JPH11115104A - Heat sealable cover material with light shielding properties - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cover material which can be inspected by a metal detector with excellent disposal characteristics while preventing change of properties of content food due to ultraviolet and visible rays by constituting by paper and plastic as main bodies without using aluminum foil or aluminum deposited film, and forming a light shielding layer by using printing ink. SOLUTION: First, a light shielding print layer 14 is formed on a PET film 11b to become an intermediate layer by using printing ink. Then, a front surface PET film 11a and the film 11b formed with the layer 14 are laminated on both surfaces of paper 13 with adhesive 12 to manufacture a light shielding laminated material. Further, after a PO layer 19 is formed at the film 11b side of the intermediate layer by a melt extrusion method or the like, a hot melt layer 16 is formed by a melt gravure coating method or the like to manufacture the heat sealable cover material 1 having light shielding properties. Light transmittance of the layer 14 is set to 18% or less in all wavelength range of 200 to 800 nm.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat-sealing lid material used mainly for a plastic molded container or the like made of a single sheet or a laminated sheet of polypropylene, polystyrene, polyethylene or the like. Except for metals such as aluminum foil, it is composed of a material mainly composed of paper and plastic film, and is a heat-sealing lid material that uses a printing ink to form a light-shielding layer instead of a light-shielding layer such as an aluminum vapor-deposited film. is there. Then, by blocking ultraviolet rays and visible light, the contents of the package are prevented from being deteriorated by light.

[0002]

2. Description of the Related Art Conventionally, in foods using oil such as snack foods, deterioration of contents due to oxidation of oil during storage or distribution process has been a serious problem. In particular, when packaged food is displayed at a store, oxidation of oil is promoted by sunlight, fluorescent light, or the like. As a method for preventing the oxidation, a packaging material having a light-shielding property is used. As a light-shielding packaging material, biaxially stretched polyethylene terephthalate (hereinafter referred to as P
A packaging material in which aluminum is deposited on a plastic film such as a film having a thickness of 40 to 50 nm on a plastic film such as a film, and a base material such as paper or a plastic film is laminated thereon is used. Further, as a packaging material for completely shielding light, a packaging material in which an aluminum foil is laminated with various base materials such as paper and a plastic film is also used.

[0003]

However, a lid material using an aluminum vapor-deposited film or aluminum foil has excellent gas barrier properties and light shielding properties, but separates aluminum from the packaging material when discarded after use. It is very difficult. Therefore, the laminated material obtained by laminating paper cannot be recycled, and is incinerated at present. Further, the aluminum foil or the vapor-deposited aluminum thin film in the laminated material remains as aluminum even after the incineration treatment, and there is a problem in the incineration treatment. In addition, when the contents of the package are food, inspection for foreign substances is performed by a metal detector as part of quality control.However, inspection using a metal detector cannot be performed for packaging materials using aluminum foil or aluminum evaporated film. There are also problems.

In order to solve these problems, the present invention does not use an aluminum foil or an aluminum vapor-deposited film as a heat-sealing lid material, but uses paper and plastic as main components, and a light-shielding layer is formed of printing ink. To prevent deterioration of the content of the food due to ultraviolet light and visible light, and to provide a lid material that is excellent in disposability and can be inspected by a metal detector.

[0005]

Means for Solving the Problems In order to solve the above problems, the layer structure of the heat-sealing lid material is as follows. In a heat-sealing lid material provided with an adhesive layer on one surface of a base sheet formed by laminating a biaxially stretched plastic film via an adhesive on both sides of paper, the biaxially stretched plastic film of the base sheet Among them, the biaxially stretched plastic film of the intermediate layer on the adhesive layer side has a light transmittance of 200 to 800
A heat-sealing lid material having a light-shielding property, characterized in that a light-shielding layer of 8% or less was provided in all wavelength regions of nm. The heat-sealing lid material having a light-shielding property is characterized in that the adhesive layer is an easy-peeling resin layer or a hot-melt layer. Further, the heat-sealing lid material having a light-shielding property is characterized in that the light-shielding layer is a light-shielding layer formed on one or both sides of a biaxially stretched plastic film as an intermediate layer using a printing ink. Further, the light-shielding layer is a light-shielding layer formed by using any one of the printing inks of purple ink, dark brown ink, and red-brown ink, and formed into three layers by overprinting the three color inks. A heat-sealing lid material having a light-shielding property, which is a light-shielding layer.

