthetic resin layer (C1-layer) to form a silicone coating.

<Method for producing waterproof sheet>
The above modified asphalt compound is poured between the surface opposite to the surface on which the above-mentioned base material layer (A layer) is formed and the multilayer release film layer (C layer), and integrated using a laminating roll. By doing so, the waterproof sheet of Example 1 was obtained.

<Example 2>
A waterproof sheet was produced in the same manner as in Example 1 except that the film thickness of the first synthetic resin layer (C1 layer) was 13 μm and the film thickness of the second synthetic resin layer (C3 layer) was 13 μm.

<Comparative Example 1>
In Comparative Example 1, a waterproof sheet was produced in the same manner as in Example 1 except that a 50 μm-thick polypropylene film was used as a single-layer release film instead of the multilayer release film layer.

<Result>
Table 1 shows the state of exposure of the oil content of the asphalt compound to the surfaces of the release film layers of Example 1, Example 2, and Comparative Example 1. The waterproof sheets of Example 1 and Example 2 were not exposed to asphalt compound oil on the surface of the release film layer even after 168 hours had passed in the dryer at 50 ° C. after the waterproof sheet was produced. On the other hand, in the case of Comparative Example 1, after production, after as long as 168 hours in a dryer at 50 ° C., the asphalt compound penetrated the release film, and the oil content of the asphalt compound was exposed on the surface of the release film layer. .

DESCRIPTION OF SYMBOLS 10 Waterproof sheet 11 Water repellent layer 12 Base material layer (A layer)
13 Asphalt compound layer (B layer)
20 Multilayer release film layer (C layer)
21 First synthetic resin layer (C1 layer)
22 Intermediate synthetic resin layer (C2 layer)
23 Second synthetic resin layer (C3 layer)
25, 26 Adhesive

Claims (9)

A waterproof sheet comprising a base material layer (A layer), an asphalt compound layer (B layer), and a multilayer release film layer (C layer), and laminated in the order of A layer, B layer and C layer,
The multilayer release film layer (C layer) includes a first synthetic resin layer (C1 layer) in contact with the asphalt compound layer (B layer), an intermediate synthetic resin layer (C2 layer) made of an oil-impermeable resin, and an asphalt compound layer. the second synthetic resin layer not in contact with the layer (B layer) and a (C3-layer) viewed contains in this order,
A waterproof sheet in which the first synthetic resin layer (C1 layer) and the second synthetic resin layer (C3 layer) are films made of polypropylene .   2. The waterproofing according to claim 1, wherein the oil-impermeable resin comprises at least one selected from the group consisting of an ethylene / vinyl alcohol copolymer, polyvinylidene chloride, polyacrylonitrile, a polyamide-based synthetic resin, and polyethylene terephthalate. Sheet. The intermediate synthetic resin layer (C2 layer) is made of a polyamide-based synthetic resin film with a thickness of 10 μm or less, and the first synthetic resin layer (C1 layer) and the second synthetic resin layer (C3 layer) have a thickness of 10 μm or more. The waterproof sheet according to claim 1 or 2 . The first synthetic resin layer (C1 layer) and the intermediate synthetic resin layer (C2 layer) are joined by an adhesive,
The waterproof sheet according to any one of claims 1 to 3 , wherein the intermediate synthetic resin layer (C2 layer) and the second synthetic resin layer (C3 layer) are bonded together by an adhesive. Tarpaulins that surface in contact with the asphalt compound layer of the first synthetic resin layer (C1-layer) (B layer) is silicone over down process, according to any one of claims 1-4. The waterproof sheet according to any one of claims 1 to 5 , wherein the first synthetic resin layer (C1 layer) contains a black pigment and the second synthetic resin layer (C3 layer) contains a white pigment. The waterproof sheet according to any one of claims 1 to 6 , wherein the thickness of the multilayer release film layer (C layer) is in the range of 20 to 200 µm. The waterproof sheet according to any one of claims 1 to 7 , wherein the multilayer release film layer (C layer) is a film layer subjected to a creping process or an embossing process. The waterproof structure obtained by laying the waterproof sheet of any one of Claims 1-8 , and performing a waterproofing process.

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