JP2017106184A - Thermal-insulating and moisture-permeable waterproof sheet and method for manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a thermal-insulating and moisture-permeable waterproof sheet having excellent thermal insulating property, moisture permeability, waterproofness and glare-proof property.SOLUTION: A thermal-insulating and moisture-permeable waterproof sheet 1 comprises a moisture-permeable waterproof laminate 10 having a nonwoven fabric layer 11 and a porous polyolefin film layer 12 and a thermal-insulating film layer 20 installed on one surface of the moisture-permeable waterproof laminate 10. The thermal-insulating film layer 20 comprises a base material film layer 21 that is in contact with the moisture-permeable waterproof laminate 10 and that has a low glossy surface 21a with a glossiness of 75% or lower in a surface on the side opposite to the moisture-permeable waterproof laminate 10 and an aluminum layer 22 installed in the low glossy surface 21a of the base material film layer 21, and a plurality of open holes 20a are formed.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a heat-insulating and moisture-permeable waterproof sheet having heat-insulating properties, moisture permeability, and waterproof properties and a method for producing the same.

In buildings such as houses, heat insulation with heat insulation, moisture permeability and waterproofing is required to allow indoor moisture to permeate outdoors while suppressing the penetration of heat rays from the outside and the penetration of rainwater into the indoors. A moisture permeable waterproof sheet may be installed on the roof base and the outer wall base.
As the heat-insulating and moisture-permeable waterproof sheet, for example, a sheet including a nonwoven fabric layer, a porous polyolefin film layer, and an aluminum vapor deposition film layer may be used.
However, this heat-insulating and moisture-permeable waterproof sheet reflects visible light with a high reflectance by an aluminum vapor deposition film. Therefore, an operator who installs the heat-insulating and moisture-permeable waterproof sheet cannot directly look at the heat-insulating and moisture-permeable waterproof sheet due to glare, and the workability of the installation work of the sheet may be reduced.
Therefore, a sheet including a nonwoven fabric layer, a porous polyolefin film layer, an aluminum vapor deposition film layer, and a surface protective layer containing light shielding particles has been proposed as a heat-insulating and moisture-permeable waterproof sheet with antiglare properties (Patent Document 1). ).

JP 2011-84970 A

However, in the heat-insulating and moisture-permeable waterproof sheet described in Patent Document 1, the heat-shielding property may be deteriorated by the light-shielding particles.
Then, an object of this invention is to provide the heat insulation moisture permeability waterproof sheet which is excellent in all of heat insulation, moisture permeability, waterproofness, and anti-glare property, and its manufacturing method.

