JP4121816B2 - Laminated film for packaging - Google Patents

Description

【００６９】
上記の表１に示す測定結果から明らかなように、本発明にかかる多層積層樹脂フィルムは、外観、美観性等を保ちながら、適性な遮光性ないし光遮断性を有し、遮光性包装用材料としてアッピ−ル力が強く、十分に実用性等を有するものであり、これに対し、比較例１にかかるポリオレフィン系樹脂フィルムは、遮光性ないし光遮断性を有しながらも、外観に映えない、アッピ−ル力の弱い包装用材料であった。
【００７０】
【発明の効果】
以上の説明で明らかなように、本発明は、まず、少なくとも熱可塑性樹脂と白色系着色剤とを含む樹脂組成物による白色系下地樹脂層と、少なくとも熱可塑性樹脂と銀色系着色剤とを含む樹脂組成物による銀色系遮光性樹脂層との順で共押出積層した構成からなる多層積層樹脂フィルム、または、少なくとも熱可塑性樹脂と白色系着色剤とを含む樹脂組成物による白色系下地樹脂層、少なくとも熱可塑性樹脂と銀色系着色剤とを含む樹脂組成物による銀色系遮光性樹脂層、および、少なくとも熱可塑性樹脂をビヒクルの主成分とする上記の銀色系遮光性樹脂層を隠蔽する隠蔽性樹脂組成物による隠蔽性樹脂層の順で共押出積層した構成からなる多層積層樹脂フィルムを製造し、次いで、該多層積層樹脂フィルムを使用し、これに、他の基材フィルム等を任意に積層して、包装用材料としての積層材を製造し、次いで、該積層材を使用し、これを製袋して包装袋を製造し、しかる後、該包装袋に所望の飲食料品等の内容物を充填包装して包装製品を製造したところ、外観の美観性、装飾性等に優れ、更に、強度等を有し、かつ、耐侯性、耐熱性、耐水性、ヒ−トシ−ル性、その他等の諸物性に優れ、特に、遮光性ないし光遮断性に優れ、例えば、太陽あるいは蛍光灯等による太陽光あるいは蛍光等の透過を阻止し、内容物が、分解ないし変質し、あるいは、褪色、その他等の光劣化を引き起こすということを防止し、内容物の充填包装適性、保存適性等を有し、更に、使用後に焼却廃棄処理する際に有害物質等を発生することなく、廃棄処理適性、環境適性等に極めて優れ、また、金属探知機等による金属片（異物）探知も容易である包装袋を製造し得ることができるというものである。
【図面の簡単な説明】
【図１】本発明にかかる多層積層樹脂フィルムについてその一例の層構成を示す概略的断面図である。
【図２】本発明にかかる多層積層樹脂フィルムについてその一例の層構成を示す概略的断面図である。
【図３】上記の図１に示す本発明にかかる多層積層樹脂フィルムを使用して製造した包装用材料としての積層材についてその一例の層構成を示す概略的断面図である。
【図４】上記の図１に示す本発明にかかる多層積層樹脂フィルムを使用して製造した包装用材料としての積層材についてその一例の層構成を示す概略的断面図である。
【図５】上記の図３に示す本発明にかかる多層積層樹脂フィルムを使用して製造した積層材を製袋して製造した包装袋についてその一例の構成を示す概略的斜視図である。
【図６】上記の図５に示す本発明にかかる本発明にかかる多層積層樹脂フィルムを使用して製造した積層材を製袋した包装袋を使用して製造した包装製品についてその一例の構成を示す概略的斜視図である。
【符号の説明】
Ａ 多層積層樹脂フィルム
Ａ₁ 多層積層樹脂フィルム
Ｂ 積層材
Ｂ₁ 積層材
Ｃ 三方シ−ル型の袋状容器本体
Ｄ 包装製品
１ 白色系下地樹脂層
２ 銀色系遮光性樹脂層
３ 隠蔽性樹脂層
１１ 基材フィルム
１２ 印刷模様層
１３ ラミネ−ト用接着剤層
１４ バリア性基材
１５ ラミネ−ト用接着剤層
２１ シ−ル部
２２ 開口部
２３ 内容物
２４ 上方のシ−ル部[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a multilayer laminated resin film. More specifically, the present invention has strength and the like, and is excellent in various physical properties such as weather resistance, heat resistance, water resistance, heat seal property, and the like. Disposal without the occurrence of harmful substances when incineration disposal after use, and easy inspection of foreign matter by metal detectors, excellent in properties, suitability for packing and storage of contents, storage suitability, etc. The present invention relates to a multilayer laminated resin film that is extremely excellent in suitability and environmental suitability.
[0002]
[Prior art]
Conventionally, for example, various foods and beverages such as food and drink, fruit juice, juice, drinking water, liquor, cooked food, marine products, frozen food, meat products, boiled foods, rice cake, liquid soup, seasonings, etc. In order to fill and package liquid detergents, cosmetics, chemical products, and other articles, there are laminated materials as packaging materials composed of various forms in which substrates such as plastic films, metal foils, cellophane, etc. are arbitrarily laminated. Developed and proposed.
Thus, in recent years, in the above-described laminated material, for example, sunlight or fluorescence from the sun or a fluorescent lamp or the like is transmitted, and this transmitted light affects the contents, for example, decomposes or alters the contents. Alternatively, since there is a problem of causing light degradation such as fading and others, various light shielding or light shielding materials have been studied, and various light shielding or light shielding materials have been developed and proposed.
Thus, as the light-shielding or light-shielding material, the most common material is an aluminum foil or an aluminum deposited film.
By the way, when the above aluminum foil or aluminum vapor deposition film is used, the aluminum foil, aluminum vapor deposition film or the like has a barrier property to prevent the transmission of oxygen gas, water vapor, etc., and has a light blocking property such as sunlight or fluorescence. Although it is an extremely useful material, aluminum foil or the like lacks bending resistance, so that not only is there a problem that pinholes are easily generated and the barrier properties thereof are impaired, but also packaging containers. After disposal as waste, for example, if it is disposed of by incineration, etc., metal such as aluminum remains, which may damage the incinerator, and it is not suitable for disposal and has problems such as environmental destruction This is not preferable because of the problem of lack of environmental suitability and the like.
Furthermore, when using an aluminum foil or an aluminum vapor deposition film, for example, using a metal detector or the like to detect a metal piece (foreign matter) or the like mixed in the contents, There is also a problem that it is extremely difficult for the aluminum foil or the aluminum deposited film to react with a metal detector and detect the metal piece (foreign matter) for inspection.
[0003]
Therefore, in recent years, instead of using the aluminum foil or the aluminum vapor deposition film as the light shielding or light shielding material, a white colorant or a black colorant is used without using them. A white or black or gray colored layer or film is formed, and the white or black or gray colored layer or film reflects or absorbs sunlight or fluorescence, thereby blocking or blocking light. Therefore, a new technique has been proposed in which the white, black, or gray colored layer or film is used as a light-shielding or light-shielding material.
Specifically, the content of the white pigment is 5 to 20% by weight and the thickness is 10 μm or more, the content of the black pigment is 0.2 to 1.0% by weight, and A laminated film for food packaging comprising a white pigment at a weight ratio of 2.0 to 60 and a gray film having a thickness of 10 μm or more with respect to the black pigment 1, and further, A laminated film for food packaging in which a film layer made of an ethylene-α-olefin copolymer is laminated on the gray film side of the laminated film for food packaging is proposed (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP 11-91042 A (paragraph number [0006] column).
[0005]
[Problems to be solved by the invention]
However, since the laminated film for food packaging proposed above is a packaging material that can be seen through a gray film in appearance, such a grayish packaging material is usually used. In such packaging products, it is difficult to give the buyer a good impression of the contents, and the impression of dirt etc. cannot be denied. As such, it is usually to avoid its use.
In general, in packaging materials for filling and packaging foods and drinks, it is normal to avoid the use of black or gray colored films that are decorated or colored using black colorants such as black pigments. Concept.
Therefore, the present invention is aluminum-free, and its influence is not recognized without using a black or gray colored film decorated or colored using a black colorant such as a black pigment. Excellent strength and other physical properties such as weather resistance, heat resistance, water resistance, heat seal, and other properties, especially excellent light-shielding properties and light-shielding properties, suitability for packaging and storage of contents In addition, it facilitates the inspection of metal pieces (foreign matter) with a metal detector, and does not generate harmful substances when incinerated after use, and is extremely suitable for disposal and environment. It is to propose an excellent multilayer laminated resin film.
[0006]
[Means for Solving the Problems]
As a result of various researches on the light-shielding or light-shielding material, the present inventor firstly, a white base resin layer made of a resin composition containing at least a thermoplastic resin and a white colorant, and at least a thermoplastic resin, A multilayer laminated resin film having a constitution in which a silver-based light-shielding resin layer is co-extruded and laminated in order with a resin composition containing a silver-based colorant, or a resin composition comprising at least a thermoplastic resin and a white-colorant A white base resin layer, a silver-based light-blocking resin layer made of a resin composition containing at least a thermoplastic resin and a silver-based colorant, and the above-mentioned silver-based light-blocking resin having at least a thermoplastic resin as a main component of a vehicle A multilayer laminated resin film having a constitution in which a concealing resin layer is coextruded and laminated in the order of the concealing resin layer for concealing the layer; To produce a laminated material as a packaging material, and then use the laminated material to produce a packaging bag. Produced, and then packed and packed into the packaging bag with the desired food and drink contents to produce a packaged product, excellent in appearance aesthetics, decorativeness, etc., and further having strength, In addition, it is excellent in various physical properties such as weather resistance, heat resistance, water resistance, heat seal property, etc., in particular, excellent in light shielding property or light blocking property, for example, sunlight or fluorescence by the sun or a fluorescent lamp, etc. Prevents the contents from degrading or altering, or causing light deterioration such as discoloration, etc., and has contents suitable for filling and packaging, storage, etc. It is suitable for disposal without generating harmful substances during incineration disposal. Very good boundary suitability, also has been completed the present invention have found that it is possible to manufacture the packaging bag is easy metal piece (foreign matter) detected by metal detectors or the like.