That is, as a heat-sealing lid used for a plastic molded container or the like, the lid is made of a material mainly composed of paper and plastic except aluminum foil or an aluminum vapor-deposited film from the constituent materials of the lid, and is made of an aluminum vapor-deposited film or the like Instead of the light-shielding layer described above, a light-shielding layer is formed by using printing ink to form a heat-sealing lid material having light-shielding properties. The heat-sealing lid material is formed by laminating a biaxially stretched plastic film such as a biaxially stretched polyethylene terephthalate film (PET film) on both sides of a paper via an adhesive, and forming an easy-peelable resin layer on one side of the laminated sheet. Alternatively, it is produced by forming a hot melt layer via a polyolefin resin layer, but the above configuration is insufficient in light-shielding properties, so that a biaxially stretched plastic film of the intermediate layer has a light-shielding printing layer with a printing ink. And the light transmittance of the light shielding layer is 2
The light-shielding property is imparted to the heat-sealing lid material so as to be 8% or less in all wavelength ranges from 00 to 800 nm.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic sectional view showing an example of a heat-sealing lid material having a light-shielding property of the present invention. FIG. 2 is a schematic cross-sectional view showing another embodiment of the heat-sealing lid material having light-shielding properties of the present invention, in which the adhesive layer is a hot melt layer. FIG. 3 is a schematic sectional view of still another embodiment of the heat-sealing lid material having a light-shielding property according to the present invention, in which the adhesive layer is an easy-peeling resin layer. FIG. 4 is an explanatory view for producing a heat-sealing lid material having a light-shielding property of the present invention. FIG. 5 is an explanatory view when the heat-sealing lid material having a light-shielding property of the present invention is manufactured according to the first embodiment. FIG. 6 is an explanatory view when the heat-sealing lid material having a light-shielding property of the present invention is manufactured according to the second embodiment. FIG. 7 is an explanatory diagram for testing the oxidation of oil using the heat-sealing lid material having light-shielding properties of the present invention.

The present invention mainly relates to a heat-sealing lid material used for a plastic molded container or the like made of a single or laminated sheet of polypropylene, polystyrene, polyethylene, or the like. Without using metal materials such as vapor-deposited films, mainly composed of paper and plastic,
Instead of the aluminum foil or the aluminum vapor-deposited film, a light-shielding printing layer is formed using a printing ink as a light-shielding layer to form a heat-sealing lid material having a light-shielding property.

That is, as shown in FIG. 1, a PET film is used as a biaxially stretched plastic film as a heat-sealing lid material, and a PET film 11a of a surface layer and a PET film 11b of an intermediate layer are provided on both sides of a paper 13. Adhesive 12
To be laminated. A light-shielding printing layer 14 is formed on the PET film 11b as an intermediate layer of the laminated sheet with printing ink, and the light-shielding printing layer has a light transmittance of 200 to 800 n.
The light-shielding property is imparted to the heat-sealing lid material so as to be 8% or less in all the wavelength ranges of m. Furthermore, on the PET film 11b surface of the intermediate layer on which the light-shielding print layer 14 is formed,
Adhesive layer 15 with easy peel properties and material of molded container
To form a heat-sealing lid material 1 having a light-shielding property.

As shown in FIG. 2, a polyolefin-based resin layer 19 (hereinafter referred to as a PO layer) is formed as an easy-adhesion layer, and then a hot melt is applied to the hot-melt layer 16 as an easy-peeling adhesive layer. And Figure 3
As shown in FIG. 2, there is a laminate in which an easy-peeling resin is laminated to form an easy-peeling resin layer 17. The adhesive layer having easy peelability is not limited to the above, and any material having easy peelability with the molded container can be used. As the heat-sealing lid material having a light-shielding property, a material in which a pattern is printed on the back surface of the PET film 11a of the surface layer is usually used, and a pattern layer is formed on the surface of the PET film 11a of the surface layer. However, an overprint layer formed thereon may also be used.

