JP6219173B2 - Agricultural house insulation - Google Patents

Description

  The present invention relates to a heat insulating material that is spread inside an agricultural house.

Conventionally, in the cultivation of fruits and flower buds, so-called agricultural houses with a coating material such as polyvinyl chloride, polyethylene, ethylene-vinyl acetate copolymer on the outside were used for the purpose of forcing cultivation, cold protection, and frost prevention. Cultivation is widely performed.
Even in these agricultural houses, the temperature drops in the cold seasons such as early spring, late autumn, and winter, and in some cases, even during the daytime, the growth of the cultivated crops is delayed and the growth is disturbed. In order to prevent this, it has been carried out to use a heating device such as a stove or to extend a lining material having heat insulation properties.

  Whether you use a heater such as a stove or a lining material with heat insulation, not only in winter, but also at night, the humidity increases as the temperature decreases, causing condensation in the house. It has become a cause of damaging these cultivated plants by wetting the fruits and florets being cultivated in, and in some cases becoming frost.

  Therefore, Patent Document 1 discloses a dew condensation prevention material characterized in that it is a sheet-like structure to which highly hygroscopic fine particles are adhered, and the maximum temperature rise during moisture absorption and / or water absorption is 3 ° C. or more. It is said that it is possible to provide an anti-condensation material that can be manufactured by simple processing, is low in cost, and has excellent anti-condensation properties.

  Furthermore, Patent Document 2 discloses a frost-preventing material, which is a structure to which highly hygroscopic fine particles are adhered, and has a maximum temperature rise of 3 ° C. or higher during moisture absorption and / or water absorption. It is said that it is possible to provide a lightweight anti-frosting material that prevents damage caused by crops caused by a sudden drop in temperature and frost damage.

The dew condensation / frost formation prevention material of Patent Documents 1 and 2 has a moisture absorption heat generation effect, so it is considered to exhibit a condensation / frost formation prevention effect even if thin, but it needs to be dried in order to exhibit the moisture absorption effect again. .
These dew condensation and frost prevention materials are generally stored when in use, and wound up and stored in a roll when not in use. In particular, a large amount of water contained in the material when wound up. There was a problem with the processing.

JP 2003-89975 A JP 2003-143976 A

  Therefore, the present invention provides an agricultural house heat insulating material that does not wet a cultivated crop even if it is condensed during use, and can quickly discharge the contained water when it is rolled up during storage. With the goal.

  The present inventor, in order from the outside, laminates a resin film, a nonwoven fabric, a resin film, a network structure having a spacer effect and a hydrophilic nonwoven fabric, and integrates the laminate into a plurality of parallel straight lines. As a result, the present invention has been completed.

That is, the present invention
(1) An agricultural house heat insulating material in which a resin film, a nonwoven fabric, a resin film, a net-like structure, and a hydrophilic nonwoven fabric are laminated in order from the outside and integrated with a plurality of parallel straight lines. Agricultural house heat insulating material,
(2) The agricultural house heat insulating material according to (1), wherein the integration is performed by pin sonic processing,
(3) The agricultural house heat insulating material according to (1) or (2), wherein the hydrophilic nonwoven fabric is a spunbond,
(4) The agricultural house heat insulating material according to any one of (1) to (3), wherein the network structure is produced by integral extrusion molding.

By exhibiting the agricultural house heat insulating material of the present invention on the inner surface of the agricultural house, at the night when the temperature decreases and the humidity also increases, the heat retention effect by the nonwoven fabric and the dew condensation prevention effect by the moisture absorption of the hydrophilic nonwoven fabric are expressed. To do.
On the other hand, when the roll is stored in the daytime when the temperature rises, the water contained in the hydrophilic non-woven fabric has a spacer effect because it is integrated with parallel straight lines at almost equal intervals. It is quickly discharged through the network structure, almost recovers the dry state, and can be used again at night.
That is, when rolled and stored, the water contained in the hydrophilic non-woven fabric is pressed by being sandwiched between the film installed outside the network structure in contact with the hydrophilic non-woven fabric and the outermost surface film. Since the heat insulating material is discharged from the two integrated lines that are substantially parallel to each other, the non-woven fabric that is the heat insulating layer is not wetted, and the heat insulating effect is maintained even after repeated use.

It is an example (sectional drawing) of a structure of the agricultural house heat insulating material of this invention. It is an example (top view) of the structure of the agricultural house heat insulating material of this invention.

  Hereinafter, embodiments of the present invention will be described. Note that this embodiment is merely an embodiment for carrying out the present invention, and the present invention is not limited by this embodiment, and various modified embodiments can be made without departing from the gist of the present invention. Is possible.