[0007]
That is, the present invention relates to a silver-based light-shielding resin comprising a white base resin layer made of a resin composition containing at least a thermoplastic resin and a white colorant, and a resin composition containing at least a thermoplastic resin and a silver-based colorant. A multilayer laminated resin film comprising a structure in which layers are coextruded in order with a layer, or a white base resin layer made of a resin composition containing at least a thermoplastic resin and a white colorant, at least a thermoplastic resin And a concealing by a concealing resin composition concealing the silver-based light-shielding resin layer comprising at least a thermoplastic resin as a main component of the vehicle. The present invention relates to a multilayer laminated resin film characterized by comprising a configuration in which co-extrusion lamination is performed in the order of the functional resin layer.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the multilayer laminated resin film according to the present invention will be described in more detail with reference to the drawings.
First, the layer configuration of the multilayer laminated resin film according to the present invention will be described with reference to the drawings, illustrating two examples. FIGS. 1 and 2 show the multilayer laminated resin film according to the present invention. FIG. 3 and FIG. 4 are schematic cross-sectional views showing a layer structure of an example, and FIG. 3 and FIG. 4 show one example of a laminated material as a packaging material manufactured using the multilayer laminated resin film according to the present invention shown in FIG. FIG. 5 and FIG. 6 are schematic cross-sectional views showing a layer structure of two examples, and FIGS. 5 and 6 show that a laminated material is manufactured using the multilayer laminated resin film according to the present invention shown in FIG. It is a schematic perspective view which shows the structure of the example about the packaging bag which bag-made using the multilayer laminated resin film concerning this invention manufactured by using this and making a bag.
[0009]
First, as the multilayer laminated resin film A according to the present invention, as shown in FIG. 1, a white base resin layer 1 made of a resin composition containing at least a thermoplastic resin and a white colorant, and at least a thermoplastic resin, The basic structure consists of a structure in which a silver-based light-shielding resin layer 2 is co-extruded and laminated in order with a resin composition containing a silver-based colorant.
Next, for another example of the multilayer laminated resin film according to the present invention, as shown in FIG. 2, a white base resin layer 1 made of a resin composition containing at least a thermoplastic resin and a white colorant, Concealment for concealing silver-based light-shielding resin layer 2 made of a resin composition containing at least a thermoplastic resin and a silver-based colorant, and silver-based light-shielding resin layer 2 containing at least a thermoplastic resin as a main component of a vehicle Multilayer resin film A having a constitution in which a concealing resin layer 3 made of an adhesive resin composition is coextruded in order. ₁ Can be illustrated.
The above exemplification illustrates one or two examples of the multilayer laminated resin film according to the present invention, and the present invention is not limited thereto.
[0010]
For example, although not shown, as the multilayer laminated resin film according to the present invention, a colorless transparent resin layer made of a resin composition containing at least a thermoplastic resin as a main component of the vehicle is further provided on the white base resin layer. Can do.
The multilayer laminated resin film according to the present invention further includes a colorless transparent resin layer made of a resin composition containing at least a thermoplastic resin as a main component of a vehicle on a silver-based light-shielding resin layer or a concealing resin layer. Can be provided.
Furthermore, as the multilayer laminated resin film according to the present invention, a desired printed pattern layer can be arbitrarily provided on the white base resin layer or the colorless transparent resin layer provided on the white base resin layer. .
In the multilayer laminated resin film according to the present invention, the silver-based light-shielding resin layer can be formed of a resin composition containing at least a thermoplastic resin and a silver-based colorant as described above. In the resin composition, a white colorant can be further added. Specifically, the resin composition can be formed by a resin composition containing at least a thermoplastic resin, a silver colorant, and a white colorant.
In the multilayer laminated resin film according to the present invention, the concealable resin layer is specifically composed of, for example, a white resin layer made of a resin composition containing at least a thermoplastic resin and a white colorant. Can do.
[0011]
By the way, the multilayer laminated resin film according to the present invention is basically excellent in appearance aesthetics, decorativeness, etc., and further has strength, etc., and has weather resistance, heat resistance, water resistance, heat resistance, etc. -Excellent physical properties and other physical properties, especially light-shielding properties and light-shielding properties, for example, blocking the transmission of sunlight or fluorescence by the sun or fluorescent lamps, etc., the content is decomposed or altered Alternatively, it acts as a light-shielding or light-shielding layer that prevents light deterioration such as amber and other light deterioration, and also acts as a heat sealant layer at the time of bag making, etc. It has storage suitability, etc. Furthermore, it does not generate harmful substances when it is incinerated and discarded after use, and it is extremely excellent in waste disposal suitability, environmental suitability, etc. and a metal (foreign matter) detector. Does not respond to etc. It is those having the advantage that.
[0012]
The multilayer laminated resin film according to the present invention will be described more specifically. In the multilayer laminated resin film according to the present invention, the white base resin layer is basically a concealment mainly concealing the silver-based light-shielding resin layer. Layer, and acts as a light-shielding or light-shielding layer for reflecting or diffusing sunlight or fluorescent light from the sun or fluorescent lamps and blocking its transmission, and further, for example, desired characters, When directly or indirectly forming a printed pattern such as a symbol, pattern, figure, etc., it acts as a foundation layer that sharpens the printed pattern of the desired character, symbol, pattern, figure, etc. that constitutes the printed pattern To do.
Next, in the multilayer laminated resin film according to the present invention, the silver-based light-shielding resin layer basically functions synergistically with the above-mentioned white-based base resin layer, and the sun or fluorescent lamp, etc. Reflects or diffuses sunlight, fluorescence, etc. caused by or absorbs them and blocks their transmission, coupled with the white base resin layer, reflects or diffuses sunlight, fluorescence, etc. from the sun or fluorescent lamps, etc. Alternatively, it acts as a light-shielding or light-shielding layer that absorbs them and blocks their transmission, and further constitutes a laminated material as a packaging material to be described later and uses this to make a bag. For example, it acts as a heat sealant resin layer or a heat seal resin layer that forms the seal portion.
Further, in the multilayer laminated resin film according to the present invention, the concealing resin layer basically functions as a concealing resin layer etc. for concealing the silver-based light-shielding resin layer, etc. When forming a laminated material as a material and making a bag using this, for example, it acts as a heat-sealant resin layer or a heat-seal resin layer that forms a seal part. Is.
[0013]
Furthermore, in the multilayer laminated resin film according to the present invention, the colorless transparent resin layer provided on the white base resin layer basically protects the white base resin layer or the silver-based light-shielding resin layer. Acts as a protective layer and, in some cases, acts as a concealing layer for concealing these, and further, for example, directly or indirectly prints a desired character, symbol, pattern, figure, etc. In the case of forming the printed pattern, it functions as a base layer for clearing the printed pattern of desired characters, symbols, patterns, figures, etc. constituting the printed pattern.
In the multilayer laminated resin film according to the present invention, the colorless transparent resin layer provided on the silver-based light-shielding resin layer or the concealing resin layer is basically mainly composed of the silver-based light-shielding resin layer or the concealing property. Acts as a protective layer for protecting the resin layer, etc., and in some cases, acts as a concealing layer for concealing these, and further constitutes a laminated material as a packaging material to be described later, and uses this When bagging, for example, it acts as a heat-sealable resin layer or the like that forms a seal part.
Therefore, since the multilayer laminated resin film according to the present invention is aluminum-free, it does not generate harmful substances when incinerated and discarded after use, and is extremely excellent in disposal and environmental suitability. In addition, it has an advantage of facilitating the inspection of metal pieces (foreign matter) using a metal detector or the like.
In the present invention, although not shown in the drawing, it is possible to design and manufacture multilayer laminated resin films having various forms by arbitrarily laminating other base materials depending on the purpose of use, application, etc. Is.
[0014]
Next, in the present invention, the above-mentioned multilayer laminated resin film according to the present invention is used, and the laminated material as a packaging material manufactured by arbitrarily laminating it with other base film and the like is 12 As an example, the case where the multilayer laminated resin film A according to the present invention shown in FIG. 1 is used will be described. First, as shown in FIG. 1 is formed on the surface of the substrate film 11 including the printed pattern layer 12 after forming the printed pattern layer 12 composed of desired characters, symbols, patterns, figures, and the like. A is overlapped with the surface of the white base resin layer 1 constituting the same facing each other, and then the two layers are laminated via, for example, a laminating adhesive layer 13 or the like. Multilayer laminated resin film It is possible to produce a laminate B using Lum.
Alternatively, in the present invention, as shown in FIG. 4, first, a printed pattern layer 12 made of desired characters, symbols, patterns, figures, etc. is formed on the back surface of the desired base film 11 made of corona treatment or the like. Then, the barrier substrate 14 is placed on the surface of the substrate film 11 including the printed pattern layer 12 so as to face each other, and then, between the layers, for example, an adhesive layer 13 for laminating. After that, the surface of the white base resin layer 1 constituting the multilayer laminated resin film A shown in FIG. 1 is further formed on the surface of the barrier substrate 14 laminated as described above. Are laminated with each other facing each other, and then the two layers are laminated through, for example, a laminating adhesive layer 15 and the like, and a laminated material B using the multilayer laminated resin film according to the present invention is used. ₁ Can be manufactured.
[0015]
The above examples illustrate one or two examples of a laminated material as a packaging material manufactured using the multilayer laminated resin film according to the present invention, and the present invention is not limited thereto. Is.
