JP6806323B2 - How to manufacture heat shield sheet, heat shield sheet and how to attach heat shield sheet - Google Patents

Description

The present invention relates to a heat shield sheet used for interior materials for vehicles or houses, a method for manufacturing the heat shield sheet, and a method for attaching the heat shield sheet.

Conventionally, a heat shield sheet has been used for interior materials for vehicles or houses for the purpose of suppressing a temperature rise in the internal space.

Patent Document 1 below discloses a heat shield sheet for an automobile interior material in which a layer having an infrared reflection function is provided on a substrate made of a resin foam. As the layer having an infrared reflection function, an aluminum foil, an aluminum sheet, a stainless steel foil, an aluminum vapor deposition sheet, a chrome vapor deposition sheet or a tin plating sheet is used. The layer having an infrared reflection function is arranged on the roof panel side of the substrate. Patent Document 1 describes that the heat shielding effect can be exhibited by providing the layer having the infrared ray absorbing function.

Further, Patent Document 2 below discloses an interior material for a vehicle including a base material and a back surface layer provided on the surface of the base material on the roof panel side. The base material is made of a glass mat or urethane foam. The back surface layer is a heat shield sheet composed of a base layer which is a synthetic resin film and an infrared reflective layer arranged on the roof panel side. The heat shield sheet of Patent Document 2 describes that the temperature rise in the vehicle interior can be effectively suppressed by arranging the infrared reflective layer on the roof panel side (heat source side).

Japanese Patent No. 4180210 Japanese Unexamined Patent Publication No. 2014-91442

The temperature of the roof panel of an automobile rises when it is irradiated with sunlight, and becomes a heat source. In the heat shield sheets of Patent Document 1 and Patent Document 2, the infrared reflective layer is provided on the outermost layer on the roof panel side (heat source side). When the infrared reflecting layer is provided on the outermost layer, there is a problem that the metal constituting the infrared reflecting layer is easily oxidized. Further, since the infrared reflecting layer is arranged on the outermost layer, it may not be possible to sufficiently block the heat emitted from the heat source. Therefore, the heat shield sheets of Patent Document 1 and Patent Document 2 have a problem that the temperature rise of the internal space in the vehicle cannot be sufficiently suppressed.

An object of the present invention is to provide a heat shield sheet, a method for manufacturing a heat shield sheet, and a method for attaching the heat shield sheet, which can suppress a temperature rise in an internal space of a vehicle or a house.

According to a broad aspect of the present invention, it is a heat shield sheet used for an interior material of a vehicle or a house and for reflecting heat released from a heat source of the vehicle or the house, and is a base material and the base material. Provided is a heat shield sheet comprising a heat shield material laminated on the surface and having a thickness of the heat shield material of 10 nm or more and 300 nm or less.

In certain aspects of the heat shield sheet according to the present invention, the substrate is a high density polyethylene substrate or a non-woven fabric.

In certain aspects of the heat shield sheet according to the present invention, the substrate is a high density polyethylene substrate.

In certain aspects of the heat shield sheet according to the present invention, the substrate is a non-woven fabric.

In certain aspects of the heat shield sheet according to the present invention, the heat shield material comprises aluminum, stainless steel, chromium or tin. Preferably, the heat shield contains aluminum.

In a specific aspect of the heat shield sheet according to the present invention, the heat shield sheet is arranged and used from the base material side to the heat source side.

In a specific aspect of the heat shield sheet according to the present invention, the heat shield sheet is arranged with respect to the heat source via a heat insulating material.

In a specific aspect of the heat shield sheet according to the present invention, the heat shield sheet is arranged from the heat shield material side with respect to the heat source via the heat insulating material.

According to a wide aspect of the present invention, it is a method for manufacturing a heat shield sheet used for interior materials of vehicles or houses to reflect heat released from a heat source, and shields the surface of a base material by sputtering. Provided is a method for producing a heat shield sheet, which comprises a step of arranging a heat shield and has a thickness of the heat shield material of 10 nm or more and 300 nm or less.

According to a broad aspect of the present invention, it is a method of attaching a heat shield sheet used for an interior material of a vehicle or a house, and the above-mentioned heat shield sheet is arranged from the base material side on the heat source side of the vehicle or the house. , A method of attaching a heat shield sheet is provided.

The heat shield sheet according to the present invention is a heat shield sheet for reflecting heat released from a heat source of a vehicle or a house, and includes a base material and a heat shield material laminated on the surface of the base material. , And the thickness of the heat shield material is 10 nm or more and 300 nm or less, so that the heat released from the heat source can be blocked by the heat shield sheet. Therefore, the heat shield sheet of the present invention can suppress a temperature rise in the internal space of a vehicle or a house.

