JP2018144491A - Moisture permeable waterproof sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a moisture permeable waterproof sheet which has infrared reflectivity over a long period of time while having waterproofness, moisture permeability and air permeable infrared reflectivity equivalent to or higher than conventional one.SOLUTION: A moisture permeable waterproof sheet includes a resin film 10, an aluminum foil 20 and a non-woven fabric 40 in this order, where the aluminum foil and the resin film have a plurality of communicating through holes 50, an opening ratio of the through holes is 1.2% or more and 7.0% or less, in the non-woven fabric, span bond layers 42 and 42 are stacked on both surfaces of a melt-blown layer 44, and the melt-blown layer has a density of 0.26 g/cmor more and 0.7 g/cmor less.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a moisture permeable waterproof sheet.

  Conventionally, a house wrap material (moisture permeable waterproof sheet) having waterproofness and moisture permeability has been used as a sheet for an outer wall of a house. Furthermore, in recent years, in order to suppress indoor temperature rise by reflecting radiant heat (infrared rays) from the outdoors in summer, and to reduce indoor temperature reduction by reflecting heat radiation from indoor heating etc. in winter, Efforts have been made to provide an aluminum deposited film on the wrap material. For example, in Patent Document 1 and Non-Patent Document 1, for example, by providing an aluminum vapor-deposited layer having a through hole between a nonwoven fabric and a resin layer so that moisture does not flow, waterproofness, moisture permeability, and air permeability are provided. A heat-insulating and moisture-permeable waterproof sheet and house wrap material having infrared reflectivity are disclosed.

JP 2010-434450 A

http://www.tyvek.co.jp/construction/product/silver/

  However, in the technique of the above-mentioned document, the aluminum vapor deposition film disappears due to deterioration in long-term use for several years or more, and the infrared reflection effect is lowered. In addition, if the house wrap material is not covered with the outer wall material even if the house wrap material is applied to the house, the house wrap material is exposed to wind and rain or direct sunlight. As a result, the reflection effect of infrared rays is reduced. Accordingly, an object of the present invention is to provide a moisture-permeable waterproof sheet that has infrared reflectivity over a long period of time while having waterproofness, moisture permeability, and breathable infrared reflectivity equivalent to or better than those of conventional ones. .

The moisture-permeable waterproof sheet of the present invention includes a resin film, an aluminum foil, and a nonwoven fabric in this order, and the aluminum foil and the resin film have a plurality of through-holes communicating with each other, and the through-holes the aperture ratio of not more than 7.0% to 1.2% said nonwoven spunbond layers on both sides of the meltblown layer is laminated, the meltblown layer had a density of 0.26 g / cm ³ or more 0 0.7 g / cm ³ or less. Here, the opening ratio of the through holes refers to the ratio of the opening area of the through holes to the surface area of the aluminum foil when the surface of the aluminum foil is observed.

  It is preferable to have a web made of an adhesive between the aluminum foil and the nonwoven fabric. The web made of an adhesive is a non-woven adhesive layer having a network shape like a cobweb formed by intertwining fibrous adhesives, and more specifically, a network connecting an aluminum foil and a non-woven fabric. It is an adhesive layer.

  It is preferable that the resin film has a thickness of 8 μm to 30 μm, the aluminum foil has a thickness of 5 μm to 30 μm, and the nonwoven fabric has a thickness of 100 μm to 300 μm.

  The thickness of the meltblown layer in the nonwoven fabric is preferably 20 μm or more and 60 μm or less.

  The resin film may be composed of one or more films selected from the group consisting of polyethylene terephthalate (PET), nylon, and biaxially oriented polypropylene (OPP).

  In the melt blown layer, the constituent fibers are preferably not fused to each other.

The web made of the adhesive is a polyolefin-based adhesive, and the coating amount is preferably 5 g / m ² or more and 20 g / m ² or less.

  The nonwoven fabric is one or more fibers selected from the group consisting of polyamide (nylon) fibers, rayon fibers, polyester fibers, polyolefin (polypropylene, polyethylene terephthalate, polybutylene terephthalate, etc.) fibers, acrylic fibers, vinylon fibers, and aramid fibers. May be included.

  When the moisture-permeable waterproof sheet has the above-described configuration, it can have infrared reflectivity over a long period of time while having waterproofness, moisture permeability, and breathable infrared reflectivity that are equal to or higher than those of conventional ones.

