JP6739834B2 - Laminated sheet and manufacturing method thereof - Google Patents

Description

The present invention relates to a laminated sheet and a method for manufacturing the same.

Conventionally, a seat is arranged in a wall to improve airtightness in a room of a house and to improve cooling and heating efficiency. As the sheet, a laminated sheet having a function of preventing dew condensation on the wall has been developed. For example, the following Patent Document 1 discloses a laminated sheet including a moisture absorbing/releasing layer, a moisture permeable adhesive layer, a moisture permeable layer, and a surface layer. The moisture absorbing/releasing layer of the laminated sheet of Patent Document 1 is manufactured by forming polyvinyl alcohol into a film and then using it by adhering it to another layer.

However, when the laminated sheet is manufactured by the method of Patent Document 1, it becomes necessary to form a film with only polyvinyl alcohol, and the thickness thereof increases. For example, in the production example described in paragraph 0056 of Patent Document 1, the layer thickness of polyvinyl alcohol is 50 μm. The thicker the polyvinyl alcohol, the more material is required, and the higher the material cost. If the polyvinyl alcohol is made thicker than necessary, the laminated sheet may shrink while the polyvinyl alcohol repeatedly absorbs and releases moisture.

JP 2006-321207 A (paragraph 0056)

An object of the present invention is to provide a laminated sheet that is inexpensive, easy to manufacture, and resistant to deformation, and a method for manufacturing the same.

The laminated sheet of the present invention includes a moisture permeable base sheet and a moisture permeable and water absorbing layer made of polyvinyl alcohol, which is laminated on the base sheet. The moisture-permeable and water-absorbing layer has a layer thickness of 3.5 μm or more, an Oki type air permeability of JIS P8117 of 99999 seconds/100 ml or more, and a moisture permeability resistance of JIS A1324 of 300 m ² ·h at a temperature of 25° C. and a humidity of 50%. -MmHg/g or more.

The method for producing a laminated sheet of the present invention comprises the steps of preparing a moisture-permeable base sheet, covering the surface of the base sheet with a solution containing polyvinyl alcohol, and drying the solution to give a layer thickness of 3. 5 μm or more, Oken type air permeability in JIS P8117 is 99999 seconds/100 ml or more, and moisture permeability resistance of JIS A1324 at a temperature of 25° C. and humidity of 50% is 300 m ² ·h·mmHg/g or more. And a step of forming a moisture absorption layer.

According to the present invention, the moisture-permeable and water-absorbing layer made of polyvinyl alcohol is formed directly on the base material sheet, so that the moisture-permeable and water-absorbing layer can be made thin. By making the moisture-permeable and water-absorbing layer thin, it is possible to reduce the amount of material and the cost of the laminated sheet. Since the moisture-permeable and water-absorbent layer is not manufactured separately, it is easy to manufacture. Since the moisture-permeable and water-absorbent layer becomes thin, it is possible to prevent deformation of the laminated sheet.

It is a figure which shows the structure of the laminated sheet of this invention. It is a figure which shows the manufacturing method of the laminated sheet in an Example, (a) is a figure which dripped the aqueous solution to the base material sheet, (b) is a figure which extends an aqueous solution with a roller, (c) is a completed laminated sheet. It is a figure which shows a sheet. It is an electron micrograph of a laminated sheet.

The laminated sheet of the present invention and the manufacturing method thereof will be described with reference to the drawings. The case where the laminated sheet is used as a building material for walls, floors, ceilings, etc., especially as a dew condensation preventing sheet in a wall will be described as an example.

The laminated sheet 10 of the present invention shown in FIG. 1 comprises a moisture-permeable base material sheet 12 and a moisture-permeable and water-absorbing layer 14 laminated thereon. The moisture permeable and water absorbing layer 14 may be laminated on one surface of the base material sheet 12 or may be laminated on both surfaces.

The base material sheet 12 is a sheet having moisture permeability. The moisture resistance of JIS A1324 of the base material sheet 12 is 3 m ² ·h·mmHg/g or less, preferably 1.35 m ² ·h·mmHg/g or less, and more preferably 0.27 m ² ·h·mmHg/g. It is below, and the lower limit is not particularly limited. The base sheet 12 has a very high moisture permeability, and the moisture permeable and water absorbing layer 14 is in the same state as it exists alone. The thickness of the base sheet 12 is not limited as long as it has the above-mentioned moisture permeability resistance. If moisture permeation resistance 1.35m ² · h · mmHg / g or less preferably be used a laminated sheet 10 as a sheet for ^roofs, the laminated sheet 10 as long 0.27m 2 · h · mmHg / g or less It can be suitably used as a sheet for walls.