FIG. 1 is a schematic cross-sectional view showing a heat shield sheet according to the first embodiment of the present invention. FIG. 2 is a schematic cross-sectional view showing a heat shield sheet according to a second embodiment of the present invention. FIG. 3 is a schematic configuration diagram for explaining a method of a heat shield test.

Hereinafter, the present invention will be described in detail.

The heat shield sheet according to the present invention is used as an interior material of a vehicle or a house. The heat shield sheet includes a base material and a heat shield material. The heat shield is laminated on the surface of the base material. The heat shield material is provided to reflect the heat released from the heat source of the vehicle or the house. The thickness of the heat shield is 10 nm or more and 300 nm or less.

The method for producing a heat shield sheet according to the present invention includes a step of arranging a heat shield material on the surface of a base material by sputtering. The thickness of the heat shield is 10 nm or more and 300 nm or less.

Generally, in vehicles and houses, the outer wall material is heated by sunlight or the like, and heat is stored in the outer wall material. The temperature of the outer wall material becomes higher than the ambient temperature, and the outer wall material becomes a heat source. The heat stored in the outer wall material is dissipated to the interior material (heat shield sheet) side, which causes the temperature in the internal space of the vehicle or the house to rise.

Since the present invention has the above configuration, the heat released from the outer wall material, which is a heat source, can be blocked by the heat shield sheet. Therefore, it is possible to suppress the temperature rise in the internal space of the vehicle or the house.

In the method of attaching the heat shield sheet according to the present invention, the above-mentioned heat shield sheet is arranged from the base material side on the heat source side of the vehicle or the house. When the heat shield material contains metal, by arranging the heat shield sheet as described above, oxidation of the metal can be suppressed and corrosion of the metal can be suppressed. Therefore, the effect of suppressing the temperature rise can be exhibited for a long period of time. Therefore, from the viewpoint of exerting the effect of suppressing the temperature rise for a long period of time, it is preferable that the heat shield sheet of the present invention is arranged and used from the base material side to the heat source side.

Further, in the method of attaching the heat shield sheet of the present invention, when the heat insulating material is used for the interior material, the heat shield sheet may be arranged with respect to the heat source via the heat insulating material. The heat shield sheet is preferably arranged from the heat shield side to the heat insulating material side. Even if the heat shield sheet is arranged in this way, when the heat shield material contains metal, oxidation of the metal can be suppressed and corrosion of the metal can be suppressed. Therefore, the effect of suppressing the temperature rise can be exhibited for a long period of time. Therefore, from the viewpoint of exerting the effect of suppressing temperature rise for a long period of time, when a heat insulating material is used for the interior material, it is preferable that a heat insulating sheet is arranged with respect to the heat source via the heat insulating material. .. It is more preferable that the heat shield sheet is arranged from the heat shield side with respect to the heat source via the heat insulating material.

Since the heat shield sheet of the present invention can suppress a temperature rise in the internal space of a vehicle or a house, it can be used as an interior material of a vehicle or a house.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a schematic cross-sectional view showing a heat shield sheet according to the first embodiment of the present invention.

As shown in FIG. 1, the heat shield sheet 1 includes a base material 2 and a heat shield material 3. The heat shield sheet 1 is an interior material for vehicles or houses.

The base material 2 has a first surface 2a and a second surface 2b. The first surface 2a and the second surface 2b face each other. The heat shield material 3 is arranged and laminated on the first surface 2a. The first surface 2a is the surface on the side where the heat shield 3 is arranged. The base material 2 is a support member for the heat shield material 3. The second surface 2b is a surface on the heat source side of a vehicle or a house. A heat insulating material may be provided on the second surface 2b.

The heat shield material 3 is provided to reflect the heat released from the heat source. Specifically, the heat shield material 3 is provided to reflect the heat released from the outer wall material, which is the heat source of the vehicle or the house, in the direction indicated by the arrow X in FIG. 1 in the direction indicated by the arrow Y in FIG. Has been done. The surface of the heat shield material 3 on the opposite side to the base material 2 is the surface on the internal space side of the vehicle or the house.

The heat shield sheet 1 is arranged and used from the base material 2 side to the heat source side. By arranging the heat shield sheet 1 in this way, oxidation of the metal can be suppressed, and corrosion of the metal can be suppressed. Therefore, the effect of suppressing the temperature rise can be exhibited for a long period of time. In the present invention, the heat shield sheet may be arranged and used from the heat shield material side to the heat source side.