The heat-insulating and moisture-permeable waterproof sheet of the present invention comprises a moisture-permeable and waterproof laminate having a nonwoven fabric layer and a porous polyolefin film layer, and a heat-insulating film layer provided on one surface of the moisture-permeable and waterproof laminate. The heat-shielding film layer is in contact with the moisture-permeable waterproof laminate and has a surface on the opposite side of the moisture-permeable waterproof laminate and a low-gloss surface having a glossiness of 75% or less; And an aluminum layer provided on the low gloss surface of the base film layer, and a plurality of through holes are formed.
In the heat-insulating and moisture-permeable waterproof sheet of the present invention, the glossiness of the surface of the aluminum layer on the side opposite to the base film layer is preferably 160% or less.
In the heat-insulating and moisture-permeable waterproof sheet of the present invention, the through-holes formed in the heat-insulating film layer have a diameter of 0.1 to 0.7 mm, and the through-holes are on the surface of the heat-insulating film layer. It is preferably formed with a distribution of 10,000 to 1,000,000 pieces / m ² .
It is preferable that the base film layer in the heat-insulating and moisture-permeable waterproof sheet of the present invention includes a low gloss layer containing polyethylene and polypropylene, and one surface of the low gloss layer is the low gloss surface.
In the heat-insulating and moisture-permeable waterproof sheet of the present invention, it is preferable that the heat-insulating film layer further includes a surface protective layer provided on the surface of the aluminum layer opposite to the base film layer.
In the heat-insulating and moisture-permeable waterproof sheet of the present invention, the glossiness of the surface of the heat-insulating and moisture-permeable waterproof sheet on the surface protective layer side is preferably 100% or less.
The manufacturing method of the heat-insulating and moisture-permeable waterproof sheet according to the first aspect of the present invention is a deposition method in which aluminum is deposited on the low-gloss surface of a base film layer having a glossiness of 75% or less to form an aluminum layer. A step of perforating the base film layer and the aluminum layer to form a plurality of through-holes to obtain a heat shield film layer, the heat shield film layer as a porous polyolefin film layer, and the base material A heat shielding film layer laminating step for laminating the film layer so as to be in contact with the porous polyolefin film layer, and a moisture permeable waterproof laminate for laminating a nonwoven fabric layer to the porous polyolefin film layer to produce a moisture permeable waterproof laminate. A body manufacturing process.
The manufacturing method of the heat-insulating and moisture-permeable waterproof sheet according to the second aspect of the present invention is a deposition method in which aluminum is deposited on the low-gloss surface of a base film layer having a glossiness of 75% or less to form an aluminum layer. Moisture permeable waterproofing by laminating a step, a perforating step of perforating the base film layer and the aluminum layer, forming a plurality of through holes to obtain a heat shielding film layer, and a porous polyolefin film layer and a non-woven fabric layer A moisture-permeable waterproof laminate producing step for producing a porous laminate, and the heat-shielding film layer is laminated on the moisture-permeable waterproof laminate so that the substrate film layer is in contact with the porous polyolefin film layer. A thermal film layer laminating step.
The manufacturing method of the heat-insulation and moisture-permeable waterproof sheet according to the third aspect of the present invention is a deposition method in which aluminum is deposited on the low-gloss surface of a base film layer having a glossiness of 75% or less to form an aluminum layer. A step of perforating the base film layer and the aluminum layer to form a plurality of through holes to obtain a heat shield film layer, the heat shield film layer as a non-woven fabric layer, and the base film layer A heat-insulating film layer laminating step for laminating so as to be in contact with the non-woven fabric layer; and a moisture-permeable waterproof laminate producing step for producing a moisture-permeable waterproof laminate by laminating a porous polyolefin film layer on the nonwoven fabric layer. Have.
According to a fourth aspect of the present invention, there is provided a method for producing a heat-permeable and moisture-permeable waterproof sheet in which aluminum is deposited on the low-gloss surface of a base film layer having a low-gloss surface having a glossiness of 75% or less to form an aluminum layer. Moisture permeable and waterproof by laminating a step, a perforating step of perforating the base film layer and the aluminum layer, forming a plurality of through holes to obtain a heat shielding film layer, a non-woven fabric layer and a porous polyolefin film layer A moisture-permeable waterproof laminate for producing a porous laminate, and a heat-shielding film layer for laminating the heat-shielding film layer on the moisture-permeable waterproof laminate so that the base film layer is in contact with the nonwoven fabric layer Laminating step.
In the method for producing a heat-insulating and moisture-permeable waterproof sheet of the present invention, in the perforation step, 10,000 to 1,000,000 through-holes having a hole diameter of 0.1 to 0.7 mm are obtained on the surface of the obtained heat shielding film layer. / M ² is preferably formed.
In the method for producing a heat and moisture permeable waterproof sheet of the present invention, the base film layer includes a low gloss layer containing polyethylene and polypropylene, and one surface of the low gloss layer is the low gloss surface. It is preferable to use it.
In the method for producing a heat-permeable and moisture-permeable waterproof sheet of the present invention, a coating material for forming a surface protective layer is provided on the surface of the aluminum layer opposite to the base film layer between the vapor deposition step and the perforation step. It is preferable to further include a surface protective layer forming step of forming a surface protective layer by coating, and in the perforating step, the surface protective layer is simultaneously perforated together with the base film layer and the aluminum layer.

The heat-insulating and moisture-permeable waterproof sheet of the present invention is excellent in all of heat shielding properties, moisture permeability, waterproof properties and antiglare properties.
According to the method for producing a heat-insulating and moisture-permeable waterproof sheet of the present invention, it is possible to easily produce a heat-insulating and moisture-permeable waterproof sheet excellent in all of heat shielding properties, moisture permeability, waterproof properties and antiglare properties.