The base material sheet 12 is a polyolefin microporous film or polyolefin elastomer film, polystyrene film, polyester film, polyester elastomer film, polyamide film, polyurethane film, polyurethane microporous film, polyurethane elastomer film, polyvinyl alcohol film, cellulose film, polylactic acid film. Can be mentioned. For example, a polyolefin microporous film can be manufactured by mixing calcium carbonate with polyolefin to form a film, or by randomly collecting fibrous polyolefins and compressing them so that the surface becomes flat.

The base sheet 12 is not limited to the above-mentioned sheet, and may be a laminated body of ultrafine fibers or a film as long as it has moisture permeability. Examples of the laminated body of the ultrafine fibers include a fluorinated resin such as polyvinylidene fluoride, or an ultrafine nonwoven fabric using polyethylene, polypropylene, polyester, polyurethane, polyamide, or polyvinyl alcohol. Examples of the moisture permeable membrane include membranes of polytetrafluoroethylene, polyamide, polyamino acid and polyglucose amine.

The surface roughness Rz of the surface of the substrate sheet 12 is 20 μm or less, preferably 5 μm or less, and more preferably 3.5 μm or less. If Rz exceeds 20 μm, the surface irregularities of the base sheet 12 become large, so that it becomes difficult to form the moisture-permeable and water-absorbing layer 14, and it is necessary to use a large amount of the material of the moisture-permeable and water-absorbing layer 14, which is not preferable. The surface roughness Rz may be smaller than the thickness of the moisture permeable and water absorbing layer 14. The irregularities on the surface of the base sheet 12 are smaller than the thickness of the moisture permeable and water absorbing layer 14.

The moisture-permeable water absorbing layer 14 is formed of polyvinyl alcohol. The moisture-permeable and water-absorbent layer 14 has a thickness of 3.5 μm or more and 30 μm or less, preferably 5 μm or more and 20 μm or less. By forming the moisture permeable and water absorbing layer 14 directly on the base material sheet 12 when the laminated sheet 10 is manufactured, the thickness of the moisture permeable and water absorbing layer 14 can be reduced.

If the moisture-permeable and water-absorbent layer 14 has a thickness of less than 3.5 μm, the moisture-permeable resistance may not exceed 300 m ² ·h·mmHg/g at a temperature of 25°C and a humidity of 50%. The moisture permeation resistance of 300 m ² ·h·mmHg/g or more is specified by JIS A6930, and is the moisture permeation resistance required when separately forming a moisture-proof layer for the dew prevention of the heat insulating structure. When the thickness of the moisture permeable/water absorbing layer 14 is thicker than 20 μm, the moisture permeable resistance remains high, and it is not necessary to further increase the thickness. If it becomes thicker, the moisture permeable and water absorbing layer 14 may be deformed by repeating expansion and contraction.

The moisture permeable and water absorbing layer 14 has a moisture permeability resistance of 3 m ² ·h·mmHg/g or less at an air temperature of 40°C and a humidity of 90%. The moisture permeable and water absorbing layer 14 is permeable to moisture in an environment where the humidity contained in the air is high.

The moisture permeability and water absorption layer 14 has an air permeability of 999999 seconds/100 ml or more. This air permeability is the Oken type air permeability based on JIS P8117. Since the moisture-permeable and water-absorbent layer 14 is impermeable to air, the airtightness of the room can be enhanced.

The moisture permeable and water absorbing layer 14 can be formed by, for example, applying an aqueous solution 16 containing polyvinyl alcohol onto the base material sheet 12 and drying it. As the aqueous solution 16 containing polyvinyl alcohol, the saponification degree is preferably 87 mol% or more, and the polyvinyl alcohol in the aqueous solution is preferably adjusted to 1 to 50% by volume, and the saponification degree is 97 to 99.9 mol%. More preferably, the alcohol is adjusted to 2 to 20% vol. If the degree of saponification is lower than 87%, the moisture permeable and water absorbing layer 14 may not exhibit moisture permeability. When the concentration of polyvinyl alcohol in the aqueous solution is lower than 1% vol, the amount of the aqueous solution 16 used for coating increases and it takes time to dry, so that the production cost increases. On the other hand, if it is higher than 50% vol, the viscosity increases and it becomes difficult to control the coating to a desired film thickness.