For example, although not shown, instead of forming a printed pattern layer or the like on the back surface of the base film as described above, a white base resin layer or a colorless transparent resin layer constituting the multilayer laminated resin film according to the present invention, etc. After forming a printed pattern layer composed of desired characters, symbols, patterns, figures, etc. on the surface of the substrate, a substrate film is superimposed on the surface including the printed pattern layer, and then between the two layers, For example, a laminated material using the multilayer laminated resin film according to the present invention can be produced by laminating via a laminate adhesive layer or the like.
In the present invention, the multilayer laminated resin film according to the present invention shown in FIG. 2 is used, and optionally laminated with other base film as shown in FIG. 3, FIG. It is possible to arbitrarily manufacture a laminated material as a packaging material having various forms.
[0016]
Next, in the present invention, a packaging bag according to the present invention is produced by using a laminated material as a packaging material produced by using the multilayer laminated resin film according to the present invention as described above, and making the bag by manufacturing it. As an example, the packaging bag according to the present invention will be described with reference to, for example, a packaging bag made using the laminated material B shown in FIG. As shown in the drawing, two sheets of the above-mentioned laminated materials B and B are prepared, and the silver-based light-shielding resin layers 2 and 2 located in the innermost layer are opposed to each other, and thereafter, the silver-based light-shielding property is The resin layers 2 and 2 are made to act as a heat-sealable resin layer, and heat-seal is performed on the three ends of the outer periphery to form seal portions 21, 21, 21 and above A three-sided seal type bag-like container body C is manufactured by providing an opening 22 in
Thus, in the present invention, as shown in FIG. 6, from the opening 22 of the three-sided seal type bag-shaped container body C manufactured as described above, for example, food and drink, fruit juice, juice, drinking water , Liquor, cooked food, marine products, frozen foods, meat products, boiled foods, rice cakes, liquid soups, seasonings, other foods and beverages, liquid detergents, cosmetics, chemicals, and other items The product 23 is filled, and then the end of the upper opening 22 is heat sealed to form the upper seal 24 and the like, and is manufactured using the multilayer resin film according to the present invention. The packaged product D which consists of various forms using the packaging bag C which made the laminated material into a bag can be manufactured.
[0017]
In addition, in this invention, it cannot be overemphasized that it is not limited to the shape of the illustrated packaging bag illustrated above as a packaging bag concerning the above-mentioned present invention. It goes without saying that packaging bags having various forms such as a seal type, a four-sided seal type, a self-supporting type, a gusset type, a square bottom type, and the like can be manufactured.
Further, in the present invention, a laminated material or the like as a packaging material manufactured using the multilayer laminated resin film according to the present invention shown in FIG. It goes without saying that packaging bags having such various forms can be produced, and further, packaging products and the like using the packaging bags can be produced arbitrarily.
[0018]
Next, in the present invention, the materials constituting the multilayer laminated resin film and the like according to the present invention, the production method, etc. will be described. First, the white base resin layer and the silver-based color constituting the multilayer laminated resin film and the like according to the present invention The thermoplastic resin forming the light-shielding resin layer, the concealing resin layer, or the colorless transparent resin layer can be melted by heat and extruded from an extrusion die such as an extruder. A mixture of one or more thermoplastic resins that can be heat-sealed and laminated can be used. Specifically, for example, low-density polyethylene (LDPE), linear (linear) low-density Polyethylene (polymer polymerized using multisite catalyst, LLDPE), ethylene-α-olefin copolymer polymerized using metallocene catalyst (single site catalyst), medium density polyester Ren (MDPE), high density polyethylene (HDPE), polypropylene resin, ethylene-vinyl acetate copolymer, ionomer resin, ethylene-acrylic acid copolymer, ethylene-ethyl acrylate copolymer, ethylene-methacrylic acid copolymer Polyolefin resins such as polymers, ethylene-methyl methacrylate copolymer, ethylene-propylene copolymer, methylpentene polymer, polybutene polymer, polyethylene or polypropylene, and acrylic acid, methacrylic acid, maleic acid, maleic anhydride, fumar -Acid-modified polyolefin resins modified with unsaturated carboxylic acids such as phosphoric acid and itaconic acid, polyvinyl acetate resins, poly (meth) acrylic resins, polyvinyl chloride resins, thermoplastic polyester resins, thermoplastic polyamide resins Thermoplastic resin such as resin 1 type (s) or 2 or more types can be used.
[0019]
Thus, using one or more of the thermoplastic resins as described above, a white base resin layer, a silver-based light-shielding resin layer, and a concealing resin constituting the multilayer laminated resin film according to the present invention. By forming a layer, or a colorless transparent resin layer, etc., each layer has an affinity, etc., at the time of coextrusion molding, each layer is firmly and tightly bonded, excellent in strength, etc., and weather resistance, A multilayer laminated resin film excellent in various physical properties such as heat resistance, water resistance and others can be constituted.
Further, in the present invention, using one or more of the above thermoplastic resins, a white base resin layer, a silver-based light-shielding resin layer constituting the multilayer laminated resin film according to the present invention, By forming a concealing resin layer or a colorless transparent resin layer, etc., they are composed of thermoplastic resins that can be heat-bonded to each other. It can function as a heat-sealable resin layer or the like that forms a very good seal portion or the like.
[0020]
Next, in the present invention, examples of the white colorant that forms the white base resin layer, the concealing resin layer, etc. constituting the multilayer laminated resin film according to the present invention include, for example, the sun or a fluorescent lamp. Reflects or diffuses light, fluorescence, etc., blocks or blocks its transmission, and prevents the degradation or alteration of the contents filled and packaged in the packaging bag, or light degradation such as discoloration, etc. For example, it is desirable to use one or a mixture of two or more kinds of colorants such as various white inorganic or organic dyes and pigments.
In the present invention, the above-mentioned various colorants such as white inorganic and organic dyes and pigments include, for example, basic lead carbonate, basic lead sulfate, basic lead silicate, zinc white, sulfide. One or more of white pigments such as zinc, lithopone, antimony trioxide, anatase-type titanium oxide, rutile-type titanium oxide, calcium carbonate, zinc oxide, barium sulfate, etc. can be used. . The amount used is about 0.1 wt% to 30 wt%, preferably 0.5 wt%, relative to the thermoplastic resin constituting the resin composition constituting the white base resin layer and the concealing resin layer. It is desirable to add about 20% by weight.
[0021]
Next, in the present invention, as the silver-based colorant for forming the silver-based light-shielding resin layer constituting the multilayer laminated resin film or the like according to the present invention, for example, sunlight or fluorescent light composed of the sun or a fluorescent lamp is used. Reflects or diffuses or absorbs them (mainly absorbs the visible region from near UV), blocks or blocks its transmission, decomposes or alters the contents packed in the packaging bag, discolors, etc. Specifically, for example, metal powder such as aluminum powder made of aluminum powder or gold powder made of brass or copper powder can be used.
The amount used is about 0.1% to 20% by weight, preferably 0.5% to 15% by weight, with respect to the thermoplastic resin forming the resin composition constituting the silver-based light-shielding resin layer. It is desirable to add and use.
[0022]
Next, in the multilayer laminated resin film according to the present invention, a resin composition containing at least a thermoplastic resin and a white colorant constituting the white base resin layer will be described. In the present invention, for example, the above heat One or more plastic resins are used as the main component of the vehicle, to which one or more of the above-mentioned white colorants are added, and if necessary, when forming the film, for example, Improve and improve film processability, heat resistance, weather resistance, mechanical properties, dimensional stability, antioxidant properties, slip properties, mold release properties, flame retardancy, anti-mold properties, electrical properties, strength, etc. 1 to 2 or more of various plastic compounding agents and additives are optionally added for the purpose of quality control, and further, if necessary, a solvent, a diluent, etc. are added, and kneaded sufficiently, At least thermoplastic resin constituting the base resin layer It can be prepared a resin composition containing a white coloring agent.
[0023]
Further, in the multilayer laminated resin film according to the present invention, a resin composition including at least a thermoplastic resin and a silver colorant constituting the silver-based light-shielding resin layer will be described. One or more plastic resins are used as the main component of the vehicle, and the above-described silver-based colorant is added to the vehicle. Further, when necessary, for example, when the film is formed, the processability and heat resistance of the film are increased. For the purpose of improving and modifying weather resistance, mechanical properties, dimensional stability, antioxidant properties, slipperiness, mold release properties, flame retardancy, antifungal properties, electrical properties, strength, etc. The silver-based light-shielding resin according to the present invention is optionally added with one or two or more plastic compounding agents and additives, and if necessary, a solvent, a diluent and the like are added and kneaded sufficiently. At least a thermoplastic resin to form a layer It can be prepared a resin composition containing a color colorants.
[0024]
In the multilayer laminated resin film according to the present invention, the resin composition containing at least a thermoplastic resin and a silver-based colorant constituting the silver light-shielding resin layer may be, for example, the above thermoplastic resin as described above. 1 to 2 or more of the above as a main component of the vehicle, the above-mentioned silver-based colorant is added thereto, and further, one or more of the above-mentioned white-based colorants are added, and if necessary, In forming the film, for example, film processability, heat resistance, weather resistance, mechanical properties, dimensional stability, antioxidant properties, slipperiness, mold release properties, flame retardancy, antifungal properties, electrical properties, For the purpose of improving and modifying strength, etc., one or more kinds of various plastic compounding agents and additives are arbitrarily added, and if necessary, a solvent, a diluent, etc. are added, Thoroughly knead to form a silvery light-shielding resin layer according to the present invention. The resin composition may be prepared containing at least a thermoplastic resin and a silver-colored colorant and the white colorant.
