JP3910193B2 - Agricultural covering materials and packaging materials - Google Patents

Description

Although the present invention has a metal thin film layer, the metallic luster does not stand out even when used for various textile products such as various garments and knitted fabrics, curtains, towels, parasols, coating materials, In addition, the present invention relates to a film yarn that can be seen through and can effectively block infrared rays (heat rays) and ultraviolet rays.
In addition, the present invention can be used to obtain the above-mentioned film yarn, and can be used by being bonded to various blind materials, window glass, etc., used as a coating material in the agricultural field, and in the industrial field. The present invention relates to a film that can be used as a covering material such as a cover material of an automobile or can be used as various packaging materials.

Conventionally, a plastic film is used by forming a metal thin film layer or a resin layer on the surface and bonding it to a blind material or window glass, etc., as a covering material in the agricultural field, or as an automobile cover material in the industrial field. It is used as a covering material, used as various packaging materials, or a plastic film is used to obtain a yarn by cutting it into strips.
In particular, a film yarn obtained by cutting a plastic film having an opaque metal thin film layer on the surface into a long and narrow shape has long been used as a gold and silver yarn.
However, since the gold and silver thread has an opaque metal thin film layer, it has a beautiful metallic luster and has an infrared shielding property and an ultraviolet shielding property. However, since it is opaque, a transparent film yarn has been demanded.
As a transparent film yarn, a flat antibacterial yarn obtained by cutting an antibacterial film provided with an antibacterial layer on a base film into an elongated shape is known (see Patent Document 1).
JP 2002-36447 A

However, the antibacterial yarn, which is a conventional transparent film yarn, has no metallic luster and has neither infrared shielding property nor ultraviolet shielding property.
Therefore, various textile products using the conventional transparent film yarn also have no metallic luster of the film yarn, and neither the infrared ray shielding property nor the ultraviolet ray shielding property of the film yarn.
INDUSTRIAL APPLICABILITY The present invention can provide a film yarn that is not opaque in spite of the presence of a metal thin film layer, can be seen through, has no metallic luster, and has an infrared shielding property and an ultraviolet shielding property, and the film yarn. The film is provided.

That is, the present invention
(1) A translucent film characterized by laminating at least a transparent plastic film, a translucent metal thin film layer, and an ultraviolet blocking layer.
(2) A translucent film, wherein a translucent metal thin film layer is formed on one side of a transparent plastic film, and an ultraviolet blocking layer is formed on the translucent metal thin film layer.
(3) A translucent metal thin film layer is formed on one side of a transparent plastic film, a protective layer is formed on the translucent metal thin film layer, and an ultraviolet blocking layer is formed on the other side of the transparent plastic film. It is a translucent film characterized.
(4) A translucent film in which a transparent plastic film is separately bonded to any of the translucent films described in (1) to (3) above.
(5) A translucent film yarn obtained by cutting one of the translucent films according to the above (1) to (4) into an elongated shape.

In the translucent film yarn and translucent film of the present invention, since the metal thin film layer is a translucent metal thin film layer, it can be seen through with transmitted light and has a metallic luster with reflected light. And since the metal thin film layer is a translucent metal thin film layer, the metallic luster is not so-called glaring metallic luster, but is inconspicuous metallic luster or soft metallic luster.
That is, the translucent film yarn and the translucent film have a so-called half mirror effect.
Further, the semi-transparent metal thin film layer has an infrared shielding property.
Furthermore, the translucent film yarn and translucent film of the present invention have an ultraviolet blocking property because an ultraviolet blocking layer is formed.
As described above, the translucent film yarn and translucent film of the present invention have both a half mirror effect, an infrared shielding property, and an ultraviolet shielding property.
In addition, the translucent film yarn and translucent film of the present invention have weather resistance since an ultraviolet blocking layer is formed.
If the translucent film yarn of the present invention is used for various textile products such as clothing, curtains, towels, parasols, and covering materials, the textile product has a half mirror effect of the translucent film yarn and an infrared of the translucent film yarn. It has both blocking properties and UV blocking properties of translucent film yarns.
And since the translucent film yarn itself used for the textile product has weather resistance, the textile product itself also has weather resistance by the translucent film yarn.
As described above, since the fiber product using the translucent film yarn of the present invention has both the infrared shielding property and the ultraviolet shielding property, the infrared ray is cut and the adverse effect on the human body due to the ultraviolet ray is prevented. Can be.
Further, when the translucent film of the present invention is used by being bonded to various blind materials or window glass, the blind material or window glass blocks infrared rays and ultraviolet rays.
Furthermore, if the translucent film of the present invention is used as a covering material in the agricultural field, used as a covering material such as a car cover material in the industrial field, or used as various packaging materials, Various things coated or packaged on the packaging material can be protected from infrared rays and ultraviolet rays.
Since the translucent film yarn and translucent film of the present invention are entirely translucent, they do not stand out when used for various textiles, blinds, window glass and the like.
Therefore, various textile products, blinds, window glass and the like using the present invention are not so much damaged in the design composed of the original colors and patterns.