It is sectional drawing which shows the heat insulation moisture-permeable waterproof sheet of embodiment. It is a graph which shows the result of having measured the light reflectivity about the heat insulation moisture-permeable waterproof sheet of an Example and a comparative example.

An embodiment of the heat-insulating and moisture-permeable waterproof sheet of the present invention will be described.
As shown in FIG. 1, the heat-permeable and moisture-permeable waterproof sheet 1 of this embodiment includes a moisture-permeable and waterproof laminate 10 having a nonwoven fabric layer 11 and a porous polyolefin film layer 12 and a heat-shielding film layer 20.

The nonwoven fabric layer 11 constituting the moisture-permeable and waterproof laminate 10 functions as a reinforcing material that reinforces the rigidity and breaking strength of the heat-insulating and moisture-permeable waterproof sheet 1.
There is no restriction | limiting in particular as a kind of nonwoven fabric which comprises the nonwoven fabric layer 11, For example, a spun bond nonwoven fabric, a melt blown nonwoven fabric, a needle punch nonwoven fabric, etc. are mentioned. Among these, a spunbond nonwoven fabric or a melt blown nonwoven fabric is preferable because the waterproofness is further improved.
Although there is no restriction | limiting in particular as a material of the fiber which comprises the nonwoven fabric layer 11, From the point of a price and intensity | strength, a polyethylene terephthalate, polyethylene, a polypropylene, and polyamide are preferable.
Preferably the basis weight of the nonwoven fabric layer 11 is 10 to 80 g / ^{m 2,} and more preferably 20 to 50 g / ^{m 2.} If the fabric weight of the nonwoven fabric layer 11 is more than the said lower limit, sufficient reinforcement effect will be acquired, and if it is below the said upper limit, it can be reduced in weight.

The porous polyolefin film layer 12 constituting the moisture-permeable and waterproof laminate 10 is a layer that plays a major role in developing waterproofness and moisture permeability in the heat-insulating and moisture-permeable waterproof sheet 1.
Although it does not specifically limit as the porous polyolefin film layer 12, It is preferable to comprise from a porous polyethylene film or a porous polypropylene film. Furthermore, it is more preferable that the porous polyolefin film layer 12 is composed of a porous polyethylene film in terms of further improving moisture permeability.
The porosity of the porous polyolefin film layer 12 is imparted, for example, by containing inorganic particles (such as calcium carbonate). That is, for example, when a porous polyolefin film is produced, a film containing inorganic particles (calcium carbonate or the like) that tends to be a break point due to lack of stretchability is stretched, and minute cracks are formed at the positions where the inorganic particles are present. By making it grow, micropores can be formed. By forming such micropores, moisture permeability can be imparted while having waterproofness. It is preferable that the volume average particle of the inorganic particles measured by a laser diffraction / scattering method is 5 μm or less.
Further, as a method of imparting porosity to the porous polyolefin film layer 12, by making a number of cuts along the stretching direction in the uniaxially stretched polyolefin film, by stretching in a direction perpendicular to the stretching direction, A method of opening the polyolefin film by tearing it to such an extent that it does not break is mentioned.

Basis weight of the porous polyolefin film layer 12 is preferably from 1 to 50 g / ^{m 2,} and more preferably 10 to 30 g / ^{m 2.} If the basis weight of the porous polyolefin film layer 12 is not less than the above lower limit value, a sufficiently high waterproof property can be secured, and if it is not more than the above upper limit value, a sufficiently high moisture permeability can be secured.
The thickness of the porous polyolefin film layer 12 is preferably 5 to 100 μm, and more preferably 10 to 50 μm. If the thickness of the porous polyolefin film layer 12 is not less than the lower limit, a sufficiently high waterproof property can be secured, and if it is not more than the upper limit, sufficiently high moisture permeability can be secured.

The moisture permeability of the porous polyolefin film layer 12 is preferably 3000 g / (m ² · 24 hr) or more. Here, the moisture permeability is a value measured in accordance with JIS L1099, 4.1, Method A (moisture permeability test method for textiles). If the water vapor transmission rate of the porous polyolefin film layer 12 is more than the said lower limit, the water vapor transmission property of the heat-insulation moisture-permeable waterproof sheet 1 can be improved more. However, if the moisture permeability is too high, the waterproof property may be lowered. Therefore, the moisture permeability of the porous polyolefin film layer 12 is preferably 12000 g / (m ² · 24 hr) or less.