[0025]
Further, in the multilayer laminated resin film according to the present invention, as the concealing resin composition for concealing the above-mentioned silver-based light-shielding resin layer comprising at least a thermoplastic resin constituting the concealing resin layer as a main component of the vehicle, As described above, the resin composition constituting the white base resin layer can be used in the same manner. Specifically, a resin composition containing at least a thermoplastic resin and a white colorant is used in the same manner. Can do.
That is, in the multilayer laminated resin film according to the present invention, as the concealing resin composition for concealing the above-described silver-based light-shielding resin layer having at least a thermoplastic resin forming the concealing resin layer as a main component of the vehicle, Thus, for example, one or more of the above thermoplastic resins are used as the main component of the vehicle, and one or more of the above-mentioned white colorants are added to this, and if necessary, When forming the film, for example, film processability, heat resistance, weather resistance, mechanical properties, dimensional stability, antioxidant properties, slipperiness, mold release properties, flame retardancy, antifungal properties, electrical properties For the purpose of improving and modifying strength, etc., one or more of various plastic compounding agents and additives are arbitrarily added, and if necessary, a solvent, a diluent, etc. are added. Fully kneaded and at least thermoplastic It can be prepared a resin composition containing a fat and white colorants.
[0026]
Next, in the multilayer laminated resin film according to the present invention, at least the thermoplastic resin constituting the colorless transparent resin layer formed on the white base resin layer, the silver-based light-shielding resin layer, or the concealing resin layer is vehicle. In the present invention, for example, one or two or more of the above-mentioned thermoplastic resins are used as the main component of the vehicle, and if necessary, the film is formed. For example, film processability, heat resistance, weather resistance, mechanical properties, dimensional stability, antioxidant properties, slip properties, mold release properties, flame retardancy, antifungal properties, electrical properties, strength, etc. For the purpose of improving and modifying etc., one or more kinds of various plastic compounding agents and additives are arbitrarily added, and if necessary, a solvent, a diluent, etc. are added and kneaded sufficiently. To form a colorless transparent resin layer At least thermoplastic resin can be used to prepare the main component and a transparent or translucent resin compositions vehicle.
[0027]
In the present invention, each resin composition constituting the white base resin layer, the silver-based light-shielding resin layer, the concealing resin layer, the colorless transparent resin layer, etc. constituting the multilayer laminated resin film according to the present invention. In the product, examples of the plastic compounding agent and additive include, for example, a lubricant, a crosslinking agent, an antioxidant, an ultraviolet absorber, a light stabilizer, a filler, a reinforcing agent, an antistatic agent, a flame retardant, a flame retardant, Foaming agents, fungicides, pigments, dyes, dispersants, surfactants, anti-blocking agents, etc. can be used. Furthermore, modifying resins can also be used. The amount can be arbitrarily added from a very small amount to several tens of weight% depending on the purpose.
[0028]
Furthermore, in the above, as the compounding agent or additive, specifically, a lubricant having its own lubricity and little migration in the resin can be used. For example, liquid paraffin, white Vaseline, petroleum wax, microcrystalline wax, montan wax, polyethylene wax and the like, higher fatty acids having 8 to 22 carbon atoms, or higher fatty acid aluminum, higher fatty acid calcium, higher fatty acid magnesium higher fatty acid zinc, higher fatty acid lithium Higher fatty acids or metal salts thereof, linear aliphatic monohydric alcohols having 8 to 18 carbon atoms, glycerin, sorbitol, propylene glycol, pentaerythritol, triethylene glycol, etc. Aliphatic alcohols, higher fatty acids having 4 to 22 carbon atoms and straight chain aliphatics having 8 to 18 carbon atoms Esters with polyhydric alcohols, butyl acetyl citrate, di-2-ethyl-hexyl adipate, azelaic acid-n-hexyl, ethanediol montanate, poly (1.3-butanediol adipate) ester, acetylricino Methyl ester, poly (1.3-butylene glycol, 1.4-butylene glycol, octyl alcohol adipic acid) ester, ester of sugar sugar sugar and fatty acid, hydrogenated Edible fats and oils, castor oil, spam acetyl wax, glycerides of acetylated monoglyceride sugar, ethylene bis-fatty acid amide represented by, for example, ethylene bisoleyl amide having 16 to 18 carbon atoms, higher fatty acid amide having 8 to 22 carbon atoms , Stearyl erucamide, erucic acid amide, oleyl palmitoamide, etc. 1 to 2 types of fatty acid amides, and others such as methylhydrodiene polysiloxane, dimethyl polysiloxane, methylphenyl polysiloxane, silicone oil jarodine such as polyoxyalkylene dimethylpolysiloxane, and glycerin ester of maleic acid modified rosin The above can be used.
In the present invention, among the lubricants as described above, erucic acid amide, ethylene bis oleyl amide, stearic acid amide, oleic acid amide, methylene bis stearic acid amide, etc., are themselves slippery, It is a very effective material.
As the addition amount of the above-mentioned lubricant, it is preferable to add at a ratio of about 0.08 wt% to 10.0 wt% with respect to 100 parts by weight of the thermoplastic resin.
[0029]
In the present invention, other oxides such as aluminum oxide, magnesium oxide, silica, calcium oxide, titanium oxide, and zinc oxide; hydroxides such as aluminum hydroxide, magnesium hydroxide, and calcium hydroxide; Carbonates such as magnesium and calcium carbonate, sulfates such as calcium sulfate and barium sulfate, silicates such as magnesium silicate, aluminum silicate, calcium silicate and aluminosilicate, and others such as kaolin, talc and diatomaceous earth Anti-blocking agent based on inorganic compounds, or high density polyethylene, ultra-high molecular weight polyethylene having a molecular weight of 300000 or more, polypropylene, polycarbonate, polyamide, polyester, melamine resin, diallyl phthalate resin, acrylic resin, etc. Organic consisting of fine powder It one free of compounds based antiblocking agents can be added two or more.
The addition amount is preferably about 0.01 to 3% by weight with respect to 100 parts by weight of the resin.
[0030]
Next, in the present invention, a method for producing a multilayer laminated resin film according to the present invention using each of the resin compositions as described above will be described. For example, in the present invention, first, at least a thermoplastic resin and A resin composition containing a white colorant and a resin composition containing at least a thermoplastic resin and a silver colorant are prepared to produce two resin compositions, and then the two resin compositions These are co-extruded using, for example, a T-die co-extruder, an inflation co-extruder, etc., and a white system based on a resin composition containing at least a thermoplastic resin and a white colorant Two types and two layers according to the present invention comprising a base resin layer and a two-layer two-layer coextrusion laminated structure in the order of a resin composition containing at least a thermoplastic resin and a silver-based colorant. From composition It is possible to manufacture a multilayer laminated resin film.
[0031]
Alternatively, in the present invention, similarly to the above, first, a resin composition containing at least a thermoplastic resin and a white colorant, and a resin composition containing at least a thermoplastic resin and a silver colorant are prepared. The two resin compositions are then manufactured, and then the two resin compositions are used, and these are co-extruded using, for example, a T-die co-extruder or an inflation co-extruder. The first layer is a white base resin layer made of a resin composition containing at least a thermoplastic resin and a white colorant, and the second layer is made of a resin composition containing at least a thermoplastic resin and a silver colorant. The silver-based light-shielding resin layer and the third layer are three layers in the order of the concealing resin layer by the concealing resin composition that conceals the above-mentioned silver-based light-shielding resin layer containing at least a thermoplastic resin and a white colorant. This is a co-extrusion laminated structure Two-kind three-layer multilayer laminated resin film according to can be produced.
[0032]
Further, in the present invention, similarly to the above, first, a resin composition containing at least a thermoplastic resin and a white colorant, a resin composition containing at least a thermoplastic resin and a silver colorant, and at least A resin composition having a thermoplastic resin as a main component of a vehicle is prepared to produce three kinds of resin compositions, and then the three kinds of resin compositions are used, for example, T-die coextrusion. Co-extrusion molding using a machine, an inflation co-extruder, etc., the first layer is a white base resin layer comprising a resin composition containing at least a thermoplastic resin and a white colorant, the second layer is A silver-based light-shielding resin layer composed of a resin composition containing at least a thermoplastic resin and a silver-colored colorant, and a third layer in the order of a colorless transparent resin layer composed of a resin composition containing at least a thermoplastic resin as a main component of the vehicle. 3 types and 3 layers co-pressed Multilayer laminated resin film of the three-kind, three-layer according to the present invention comprising a stacked configuration can be produced.
[0033]
In the present invention, similarly to the above, first, a resin composition containing at least a thermoplastic resin and a white colorant, a resin composition containing at least a thermoplastic resin and a silver colorant, and at least A resin composition having a thermoplastic resin as a main component of a vehicle is prepared to produce three kinds of resin compositions, and then the three kinds of resin compositions are used, for example, T-die coextrusion. Co-extrusion molding using a co-extrusion machine, an inflation co-extruder, etc., wherein the first layer is a colorless transparent resin layer made of a resin composition containing at least a thermoplastic resin as a main component of the vehicle, and the second layer is at least A white base resin layer comprising a resin composition comprising a thermoplastic resin and a white colorant, a third layer comprising a silver-based light-shielding resin layer comprising a resin composition comprising at least a thermoplastic resin and a silver colorant, 4 layers are few A concealing resin layer made of the concealing resin composition for concealing the above silver-based light-shielding resin layer containing a thermoplastic resin and a white colorant, and a fifth layer comprising at least a thermoplastic resin as a main component of the vehicle. A three-layer, five-layer multilayer resin film according to the present invention having a constitution in which five transparent co-extrusion layers in the order of a colorless transparent resin layer by a resin composition as a component can be produced.
The above exemplification illustrates one or two examples of the method for producing a multilayer laminated resin film according to the present invention, and the present invention is not limited thereto.