The translucent film of the present invention can be obtained, for example, by forming a translucent metal thin film layer on one side of a wide and long transparent plastic film and forming an ultraviolet blocking layer on the translucent metal thin film layer.
Moreover, the translucent film yarn of the present invention can be obtained by cutting the translucent film obtained by the above method into strips.
The translucent film yarn and translucent film of the present invention have a cross-sectional structure such as the above-mentioned translucent film yarn and translucent film, in addition to a transparent plastic film / translucent metal thin film layer / ultraviolet blocking layer, It may be composed of an ultraviolet blocking layer / transparent plastic film / translucent metal thin film layer / protective layer.
The protective layer protects the semitransparent metal thin film layer.
The translucent film yarn and translucent film of the present invention may also have a cross-sectional structure in which a plastic film such as a polyethylene film is appropriately bonded to any of the above cross-sectional structures.

The translucent film yarn and translucent film of the present invention are translucent as a whole, and specifically are translucent film yarn and translucent film having a total light transmittance of 20 to 70%.
By making the translucent film yarn and the translucent film have a total light transmittance of 20 to 70%, the translucent film yarn and translucent film of the present invention have a half mirror effect.

The translucent film yarn of the present invention can be used for various textile products such as various garments, curtains, towels, parasols, coating materials made of woven fabrics and knitted fabrics.
The translucent film of the present invention can be cut into strips to obtain a translucent film yarn.
Furthermore, the translucent film of the present invention can be used by being bonded to various blind materials and window glass, used as a covering material in the agricultural field, and used as a covering material such as a car cover material in the industrial field. Or can be used as various packaging materials.

  As the transparent plastic film in the present invention, various transparent plastic films used for conventional film yarns such as a polyester film such as a polyethylene terephthalate film, a polyamide film such as a nylon 6 film, a polypropylene film and a polyethylene film can be used. .

The transparent plastic film may be uniaxially stretched, biaxially stretched or unstretched.
The thickness of the plastic film is 4 to 100 μm, preferably 6 to 50 μm.

A translucent metal thin film layer is formed on one side of a transparent plastic film.
The semitransparent metal thin film layer can be formed by a conventionally known thin film forming method such as a vacuum deposition method, a sputtering method, or an ion plating method.
For the semitransparent metal thin film layer, aluminum, silver, and other various known metals can be used.
The translucent metal thin film layer may be formed directly on one side of the transparent plastic film, or a so-called anchor coat layer is formed on one side of the transparent plastic film with an appropriate resin, and the translucent metal film layer is translucent on the anchor coat layer. A metal thin film layer may be formed.
The anchor coat layer is made of polyester, melamine, epoxy, acrylic, urethane, etc., using one or more conventionally known resins used for the anchor coat layer before forming the metal thin film layer. Can be formed.

The semitransparent metal thin film layer can be seen through with transmitted light and has a metallic luster with reflected light. As described above, the metallic luster due to the reflected light is not so-called glaring metallic luster, but is not noticeable metallic luster or soft metallic luster.
That is, since the metal thin film layer is a translucent metal thin film layer, the translucent film yarn and translucent film of the present invention have a so-called half mirror effect.
In addition, the translucent film yarn and translucent film of the present invention have infrared blocking properties due to the translucent metal thin film layer. In other words, so-called heat rays (infrared rays) are cut.

The semi-transparent metal thin film layer is a semi-transparent metal thin film layer having a total light transmittance of about 10 to 60% when formed on one side of a transparent plastic film directly or via an anchor coat layer.
Thus, when the total light transmittance in the state where the semitransparent metal thin film layer is formed on one side of the transparent plastic film is about 10 to 60%, the total light transmittance is 20 to 70% later. Transparent film yarn and translucent film can be obtained.
Later, when an ultraviolet blocking layer, a protective layer, etc. are formed on the semi-transparent metal thin film layer, the total light transmittance is increased. Therefore, in the stage before the ultraviolet blocking layer, the protective layer, etc. are formed, the semi-transparent film yarn and the semi-transparent film are formed. A semitransparent metal thin film layer having a total light transmittance lower than the target total light transmittance of the transparent film is formed.
And by making the total light transmittance of the translucent film yarn and the translucent film 20 to 70%, the translucent film yarn and the translucent film of the present invention have both the half mirror effect and the infrared shielding property. It will be.
When the total light transmittance of the translucent film yarn and the translucent film is lower than 20%, it is difficult to see through, and the metallic luster due to the reflected light is not soft, and the metallic luster tends to be glaring.
When the total light transmittance of the translucent film yarn and the translucent film is higher than 70%, the translucent film thread and the translucent film are almost transparent, and the metallic luster due to the reflected light is hardly produced. Moreover, it becomes difficult to obtain infrared shielding properties.