It is typical sectional drawing of the moisture-permeable waterproof sheet which concerns on embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following description of the preferred embodiments is merely exemplary in nature and is not intended to limit the invention, its application, or its use.

(Embodiment)
The moisture-permeable waterproof sheet according to the embodiment includes a resin film 10, an aluminum foil 20, and a nonwoven fabric 40 in this order as shown in FIG. That is, the resin film 10, the aluminum foil 20, and the nonwoven fabric 40 are laminated in this order. An adhesive (not shown) exists between the resin film 10 and the aluminum foil 20, and an adhesive layer 30 exists between the aluminum foil 20 and the nonwoven fabric 40.

  The aluminum foil 20 and the resin film 10 have a plurality of communicating through holes 50, 50, and the opening ratio of the through holes 50, 50 is in the range of 1.2% to 7.0%.

The nonwoven fabric 40 has spunbond layers 42 and 42 laminated on both sides of the meltblown layer 44, and the meltblown layer 44 has a density of 0.26 g / cm ³ or more and 0.7 g / cm ³ or less. The spunbond layers 42, 42 disposed on both sides of the meltblown layer 44 may be the same type and the same thickness, or may be different types or different thicknesses.

  The adhesive layer 30 between the aluminum foil 20 and the nonwoven fabric 40 is preferably a web made of an adhesive. A web made of an adhesive is a web-like adhesive layer like a cobweb formed by intertwining fibrous adhesives, and has a network-like shape that connects an aluminum foil and a nonwoven fabric. ing.

<Moisture permeable waterproof sheet>
The moisture permeable waterproof sheet as used in the present invention refers to all waterproof sheets having moisture permeability and breathability of buildings, and is limited to types such as houses, facilities, concrete buildings, and wooden structures. It is not something. In general, a moisture permeable waterproof sheet is used between the room indoors and the outside air such as a wall surface, ceiling surface, or floor surface of the building. Furthermore, it is preferable that the moisture permeable waterproof sheet has infrared reflectivity. Note that the heat insulating material and the moisture permeable waterproof sheet that are generally used in the wall are used separately, and in this case, the outer wall material, the moisture permeable waterproof sheet, the heat insulating material, and the inner wall material in order from the outdoor to the indoor. It is constructed to become.

  By using aluminum foil for the moisture permeable waterproof sheet, the aluminum foil itself is protected by the oxide film on the surface of the aluminum foil even if it is exposed to wind and rain for a long time or used for a long time after construction. The aluminum foil never disappears. That is, a moisture-permeable waterproof sheet having excellent weather resistance can be obtained. On the other hand, since the moisture-permeable waterproof sheet disclosed in Patent Document 1 deposits aluminum on a thermoplastic resin sheet, the deposited aluminum film disappears with time.

  The moisture permeable waterproof sheet according to the present invention is constructed such that the aluminum foil is on the outdoor side and the nonwoven fabric is on the indoor side, so that waterproofness, moisture permeability, air permeability, and infrared reflectivity are maximized.

<Aluminum foil>
The composition of the aluminum foil 20 used in the moisture-permeable waterproof sheet of the present invention is not particularly limited, and a commercially available aluminum foil can be used. Aluminum foil includes aluminum alloy foil. Preferably, one or more types of aluminum foil selected from the group consisting of 1N30, 8079, and 3003 can be used. Preferably, the moisture permeable waterproof sheet is exposed to the outside air during installation work of the moisture permeable waterproof sheet, and the aluminum foil with high light reflectivity is used to suppress deterioration of the adhesive or resin film of the moisture permeable waterproof sheet by sunlight. Is preferably used.

  Further, the thickness of the aluminum foil may be not less than 5.0 μm and not more than 30.0 μm. If the thickness of the aluminum foil is less than 5.0 μm, there is a risk of disappearance due to corrosion, and if it exceeds 30.0 μm, the weight of the moisture permeable waterproof sheet increases, which may make it difficult to construct.

  A resin film, which will be described later, is laminated on one surface of the aluminum foil, and a nonwoven fabric, which will be described later, is laminated on the other surface.