Further, in the present invention, when producing the multilayer laminated resin film according to the present invention, other materials are further used depending on the purpose of use, applications, etc., and these are arbitrarily coextruded and laminated in various forms. It is possible to design and manufacture a multilayer laminated resin film made of
[0034]
Thus, in the present invention, the two layers of the white base resin layer and the silver-based light-shielding resin layer as described above reflect or diffuse sunlight or absorbs one of them. In addition, the other layer reflects or diffuses sunlight, etc., and the synergistic effect of the two layers completely blocks or blocks the transmission of sunlight or fluorescent light from the sun or fluorescent lamp, etc. The function and effect of further preventing the degradation or alteration of the contents packed and packaged, or the light deterioration such as discoloration or the like, is increased.
Furthermore, in the present invention, the white base resin layer described above has a function of the base layer of the printed pattern layer provided directly or indirectly thereon, and the characters constituting the printed pattern layer, This has the effect of making printed images such as figures, symbols, designs, etc. clearer and reproducing or revealing beautiful printed patterns.
The silver-based light-shielding resin layer constitutes a laminated material as a packaging material, and, for example, a heat-sealant resin that forms a seal portion when a bag is made using the laminated material. It functions as a layer or a heat-sealable resin layer.
Further, in the multilayer laminated resin film according to the present invention, the concealing resin layer basically functions as a concealing resin layer etc. for concealing the silver-based light-shielding resin layer, etc. When forming a laminated material as a material and making a bag using this, for example, it acts as a heat-sealant resin layer or a heat-seal resin layer that forms a seal part. Is.
[0035]
Furthermore, in the multilayer laminated resin film according to the present invention, the colorless transparent resin layer provided on the white base resin layer basically protects the white base resin layer or the silver-based light-shielding resin layer. Acts as a protective layer and, in some cases, acts as a concealing layer for concealing these, and further, for example, directly or indirectly prints a desired character, symbol, pattern, figure, etc. In the case of forming the printed pattern, it functions as a base layer for clearing the printed pattern of desired characters, symbols, patterns, figures, etc. constituting the printed pattern.
In the multilayer laminated resin film according to the present invention, the colorless transparent resin layer provided on the silver-based light-shielding resin layer or the concealing resin layer is basically mainly composed of the silver-based light-shielding resin layer or the concealing property. Acts as a protective layer for protecting the resin layer, etc., and in some cases, acts as a concealing layer for concealing these, and further constitutes a laminated material as a packaging material to be described later, and uses this When bagging, for example, it acts as a heat-sealable resin layer or the like that forms a seal part.
[0036]
Next, in the present invention, the film thickness of the multilayer laminated resin film according to the present invention is about 10 μm to 150 μm, preferably about 20 μm to 80 μm.
Thus, in the above multilayer laminated resin film, the thickness of each layer constituting the multilayer laminated resin film is as follows. First, the white base resin layer has a thickness of 5 μm to 30 μm, preferably about 10 μm to 25 μm. The silver-based light-shielding resin layer has a film thickness of 5 μm to 30 μm, preferably about 10 μm to 25 μm, and the concealing resin layer has a film thickness of 5 μm to 30 μm, preferably about 10 μm to 25 μm. Is preferably in the range of about 5 μm to 100 μm, preferably 10 μm to 50 μm.
[0037]
In the above, as the film thickness of each layer constituting the multilayer laminated resin film according to the present invention, first, when the film thickness of the white base resin layer is less than 5 μm, the silver-based light-shielding resin layer is concealed. The appearance, aesthetics, etc. are reduced, and when a printed pattern layer is provided on the white base resin layer, the gradation or color tone of the printed pattern layer is affected. For reasons of the above, it is not preferable, and when the film thickness exceeds 30 μm, the concealment property of the silver-based light-shielding resin layer is increased, but the overall thickness is increased, and the influence on the environment as packaging waste may increase. The film thickness of the silver-based light-shielding resin layer is less than 5 μm, and the function as a light-shielding or light-shielding layer is deteriorated. Greatly influenced by This is not preferable because it may cause problems, and the function as a heat-sealable resin layer may be deteriorated. If the film thickness exceeds 30 μm, the light shielding property or the light shielding property is not achieved. However, it is not preferable because it is difficult to set and select a concealing resin layer etc. that conceals it, and the film thickness of the concealing resin layer is less than 5 μm. Undesirably, it is difficult to perform functions such as concealment, and the appearance, aesthetics, etc. are reduced, and the function as a heat-sealable resin layer is also reduced. Further, if the film thickness exceeds 30 μm, the entire layer thickness becomes large, which is not preferable because it is not preferable for environmental considerations when discarded, and the film thickness of the colorless transparent resin layer is 5 μm. If it is less than, protection, concealment, etc. It is difficult to perform the above functions, and the appearance, aesthetics, and the like are deteriorated, and the function as a heat-seal resin layer is also deteriorated. If the thickness exceeds 100 μm, the total layer thickness becomes large, and this is not preferable because it is not preferable for environmental measures when discarded.
[0038]
As is clear from the above description, the multilayer laminated resin film according to the present invention is basically excellent in appearance aesthetics, decorativeness, etc., and further has strength, etc., and is resistant to weathering and heat. Excellent in various physical properties such as water resistance, etc., in particular, excellent in light blocking properties or light blocking properties, excellent in heat seal properties, etc. Furthermore, it does not generate harmful substances when incinerated and discarded after use, and is extremely excellent in disposal and environmental suitability.
In addition, the multilayer laminated resin film according to the present invention does not react with a metal (foreign matter) detector or the like, and has an advantage of facilitating inspection of a metal piece (foreign matter).
Thus, the multilayer laminated resin film according to the present invention uses this as a light-shielding or light-shielding material or a heat-sealable resin layer, etc., and a base film such as another plastic film, A paper base material, a barrier base material that prevents permeation of oxygen gas or water vapor, cellophane, woven or non-woven fabric, glass plate, etc., and optionally laminated with one or more kinds of various base materials, It is possible to manufacture laminated materials having various forms, and thus to apply the laminated materials to uses such as packaging materials constituting packaging bags and the like.
[0039]
The laminated material as a packaging material using the multilayer laminated resin film according to the present invention will be described in more detail. First, as a method for producing the laminated material, for example, a primer agent layer or an adhesive for laminating is used. Dry laminate lamination method for arbitrarily laminating a desired substrate such as a plastic film through an agent layer, etc., or various resins via a primer agent layer or an anchor coat agent layer, etc. Laminates having various forms can be produced by using an extrusion laminating method in which a desired base material is arbitrarily laminated by melt extrusion and laminating methods such as others.
[0040]
Specific examples of the method for producing the laminated material will be described below. Specific examples of the dry laminate method described above are as shown in FIGS. 3 and 4 described above, and thus, the extruded laminate described above. To illustrate a specific example of the lamination method, although not shown, first, as shown in FIG. 3 and FIG. 4 described above, on the back surface of the desired base film made of corona treatment, etc., desired characters, symbols, pictures After forming a printed pattern layer composed of, graphics, etc., an anchor coating agent is coated on the surface of the base film containing the printed pattern layer by a gravure roll coating method or the like. -A coating agent layer is formed, and then the surface of the white base resin layer constituting the multilayer laminated resin film shown in Fig. 1 is opposed to the surface of the anchor coating agent layer. And then, for example, between the two layers It can be laminated to both via a low-density polyethylene that hot-melt extruded resin layer while extruding a hot-melt resin such like, to produce a laminate using a multilayer laminated resin film of the present invention.
[0041]
Alternatively, in the present invention, although not shown, as shown in FIG. 4 described above, first, from the desired character, symbol, pattern, figure, etc. After forming the printed pattern layer, an anchor coating agent is coated on the surface of the base film containing the printed pattern layer by the gravure roll coating method or the like in the same manner as described above. A coating agent layer is formed, and then a barrier base material is placed on the surface of the anchor coating agent layer so as to face each other. While extruding the meltable resin, both of them are laminated through the hot-melt extruded resin layer and the like, and then, on the surface of the barrier base material laminated as described above, in the same manner as above, the anchor coat is applied. Coating agent by gravure roll coating method etc. -A coating agent layer is formed, and then the surface of the anchor coating agent layer is opposed to the surface of the first white resin layer constituting the multilayer laminated resin film shown in Fig. 1 above. Then, in the same manner as described above, for example, while extruding a hot-melt resin such as low-density polyethylene, the both are laminated through the hot-melt extruded resin layer, etc. A laminated material using the multilayer laminated resin film according to the invention can be produced.
The above exemplification is just one example, and the present invention is not limited thereby.
[0042]
In the production of a laminated material as a packaging material using the above-mentioned multilayer laminated resin film according to the present invention, a substrate film such as another plastic film laminated on the multilayer laminated resin film according to the present invention, a paper substrate, oxygen Various base materials such as a barrier base material, cellophane, woven fabric or non-woven fabric, glass plate, etc. that prevent the transmission of gas or water vapor will be described. First, as such a base material, a base film such as a plastic film is used. As, for example, as a basic material of a laminated material, it has excellent properties in mechanical, physical, chemical, etc., in particular, has strength and toughness, and has heat resistance A resin film or sheet can be used. Specifically, for example, polyester resin, polyamide resin, polyaramid resin, poly Olefin-based resins, polycarbonate - Bonnet - DOO resins, polystyrene resins, polyacetal - Le resins, fluorine resins, and other such tough film of a resin or sheet of - DOO, may use other like.
Thus, as the resin film or sheet, any of an unstretched film or a stretched film stretched in a uniaxial direction or a biaxial direction can be used.
The thickness of the film is about 5 μm to 100 μm, preferably about 10 μm to 50 μm.
In the present invention, the base film as described above is subjected to surface printing or back printing by a normal printing method with a desired printing pattern such as letters, figures, symbols, patterns, patterns, etc., for example. May be.