The heat-shielding film layer 20 in the present embodiment includes a base film layer 21 whose one surface is a low gloss surface 21a, an aluminum layer 22 provided on the low gloss surface 21a of the base film layer 21, and an aluminum layer. And a surface protective layer 23 for covering 22. The low gloss surface 21a in the base film layer 21 is a surface having a glossiness of 75% or less, preferably 50% or less, more preferably 30% or less. The glossiness in the present invention is a value measured according to JIS Z8741 using a gloss meter.
The low gloss surface 21a preferably has a surface roughness of 0.30 μm or more, more preferably 0.40 μm or more. If the surface roughness is at least the lower limit, the glossiness of the low gloss surface 21a can be easily reduced to 75% or less. The surface roughness is a value measured using a surface roughness meter in accordance with JIS B0601 under the conditions of a cutoff value of 2.5 mm and a measurement length of 12.5 mm.
The thermal barrier film layer 20 in the present embodiment is laminated on the surface of the porous polyolefin film layer 12 opposite to the nonwoven fabric layer 11. More specifically, the porous polyolefin film layer 12 is laminated on the surface of the base film layer 21 opposite to the aluminum layer 22.

It does not restrict | limit especially as resin which comprises the base film layer 21, For example, various thermoplastic resins, such as polyethylene, a polypropylene, a polyethylene terephthalate, a polyvinyl chloride, a polystyrene, an acrylic resin, can be used. These thermoplastic resins may be used individually by 1 type, and may use 2 or more types together.
When two or more thermoplastic resins are used in combination, the low gloss surface 21a can be easily formed. That is, normally, two or more different resins have low compatibility and are difficult to mix, so that the surface of the layer containing two or more different resins is likely to have irregularities and low gloss. In terms of being able to produce a low-gloss layer having a low-gloss surface 21a at a low cost, it is preferable to include two types of polyethylene and polypropylene.
The irregularities formed on the low gloss surface 21a are preferably irregularities having an arithmetic average roughness Ra of 0.30 to 0.70 μm. The arithmetic average roughness Ra of the surface not low gloss is 0.10 to 0.35 μm.
The base film layer 21 may be a single layer or may be composed of two or more layers.
When the base film layer 21 is a single layer, it may consist of only a low gloss layer containing polyethylene and polypropylene. When the base film layer 21 is composed of multiple layers, it is preferable that at least one surface layer is a low-gloss layer containing polyethylene and polypropylene. The layers other than the low gloss layer in the multilayer substrate film layer 21 are not particularly limited, but a polyethylene layer or a polypropylene layer is preferable from the viewpoint of adhesion to the low gloss layer.
The base film layer 21 may be an unstretched film, a uniaxially stretched film, or a biaxially stretched film.
The thickness in particular of the base film layer 21 is not restrict | limited, For example, it is preferable to set it as 5-100 micrometers, and it is more preferable to set it as 10-50 micrometers. If the thickness of the base film layer 21 is not less than the lower limit value, the strength of the heat shield film layer 20 is sufficiently secured, and if it is not more than the upper limit value, the flexibility of the heat shield film layer 20 is sufficiently sufficient. Get higher.

The aluminum layer 22 is a layer that is formed on the low-gloss surface 21a of the base film layer 21 and exhibits heat shielding properties by reflecting infrared rays with a high reflectance.
Usually, the aluminum layer 22 is an aluminum vapor deposition layer in which aluminum is vapor-deposited on one surface of the base film layer 21. The thickness in particular of the aluminum layer 22 is not restrict | limited, For example, it selects suitably in the range of 10-1000 nm.
The glossiness of the surface of the aluminum layer 22 opposite to the base film layer 21 is preferably 160% or less, more preferably 140% or less, and even more preferably 125% or less. If the glossiness of the surface of the aluminum layer 22 opposite to the base film layer 21 is not more than the above upper limit value, the antiglare property of the heat-insulating and moisture-permeable waterproof sheet 1 is sufficiently suppressed.