  The aluminum foil 20 and the resin film 10 have a plurality of through holes 50 communicating with each other, and the opening ratio of the through holes is 1.2% or more and 7.0% or less. That is, both the aluminum foil 20 and the resin film 10 have through holes, and both the through holes communicate with each other. The opening ratio of the through-hole 50 here is the through-hole 50 provided in the resin film 10 and the aluminum foil 20, and the ratio of the opening area of the through-hole to the surface area of the aluminum foil when the aluminum foil surface is observed Say.

  When the opening ratio of the through holes is less than 1.2%, the moisture permeability is not only inferior to that of the conventional moisture permeable waterproof sheet, and there is a possibility that the standard (JIS A6111) as the moisture permeable waterproof sheet may not be satisfied. Moreover, when the opening rate of a through-hole exceeds 7.0%, not only the wind-proof property is inferior to the conventional moisture-permeable waterproof sheet but there exists a possibility that the specification (JIS A6111) as a moisture-permeable waterproof sheet may not be satisfy | filled.

In addition, the through hole provided in the aluminum foil and the resin film may have an opening ratio in the above range. For example, the diameter of each through hole is 0.2 mm or more and 2.0 mm or less. It is preferable that it is 0.2 mm or more and 0.65 mm or less. A through-hole is uniformly formed as a moisture-permeable waterproof sheet when the aperture ratio is within the range of 1.2% to 7.0% and the diameter of the hole per through-hole is within the above range. As a result, stable quality can be obtained. If the diameter of the hole is less than 0.2 mm, the hole is likely to be blocked, and if it exceeds 2.0 mm, the moisture permeability may be lowered. In addition, the number of through-holes penetrating each other provided in the aluminum foil and the resin film is such that the opening ratio is within a range of 1.2% to 7.0% and the diameter of the hole per through-hole is Although it can be set as appropriate within the range of 0.2 mm or more and 2.0 mm or less, it is preferably 100,000 / m ² or more and 1,000,000 pieces / m ² or less. If the number of holes is less than 100,000 / m ² , the moisture permeability is not only inferior to that of a conventional moisture permeable waterproof sheet, but the standard (JIS A6111) as a moisture permeable waterproof sheet may not be satisfied. When the number of holes exceeds 1,000,000 / m ² , the windproof property is not only inferior to the conventional moisture-permeable waterproof sheet, and the windproof property may not satisfy the standard (JIS A6111) as a moisture-permeable waterproof sheet.

  In addition, as a method of preparing a laminated body in which an aluminum foil and a resin film have a plurality of through-holes that penetrate each other, for example, the aluminum foil and the resin film are bonded together, and then the aluminum foil and the resin film are pierced with a needle. A method of forming a through-hole is preferably used. Moreover, when the aluminum foil and the resin film are bonded via an adhesive layer to be described later, the adhesive is applied to the entire surface of the aluminum foil and bonded to the resin film, and then stabbed with a needle. A method of forming a through hole is preferably used. The through-hole in which the resin film and the aluminum foil communicate with each other is formed of a porous resin film and an aluminum foil having many fine holes, in addition to forming the through-hole after laminating the resin film and the aluminum foil. Can also be obtained by laminating by spray lamination.

  Moreover, when forming the through-hole which penetrates mutually in an aluminum foil and a resin film with a needle | hook, if it stabs from the resin film side, generation | occurrence | production of a burr | flash can be suppressed and subsequent collapse of a hole can be prevented.

<Resin film>
The composition of the resin film 10 used in the moisture-permeable waterproof sheet of the present invention is not particularly limited, and a commercially available resin film can be used. For example, as the resin film, one or more kinds of films selected from the group consisting of polyethylene terephthalate (PET), nylon (NY), and biaxially oriented polypropylene (OPP) can be used. These resin films have an optimum heat shrinkage when used as a moisture permeable waterproof sheet, and can maintain stable quality over a long period of time. Especially, it is preferable that a resin film is biaxially-stretched polypropylene (OPP).

  The thickness of the resin film is not particularly limited, but the thickness is preferably 9.0 μm or more and 30.0 μm or less. If the thickness of the resin film is less than 9.0 μm, the strength will decrease, and the moisture-permeable waterproof sheet may be peeled off when constructed with a spelling needle (tuck). If the thickness exceeds 30.0 μm, the weight of the moisture-permeable waterproof sheet will increase. There is a risk that construction will be difficult.