A translucent metal thin film layer is formed on one side of a transparent plastic film, and an ultraviolet blocking layer is formed on the translucent metal thin film layer.
Prior to the formation of the ultraviolet blocking layer, if necessary, a protective layer may be formed on the semitransparent metal thin film layer with an appropriate resin, and the ultraviolet blocking layer may be formed on the protective layer.
The protective layer can be formed using one kind or two or more kinds of conventionally known resins used for the protective layer of the metal thin film layer, such as polyester, melamine, epoxy, acrylic, and urethane.

  The translucent film yarn and translucent film of the present invention also have a translucent metal thin film layer formed on one side of a transparent plastic film, a protective layer formed on the translucent metal thin film layer, and the transparent plastic film. An ultraviolet blocking layer can also be formed on the other side.

  As described above, the translucent film yarn and translucent film of the present invention may have a cross-sectional structure of transparent plastic film / translucent metal thin film layer / (protective layer if necessary) / ultraviolet blocking layer, and ultraviolet blocking layer. / Transparent plastic film / Translucent metal thin film layer / Protective layer. Further, in the latter cross-sectional structure, in order to enhance the adhesion between the ultraviolet blocking layer and the transparent plastic film, an adhesion layer is formed between them, that is, the ultraviolet blocking layer / adhesion layer / transparent plastic film / half A transparent metal thin film layer / protective layer may be used, and such a layer is also included in the present invention. The adhesion layer can be formed of an appropriate resin.

The UV blocking layer is coated with a paint in which an appropriate UV shielding agent such as a conventionally known organic UV absorber or fine powder UV shielding agent is mixed in an appropriate resin by a conventionally known method such as gravure coating or reverse coating. Can be formed.
The ultraviolet blocking layer can also be formed by coating a resin containing an ultraviolet stable group bonded in the polymer molecular chain. In this case, it is even more preferable if the resin also contains an ultraviolet absorbing group.
The thickness of the ultraviolet blocking layer is 0.1 to 20 μm, and preferably 0.3 to 5 μm.

Examples of the organic ultraviolet absorber include 2-hydroxy-4-octoxybenzophenone, and examples of the fine powder type ultraviolet shielding agent include fine powders such as zinc oxide, cerium oxide, titanium oxide, and magnesium oxide. .
Examples of the resin mixed with an appropriate ultraviolet shielding agent such as an organic ultraviolet absorber or a fine powder ultraviolet shielding agent include polyester resins, polyurethane resins, acrylic resins, epoxy resins, urea resins, melamine resins, etc. Is exemplified.
The mixing amount of the ultraviolet shielding agent is not particularly limited and can be appropriately selected depending on the application, use place, use method, etc. Usually, about 0.1 to 20% by weight is common.

The translucent film yarn of the present invention can be obtained by, for example, cutting the translucent film of the present invention into an elongated shape as described above.
The width of the translucent film yarn is preferably about 0.1 mm to 30 mm.
A translucent film yarn having a width of 0.1 to 30 mm is suitable for use in various textile products.
However, the present invention does not limit the width of the translucent film yarn, and the width of the translucent film yarn can be appropriately selected depending on the application.
The width of the translucent film is preferably about 30 mm to 2000 mm.
Translucent film with a width of 30mm to 2000mm can be used by bonding to various blind materials and window glass, etc., used as a covering material in the agricultural field, and used as a covering material for automobile cover materials in the industrial field. And suitable for use as various packaging materials.
However, the present invention does not limit the width of the translucent film, and the width of the translucent film can be appropriately selected depending on the application.

The translucent film yarn of the present invention can be used for various textile products such as various garments, curtains, towels, parasols, coating materials made of various woven fabrics and knitted fabrics.
As described above, the translucent film of the present invention can be cut into strips to obtain a translucent film yarn.
Moreover, the translucent film of the present invention is used by being bonded to various blind materials and window glass, used as a covering material in the agricultural field, and used as a covering material such as a car cover material in the industrial field. Or can be used as various packaging materials.