The surface protective layer 23 is a layer that protects the easily damaged aluminum layer 22.
As a component constituting the surface protective layer 23, various thermoplastic resins such as polyurethane, polyethylene, polypropylene, polyethylene terephthalate, polyvinyl chloride, polystyrene, and acrylic resin can be used. Among the thermoplastic resins, polyurethane and acrylic resins are preferable. Moreover, a thermoplastic resin may be used individually by 1 type, and may use 2 or more types together.
Further, in order to further improve the antiglare property of the heat and moisture permeable waterproof sheet 1, the surface protective layer 23 may contain light shielding particles such as titanium oxide particles. However, when the surface protective layer 23 contains light shielding particles, the heat shielding property tends to be lowered. Therefore, in terms of improving the heat shielding property of the heat-insulating and moisture-permeable waterproof sheet 1, the surface protective layer 23 is made of light shielding such as titanium oxide particles. It is preferable not to contain particles.
Basis weight of the surface protective layer 23 is preferably 0.05 to 1.0 g / ^{m 2,} and more preferably 0.08~0.3g / ^{m 2.} If the basis weight of the surface protective layer 23 is not less than the lower limit value, the aluminum layer 22 can be sufficiently protected, and if it is not more than the upper limit value, moisture permeability can be sufficiently secured.
The thickness of the surface protective layer 23 is preferably 10 to 1000 nm. If the thickness of the surface protective layer 23 is not less than the lower limit value, the aluminum layer 22 can be sufficiently protected, and if the thickness is not more than the upper limit value, sufficient moisture permeability can be ensured.

A plurality of through holes 20 a penetrating through the heat shield film layer 20 are formed in the heat shield film layer 20.
The shape of the opening of the through hole 20a is not particularly limited, and examples thereof include a circular shape, an elliptical shape, and a polygonal shape.
When the through-hole 20a is circular, the hole diameter is preferably 0.1 to 0.7 mm, and more preferably 0.2 to 0.5 mm. If the hole diameter of the through hole 20a is equal to or larger than the lower limit value, sufficiently high moisture permeability can be obtained, and if the hole diameter is equal to or smaller than the upper limit value, sufficiently high waterproof and heat shielding properties can be obtained.
The through-holes 20a, it is formed preferably, of from 100000 to 800000 units / ^{m 2} distribution formed by 10,000 to 1,000,000 units / ^{m 2} distribution at the surface of the thermal barrier film layer 20 More preferably. If the distribution of formation of the through holes 20a is equal to or higher than the lower limit value, sufficiently high moisture permeability can be obtained, and if the distribution is equal to or lower than the upper limit value, sufficiently high waterproofness and heat shielding properties can be obtained.

In the heat and moisture permeable waterproof sheet 1 of the present embodiment, the glossiness of the surface on the surface protective layer 23 side is preferably 100% or less, more preferably 80% or less, and 60% or less. Is more preferable. The anti-glare property is sufficiently suppressed in the heat-insulating and moisture-permeable waterproof sheet 1 having a glossiness of the surface on the surface protective layer 23 side of the upper limit or less.
In addition, the glossiness of the surface on the surface protective layer 23 side of the heat-insulating and moisture-permeable waterproof sheet 1 is reduced by the through holes 20a.