During storage or distribution, foods using oils such as snack foods may be oxidized by oxygen and light in the air and deteriorate to such an extent that they lose commercial value. In particular, since the oxidation of oil is promoted by light, materials that do not transmit light are used as these packaging materials. Ultraviolet light has a large effect on the oxidation of oil, but not only ultraviolet light, but also visible light promotes oxidation, so as a packaging material for oil-based foods, not only ultraviolet light, It is necessary to block the visible light.

Since paper shields light better than plastic, paper is often used as a light shielding layer. However, as the shielding layer, for example, kraft paper [basis weight 80 g /
When m ² ] is used, ultraviolet rays are well absorbed, but visible light has a transmittance of about 5 to 6%. Even the light transmittance of about 5 to 6% has an effect on the oxidation of the oil, so that the light transmittance of the packaging material should be 20 in order to minimize the influence of light.
In the entire wavelength region of 0 to 800 nm, it is necessary to suppress the amount to 0.5% or less. That is, in order to absorb about 5 to 6% of the light transmitted from the paper and suppress the light transmittance to 0.5% or less, a light-shielding printing layer is provided on the PET film using a printing ink, and the light-shielding printing layer is provided. If the light transmittance of the printing layer is set to 8% or less, the light transmittance of the laminated material is theoretically 6 / by laminating the paper and the PET film provided with the light shielding printing layer.
100 × 8/100 = 48/10000, that is, 0.48
%, Which satisfies 0.5% or less.

Since the light transmittance varies depending on the color of the coloring ink forming the light-shielding printing layer, a coloring ink having a light transmittance of 8% or less was selected by experiments. That is, when a solid printing was performed on a PET film using a gravure printing plate having a plate depth of 30 μm to form a printing layer so that the coating amount was 1.5 g / m ² , the light transmittance of the printing layer was 200 g / m ^2. ~ 8
A coloring ink was selected so that the content was 8% or less in the entire wavelength region of 00 nm. As a result, the purple ink (8
%), Dark brown ink (6%), reddish brown ink (5%),
The object of the present invention can be achieved when the black ink (2.5%) (the light transmittance in the parentheses) is 8% or less.
However, black ink has a problem in appearance when used as a packaging bag. In the present invention, the above-described three colors of printing ink except for black ink are used. Further, by overprinting the above three colors as a light-shielding layer, the light transmittance becomes 0.05% or less, and the influence of light on oil oxidation can be eliminated. The order of the overprinting of the three colors is not particularly limited, and various combinations can be performed according to the use of the packaging material.

Next, a method of manufacturing the heat-sealing lid material having light-shielding properties of the present invention will be described. First, as shown in FIG. 4A, a PET film 11a to be a surface and paper 13 are laminated using an adhesive 12, thereby producing a laminated material of paper and PET film. In this case, the PET film 11
It is also possible to print a pattern on the back side of a, and provide a pattern printing layer between the PET film 11a and the paper 13. Also, P
In some cases, a pattern printing layer is provided on the surface of the ET film 11a, and an overprint layer is formed thereon to form a laminate of paper and a PET film. On the other hand, as shown in FIG. 4B, a light-shielding PET film 2 is formed by providing a light-shielding printing layer 14 using a coloring ink on a PET film 11b serving as an intermediate layer. As described above, this light-shielding printing layer 14
Although it may be formed in one color, it is more preferable to form it in two colors or three colors because the light transmittance can be kept low.

Next, as shown in FIG. 4 (c), the PET film 11b having the light-shielding print layer formed thereon is
The laminated film of the T film is laminated on the paper side with an adhesive, and the PET film 11a and the PET film 1 are laminated on both sides of the paper 13.
A light-shielding laminated material 3 in which 1b is laminated is produced. Further, on the PET film 11b side of the intermediate layer of the light-shielding laminate 3,
As shown in FIG. 4D, after the PO layer 19 is formed in order to improve the adhesiveness of the hot melt, the hot melt layer 1 is formed.
6 to form a heat-sealing lid material 1 having a light-shielding property.

The paper used in the present invention has rigidity as a base material, has a uniform thickness, is excellent in smoothness, and has excellent flatness (no curl). It is preferable to use a material which has a high interlayer strength and the like, easily penetrates the adhesive, and can enhance the strength between fibers and between layers.
As the paper having such properties, for example, in the case of commercially available paper, kraft paper is preferable, and particularly, glazed bleached kraft paper is suitable.