<Nonwoven fabric>
One surface of the nonwoven fabric 40 used for the moisture-permeable waterproof sheet of the present invention is laminated on the aluminum foil 20. The nonwoven fabric has a spunbond layer 42 laminated on both surfaces of the meltblown layer 44, and the meltblown layer has a density of 0.26 g / cm ³ or more and 0.7 g / cm ³ or less. The density of the melt blown layer here refers to the weight of the fiber of the melt blown layer per unit area. When the density of the meltblown layer is less than 0.26 g / cm ³ , the windproof property is not only inferior to that of the conventional moisture-permeable waterproof sheet, and the windproof property may not satisfy the standard (JIS A6111) as a moisture-permeable waterproof sheet. . When the density of the melt blown layer exceeds 0.7 g / cm ³ , not only the moisture permeability is inferior to the conventional moisture permeable waterproof sheet, but the moisture permeability may not satisfy the standard (JIS A6111) as a moisture permeable waterproof sheet.

  In addition, although it does not specifically limit as a nonwoven fabric whose density of a meltblown layer is in the said range, For example, it can obtain by carrying out the heat calendar process of 60 degreeC or more and 120 degrees or less generally, for example.

  The material of the nonwoven fabric is not limited, and a spunbond layer may be laminated on both sides of the meltblown layer and the density of the meltblown layer may be in the above range, and a commercially available resin film can be used. Preferably, the material of the nonwoven fabric is selected from the group consisting of polyamide (nylon) fiber, rayon fiber, polyester fiber, polyolefin (polypropylene, polyethylene terephthalate, polybutylene terephthalate, etc.) fiber, acrylic fiber, vinylon fiber, and aramid fiber. One or more types of non-woven fabric may be mentioned. Furthermore, a composite fiber in which a polyester core material is coated with polyethylene is also used. Alternatively, a layer made of pulp, hemp, cotton, wool, glass fiber, and carbon fiber may be further laminated.

  The nonwoven fabric only needs to have a spunbond layer laminated on both sides of the meltblown layer, and the spunbond layer may be a plurality of layers. Specifically, spunbond layer-meltblown layer-spunbond layer (SMS), spunbond layer-meltblown layer-meltblown layer-spunbond layer (SMMS), spunbond layer-meltblown layer-meltblown layer-meltblown layer-span A nonwoven fabric selected from the group consisting of a bond layer (SMMMS) can be used. More preferably, the nonwoven fabric is SMMMS (three intermediate meltblown layers (M)) because stable performance can be obtained.

Moreover, it is preferable that the thickness of the melt blown layer in a nonwoven fabric is 20 micrometers or more and 60 micrometers or less. The thickness of the meltblown layer refers to the total thickness of all the meltblown layers when the meltblown layer is a plurality of layers. If the thickness of the meltblown layer is less than 20 μm within the above-mentioned density range of the meltblown layer, the windproof property may be lowered, and if it exceeds 60 μm, the moisture permeability may be lowered. On the other hand, the thickness of the spunbond layer is not particularly limited, and can be appropriately adjusted according to the thickness of the meltblown layer within the range of 100 μm or more and 300 μm or less, which is the thickness of the entire nonwoven fabric. For example, the thickness of the spunbond layer is preferably in the range of 40 μm to 140 μm per layer. Note that the thickness of the spunbond layer may be different between one surface and the other surface of the meltblown layer. The density of the spunbond layer is not particularly limited, but is preferably 0.1 g / cm ³ or more and 0.8 g / cm ³ or less.

Further, the nonwoven fabric may be within the range density of the above meltblown layer basis weight of the entire nonwoven fabric is not particularly limited, for example, the use of basis weight 30 g / m ² or more 120 g / m ² or less of the nonwoven fabric, Since the water pressure resistance is at least 100 cm wc, the nonwoven fabric alone can satisfy the specified value of 100 cm w.c. or more as defined in JIS A6111, which is the standard for moisture permeable waterproof sheets. More preferably, the basis weight of the nonwoven fabric is 50 g / m ² or more and 80 g / m ² or less because the balance between moisture permeability, strength and water pressure resistance is good.

  Furthermore, the fiber used for the spunbond layer is more preferably 1.5 denier or more and 4 denier or less, and the fiber used for the meltblown layer is more preferably 0.1 denier or more and 0.3 denier or less.

  It is preferable to reduce the fiber diameter of the meltblown layer because the water pressure resistance is further increased.