[0043]
Next, in the present invention, as the base material constituting the laminated material, for example, various paper base materials constituting the paper layer can be used. Specifically, in the present invention, Materials include formability, bending resistance, rigidity, etc., for example, strong sized bleached or unbleached paper base, or pure white roll paper, kraft paper, paperboard, processed paper Paper base materials such as, etc., etc. can be used.
In the above, the paper substrate constituting the paper layer has a basis weight of about 80 to 600 g / m. ² , Preferably a basis weight of about 100 to 450 g / m ² It is desirable to use the one of the order.
Of course, in the present invention, the paper base material constituting the paper layer and various resin films or sheets as the base film mentioned above can be used in combination.
[0044]
Furthermore, in the present invention, as a base material constituting the above laminated material, for example, low density polyethylene having a barrier property such as water vapor, water, medium density polyethylene, high density polyethylene, linear low density polyethylene, polypropylene, Examples of the barrier base material that prevents the permeation of oxygen gas, water vapor, etc., such as a resin film or sheet of an ethylene-propylene copolymer, for example, polyvinylidene chloride resin, polyvinyl alcohol resin Saponified ethylene-vinyl acetate copolymer, MXD nylon 6 resin, other barrier resin film or sheet, aluminum foil or aluminum vapor deposited resin film, vapor deposited film of inorganic oxide such as silicon oxide, aluminum oxide For resin films and resins having physical vapor deposition (chemical vapor deposition, etc.) Coloring agents such as postal, other film or sheet of various colored resins having a light shielding property obtained by a film and kneaded by adding desired additives - DOO, may use other like.
These materials can be used alone or in combination. The thickness of the film or sheet is arbitrary, but is usually about 5 μm to 300 μm, more preferably about 10 μm to 100 μm.
[0045]
In the present invention, when a packaging bag made using the above laminated material is applied to various uses, it is usually subjected to severe physical and chemical conditions. The laminated material requires severe conditions, and various conditions such as deformation prevention strength, drop impact strength, pinhole resistance, heat resistance, sealing performance, quality maintenance, workability, hygiene, and others are required. Therefore, in the present invention, it is possible to arbitrarily select and use a substrate that satisfies the above-described conditions. Specifically, for example, low density polyethylene, medium density polyethylene, high density Density polyethylene, linear low density polyethylene, polypropylene, ethylene-propylene copolymer, ethylene-vinyl acetate copolymer, ionomer resin, ethylene-ethyl acrylate copolymer, ethylene-acrylic acid or Crylic acid copolymer, methylpentene polymer, polybutene resin, polyvinyl chloride resin, polyvinyl acetate resin, polyvinylidene chloride resin, vinyl chloride-vinylidene chloride copolymer, poly (meth) acrylic resin, Polyacrylonitrile resin, polystyrene resin, acrylonitrile-styrene copolymer (AS resin), acrylonitrile-butadiene-styrene copolymer (ABS resin), polyester resin, polyamide resin, polycarbonate resin Films of known resins such as resins, polyvinyl alcohol resins, saponified ethylene-vinyl acetate copolymers, fluorine resins, diene resins, polyacetal resins, polyurethane resins, nitrocellulose, etc. It can be arbitrarily selected from the sheets.
In addition, for example, a film such as cellophane, a synthetic paper, or the like can be used.
In the present invention, the above-described film or sheet may be any of unstretched, uniaxially or biaxially stretched.
The thickness is arbitrary, but can be selected from a range of several μm to 300 μm.
Furthermore, in the present invention, the film or sheet may be a film having any property such as extrusion film formation, inflation film formation, and coating film.
[0046]
Next, in the present invention, the laminating adhesive layer constituting the laminated material will be described. As the laminating adhesive constituting the laminating adhesive layer, for example, a polyvinyl acetate adhesive is used. Agents, homopolymers such as ethyl, butyl, 2-ethylhexyl ester of acrylic acid, or copolymers of these with methyl methacrylate, acrylonitrile, styrene, etc., cyanoacrylate-based adhesives, cyanoacrylate Adhesives, ethylene copolymer adhesives made of copolymers of ethylene and vinyl acetate, ethyl acrylate, acrylic acid, methacrylic acid, etc., cellulose adhesives, polyester adhesives, polyamides Adhesive, polyimide adhesive, amino resin adhesive made of urea resin or melamine resin, phenol Grease adhesives, epoxy adhesives, polyurethane adhesives, reactive (meth) acrylic adhesives, chloroprene rubber, nitrile rubber, rubber adhesives made of styrene-butadiene rubber, silicone adhesives, Inorganic adhesives made of alkali metal silicate, low-melting glass, etc., and other adhesives can be used.
The composition system of the above-mentioned adhesive may be any composition form such as an aqueous type, a solution type, an emulsion type, and a dispersion type, and the properties thereof are film / sheet type, powder type, solid type, etc. Any form may be used, and the bonding mechanism may be any form such as a chemical reaction type, a solvent volatilization type, a heat melting type, and a hot pressure type.
Thus, the above adhesive can be applied by, for example, a roll coating method, a gravure roll coating method, a kiss coating method, a coating method or the like, or a printing method. The coating amount is 0.1 to 10 g / m. ² (Dry state) is desirable.
[0047]
Next, in the present invention, the anchor coat agent layer constituting the laminated material will be described. As the anchor coat agent constituting the anchor coat agent layer, for example, alkyl titanate or the like is used. Various aqueous or oil-based anchor coating agents such as organic titanium, isocyanate, polyethyleneimine, polyptadiene, etc. can be used.
The above-mentioned anchor coating agent can be coated using a coating method such as a roll coat, a gravure roll coat, a kiss coat, and the like. As an amount, 0.1 to 5 g / m ² (Dry state) is desirable.
[0048]
Examples of the melt-extruded resin layer in the above extrusion lamination method include, for example, polyethylene resins, polypropylene resins, acid-modified polyethylene resins, acid-modified polypropylene resins, ethylene-acrylic acid or methacrylic acid copolymers. , Thermoplastic resins such as sarin resin, ethylene-vinyl acetate copolymer, polyvinyl acetate resin, ethylene-acrylic acid ester or methacrylic acid ester copolymer, polystyrene resin, polyvinyl chloride resin, etc. 1 type (s) or 2 or more types can be used.
In the above extrusion laminating method, in order to obtain stronger adhesive strength, for example, lamination can be performed through an anchor coating agent layer such as the above-described anchor coating agent. .
[0049]
In the present invention, a desired printed pattern layer can be formed between any of the layers constituting the laminated material.
Thus, the printed pattern layer is mainly composed of one or more ordinary ink vehicles, and if necessary, a plasticizer, a stabilizer, an antioxidant, a light stabilizer, an ultraviolet ray, and the like. One or more additives such as an absorbent, a curing agent, a crosslinking agent, a lubricant, an antistatic agent, a filler, and the like are arbitrarily added, and a colorant such as a dye / pigment is added, and a solvent is added. The ink composition is prepared by sufficiently kneading with a diluent, and then the ink composition is used. For example, gravure printing, offset printing, letterpress printing, screen printing, transfer printing, flexographic printing, etc. The printing pattern layer according to the present invention can be formed by printing a desired printing pattern composed of characters, figures, symbols, patterns, etc. on the above-described coating thin film using a printing method such as .
[0050]
In the present invention, examples of the primer layer include a polyurethane resin, a polyester resin, a polyamide resin, an epoxy resin, a phenol resin, a (meth) acrylic resin, and a polyvinyl acetate resin. The primer layer may be formed using a resin composition having a main component of the vehicle, such as a polyolefin resin such as polyethylene aly polypropylene, or a copolymer or modified resin thereof, a cellulose resin, or the like. it can.
In the present invention, for example, a primer coating layer is formed by coating using a coating method such as roll coating, gravure rolling coating, kiss coating, etc. Therefore, the coating amount is 0.1 to 10 g / m. ² (Dry state) is desirable.
Moreover, in this invention, when performing said lamination | stacking, if necessary, pre-treatments, such as a corona treatment and an ozone treatment, can be given to a film.
[0051]
Next, in the present invention, a description will be given of a packaging bag produced using the laminated material produced using the multilayer laminated resin film according to the present invention, and first, the bag making or manufacturing for producing the packaging bag. As the packaging method, for example, when the packaging bag is a soft packaging bag made of a plastic film or the like, the laminated material produced by the method as described above is used, and the silver-based system as the heat seal resin layer of the inner layer is used. The light-shielding resin layer, the concealing resin layer, or the colorless and transparent resin layer are opposed to each other and folded, or two of them are overlapped, and the peripheral edge is heat sealed. Thus, a sealing part can be provided to manufacture a packaging bag.
Thus, as a bag-making method, the above-mentioned laminated material is folded with the inner layer faces facing each other, or the two sheets are overlapped, and the peripheral edge of the outer periphery is, for example, a side sheet. Seal type, two-sided seal type, three-sided seal type, four-sided seal type, envelope-sealed seal type, jointed seal type (pillar seal type), pleated seal type It is possible to manufacture various types of packaging bags according to the present invention by heat sealing in the form of heat sealing such as flat bottom sealing type, square bottom sealing type, etc.
In addition, for example, a self-supporting packaging bag (standing pouch) or the like can be manufactured. Further, in the present invention, a tube container or the like can be manufactured using the above-described laminated material.
In the above, as the heat seal method, for example, a bar seal, a rotary roll seal, a belt seal, an impulse seal, a high frequency seal, an ultrasonic seal and the like are known. It can be done by the method.
In the present invention, a spout such as a one-piece type, a two-piece type, or the like, or a zipper for opening and closing can be arbitrarily attached to the packaging bag as described above.