  The agricultural house heat insulating material of the present invention is an agricultural house heat insulating material in which a resin film, a non-woven fabric, a resin film, a network structure and a hydrophilic non-woven fabric are laminated in order from the outside, and spaced apart by a plurality of parallel straight lines. It is characterized by being integrated.

  The outermost resin film used in the agricultural house heat insulating material of the present invention is not particularly selected as long as it is thermoplastic and has a certain degree of flexibility and strength, but from the viewpoint of availability, polyolefin such as polyethylene and polypropylene. Resin, polyvinyl chloride resin, polyester resin, etc. are mentioned. These films may be black for imparting endothermic properties, or may be added with an ultraviolet absorber for imparting light resistance.

  The non-woven fabric of the second layer from the outside is mainly used for developing a heat retaining effect, and is not particularly selected as long as it contains sufficient air, but a resin bond is preferably used.

  The third-layer resin film from the outside is used to separate the inner water-containing layer and the outer water-free layer. Therefore, it can be used if it is thin and has some strength.

  The network structure of the fourth layer from the outside is the same as that used as the supply spacer for the water treatment separation membrane. The supply spacer of the separation membrane for water treatment plays a role of efficiently supplying water to be treated to the separation membrane. This network structure is generally produced by integrally extruding a thermoplastic resin such as polyethylene or polypropylene.

The hydrophilic non-woven fabric of the fifth layer (the innermost layer) from the outside is l for absorbing water generated mainly from soil, plants, etc. of agricultural houses. A polyester spunbond is preferably used, although it is not particularly selected as long as the hydrophilic resin is a nonwoven fabric.
Here, when a highly hygroscopic / hygroscopic exothermic fiber (for example, Moiscare manufactured by Toyobo Co., Ltd.) is used in combination as a hydrophilic nonwoven fabric, the heat retaining effect is further enhanced.

  Adhesives, needle punches, pin sonic processing, etc. can be used to integrate the five layers described above, but pin sonic processing is preferably used because of its wide range of application and strength. . The pin sonic process is also called an ultrasonic quilt process, and is performed by bonding materials while fusing ultrasonic waves.

  The portions to which the five layers are bonded are linearly parallel to or perpendicular to the winding direction of the sheet-shaped heat insulating material and are substantially equally spaced. In this way, when the heat insulating material is wound up for storage, the water contained in the hydrophilic non-woven fabric layer flows through the outer net-like structure quickly and perpendicularly to the winding direction or in the winding direction. Is done. At this time, since a resin film is installed outside the network structure, water does not wet the outside (nonwoven fabric layer) even when it is wound up, and thus the heat retaining effect is maintained.

  EXAMPLES Hereinafter, although an Example demonstrates this invention further in detail, this invention is not limited to these Examples.

Example 1
In order, black vinyl chloride film (Mitsubishi Resin Agridream Co., Ltd.) thickness 100 μm, polyester non-woven fabric (resin bond, Kureha Tech Co., Ltd.) 100-150 g / m ² , polyethylene uniaxially stretched film (Toyo Seiki Plastic Processing Co., Ltd., product name) Hybron SMKU-Q) thickness 25 μm, network structure (spacer TSX-613N for water treatment separation membrane manufactured by Tokyo Ink Co., Ltd.), intersection thickness 0.45 mm, and hydrophilic polyester nonwoven fabric (spunbond, manufactured by Toyobo Co., Ltd.) 100 g / m ² The heat insulation sheet was obtained by integrating the two by cutting into a size of 2 m × 30 m and linearly pinsonic processing at intervals of 25 cm to 30 cm in the minor axis direction.

  When the thermal insulation sheet of Example 1 was affixed to the inner surface excluding the bottom of the greenhouse at night to test the thermal insulation effect and the condensation prevention effect, a sufficient thermal insulation effect and the condensation prevention effect were confirmed. Furthermore, it was confirmed that water was discharged from the end when the used heat insulating sheet was rolled up in the long axis direction.

DESCRIPTION OF SYMBOLS 1 Resin film 2 Nonwoven fabric 3 Resin film 4 Reticulated structure 5 Hydrophilic nonwoven fabric
6 Pin sonic processing part

Claims (4)

  An agricultural house heat insulating material in which a resin film, a non-woven fabric, a resin film, a network structure and a hydrophilic non-woven fabric are laminated in order from the outside, characterized by being integrated with a plurality of parallel straight lines at intervals. Agricultural house insulation.   The agricultural house heat insulating material according to claim 1, wherein the integration is performed by pin sonic processing.   The agricultural house heat insulating material according to claim 1 or 2, wherein the hydrophilic nonwoven fabric is a spunbond.   The agricultural house heat insulating material according to any one of claims 1 to 3, wherein the network structure is produced by integral extrusion molding.

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