  In the melt blown layer, it is preferable that the constituent fibers are not fused to each other. If the fibers are fused together, the moisture permeability and the spelling needle strength may be reduced.

<Adhesive>
An adhesive may be provided between the resin film 10 and the aluminum foil 20. If the resin film has adhesiveness, the aluminum foil and the resin film can be directly bonded, but even if the resin film and the aluminum foil are bonded with an adhesive, it is suitably used as a moisture permeable waterproof sheet can do. When bonding aluminum foil and a resin film with an adhesive agent, it is preferable that the through-hole which penetrates mutually with aluminum foil and a resin film also penetrates also in an adhesive agent.

  Adhesives include two-component curable urethane adhesives, polyether urethane adhesives, polyester adhesives, polyester polyol adhesives, polyester polyurethane polyol adhesives, polyethylene adhesives, pressure sensitive adhesives, and hot melt agents. Etc. can be used. The method for adhering the resin film 10 and the aluminum foil 20 is not particularly limited. For example, a dry lamination method, an extrusion lamination method, a wet lamination method, a heat lamination method, bonding by a press subsequent to roll coating, spray lamination, or the like is known. The method can be adopted.

<Adhesive layer>
It is preferable that an adhesive layer 30 is provided between the aluminum foil 20 and the nonwoven fabric 40.

As long as it has adhesiveness on the surface of the nonwoven fabric, it can be directly bonded with the aluminum foil and the nonwoven fabric, but it is suitable as a moisture-permeable waterproof sheet even if the aluminum foil and the nonwoven fabric are bonded by an adhesive layer. Can be used for When the aluminum foil and the nonwoven fabric are bonded to each other by the adhesive layer, in order to ensure the breathability of the nonwoven fabric, the adhesive layer is formed in a web shape (such as a cobweb formed by intertwining fibrous adhesives). It is preferably formed in a mesh shape. That is, when an adhesive layer is formed on the surface of the nonwoven fabric, the adhesive layer is preferably web-like in plan view. The amount and type of adhesive when bonding the aluminum foil and non-woven fabric is preferably 5 g / m ² or more 30 g / m ² or less of the polyolefin-based adhesive. If the amount of the adhesive is less than 5 g / m ² , the aluminum foil and the non-woven fabric may be easily peeled off. If the amount of the adhesive exceeds 30 g / m ² , the joint of the non-woven fabric is clogged, and the windproof property is conventional. In addition, the windproof property may not satisfy the standard (JIS A6111) as a moisture permeable waterproof sheet.

  As the adhesive used for the adhesive layer, polyethylene, urethane-based adhesive, pressure-sensitive adhesive, hot melt agent, and the like can be used.

  Moreover, when the said adhesive bond layer is formed in web shape, it is preferable that it is a melt blown web. Specifically, the adhesive layer is preferably formed by finely intersecting or intertwining fine fibers, and has innumerable fine holes. It is more preferable that these fine holes have an average diameter of 0.1 to 0.3 μm. When the configuration of the web made of the adhesive is within the above range, water vapor particles having a diameter of nm order are transmitted, but rainwater having a diameter of several hundreds μm to several mm is not transmitted. As a result, the web made of an adhesive can have moisture permeability and waterproofness in addition to strong adhesiveness.

  Moreover, although the component of the adhesive agent which comprises a web is not specified, a hot-melt-adhesive agent is used suitably. The hot melt adhesive is a polyolefin hot melt adhesive whose main component is polypropylene. Polyolefin-based hot melt adhesive has high heat resistance, and is an adhesive that forms a web even if the nonwoven fabric and aluminum foil are pressed and bonded in a state where they are not completely cured immediately after melt blow lamination. The fibers can maintain the fiber shape. As a result, the adhesive fibers constituting the web can maintain a porous network structure. Furthermore, since the polypropylene-based hot melt adhesive has good wettability with respect to polyolefin, it can be firmly bonded to a nonwoven fabric.

  As a method for forming the web-like adhesive layer, a method in which a hot melt adhesive is applied and sprayed between the nonwoven fabric and the aluminum foil by spray lamination can be preferably exemplified. This is preferable because the aluminum foil and the nonwoven fabric are bonded to each other by a web-like adhesive and air permeability can be maintained.