[0052]
Next, in the case of a liquid-filled paper container containing a paper base material as a packaging bag, for example, a laminated material in which a paper base material is laminated is produced as a laminated material, and a blank board is produced from which a desired paper container is produced. Thereafter, the blank, the bottom, the head, and the like are boxed using the blank plate, so that, for example, a brick type, a flat type or a gable top type liquid paper container can be manufactured.
Further, the shape can be any of a rectangular container, a cylindrical paper can such as a round shape, and the like.
[0053]
In the present invention, the packaging bag produced as described above includes, for example, food and drink, fruit juice, juice, drinking water, liquor, cooked food, marine product, frozen food, meat product, boiled food, rice cake, liquid soup. Can be filled and packaged with various foods and beverages such as flavors, seasonings, liquid detergents, cosmetics, chemicals, and other articles.
Thus, in the present invention, in particular, for example, a liquid sachet for filling and packaging soy sauce, sauce, soup, etc., a soft packaging bag for filling and packaging fresh confectionery, etc., or boiled or retort food, etc. It is useful as a packaging container for filling and packaging liquid foods and drinks such as soft packaging bags to be filled and packaged, and other foods and drinks containing moisture.
In the present invention, for example, contents such as food and drink are filled from the opening of the three-way seal type packaging bag produced above, and then the upper opening is heated to the heat seal. Then, an upper seal portion or the like is formed, and further, for example, a boil treatment, a retort treatment, or the like is performed as necessary, so that a packaged product having various forms can be manufactured.
In the present invention, it is needless to say that the present invention is not limited to the above-described packaging bags. Depending on the purpose and application, soft packaging bags, liquid paper containers, paper cans, etc. It goes without saying that various types of packaging containers can be manufactured.
[0054]
Thus, in the present invention, the packaged product manufactured as described above is such that the multilayer laminated resin film according to the present invention is particularly excellent in light shielding property or light shielding property, for example, sunlight or fluorescent light from the sun or a fluorescent lamp. It is possible to prevent the content from being decomposed or altered, or to cause light degradation such as discoloration, etc. In the case of foods and drinks, etc., it has the advantage that it can prevent oxidation of fat and oil components and the like due to transmission of sunlight or fluorescence.
In particular, frozen foods and drinks are usually handled by supermarkets and other mass retailers. In this case, they are sold on display shelves that receive a lot of fluorescence from fluorescent lamps. It's real.
Thus, in frozen foods and beverages sold under the above environment, the fat and oil components are greatly affected by light having a wavelength of 500 nm or less, and have a maximum absorption of visible light in the yellow band around 550 nm. Therefore, the oxidation reaction is accelerated by the influence of the fluorescent light or the like by a fluorescent lamp or the like, and the content may be decomposed or altered.
However, as described above, the multilayer laminated resin film according to the present invention is particularly excellent in light-shielding property or light-shielding property, for example, blocking the transmission of sunlight or fluorescence by the sun or a fluorescent lamp, and the content is Since it is possible to prevent degradation or alteration, or photodegradation such as discoloration, etc., a package made from a laminated material produced using the multilayer laminated resin film according to the present invention Frozen foods and drinks that use bags are handled by supermarkets and other mass retailers, and are placed and sold on display shelves that receive a lot of fluorescent light from fluorescent lamps. Even if it is received, the promotion of the oxidation reaction thereby can be prevented, and the occurrence of decomposition or alteration of the contents can be prevented.
In the present invention, since the packaged product manufactured above does not use an aluminum foil or an aluminum deposited film, a metal (foreign matter) detector is used, and a metal (foreign matter) is detected by a metal (foreign matter) detector. It has the advantage that detection is also possible.
[0055]
【Example】
Next, the present invention will be described more specifically with reference to examples.
Example 1
(1). First, the following resin compositions (a) to (c) were prepared.
(I). Ethylene-α / olefin copolymer polymerized using a single site catalyst (metallocene catalyst) [Mitsui Chemicals, trade name, Evolu-SP2020, density, 0.916 g / m ^Three , Melt flow rate (MFR), 1.5 g / 10 min], 85.0 parts by weight, 15.0 parts by weight of titanium oxide as a white pigment, 0.5 parts by weight of synthetic silica, and erucamide 0 0.05 part by weight and 0.05 part by weight of ethylenebisoleylamide were sufficiently kneaded to prepare a resin composition constituting the first layer.
(B). Ethylene-α / olefin copolymer polymerized using a single site catalyst (metallocene catalyst) [Mitsui Chemicals, trade name, Evolu-SP2020, density, 0.916 g / m ^Three Melt flow rate (MFR), 1.5 g / 10 min], 95.0 parts by weight, 5.0 parts by weight of aluminum powder paste as a silver pigment, and 0.05 parts by weight of erucamide The resin composition constituting the second layer was prepared by sufficiently kneading.
(C). Ethylene-α / olefin copolymer polymerized using a single site catalyst (metallocene catalyst) [Mitsui Chemicals, trade name, Evolu-SP2020, density, 0.916 g / m ^Three , Melt flow rate (MFR), 1.5 g / 10 min], 100.0 parts by weight, 0.5 parts by weight of synthetic silica, 0.05 parts by weight of erucamide, The resin composition constituting the third layer was prepared by sufficiently kneading 05 parts by weight.
(2). Next, using the resin compositions (a) to (c) prepared above, using an inflation co-extruder, the layer made of the resin composition (a) is 20 μm, (b) An unstretched multilayer laminated resin film consisting of three types and three layers was produced by coextruding a layer made of the resin composition of 20 μm and a layer of the resin composition of (c) to 10 μm.
The multilayer laminated resin film produced above was milky white and excellent in aesthetics when visually recognized from the appearance.
Moreover, when visually recognized from the 3rd layer side, it was silver and was excellent in the glossiness.
Furthermore, the light-shielding property or light-shielding property was sufficient, and each wavelength caused by the oxidation of fats and oils was hardly transmitted, which was very good.
[0056]
Reference example 1
(1). A normal gravure ink composition is used on the corona-treated surface of a biaxially stretched nylon 6 film having a thickness of 15 μm, and a desired printed pattern is formed by a gravure printing method. A thickness of 4.0 g / m of a liquid curing type polyurethane adhesive using a gravure roll coating method. ² (Laminated state) to form an adhesive layer for laminating, and then, on the surface of the laminating adhesive layer, the multilayer laminated resin film produced in Example 1 above was The layers (a) of the layer made of the resin composition (a) were laminated with the corona-treated surfaces facing each other, and then both were laminated by dry lamination to produce a laminate.
(2). Next, two sheets of the laminated material produced as described above were prepared, the surfaces of the layers of the resin composition of (c) were overlapped with each other, and then, the end portion around the outer periphery was placed on the three-sided heat seal. Thus, a three-sided seal type flexible packaging bag having a seal part and an opening above was manufactured.
In the three-sided seal type soft packaging bag produced above, fill and wrap the real fried rice quickly frozen from its opening, and then heat-seal the end of the opening. A sealed part was formed to produce a frozen packaged product.
Even if the frozen packaging product produced above was placed on a display shelf that received a lot of fluorescence from a fluorescent lamp or the like in a supermarket or other mass retailer, the contents were not decomposed or altered.
In addition, the frozen packaging product produced above could be inspected for foreign matter using a metal detector.
[0057]
Example 2
(1). First, the following resin compositions (a) to (c) were prepared.
(I). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three , Melt flow rate (MFR), 3.7 g / 10 min], 85.0 parts by weight, 15.0 parts by weight of titanium oxide as a white pigment, 0.5 parts by weight of synthetic silica, and erucamide 0 0.05 part by weight and 0.05 part by weight of ethylenebisoleylamide were sufficiently kneaded to prepare a resin composition constituting the first layer.
(B). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three Melt flow rate (MFR), 3.7 g / 10 min], 90.0 parts by weight, 10.0 parts by weight of aluminum powder paste as a silver pigment, and 0.05 parts by weight of erucamide The resin composition constituting the second layer was prepared by sufficiently kneading.
(C). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three , Melt flow rate (MFR), 3.7 g / 10 min], 85.0 parts by weight, 15.0 parts by weight of titanium oxide as a white pigment, 0.5 parts by weight of synthetic silica, and erucamide 0 0.05 part by weight and 0.05 part by weight of ethylenebisoleylamide were sufficiently kneaded to prepare a resin composition constituting the third layer.
(2). Next, using the resin compositions (a) to (c) prepared above, using an inflation co-extruder, the layer made of the resin composition (a) is 20 μm, (b) An unstretched multilayer laminated resin film consisting of three types and three layers was produced by coextruding a layer made of the resin composition of 20 μm and a layer of the resin composition of (c) to 10 μm.
The multilayer laminated resin film produced above was milky white and excellent in aesthetics when visually recognized from the appearance.
Further, even when viewed from the third layer side, it was milky white and had excellent gloss and clarity.
Further, the light-shielding property or light-shielding property was sufficient, and each wavelength resulting from the oxidation of fats and oils was hardly transmitted, which was very good.
[0058]
Reference example 2
(1). A normal gravure ink composition is used on the corona-treated surface of a biaxially stretched polyethylene terephthalate film having a thickness of 12 μm, and a desired printed pattern is formed by a gravure printing method, and then the entire surface including the printed pattern is formed. Thickness of 4.0g / m of two-component curing polyurethane adhesive using gravure roll coating method ² (Laminated state) to form an adhesive layer for laminating, and then, on the surface of the laminating adhesive layer, the multilayer laminated resin film produced in Example 2 was And the corona-treated surface of the layer made of the resin composition of FIG. 2) are overlapped and then laminated together by dry lamination to produce a laminate.
(2). Next, two sheets of the laminated material produced as described above were prepared, the surfaces of the layers of the resin composition of (c) were overlapped with each other, and then, the end portion around the outer periphery was placed on the three-sided heat seal. Thus, a three-sided seal type flexible packaging bag having a seal part and an opening above was manufactured.