If the moisture permeable and water absorbing layer 14 is insufficient in the desired thickness in the above step, the above step may be repeated a plurality of times. By forming the moisture-permeable and water-absorbing layer 14 directly on the base material sheet 12, the thickness of the moisture-permeable and water-absorbing layer 14 can be reduced as compared with the conventional method in which polyvinyl alcohol is produced in the form of a film and then laminated with other layers. can do.

By making the moisture-permeable and water-absorbing layer 14 thin, the amount of material used for the moisture-permeable and water-absorbing layer 14 can be reduced, and the laminated sheet 10 can be manufactured at low cost. By reducing the thickness of the moisture permeable and water absorbing layer 14, the laminated sheet 10 can easily exhibit the moisture permeable performance in a high humidity environment. By reducing the thickness of the moisture permeable/water absorbing layer 14, it is possible to suppress deformation due to moisture absorption/release.

The coating method is not particularly limited as long as the aqueous solution 16 can be coated on the base sheet 12. For example, a known method such as a bar coater, a gravure coater, a roll coater, a die coater, a spray coater, a knife coater, or a dip coater may be used as a method of applying the aqueous solution 16 to the base material sheet 12.

[Example]
The following materials were used for the base material sheet 12 and the moisture-permeable and water-absorbing layer 14 to obtain laminated sheets A to H shown in Table 1 below. As the base material sheet 12, a microporous polyethylene film (KH2085A manufactured by Mitsubishi Plastics, Inc.) was used. The surface roughness Rz of the base material sheet 12 was 2.5 μm.

As the polyvinyl alcohol of the moisture permeable and water absorbing layer 14, RS-2117 manufactured by Kuraray Co., Ltd. was used. This polyvinyl alcohol aqueous solution 16 was dropped on the substrate film 12 (FIG. 2(a)), and the aqueous solution 16 was spread by the roller 18 of the screen printing machine (PS-540ARD manufactured by Tsujii Dyeing Machine Co., Ltd.) (FIG. 2). (B)), and dried in an atmosphere of 80° C. for 2 minutes to obtain a laminated sheet 10 (FIG. 2(c)). The saponification degree of the aqueous solution 16 was 97.5 to 99 mol%, and the polyvinyl alcohol was 5% vol.

By making the amount of the aqueous solution 16 dropped and the number of times from dropping to drying different, the laminated sheet 10 having different thicknesses of the moisture permeable and water absorbing layer 14 was obtained. The moisture-permeable and water-absorbent layer 14 had a thickness of 0.3 μm, 1.3 μm, 2.5 μm, 3.5 μm, 5.6 μm, 10.4 μm, 18 μm, and 20 μm. FIG. 3 shows an electron micrograph when the moisture-permeable and water-absorbent layer 14 had a thickness of 18 μm. Although the aqueous solution 16 is applied a plurality of times and dried, it can be seen that the moisture-permeable and water-absorbing layer 14 is integrally formed without layer separation. It can be seen that the moisture-permeable and water-absorbent layer 14 may be formed a plurality of times in order to achieve a desired thickness.

Table 1 shows the layer thickness, air permeability, and moisture permeability resistance of the moisture permeable and water absorbing layer 14 of each of the laminated sheets A to H. The moisture permeation resistance is measured according to JIS A1324. The air permeability is the Oken type air permeability based on JIS P8117. The layer thickness of the moisture-permeable and water-absorbent layer 14 is measured at a plurality of points and is the average thereof.

From Table 1, if the moisture-permeable and water-absorbent layer 14 has a thickness of 3.5 μm or more, in an environment of a temperature of 25° C. and a humidity of 50%, it is 300 m ² ·h·mmHg/g or more specified by JIS A6930. It showed a moisture permeation resistance. It can be seen that moisture is impermeable in a dry environment.