Example 1
100 mm x 40 mm and 12 μm thick polyethylene terephthalate film (PET film, manufactured by Unitika), 100 mm x 40 mm and 7 μm thick aluminum foil (Toyo Aluminum A1N30 material), urethane adhesive And adhered.

A through hole was formed on the adhered PET film / aluminum foil using an iron needle. As for the set values of the through holes, the average diameter per hole was 0.62 mm, and the number of through holes was 444,444 pieces / m ² . The actual aperture ratio was 3.6%. In order to check the aperture ratio, the surface was observed with a Nikon actual microscope SMZ1500, and from the obtained surface observation image in a short field of 6.4 mm × 8.4 mm, the hole portion and the other portions were directly divided. And the surface area of all the holes present in the field of view were measured. The ratio of the total surface area of all the holes to the surface area of the field of view was calculated from the measured value of the surface area of each hole and the surface area of the field of view, and this was used as the aperture ratio. Four surface observation images were randomly collected from the sample, and the average of the four points was determined for the ratio of the total surface area of the holes calculated for each field of view.

Furthermore, the nonwoven fabric was bonded together on the surface opposite to the surface where the PET film was bonded of aluminum foil. Specifically, the nonwoven fabric has a size of 100 mm × 40 mm and a commercially available SMMMS made of polypropylene having a basis weight of 75 g / m ² and a thickness of about 499 μm (basis weight ratio is S41%, M6%, M6%, M6 in order) % S41%) was heat calendered at a temperature of 80 ° C., and the density of the meltblown layer was 0.35 g / cm ³ . Then, hot melt resin as an adhesive was applied to the aluminum foil in a web shape by spray lamination, and the nonwoven fabric and the PET film / aluminum foil were bonded together to obtain a moisture permeable waterproof sheet. The thickness of the nonwoven fabric after thermal calendering was 159 μm, and the thickness of the meltblown layer was 39 μm.

The moisture permeability of the obtained moisture permeable waterproof sheet was measured using a company-made cup method. As a result, the moisture permeability was 0.17 m ² · s · Pa / μg, which satisfied 0.19 or less, which is the range of the standard in JIS A6111.

  Furthermore, spelling needle holding strength and tensile strength were measured assuming a physical load in construction. The measuring method of the spelling needle holding strength was a method based on JIS A6111 7.4b), and the measuring method of the tensile strength was JIS L1096 8.14 a) A method (strip method). As a result, the spelling needle holding strength was 45.5 N, which satisfied 27 N or more, which is the standard range in JIS A6111. Further, the tensile strength was 126 N, which satisfied 100 N or more, which is a standard range in JIS A6111.

  Subsequently, waterproofness was evaluated by JIS L1092 A method (hydrostatic pressure method). As a result, the waterproof property was 15.9 kPa, which satisfied 10 kPa or more which is the range of the standard in JIS A6111.

  Moreover, windproof property was evaluated by the method of JIS P8117. As a result, the windproof property was 15.5 seconds, which satisfied 10 seconds or more, which is the standard range in JIS A6111.

  Subsequently, the infrared reflectance was measured. As a measuring method, an ultraviolet-visible spectrophotometer V570 manufactured by JASCO Corporation was used, and the total reflectance of the integrating sphere was measured in a wavelength range of 250 nm to 2000 nm with reference to a standard white plate for integrating sphere manufactured by Labsphere. The total reflectance was measured in two directions, ie, the rolling direction (MD) of the aluminum foil and the direction (TD) perpendicular to the MD, and the total reflectance was evaluated as an average value of these. As a result, the average reflectance of infrared wavelengths from 1000 nm to 1800 nm was a high value of 82%.

  Moreover, in order to confirm deterioration, durability was confirmed for the moisture-permeable waterproof sheet | seat by the 85 degreeC humidity 85% and 1000-hour heat test. As a result, deterioration due to disappearance of the aluminum foil was not observed, and the average reflectance at the infrared wavelength after the test was 82%.

(Example 2)
A moisture-permeable waterproof sheet was prepared in the same manner as in Example 1 except that the number of through-holes was 1.2% and the number was 171,703 / m ^2, and moisture permeability, spelling needle holding strength, tensile strength, waterproof , Windproof and infrared reflectance were measured. As a result, as shown in Table 1, all the characteristics were within the range of the standard in JIS A6111. The average reflectance at an infrared wavelength of 1000 nm to 1800 nm was 82%, and the average reflectance at an infrared wavelength after the durability test was 82%.