FIG. 2 is a schematic cross-sectional view showing a heat shield sheet according to a second embodiment of the present invention.

In the heat shield sheet 1A shown in FIG. 2, the heat shield sheet 1A is arranged from the base material 2 side to the heat source side and is not used. The heat shield sheet 1A is arranged with respect to the heat source via the heat insulating material 4. The heat shield sheet 1A is arranged from the heat shield 3 side with respect to the heat source via the heat insulating material 4. In the heat shield sheet 1A, the surface of the heat shield material 3 on the side opposite to the base material 2 is the surface on the heat source side of the vehicle or the house. The second surface 2b of the base material 2 is the surface on the internal space side of the vehicle or the house. An epidermis layer may be provided on the second surface 2b of the base material 2.

The heat shield sheet 1A is arranged from the heat shield 3 side with respect to the heat source via the heat insulating material 4. By arranging the heat shield sheet 1A in this way, oxidation of the metal can be suppressed, and corrosion of the metal can be suppressed. Therefore, the effect of suppressing the temperature rise can be exhibited for a long period of time. In the present invention, the heat shield sheet may be arranged from the base material side with respect to the heat source via the heat insulating material.

Next, an example of the method for manufacturing the heat shield sheet 1 shown in FIG. 1 will be described.

The heat shield sheet 1 can be produced, for example, by the following method.

The heat shield material 3 is arranged on the first surface 2a of the base material 2. The heat shield material 3 can be formed and arranged by sputtering. By forming the heat shield material 3 by sputtering, the thickness of the heat shield material 3 can be reduced, and the uniformity of the thickness can be improved. In addition, the adhesion between the heat shield material 3 and the base material 2 can be improved. The thickness of the heat shield material 3 is 10 nm or more and 300 nm or less.

The details of each layer constituting the heat shield sheet will be described below.

(Base material)
The base material is not particularly limited, and examples thereof include a polyolefin base material, a film base material such as polyester, and a non-woven fabric. Examples of the polyolefin base material include a polyethylene base material and a polypropylene base material. Examples of the polyethylene base material include a high-density polyethylene base material and a low-density polyethylene base material. From the viewpoint of more effectively blocking the heat released from the heat source, the base material is preferably a high-density polyethylene base material.

Further, from the viewpoint of enhancing the flexibility and breathability of the heat shield sheet, the base material is preferably a non-woven fabric. The material of the non-woven fabric is not particularly limited, and examples thereof include polyethylene, nylon, polyester and polypropylene.

The basis weight of the non-woven fabric is preferably 15 g / m ² or more, more preferably 40 g / m ² or more, and preferably 300 g / m ² or less. When the basis weight of the non-woven fabric is not less than the above lower limit and not more than the above upper limit, the heat released from the heat source can be blocked more effectively.

The thickness of the base material is preferably 5 μm or more, more preferably 20 μm or more, preferably 1000 μm or less, and more preferably 500 μm or less. When the thickness of the base material is not less than the above lower limit and not more than the above upper limit, the heat released from the heat source can be blocked more effectively.

Further, the base material may contain various stabilizers, ultraviolet absorbers, plasticizers, lubricants or colorants.

(Heat shield)
The heat shield is provided to reflect the heat released from the heat source. The material of the heat shield is not particularly limited, and for example, a material containing aluminum, stainless steel, chromium, tin, or the like can be used. From the viewpoint of more effectively reflecting the heat released from the heat source, the heat shield material preferably contains aluminum, stainless steel, chromium or tin, and more preferably aluminum. The heat shield material is preferably a metal film containing the above-mentioned metal.

The thickness of the heat shield is 10 nm or more and 300 nm or less. The thickness of the heat shield is preferably 30 nm or more, preferably 100 nm or less, and more preferably 50 nm or less. When the thickness of the heat shield material is not less than the above lower limit and not more than the above upper limit, the heat released from the heat source can be reflected more effectively.

Regarding the light reflectance of the heat shield material, the average reflectance in the wavelength region of 10 nm to 300 nm is preferably 60% or more, more preferably 70% or more. When the light reflectance of the heat shield material is at least the above lower limit, the heat released from the heat source can be reflected more effectively.

Hereinafter, the present invention will be described in more detail based on specific examples. The present invention is not limited to the following examples.