Conventionally, when paper is used for the lid material, since the paper is used for the outermost layer, printability is also required, and coated paper or the like has been used. However, in the lid material of the present invention, it is more preferable to use a biaxially stretched plastic film for the surface layer and to print on this plastic film in a reverse printing form in terms of enhancing the printing effect. Since there is no printability, printability is not particularly required. Further, in the case of coated paper, the heat resistance and solvent resistance of the coated layer are not so strong, so that there is a risk of peeling of the coated layer, and the permeation of the adhesive into the paper layer is hindered.
Similarly, when printing is performed on the paper side, the printed layer is not preferable because the penetration of the adhesive into the paper layer is hindered, and the strength of the paper layer by the adhesive is reduced. However, in order to sharpen the picture etc. printed on the film and further enhance the printing effect,
The paper on the back side is preferably white, and from this point, a single-glazed bleached kraft having been subjected to bleaching treatment is more suitable. Also,
Synthetic paper other than paper may be used as the base material of the lid, depending on the application.

The thickness of the paper is 30 to 110 g / basis.
m ² is preferable, and 60 to 90 g / m ² is more preferable. When the basis weight is less than 30 g / m ² , the rigidity is insufficient, and when the basis weight is more than 110 g / m ² , the rigidity is already sufficient and there is no need for further rigidity, and rather, the conditions of the heat seal become severe. Therefore, the danger of swelling increases, and the interlayer strength of the paper tends to decrease.

The biaxially stretched plastic film used in the present invention covers the surface of the paper to improve the water resistance, and also minimizes the expansion and contraction of both sides and prevents the occurrence of curl by maintaining a balance. It is used to improve mechanical strength such as tensile strength and heat resistance, and to cleanly peel off the entire lid together with the easy-peeling sealant layer without breaking the paper layer at the time of opening. Therefore, in addition to mechanical strength, it is necessary to have excellent water resistance, heat resistance, and dimensional stability. Specifically, biaxially oriented polyester films such as biaxially oriented polybutylene terephthalate film and biaxially oriented polyethylene terephthalate film , Biaxially stretched nylon film,
Biaxially oriented polypropylene and the like can be preferably used,
Among them, a biaxially stretched polyethylene terephthalate film is particularly preferred. If it is desired to further add a gas barrier property to the cover material, these biaxially stretched plastic films may be coated with polyvinylidene chloride, or an inorganic thin film such as silicon oxide may be provided by vapor deposition or the like.

The printing ink used in the present invention includes:
As the ink for printing the picture layer, any conventional printing ink can be used, but the ink for printing the light-shielding printing layer is required to have excellent light-shielding properties. That is, when using a gravure printing plate having a plate depth of 30μ, solid printing was performed on a PET film, and a printing layer was formed such that the coating amount was 1.5 g / m ² ,
The light shielding property is required so that the light transmittance of the printing layer is 8% or less in the entire wavelength region of 200 to 800 nm. As an ink satisfying these light-shielding performances, a purple ink, a dark brown ink, and a red-brown ink, which exhibit an excellent shielding effect against ultraviolet light and visible light, are preferable. still,
Although black ink shows excellent light-shielding properties, it cannot be used when used for a lid material because it is undesirable in appearance.

The method of laminating the biaxially stretched plastic film on both sides of the paper includes a dry laminating method using a conventionally known two-component reactive adhesive, a laminating method using a non-solvent type adhesive, or An extrusion lamination method using a polyolefin resin such as polyethylene instead of an adhesive can be used. In the present invention, a dry lamination method is most preferable in terms of performance and economy. That is, by using a dry laminating method, and by increasing the amount of adhesive applied than in the case of laminating the films, the adhesive also penetrates between the fibers and between layers of the paper, and fixes it, Because the moisture content of the paper can be reduced by the heat of drying, the surface strength and interlayer strength of the paper are strengthened simultaneously with the adhesion between the film and the paper. Has the effect of preventing delamination of the layers.