(Example 3)
A moisture permeable waterproof sheet was prepared in the same manner as in Example 1 except that the number of through-holes was 1.22% and the number was 88643 / m ^2, and moisture permeability, spelling needle holding strength, tensile strength, waterproof , Windproof and infrared reflectance were measured. As a result, as shown in Table 1, all the characteristics were within the range of the standard in JIS A6111. The average reflectance at an infrared wavelength of 1000 nm to 1800 nm was 82%, and the average reflectance at an infrared wavelength after the durability test was 82%.

(Example 4)
Except that the melt blown layer of the nonwoven fabric was 50 μm in thickness and the density was 0.27 g / cm ³ , a moisture permeable waterproof sheet was prepared in the same manner as in Example 1, and the moisture permeability, spelling needle holding strength, tensile strength, Waterproofing, windproofing, and infrared reflectance were measured. As a result, as shown in Table 1, all the characteristics were within the range of the standard in JIS A6111. The average reflectance at an infrared wavelength of 1000 nm to 1800 nm was 82%, and the average reflectance at an infrared wavelength after the durability test was 82%.

(Example 5)
Except that the melt blown layer of the nonwoven fabric was 20 μm in thickness and the density was 0.68 g / cm ³ , a moisture permeable waterproof sheet was prepared in the same manner as in Example 1, and the moisture permeability, spelling needle holding strength, tensile strength, Waterproofing, windproofing, and infrared reflectance were measured. As a result, as shown in Table 1, all the characteristics were within the range of the standard in JIS A6111. The average reflectance at an infrared wavelength of 1000 nm to 1800 nm was 82%, and the average reflectance at an infrared wavelength after the durability test was 82%.

(Example 6)
A moisture-permeable waterproof sheet was prepared in the same manner as in Example 1 except that the OPP film (thickness 20 μm) was used instead of the PET film, and the moisture permeability, spelling needle holding strength, tensile strength, waterproofness, windproof property Infrared reflectance was measured. As a result, as shown in Table 1, all the characteristics were within the range of the standard in JIS A6111. The average reflectance at an infrared wavelength of 1000 nm to 1800 nm was 82%, and the average reflectance at an infrared wavelength after the durability test was 82%.

(Reference example)
A commercially available moisture-permeable waterproof sheet (DuPont Tyvek Silver ™ manufactured by Asahi DuPont) in which aluminum was deposited on the fiber surface of the nonwoven fabric was prepared. When the moisture permeability, spelling needle holding strength, tensile strength, waterproofness, windproof property, and infrared reflectance were measured, all the characteristics were within the range of the standard in JIS A6111. However, the average reflectance at an infrared wavelength of 1000 cm to 1800 nm was 78%, and peeling of the aluminum deposited film was confirmed after the durability test, and the average reflectance at an infrared wavelength was reduced to 50%.

(Comparative Example 1)
A moisture permeable waterproof sheet was prepared in the same manner as in Example 1 except that the aperture ratio was 0.5% and the number of through holes was 74074 / m ^2, and the moisture permeability, spelling needle holding strength, tensile strength, waterproof , Windproof and infrared reflectance were measured. As a result, as shown in Table 1, not only the moisture permeability was inferior to that of the reference example, but also the standard of JIS A6111 was not satisfied. The average reflectance at an infrared wavelength of 1000 nm to 1800 nm was 84%, and the average reflectance at an infrared wavelength after the durability test was 84%.

(Comparative Example 2)
A moisture permeable waterproof sheet was prepared in the same manner as in Example 1 except that the opening ratio of the through holes was 16.0% and the number was 320,000 / m ^2, and the moisture permeability, spelling needle holding strength, tensile strength, Waterproofing, windproofing, and infrared reflectance were measured. As a result, as shown in Table 1, not only the windproof property was inferior to the reference example, but also the standard of JIS A6111 was not satisfied. The average reflectance at an infrared wavelength of 1000 nm to 1800 nm was 80%, and the average reflectance at an infrared wavelength after the durability test was also 80%.