The said heat-permeable moisture-permeable waterproof sheet 1 can be manufactured with the following manufacturing method, for example.
That is, the manufacturing method of the heat-permeable moisture-permeable waterproof sheet 1 in this embodiment has a vapor deposition process, a surface protective layer formation process, a perforation process, a heat-shielding film layer lamination process, and a moisture-permeable waterproof laminate production process.
The vapor deposition step is a step in which aluminum is vapor-deposited on the low gloss surface 21 a of the base film layer 21 to form the aluminum layer 22. There is no restriction | limiting in particular as an aluminum vapor deposition method, A well-known vacuum vapor deposition is applicable.
In the surface protective layer forming step, a surface protective layer-forming coating material containing a resin for forming the surface protective layer is applied to the exposed surface of the aluminum layer 22 to form the surface protective layer 23 to obtain an aluminum layer-containing laminate. It is a process. As a coating method of the coating material for forming the surface protective layer, a coating method using a known coater or spray can be applied. You may heat-dry after coating.
The perforating step is a step of perforating the aluminum layer-containing laminate to form the plurality of through holes 20a to obtain the heat shield film layer 20. As a method for punching the aluminum layer-containing laminate, a method using a heating roll provided with a plurality of convex portions on the peripheral surface, a method using a roll provided with a plurality of needles on the peripheral surface, a method using a punch for punching, A laser irradiation method or the like can be applied.
The heat shielding film layer laminating step is a step of laminating the heat shielding film layer 20 to the porous polyolefin film layer 12 and the base film layer 21 to be in contact with the porous polyolefin film layer 12.
The moisture-permeable and waterproof laminate manufacturing step is a step of manufacturing the moisture-permeable and waterproof laminate 10 by laminating the nonwoven fabric layer 11 on the porous polyolefin film layer 12. The moisture permeable and waterproof laminate production process may be performed before or after the heat shielding film layer lamination process, or may be performed simultaneously with the heat shielding film layer lamination process.
In the heat-shielding film layer lamination step, the porous polyolefin film layer 12 and the heat-shielding film layer 20 can be bonded using an adhesive, and in the moisture-permeable waterproof laminate production step, a non-woven fabric layer is used using an adhesive. 11 and the porous polyolefin film layer 12 can be bonded together.
The type of the adhesive is appropriately selected according to the material of the nonwoven fabric layer 11 and the material of the base film layer 21. Examples of the adhesive used include olefin resin such as polyethylene resin, ethylene-vinyl acetate copolymer resin, polyurethane resin, polyamide resin hot melt adhesive, acrylic resin, vinyl acetate resin, or polyvinyl alcohol. And emulsion type adhesives.
The adhesive may be applied using a spray or a coater.

In the heat-insulating and moisture-permeable waterproof sheet 1 described above, the aluminum layer 22 is provided on the low gloss surface 21 a of the base film layer 21. Usually, the gloss tends to be lower as the unevenness is formed and the surface roughness is increased. The surface of the aluminum layer 22 formed by vapor deposition on the low gloss surface 21a has large unevenness because the unevenness of the low gloss surface 21a is reflected. Therefore, since visible light is diffusely reflected on the surface of the aluminum layer 22, the antiglare property is high even if the surface protective layer 23 does not contain light shielding particles.
Further, even if large irregularities are formed on the surface of the aluminum layer 22, the infrared reflectance does not decrease, and high antiglare properties can be obtained even if the surface protective layer 23 does not contain light shielding particles. There is no reduction in heat insulation. Therefore, the heat-insulating and moisture-permeable waterproof sheet 1 is excellent in heat shielding properties.
Moreover, since the heat-insulating and moisture-permeable waterproof sheet 1 includes the porous polyolefin film layer 12, both waterproofness and moisture permeability can be improved. Specifically, the moisture permeability and waterproofness of the moisture permeable waterproof sheet shown in JIS A6111: 2004 can be easily satisfied.

In addition, the heat insulation moisture-permeable waterproof sheet of this invention is not limited to the thing of the said embodiment.
For example, the surface protective layer is not essential in the heat shielding film layer, and may be omitted.
Moreover, in the heat-insulation moisture-permeable waterproof sheet of this invention, arrangement | positioning in particular of a nonwoven fabric layer and a porous polyolefin film layer is not restrict | limited, The surface layer arrange | positioned indoors may be sufficient as a porous polyolefin film layer. However, from the viewpoint of workability, the nonwoven fabric layer is preferably a surface layer disposed on the indoor side.

Hereinafter, the present invention will be described in more detail with reference to Examples and Comparative Examples.
The glossiness in the following examples is a value measured according to JIS Z8741 using a gloss meter (Gloss Checker IG-320, manufactured by Horiba, Ltd.).