Further, in an environment of an air temperature of 40° C. and a humidity of 90%, each showed a moisture permeability resistance of 3 m ² ·h·mmHg/g or less. It can be seen that moisture can pass under the high humidity environment contained in the air. It should be noted that although the moisture permeability resistance at temperatures of 40° C. and humidity of 90% in C to F of Table 1 is not shown, it is 3 m ² ·h·mmHg/in both cases where the moisture-permeable and water-absorbing layer 14 is thick and thin. It is considered to be 3 g/g/g or less and 3 m ² ·h·mmHg/g or less during that time.

Further, the laminated sheets B to H having the moisture-permeable and water-absorbing layer 14 having a thickness of 1.3 μm or more have an air permeability of 999999 seconds/100 ml or more. It can be seen that the laminated sheets B to H are impermeable to air.

[Comparative example]
In addition to the above experiment, an aqueous solution of RS-2117 manufactured by Kuraray Co., Ltd. was dropped onto a nonwoven fabric (Tyvek 1069B manufactured by DuPont) to form a moisture-permeable water absorption layer. The layer thickness could not be measured due to unevenness, and the air permeability was 4160 seconds/100 ml, and the moisture resistance was 74 m ² ·h·mmHg/g in an environment of a temperature of 25°C and a humidity of 50%. It was found that the non-woven fabric had a surface roughness Rz of 26.8 μm and had large irregularities on the surface, making it difficult to form a moisture permeable and water absorbing layer. It was found that the measured air permeability and moisture permeability resistance were low, and the airtightness and moisture resistance could not be maintained.

In addition, the present invention can be implemented in a mode in which various improvements, modifications and changes are made based on the knowledge of those skilled in the art without departing from the spirit of the invention.

INDUSTRIAL APPLICABILITY The laminated sheet of the present invention can be used as a building material for houses, particularly a sheet for preventing dew condensation in a wall. In addition, humidity control wall materials, containers for electronic and precision instruments, containers for musical instruments and works of art, chests, automobile interior materials, freezers, heating equipment, desiccants, dehumidifying agents, cold storage agents, sheets for infection prevention, medical treatment. It can also be used as a dressing gown.

10: Laminated film 12: Base film 14: Moisture permeable and water absorbing layer 16: Solution 18: Roller

Claims (6)

A moisture-permeable base sheet,
A moisture-permeable and water-absorbent layer made of polyvinyl alcohol, which is laminated on the base sheet.
Equipped with
The substrate sheet has a surface roughness Rz smaller than the thickness of the moisture permeable and water absorbing layer,
The moisture-permeable water absorption layer,
The layer thickness is 3.5 or more and less than 10 μm ,
Oken type air permeability based on JIS P8117 is 99999 seconds/100ml or more,
A laminated sheet having a moisture permeability resistance of 300 m ² ·h·mmHg/g or more based on JIS A1324 at an air temperature of 25°C and a humidity of 50%. The moisture permeable water-absorbing layer, the product layer sheet of claim 1 temperature 40 ° C., moisture permeation resistance based on JISA1324 in 90% humidity is less than ^{3m 2 · h · mmHg / g} . The laminated sheet according to claim 1 or 2 , wherein the moisture permeable and water absorbing layer has a layer thickness of 3.5 µm or more and 5.6 µm or less. A step of preparing a moisture-permeable base sheet,
Covering the surface of the substrate sheet with a solution containing polyvinyl alcohol,
The solution is dried, the layer thickness is 3.5 or more and less than 10 μm, the Oken type air permeability based on JIS P8117 is 999999 seconds/100 ml or more, the moisture permeability based on JIS A1324 at a temperature of 25° C. and a humidity of 50%. A step of forming a moisture permeable and water absorbing layer made of polyvinyl alcohol having a resistance of 300 m ² ·h·mmHg/g or more,
Equipped with
The step of preparing the moisture-permeable base sheet is a method for producing a laminated sheet , in which the surface roughness Rz is smaller than the thickness of the moisture-permeable and water-absorbing layer, and the moisture-permeable base sheet is prepared . The method for producing a laminated sheet according to claim 4 , wherein the solution containing polyvinyl alcohol has a saponification degree of 87 mol% or more and a polyvinyl alcohol content of 1% or more and 50% or less. The method for producing a laminated sheet according to claim 4, wherein the step of forming the moisture-permeable and water-absorbing layer includes the step of setting the layer thickness of the moisture-permeable and water-absorbing layer to 3.5 μm or more and 5.6 μm or less.