As the adhesive used in the dry laminating method, for example, a polyurethane-based two-component reactive adhesive or the like can be used, and its coating amount is 3.0 to 8.0 g / m in solid content.
² is preferable, and 4.0 to 5.0 g / m ² is more preferable. When the coating amount is less than 3.0 g / m ² , the adhesive does not easily penetrate the paper, and the interlayer strength of the paper is not sufficiently enhanced.
It is not preferable because a high-temperature seal easily causes swelling. On the other hand, when the coating amount is more than 8.0 g / m ² , so-called laminating wrinkles easily occur, which is not preferable.

The easily peelable adhesive layer used in the present invention is not particularly limited, and any conventionally known materials can be used as long as the material has easy peelability with the molded container. That is, when a hot-melt material is used as the easy-peelable adhesive layer, as shown in FIG. 2, in order to improve the adhesiveness with the PET film of the intermediate layer, first, a base sheet (light-shielding laminate) is used. An easy-peel adhesive layer can be formed by providing an easy-adhesion layer made of a polyolefin-based resin on the PET film surface by extrusion coating or the like, and then applying a hot-melt material thereon by melt gravure coating or the like.

In the above, in addition to polyethylene, the polyolefin resin of the easy-adhesion layer has an ethylene component of 80 to 95% by weight based on the total amount of the resin, and the remaining 20 to 5%.
For example, a copolymer resin composed of a carboxylic acid or an ester component thereof by weight% can be used. As the carboxylic acid, acrylic acid, methacrylic acid and esters thereof are preferable.

For the hot melt layer provided on the polyolefin resin layer, it is preferable to use a sealant having an easy peel property widely for containers made of different materials such as polypropylene, polystyrene and polyethylene. From this point, for example, vinyl acetate content 1
30 to 40% by weight of ethylene-vinyl acetate copolymer
５０50% by weight and waxes (microcrystalline wax alone or a mixture of this and other waxes)
Resins or the like constituted by melt-mixing in a range of 0% by weight and 15 to 30% by weight of a tackifier and, if necessary, up to 10% by weight of other additives can be used.

As the tackifier, hydrogenated rosin, rosin resin, petroleum resin, terpene resin, cumarone resin
Indene / styrene-based resin, isoprene-based resin, etc. can be used and can be appropriately selected from these. Other additives include lubricants, anti-blocking agents, heat stabilizers, and the like. Examples of lubricants and anti-blocking agents include fatty acid esters, amides, amines, and fine powders of inorganic compounds. As the heat stabilizer, butylhydroxytoluene, tocopherols, n-octadecyl-β (4 ′
-Hydroxy 3 ', 5-di-t-butylphenyl) propionate; Suitable ones can be selected and used from these known ones.

The hot melt layer can be formed by a melt extrusion coating method or the like in addition to a melt gravure coating method in which a hot melt material heated and melted is applied by a gravure cylinder. Is preferred. The coating amount is 10 g / m ^{2 to} 40 g /
The range of m ² is preferable, and usually about ²⁰ to 30 g / m ² .

As a method of providing an easy-peeling sealant layer on a base sheet (light-shielding laminated material), there is a method using an easy-peeling resin in addition to the method using the hot-melt material described above. As the easy-peeling resin, for example, a resin blended with a polyolefin-based resin and a styrene-based resin, or a resin blended with a polyolefin-styrene copolymer, and the like,
A resin obtained by blending a tackifier (same as the constituents of the hot melt material) or the like with a polyolefin resin such as an ethylene-vinyl acetate copolymer can be used.

The method of laminating these resins on a base sheet (light-shielding laminated material) is as follows. The resin is formed into a film in advance by an extrusion method using a T-die or an inflation method, and the film is formed using an adhesive. By dry lamination, or by laminating the film by extrusion lamination using polyethylene or other polyolefin-based resin as an adhesive layer, and further, anchor coating (primer coating) as an adhesive layer on a base sheet.
After that, there is a method of directly extruding and coating the easy-peeling resin, and laminating, and any method may be used.