Example 1
The nonwoven fabric layer, the porous polyolefin film layer, and the heat shield film layer were bonded using an adhesive to obtain a heat shield moisture permeable waterproof sheet.
The nonwoven fabric layer, the porous polyolefin film layer and the thermal barrier film layer used in this example are as follows.
Nonwoven fabric layer: A nonwoven fabric of polyethylene terephthalate fiber having a basis weight of 45 g / m ² was used.
Porous polyolefin film layer: A porous polyolefin film having a thickness of 18 μm and a basis weight of 27 g / m ² was used. In addition, this porous polyolefin film has a moisture permeability of 0.12 g / (m ² · 24 hr) measured in accordance with JIS L1099 4.1 method A (a moisture permeability test method for textile products).
Thermal barrier film layer: A laminate comprising a base film layer, an aluminum layer, and a surface protective layer was used. In the heat shielding film layer, circular through holes having a hole diameter of 0.1 mm are formed with a distribution of 640,000 holes / m ² . The surface protective layer is an acrylic resin layer having a basis weight of 0.3 g / m ² .
As a base film layer, the biaxial provided with the intermediate | middle layer which consists of a polypropylene, the 1st surface layer formed in one surface of this intermediate | middle layer, and the 2nd surface layer formed in the other surface of the said intermediate | middle layer A stretched substrate film was used. The first surface layer is a low-gloss layer containing polyethylene and polypropylene, and the exposed surface is a low-gloss surface with a glossiness of 26%, and the second surface layer is made of polypropylene, and the exposed surface is glossy. It is a high gloss layer having a high gloss surface of 88%. An aluminum layer is formed on the low gloss surface by vapor deposition of aluminum, and a porous polyolefin film layer is in contact with the high gloss surface.

(Example 2)
A heat-insulating and moisture-permeable waterproof sheet is obtained in the same manner as in Example 1 except that the base film layer is changed to a base film having a glossiness of 47% on the low gloss surface and 96% on the high gloss surface. It was.

(Example 3)
A heat-permeable and moisture-permeable waterproof sheet was obtained in the same manner as in Example 1 except that the base film layer was changed to a base film having a glossiness of 61% for the low gloss surface and 102% for the high gloss surface. It was.

(Comparative Example 1)
A heat and moisture permeable waterproof sheet was obtained in the same manner as in Example except that a biaxially stretched polypropylene film having a glossiness of 103% on both sides was used as the base film layer constituting the heat shield film layer.

<Evaluation of antiglare properties>
The glossiness of the surface on the surface protective layer side of the heat-insulating and moisture-permeable waterproof sheet of each example was measured to evaluate the antiglare property. Table 1 shows the measurement results of glossiness. The lower the glossiness, the higher the antiglare property.
<Evaluation of thermal insulation>
About the heat-insulation moisture-permeable waterproof sheet of Example 1 and Comparative Example 1, the reflectance of light having a wavelength of 2 to 20 μm was measured using a reflectance measuring device (UV-3101PC type self-recording spectrophotometer manufactured by Shimadzu Corporation). . The result is shown in FIG.
The heat-insulating and moisture-permeable waterproof sheet of Example 1 has a reflectance of 85% or more in all ranges including wavelengths in the infrared region of 2 to 14 μm, indicating that it has excellent heat shielding properties. On the other hand, it was shown that the heat-insulating and moisture-permeable waterproof sheet of Comparative Example 1 has a remarkably low reflectance in a part of the wavelength range of 2 to 14 μm in the infrared region and a low heat shielding property.

DESCRIPTION OF SYMBOLS 1 Thermal insulation moisture permeable waterproof sheet 10 Moisture permeable waterproof laminated body 11 Nonwoven fabric layer 12 Porous polyolefin film layer 20 Thermal insulation film layer 20a Through-hole 21 Base film layer 21a Low gloss surface 22 Aluminum layer 23 Surface protective layer

Claims (13)