A transparent anchor coat layer with a thickness of 0.2 μm is formed by coating a polyester resin on one side of a transparent polyethylene terephthalate film having a width of 665 mm and a length of 12 μm, and a vacuum is formed on the anchor coat layer. A translucent aluminum vapor deposition layer was formed by vapor deposition. The total light transmittance in this state was 13%.
Next, an acrylic resin mixed with 5% by weight of zinc oxide fine powder as an ultraviolet shielding agent is coated on the aluminum deposition layer to form a transparent ultraviolet shielding layer having a thickness of 1.5 μm. A transparent film was obtained.
The translucent film obtained had a total light transmittance of 25%.
Next, the obtained translucent film was cut into a thin strip having a width of about 0.8 mm to obtain a translucent film yarn of the present invention.

A transparent anchor coat layer with a thickness of 0.2 μm is formed by coating a polyester resin on one side of a transparent polyethylene terephthalate film having a width of 665 mm and a length of 12 μm, and a vacuum is formed on the anchor coat layer. A translucent aluminum vapor deposition layer was formed by vapor deposition. The total light transmittance in this state was 50%.
Next, an acrylic resin is coated on the aluminum vapor deposition layer to form a protective layer having a thickness of 1.5 μm. On the other side of the transparent polyethylene terephthalate film, 5 wt. A transparent ultraviolet blocking layer having a thickness of 1.5 μm was formed by coating the acrylic resin mixed with% to obtain a translucent film of the present invention.
The translucent film obtained had a total light transmittance of 65%.
Next, the obtained translucent film was cut into a thin strip having a width of about 0.3 mm to obtain a translucent film yarn of the present invention.

A transparent anchor coat layer with a thickness of 0.2 μm is formed by coating a polyester resin on one side of a transparent polyethylene terephthalate film having a width of 665 mm and a length of 12 μm, and a vacuum is formed on the anchor coat layer. A translucent aluminum vapor deposition layer was formed by vapor deposition. The total light transmittance in this state was 30%.
Next, a resin (UV-G301 manufactured by Nippon Shokubai Co., Ltd.) having a sterically hindered piperidine residue as a resin having a UV-stable group is coated on the aluminum vapor-deposited layer. Thus, a transparent ultraviolet blocking layer having a thickness of 1.5 μm was formed to obtain a translucent film of the present invention.
The obtained translucent film had a total light transmittance of 45%.
Next, the obtained translucent film was cut into a strip having a width of about 1.0 mm to obtain a translucent film yarn of the present invention.

A translucent aluminum deposition layer was formed on one side of a transparent polyethylene terephthalate film having a width of 665 mm and a length of 12 μm by vacuum deposition. The total light transmittance in this state was 50%.
Next, a polyester-type resin is coated on the aluminum vapor deposition layer to form a transparent protective layer having a thickness of 0.2 μm, and a sterically hindered piperidine residue as a resin having an ultraviolet-stable group is formed on the protective layer. Using a resin (GP1034 manufactured by Nippon Shokubai Co., Ltd.) having a bond in the resin, a transparent UV blocking layer having a thickness of 1.2 μm is formed by coating the resin, and the translucent film of the present invention is formed. Obtained.
The translucent film obtained had a total light transmittance of 65%.
Next, the obtained translucent film was cut into a thin strip having a width of about 0.5 mm to obtain a translucent film yarn of the present invention.

Claims (6)

An agricultural covering material comprising a translucent film in which a translucent metal thin film layer is formed on one side of a transparent plastic film and an ultraviolet blocking layer is formed on the translucent metal thin film layer . It consists of a translucent film in which a translucent metal thin film layer is formed on one side of a transparent plastic film, a protective layer is formed on the translucent metal thin film layer, and an ultraviolet blocking layer is formed on the other side of the transparent plastic film. An agricultural covering material characterized by the above. The agricultural covering material which bonded the transparent plastic film separately to the agricultural covering material of Claim 1 or 2 . A packaging material comprising a translucent film in which a translucent metal thin film layer is formed on one side of a transparent plastic film and an ultraviolet blocking layer is formed on the translucent metal thin film layer . It consists of a translucent film in which a translucent metal thin film layer is formed on one side of a transparent plastic film, a protective layer is formed on the translucent metal thin film layer, and an ultraviolet blocking layer is formed on the other side of the transparent plastic film. A packaging material characterized by that . The packaging material which bonded the transparent plastic film separately to the packaging material of Claim 4 or 5.