(Comparative Example 3)
A moisture-permeable waterproof sheet was prepared in the same manner as in Example 1 except that the SMMMS nonwoven fabric having a thickness of 499 μm prepared in Example 1 was not calendered and the density of the meltblown layer was 0.22 g / cm ³ . The moisture permeability, spelling needle holding strength, tensile strength, waterproofness, windproof property, and infrared reflectance were measured. At this time, the thickness of the meltblown layer was 60 μm. As a result, the windproof property was not only inferior to the reference example, but also did not satisfy the standard of JIS A6111. The average reflectance at an infrared wavelength of 1000 nm to 1800 nm was 82%, and the average reflectance at an infrared wavelength after the durability test was also 82%.

  Table 1 shows the results of the moisture permeability, spelling needle holding strength, tensile strength, waterproofness, windproof property, and infrared reflectance of Examples 1 to 6, Reference Example, and Comparative Examples 1 to 3.

As shown in Table 1, the moisture-permeable waterproof sheets in Examples 1 to 4 are provided with a resin film, an aluminum foil, and a nonwoven fabric in this order, and the aluminum foil and the resin film have a plurality of through-holes that penetrate each other. the aperture ratio of the pores is 7.0% or less than 1.2%, the nonwoven fabric, spunbonded layers on both sides of the meltblown layer is laminated, the meltblown layer had a density of 0.26 g / cm ³ or more 0 Since it is 0.7 g / cm ³ or less, it has infrared reflectivity over a long period of time while having waterproofness, moisture permeability, and breathable infrared reflectivity equivalent to or higher than those of a conventional product (reference example).

(Other embodiments)
The above-described embodiment is an exemplification of the present invention, and the present invention is not limited to these examples, and these examples may be combined or partially replaced with known techniques, common techniques, and known techniques. Also, modified inventions easily conceived by those skilled in the art are included in the present invention.

  The adhesive layer between the aluminum foil and the non-woven fabric may not be web-like. This adhesive layer may cover the entire surface of the aluminum foil, but the state in which expectations can pass between the gap and the through hole by connecting the through hole opened in the aluminum foil and the gap of the nonwoven fabric. An adhesive layer is preferred. For example, the adhesive layer may be formed by applying a large number of dots on the surface to be bonded to the non-woven aluminum foil, or by applying the adhesive only with the gravure eyes with a gravure roll. Conceivable.

DESCRIPTION OF SYMBOLS 10 Resin film 20 Aluminum foil 30 Adhesive layer 40 Nonwoven fabric 42 Spunbond layer 44 Mel blown layer 50 Through-hole

Claims (8)

Resin film, aluminum foil and non-woven fabric are provided in this order,
The aluminum foil and the resin film have a plurality of through holes communicating with each other,
The through hole has an opening ratio of 1.2% to 7.0%,
The nonwoven fabric has a spunbond layer laminated on both sides of the meltblown layer,
The moisture-permeable waterproof sheet, wherein the melt blown layer has a density of 0.26 g / cm ³ or more and 0.7 g / cm ³ or less.   The moisture-permeable waterproof sheet according to claim 1, further comprising a web made of an adhesive between the aluminum foil and the nonwoven fabric.   The thickness of the resin film is 8 μm or more and 30 μm or less, the thickness of the aluminum foil is 5 μm or more and 30 μm or less, and the thickness of the nonwoven fabric is 100 μm or more and 300 μm or less. Moisture permeable tarpaulin.   The moisture-permeable waterproof sheet according to any one of claims 1 to 3, wherein a thickness of the melt blown layer in the nonwoven fabric is 20 µm or more and 60 µm or less.   The resin film is composed of one or more films selected from the group consisting of polyethylene terephthalate (PET), nylon (NY), and biaxially oriented polypropylene (OPP). 5. The moisture permeable waterproof sheet according to any one of 4 above.   The moisture-permeable waterproof sheet according to any one of claims 1 to 5, wherein the melt blown layer has fibers that are not fused to each other. The moisture-permeable waterproof sheet according to claim 2, wherein the web made of the adhesive is a polyolefin-based adhesive and has an application amount of 5 g / m ² or more and 20 g / m ² or less.   The nonwoven fabric is one or more fibers selected from the group consisting of polyamide (nylon) fibers, rayon fibers, polyester fibers, polyolefin (polypropylene, polyethylene terephthalate, polybutylene terephthalate, etc.) fibers, acrylic fibers, vinylon fibers, and aramid fibers. The moisture-permeable waterproof sheet according to claim 1, comprising:

Images