[0030]

Hereinafter, the present invention will be described in more detail with reference to examples. (Example 1) As shown in FIG. 5A, a picture printing layer is formed by gravure printing on the back surface of a 12 μm thick PET film 11a (“T-6142” manufactured by Toyobo Co., Ltd.) having antistatic properties. 18 was formed. On the other hand, as shown in FIG.
Using a gravure ink described below, a 12 μm-thick PET film 11b (both sides manufactured by Toyobo Co., Ltd., “T-4200”) that had been subjected to double-side processing was printed in three colors in the order of purple, dark brown, and red brown as a light-shielding print layer. , The coating amount is 1.5 g /
As will become m ^2, purple printing layer 14a, focus brown printed layer 1
4b, a red-brown printed layer 14c was formed to produce a light-shielding PET film 2. -Purple ink: "MG-21" manufactured by The Inktech Co., Ltd.
41 base "-Dark brown ink:" MG-2 "manufactured by The Inktech Co., Ltd.
181 base ”・ Red-brown ink:“ MG-2 ”manufactured by The Inktech Co., Ltd.
179 Base "

Next, a single-gloss bleached kraft having a basis weight of 80 g / m ² was used as the paper, and as shown in FIG.
On both sides of a two-component reactive polyurethane adhesive 12 (a mixture of Takerac A-969T (base agent) and Takenate A-5 (curing agent) manufactured by Takeda Pharmaceutical Co., Ltd. at a weight ratio of 3: 1). PET film 11 having a pattern printing layer 18 formed thereon
a and a light-shielding PET film 2 on which a light-shielding printing layer was formed, to produce a light-shielding laminate 3 in which PET films were laminated on both sides of paper.

Next, as shown in FIG. 5 (d), after an anchor coat is applied to the PET film 11b side of the light-shielding laminate 3, an ethylene-methacrylic acid copolymer (Mitsui-Dupont Chemical Co., Ltd.) is used as a polyolefin resin. (stock)
"Nucrel 1108C") is laminated to a thickness of 20 .mu.
9 and hot-melt material (“Topco H-300” manufactured by Toyo Petrolite Co., Ltd.) is further applied thereon by a melt gravure coating method so that the coating amount becomes 25 g / m ^2. The melt layer 16 was formed, and the heat-sealing lid material 1 having a light shielding property was produced.

(Embodiment 2) As in Embodiment 1, FIG.
As shown in (a), a PET film 11a having a pattern printing layer 18 formed on both sides of a paper 13 using an adhesive 12
Then, a PET film 11b on which a purple print layer 14a, a dark brown print layer 14b, and a red-brown print layer 14c were formed as light-shielding print layers was laminated to produce a light-shielding laminated material 3. Next, as shown in FIG. 6B, an easy-peeling resin film 17 having a thickness of 30 μm was formed on the PET film 11b side of the light-shielding laminate 3 on which the light-shielding printing layer was formed, as an easy-peeling adhesive layer. (“CMPS-011” manufactured by East Cero Chemical Co., Ltd.
C)) was laminated with a dry laminator using the same adhesive 12 as in Example 1 to produce a heat-sealing lid material 1 having light-shielding properties. In addition, the easy-peelable resin film (“CMPS-011C” manufactured by Tocelo Chemical Co., Ltd.) is a known easy-peelable resin using a resin obtained by blending a tackifier or the like with an ethylene-vinyl acetate copolymer. It was made into a film by the method.

Example 3 A 12 μm thick PET film 1 which had been subjected to a double-sided treatment using the purple ink used in Example 1
In 1b, a light-shielding printing layer of one-color printing (a coating amount of 1.5 g /
A heat-sealing lid material having a light-shielding property was produced in the same manner as in Example 1 except that m ² ) was formed. (Example 4) Using the dark brown ink used in Example 1,
A heat-sealing lid having a light-shielding property in the same manner as in Example 1 except that a light-shielding printing layer (a coating amount of 1.5 g / m ² ) for one-color printing was formed on a PET film 11 b having a thickness of 12 μm that had been subjected to a double-sided treatment. Materials were produced. (Example 5) Using the reddish brown ink used in Example 1,
A heat-sealing lid having a light-shielding property in the same manner as in Example 1 except that a one-color printing light-shielding printing layer (a coating amount of 1.5 g / m ² ) was formed on a PET film 11b having a thickness of 12 μm that had been subjected to a double-sided treatment. Materials were produced.