A moisture-permeable waterproof laminate having a nonwoven fabric layer and a porous polyolefin film layer, and a heat-insulating film layer provided on one surface of the moisture-permeable waterproof laminate,
The heat-shielding film layer is in contact with the moisture-permeable waterproof laminate and has a base film layer whose surface opposite to the moisture-permeable waterproof laminate is a low gloss surface having a glossiness of 75% or less; A heat-insulating and moisture-permeable waterproof sheet, comprising an aluminum layer provided on the low-gloss surface of the base film layer and having a plurality of through holes.   The heat-insulation and moisture-permeable waterproof sheet according to claim 1, wherein the aluminum layer has a glossiness of 160% or less on the surface opposite to the base film layer. The diameter of the through-hole formed in the heat-shielding film layer is 0.1 to 0.7 mm, and the through-hole is 10,000 to 1 million pieces / m ^{2 on} the surface of the heat-shielding film layer. The heat-insulating and moisture-permeable waterproof sheet according to claim 1 or 2, which is formed by distribution.   The shielding film according to any one of claims 1 to 3, wherein the base film layer includes a low gloss layer including polyethylene and polypropylene, and one surface of the low gloss layer is the low gloss surface. Thermally permeable tarpaulin.   The thermal barrier film according to any one of claims 1 to 4, wherein the thermal barrier film layer further includes a surface protective layer provided on a surface of the aluminum layer opposite to the base film layer. Wet tarpaulin.   The heat-insulating and moisture-permeable waterproof sheet according to claim 5, wherein the surface-protecting layer-side surface has a glossiness of 100% or less. A deposition step of depositing aluminum on the low gloss surface of the base film layer having a low gloss surface of 75% or less gloss to form an aluminum layer;
A perforating step of perforating the base film layer and the aluminum layer to form a plurality of through holes to obtain a thermal barrier film layer;
A heat-shielding film layer laminating step of laminating the heat-shielding film layer on the porous polyolefin film layer so that the base film layer is in contact with the porous polyolefin film layer;
A moisture-permeable waterproof laminate producing step of producing a moisture-permeable waterproof laminate by laminating a nonwoven fabric layer on the porous polyolefin film layer;
A method for producing a heat-permeable and moisture-permeable waterproof sheet. A deposition step of depositing aluminum on the low gloss surface of the base film layer having a low gloss surface of 75% or less gloss to form an aluminum layer;
A perforating step of perforating the base film layer and the aluminum layer to form a plurality of through holes to obtain a thermal barrier film layer;
A moisture-permeable waterproof laminate producing step of producing a moisture-permeable waterproof laminate by laminating a porous polyolefin film layer and a nonwoven fabric layer;
A heat shielding film layer laminating step for laminating the heat shielding film layer on the moisture-permeable waterproof laminate, so that the base film layer is in contact with the porous polyolefin film layer;
A method for producing a heat-permeable and moisture-permeable waterproof sheet. A deposition step of depositing aluminum on the low gloss surface of the base film layer having a low gloss surface of 75% or less gloss to form an aluminum layer;
A perforating step of perforating the base film layer and the aluminum layer to form a plurality of through holes to obtain a thermal barrier film layer;
A heat shielding film layer laminating step of laminating the heat shielding film layer on the nonwoven fabric layer so that the base film layer is in contact with the nonwoven fabric layer;
Moisture permeable waterproof laminate production step of producing a moisture permeable waterproof laminate by laminating a porous polyolefin film layer on the nonwoven fabric layer;
A method for producing a heat-permeable and moisture-permeable waterproof sheet. A deposition step of depositing aluminum on the low gloss surface of the base film layer having a low gloss surface of 75% or less gloss to form an aluminum layer;
A perforating step of perforating the base film layer and the aluminum layer to form a plurality of through holes to obtain a thermal barrier film layer;
A moisture permeable waterproof laminate production step of producing a moisture permeable waterproof laminate by laminating a nonwoven fabric layer and a porous polyolefin film layer;
A heat shielding film layer laminating step for laminating the heat shielding film layer on the moisture-permeable waterproof laminate so that the base film layer is in contact with the nonwoven fabric layer;
A method for producing a heat-permeable and moisture-permeable waterproof sheet. In the said perforation process, the through-hole whose hole diameter is 0.1-0.7 mm is formed so that it may become a distribution of 10,000-1 million piece / m < ² > in the surface of the thermal insulation film layer obtained. The manufacturing method of the heat-insulation moisture-permeable waterproof sheet as described in any one of 10-10.   The low-gloss layer containing polyethylene and polypropylene is used as the base film layer, and one of the low-gloss layers is used as the low-gloss surface. A method for manufacturing a heat-permeable moisture-permeable waterproof sheet.   Surface protective layer formation in which a surface protective layer is formed by applying a coating for forming a surface protective layer on the surface of the aluminum layer opposite to the base film layer between the vapor deposition step and the perforating step. The thermal insulation moisture-permeable waterproof sheet according to any one of claims 7 to 12, further comprising a step, wherein in the perforating step, the surface protective layer is simultaneously perforated together with the base film layer and the aluminum layer. Production method.

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