( Reference example 1)
As a base material, a non-woven fabric having a thickness of 110 μm and a basis weight of 15 g / m ² was prepared. Aluminum was deposited on the prepared non-woven fabric by sputtering to form a heat-shielding material having a thickness of 20 nm, and a heat-shielding sheet was obtained. The obtained heat shield sheet was used by arranging the base material on the heat source side (heat source / base material / heat shield material arrangement state).

(Example 2)
A heat shield sheet was obtained in the same manner as in Reference Example 1 except that a non-woven fabric having a thickness of 210 μm and a basis weight of 40 g / m ² was used as the base material.

(Reference example 3)
A heat shield sheet was obtained in the same manner as in Reference Example 1 except that high density polyethylene (HDPE) having a thickness of 80 μm was used as the base material.

(Comparative Example 1)
The base material of Reference Example 1 was used as a heat shield sheet without a heat shield material (heat source / base material arrangement state).

(Comparative Example 2)
The base material of Example 2 was used as a heat shield sheet in a state where no heat shield material was provided.

(Comparative Example 3)
The base material of Reference Example 3 was used as a heat shield sheet without a heat shield material.

(Evaluation)
The heat shield sheets of Reference Example 1 , Example 2, Reference Example 3 and Comparative Examples 1 to 3 were subjected to a heat shield test in the state shown in FIG.

The heat shield sheet was cut so as to have a rectangular outer shape having a length of 600 mm and a width of 600 mm to obtain a test piece 5. In addition, a rectangular parallelepiped test box 6 having a length of 54 cm, a width of 54 cm, and a height of 45 cm was prepared. A glass plate 7 was provided on the first end surface 6a, which is one end surface of the test box 6. The test piece 5 was attached to the glass plate 7. An infrared lamp 8 of 100 V and 500 W (manufactured by Iwasaki Electric Co., Ltd., trade name "eye lamp") was provided at a position 50 cm away from the test piece 5.

Further, a first thermometer 9 was provided at a position A 8 cm from the first end surface 6a of the test box 6 toward the second end surface 6b on the other side. A second thermometer 10 was provided at a position B 4 cm from the second end face 6b toward the first end face 6a.

In the heat shield test, with the test piece 5 attached to the glass plate 7, heat rays are irradiated from the infrared lamp 8 and the temperatures at positions A and B after 60 minutes are measured, and the temperatures at positions A and B are measured. The temperature rise prevention rate in each case was calculated.

The temperature rise prevention rate is determined by using the measured temperature (measured temperature in the blank test) 60 minutes after the infrared lamp 8 irradiates the heat rays from the infrared lamp 8 in the state where the test pieces 5 are not attached. And each of the position B was calculated by the following formula.

Temperature rise prevention rate (%) = (XY) / X × 100
(X: measurement temperature of blank test, Y: measurement temperature when test piece 5 is bonded)

Details and results are shown in Table 1 below.

1,1A ... Heat shield sheet 2 ... Base material 2a ... First surface 2b ... Second surface 3 ... Heat shield material 4 ... Insulation material 5 ... Test piece 6 ... Test box 6a ... First end face 6b ... First End face of 2 7 ... Glass plate 8 ... Infrared lamp 9 ... First thermometer 10 ... Second thermometer

Claims (4)

A heat shield sheet used for interior materials of vehicles or houses and for reflecting heat released from the heat source of the vehicle or house.
With the base material
With the heat shield laminated on the surface of the base material,
With
The base material is a non-woven fabric,
The non-woven fabric and the heat shield material are in contact with each other.
The basis weight of the non-woven fabric is 40 g / m ² or more and 300 g / m ² or less.
The thickness of the base material is 5 μm or more and 500 μm or less.
The heat shield contains aluminum and
A heat shield sheet having a thickness of 10 nm or more and 300 nm or less. The heat shield sheet according to claim 1, wherein the heat shield sheet is arranged and used from the base material side to the heat source side. A method for manufacturing a heat shield sheet used for interior materials of vehicles or houses to reflect heat released from a heat source.
A process of arranging a heat shield on the surface of the base material by sputtering is provided.
The base material is a non-woven fabric,
The non-woven fabric and the heat shield material are in contact with each other.
The basis weight of the non-woven fabric is 40 g / m ² or more and 300 g / m ² or less.
The thickness of the base material is 5 μm or more and 500 μm or less.
The heat shield contains aluminum and
A method for producing a heat shield sheet, wherein the thickness of the heat shield material is 10 nm or more and 300 nm or less. A method of attaching a heat shield sheet used for interior materials of vehicles or houses.
A method for attaching a heat shield sheet, wherein the heat shield sheet according to claim 1 or 2 is arranged from the base material side on the heat source side of a vehicle or a house.

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