As a comparative example, a light-shielding printing layer (a coating amount of 1.5 g / m ² ) was formed on a 12 μm-thick PET film 11 b which had been subjected to a double-side treatment, using the following printing inks. In the same manner as in the above, a heat-sealing lid material was produced. Comparative Example 1 A light-shielding print layer was formed using a brown ink (“MG-2171 base” manufactured by The Inktech Co., Ltd.). (Comparative Example 2) A light-shielding print layer was formed using a dark blue-colored brown ink (“MG-2185 base” manufactured by The Inktech Co., Ltd.). (Comparative Example 3) A light-shielding printing layer was formed using a silver ink (“MG-2191 base” manufactured by The Inktech Co., Ltd.). (Comparative Example 4) formed brown ink used in Comparative Examples 1, light-shielding printed layer 3 color superimposition I printing a brown ink and silver ink navy system (coating amount 1.5 g / m ² for each color) did.

(Light transmission test of light-shielding layer) In Examples 1 to 5 and Comparative Examples 1 to 4, when a light-shielding printing layer was formed on a PET film by using a printing ink, the spectrophotometer ( "UV-26" manufactured by Shimadzu Corporation
0 "), the light transmittance at a wavelength of 200 to 800 nm was measured. In the wavelength region of 200 to 800 nm, the ultraviolet region of 400 nm or less does not transmit through any of the light-shielding layers, so that the transmittance at the wavelength having the largest transmittance in the visible light region was shown. The results are as shown in Table 1. The light-shielding layers formed with the printing inks of the examples each had a light transmittance of 8% or less, thereby achieving the object of the present invention. Furthermore, the light-shielding layer obtained by overprinting three colors was 0.1% or less, and exhibited excellent light-shielding properties. On the other hand, the light-shielding layers formed with the printing inks of the comparative examples all have a transmittance of 10%.
% Or more, and the light-shielding properties were not sufficient.

[0037]

[Table 1]

(Oxidation Test of Oil) Using the heat-sealing lids produced in Examples 1 to 5 and Comparative Examples 1 to 4, the oxidation of oil was tested as follows. [Test 1] The heat-sealing lid material prepared in Examples 1 to 5 and Comparative Examples 1 to 4 was processed so as to cover a 9 cmφ glass petri dish as shown in FIG. The processed lid material 21 was used. Next, as shown in FIG.
10 m of salad oil 23 on a glass Petri dish 22 cmφ
Then, as shown in FIG. 7 (c), the processed lid material 21 was put on this, and a test sample was prepared. This test sample was
Under a fluorescent lamp at a temperature of 150 ° C., the peroxide value (POV) of the salad oil after 30 days was measured by a known method at a position where the illuminance became 1500 lux. Five identical samples were prepared for each test plot, and the peroxide value (POV) was indicated by the average value of the five samples.

The test results are shown in Table 2. The heat-sealable lid material prepared in the examples has a lower peroxide value of salad oil and a lower oil sealability than the heat-sealable lid materials prepared in the comparative examples. There was a clear difference in antioxidant. The initial POV of the salad oil was 2.0 meq / kg. Therefore, the heat-sealing lid material having a light-shielding property of the present invention can be expected to show an excellent effect in preventing oxidation of oil.

[0040]

[Table 2]

[Test 2] Examples 1 to 5 and Comparative Examples 1 to 4
The heat-sealable lid material prepared in the above was punched into a predetermined size to obtain a cup-shaped instant noodle lid material. Next, the instant noodles prepared using oil were placed in a round cup made of styrene, and the lid was sealed by heat sealing to prepare a test sample. Next, five identical samples were prepared for each test section, and stored at 37 ° C. under fluorescent light for 30 days in a position where the illuminance of the lid surface became 1500 lux. , △, ×. ：: Good without oxidation of oil △: Slight odor due to oxidation of oil and slightly bad ×: Oxidation of oil, poor odor and lower commercial value

The test results are shown in Table 3. When the heat-sealing lid material prepared in the example was used, the oxidation of the oil was not advanced as compared with the comparative example, and a good result was shown. Was. In particular, in Examples 1 and 2 in which three colors were overprinted as a light-shielding layer, almost no deterioration of instant noodles was observed. On the other hand, in Comparative Examples 1 and 3 in which the light-shielding layer was formed in one color,
The oxidation of the oil progressed, the odor worsened, and the commercial value was reduced. Also, in the case of Comparative Example 2, the oil was oxidized to give an odor, which was slightly defective. However, in the case of Comparative Example 4 in which the light-shielding layer was formed in three colors, the oxidation of oil was relatively suppressed, and the instant noodles were less deteriorated.

[0043]

[Table 3]

[0044]

According to the present invention, a heat-sealing lid used for a plastic molded container or the like is made of a material mainly composed of paper and plastic except aluminum foil and an aluminum vapor-deposited film from the constituent materials of the lid. However, since the light-shielding layer replacing the aluminum vapor-deposited film or the like is formed by using printing ink, disposal after use is easy, and there is no problem of disposal as a packaging material. In addition, since metals such as aluminum foil and aluminum evaporated film are not used,
In the case where the contents of the package are food, foreign substance inspection using a metal detector, which is performed as part of quality control, can be performed.
Further, the light-shielding layer formed using the printing ink is selected so that the light transmittance is 8% or less in all the wavelength regions of 200 to 800 nm, and the light transmittance of the entire lid material is reduced. Since the content is suppressed to 0.5% or less, even if the food using the oil is displayed in a store under a fluorescent lamp, the oxidation of the oil can be suppressed and the commercial value can be maintained for a long time.

[Brief description of the drawings]

FIG. 1 is a schematic sectional view showing an example of a heat-sealing lid material having a light-shielding property of the present invention.

FIG. 2 is a schematic cross-sectional view of another embodiment of the heat-sealing lid material having a light-shielding property according to the present invention, in which the adhesive layer is a hot melt layer.

FIG. 3 is a schematic cross-sectional view of a heat-sealing lid material having a light-shielding property according to another embodiment of the present invention when an adhesive layer is an easy-peeling resin layer.

FIG. 4 is an explanatory view for producing a heat-sealing lid material having a light-shielding property of the present invention.

FIG. 5 is an explanatory diagram when a heat-sealing lid material having a light-shielding property of the present invention is manufactured according to Example 1.

FIG. 6 is an explanatory diagram when a heat-sealing lid material having a light-shielding property of the present invention is manufactured according to Example 2.

FIG. 7 is an explanatory diagram when testing the oxidation of oil using the heat-sealing lid material having a light-shielding property of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 heat-sealing lid material having light-shielding property 2 light-shielding PET film 3 light-shielding laminated material 11 a PET film (surface layer) 11 b PET film (intermediate layer) 12 adhesive 13 paper 14 light-shielding printing layer 14 a purple printing layer 14 b Brown print layer 14c Red-brown print layer 15 Adhesive layer 16 Hot melt layer 17 Easy peel resin layer (film) 18 Picture print layer 19 PO layer 21 Processing lid material 22 Petri dish 23 Salad oil

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Fumiko Nakamura 1-1-1 Ichigaya-Kagacho, Shinjuku-ku, Tokyo Dai Nippon Printing Co., Ltd.

Claims (5)

[Claims] 1. A heat-sealing lid material having an adhesive layer provided on one surface of a base sheet formed by laminating a biaxially stretched plastic film on both sides of paper via an adhesive, wherein the base sheet is Among the axially stretched plastic films, the biaxially stretched plastic film of the intermediate layer on the adhesive layer side has a light transmittance in all wavelength regions of 200 to 800 nm.
A heat-sealing lid material having a light-shielding property, provided with a light-shielding layer of 8% or less. 2. The heat-sealing lid material having a light-shielding property according to claim 1, wherein the adhesive layer is an easy-peeling resin layer or a hot-melt layer. 3. The light-shielding layer according to claim 1, wherein the light-shielding layer is a light-shielding layer formed on one or both sides of a biaxially stretched plastic film as an intermediate layer using a printing ink. A heat-sealing lid material having a light-shielding property. 4. The light-shielding layer according to claim 1, wherein the light-shielding layer is a light-shielding layer formed by using any one of printing inks of purple ink, dark brown ink, and red brown ink. A heat-sealing lid material having a light-shielding property. 5. The light-shielding layer according to claim 1, wherein the light-shielding layer is a light-shielding layer formed by laminating three layers using a purple ink, a dark brown ink, and a red brown ink. Heat-sealing lid material.