Potato chips are filled and packaged from the opening in the three-sided seal type soft packaging bag manufactured as described above, and then the end of the opening is heat sealed and the upper seal is formed. To produce a packaged product.
Even if the packaged product produced above was sold in a mass retailer such as a supermarket, the contents were not decomposed or altered.
In addition, the frozen packaging product produced above could be inspected for foreign matter using a metal detector.
[0059]
Example 3
(1). First, the following resin compositions (a) to (c) were prepared.
(I). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three , Melt flow rate (MFR), 3.7 g / 10 min], 85.0 parts by weight, 15.0 parts by weight of titanium oxide as a white pigment, 0.5 parts by weight of synthetic silica, and erucamide 0 0.05 part by weight and 0.05 part by weight of ethylenebisoleylamide were sufficiently kneaded to prepare a resin composition constituting the first layer.
(B). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three , Melt flow rate (MFR), 3.7 g / 10 min], 95.0 parts by weight, 5.0 parts by weight of aluminum powder paste as a silver pigment, and 0.05 parts by weight of erucamide The resin composition constituting the second layer was prepared by sufficiently kneading.
(C). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three , Melt flow rate (MFR), 3.7 g / 10 min], 85.0 parts by weight, 15.0 parts by weight of titanium oxide as a white pigment, 0.5 parts by weight of synthetic silica, and erucamide 0 0.05 part by weight and 0.05 part by weight of ethylenebisoleylamide were sufficiently kneaded to prepare a resin composition constituting the third layer.
(2). Next, using the resin compositions (a) to (c) prepared above, using an inflation co-extruder, the layer made of the resin composition (a) is 20 μm, (b) An unstretched multilayer laminated resin film consisting of three types and three layers was produced by coextruding a layer made of the resin composition of 20 μm and a layer of the resin composition of (c) to 10 μm.
The multilayer laminated resin film produced above was milky white and excellent in aesthetics when visually recognized from the appearance.
Moreover, even when visually recognized from the third layer side, it was milky white and excellent in aesthetics and gloss.
Further, the light-shielding property or light-shielding property was sufficient, and each wavelength resulting from the oxidation of fats and oils was hardly transmitted, which was very good.
[0060]
Reference example 3
(1). A normal gravure ink composition is used on the corona-treated surface of a biaxially stretched nylon 6 film having a thickness of 15 μm, and a desired printed pattern is formed by a gravure printing method. A thickness of 4.0 g / m of a liquid curing type polyurethane adhesive using a gravure roll coating method. ² (Laminated state) to form an adhesive layer for laminating, and then, on the surface of the laminating adhesive layer, the multilayer laminated resin film produced in Example 3 was And the corona-treated surface of the layer made of the resin composition of FIG. 2) are overlapped and then laminated together by dry lamination to produce a laminate.
(2). Next, two sheets of the laminated material produced as described above were prepared, the surfaces of the layers of the resin composition of (c) were overlapped with each other, and then, the end portion around the outer periphery was placed on the three-sided heat seal. Thus, a three-sided seal type flexible packaging bag having a seal part and an opening above was manufactured.
The three-sided seal type soft packaging bag manufactured above is filled and packaged with chicken rice that has been rapidly frozen from its opening, and then the end of the opening is heat sealed and the upper sheet is opened. -A frozen packaged product was produced by forming a lug part.
Even if the frozen packaging product produced above was placed on a display shelf that received a lot of fluorescence from a fluorescent lamp or the like in a supermarket or other mass retailer, the contents were not decomposed or altered.
In addition, the frozen packaging product produced above could be inspected for foreign matter using a metal detector.
[0061]
Example 4
(1). First, the following resin compositions (a) to (d) were prepared.
(I). Ethylene-α / olefin copolymer polymerized using a single site catalyst (metallocene catalyst) [Mitsui Chemicals, trade name, Evolu-SP2020, density, 0.916 g / m ^Three , Melt flow rate (MFR), 1.5 g / 10 min], 100.0 parts by weight, 0.5 parts by weight of synthetic silica, 0.05 parts by weight of erucamide, 05 parts by weight were sufficiently kneaded to prepare a resin composition constituting the first layer.
(B). Ethylene-α / olefin copolymer polymerized using a single site catalyst (metallocene catalyst) [Mitsui Chemicals, trade name, Evolu-SP2020, density, 0.916 g / m ^Three , Melt flow rate (MFR), 1.5 g / 10 min], 85.0 parts by weight, 15.0 parts by weight of titanium oxide as a white pigment, 0.5 parts by weight of synthetic silica, and erucamide 0 0.05 part by weight and 0.05 part by weight of ethylenebisoleylamide were sufficiently kneaded to prepare a resin composition constituting the second layer.
(C). Ethylene-α / olefin copolymer polymerized using a single site catalyst (metallocene catalyst) [Mitsui Chemicals, trade name, Evolu-SP2020, density, 0.916 g / m ^Three Melt flow rate (MFR), 1.5 g / 10 min], 95.0 parts by weight, 5.0 parts by weight of aluminum powder paste as a silver pigment, and 0.05 parts by weight of erucamide The resin composition constituting the third layer was prepared by sufficiently kneading.
(D). Ethylene-α / olefin copolymer polymerized using a single site catalyst (metallocene catalyst) [Mitsui Chemicals, trade name, Evolu-SP2020, density, 0.916 g / m ^Three , Melt flow rate (MFR), 1.5 g / 10 min], 100.0 parts by weight, 0.5 parts by weight of synthetic silica, 0.05 parts by weight of erucamide, 05 parts by weight were sufficiently kneaded to prepare a resin composition constituting the fourth layer.
(2). Next, using the resin compositions (a) to (d) prepared above, using an inflation co-extruder, the layer of the resin composition (a) is 5 μm, An unstretched multi-layer laminated resin film comprising four types and four layers by coextruding a layer made of the resin composition to 20 μm, a layer made of the resin composition of (c) 20 μm, and a layer made of the resin composition of (d) 5 μm, respectively. Manufactured.
The multilayer laminated resin film produced above was milky white and excellent in aesthetics when visually recognized from the appearance.
Moreover, when visually recognized from the 4th layer side, it was silver and was excellent in aesthetics and glossiness.
Further, the light-shielding property or light-shielding property was sufficient, and each wavelength resulting from the oxidation of fats and oils was hardly transmitted, which was very good.
[0062]
Reference example 4
(1). A normal gravure ink composition is used on the corona-treated surface of a biaxially stretched nylon 6 film having a thickness of 15 μm, and a desired printed pattern is formed by a gravure printing method. A thickness of 4.0 g / m of a liquid curing type polyurethane adhesive using a gravure roll coating method. ² (Laminated state) is coated to form a laminate adhesive layer, and the multilayer laminated resin film produced in Example 4 is applied to the surface of the laminate adhesive layer. And the corona-treated surface of the layer made of the resin composition of FIG. 2) are overlapped and then laminated together by dry lamination to produce a laminate.
(2). Next, two sheets of the laminated material produced above were prepared, and the layers of the layer (d) of the resin composition were opposed to each other, and thereafter, the end portions around the outer periphery were placed on the three-sided heat seal. Thus, a three-sided seal type flexible packaging bag having a seal part and an opening above was manufactured.
The three-sided seal type soft packaging bag manufactured above is filled and packaged with liquid detergent from the opening, and then the opening is heat sealed to form the upper seal. To produce packaged products.
Even if the packaged product produced above was placed on a display shelf that received a lot of fluorescence from a fluorescent lamp or the like at a mass retailer such as a supermarket, the contents were not decomposed or altered.
In addition, the packaged product manufactured above could be subjected to foreign matter inspection using a metal detector.
[0063]
Example 5
(1). First, the following resin compositions (a) to (e) were prepared.
(I). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three , Melt flow rate (MFR), 3.7 g / 10 min], 100.0 parts by weight, 0.5 parts by weight of synthetic silica, 0.05 parts by weight of erucamide, 05 parts by weight were sufficiently kneaded to prepare a resin composition constituting the first layer.
(B). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three , Melt flow rate (MFR), 3.7 g / 10 min], 85.0 parts by weight, 15.0 parts by weight of titanium oxide as a white pigment, 0.5 parts by weight of synthetic silica, and erucamide 0 0.05 part by weight and 0.05 part by weight of ethylenebisoleylamide were sufficiently kneaded to prepare a resin composition constituting the second layer.
(C). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three , Melt flow rate (MFR), 3.7 g / 10 min], 95.0 parts by weight, 5.0 parts by weight of aluminum powder paste as a silver pigment, and 0.05 parts by weight of erucamide The resin composition constituting the third layer was prepared by sufficiently kneading.
(D). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three , Melt flow rate (MFR), 3.7 g / 10 min], 85.0 parts by weight, 15.0 parts by weight of titanium oxide as a white pigment, 0.5 parts by weight of synthetic silica, and erucamide 0 0.05 part by weight and 0.05 part by weight of ethylenebisoleylamide were sufficiently kneaded to prepare a resin composition constituting the fourth layer.
(E). High-pressure low-density polyethylene [Mitsui Chemicals, trade name, Mirason 16P, density, 0.923 g / m ^Three , Melt flow rate (MFR), 3.7 g / 10 min], 100.0 parts by weight, 0.5 parts by weight of synthetic silica, 0.05 parts by weight of erucamide, The resin composition constituting the fifth layer was prepared by sufficiently kneading 05 parts by weight.
(2). Next, using the resin compositions (a) to (e) prepared above, using an inflation co-extruder, the layer made of the resin composition (a) was 5 μm, and (b) 5 types of co-extruded layers with a resin composition of 10 μm, (c) with a resin composition of 20 μm, (d) with a resin composition of 10 μm, and (e) with a resin composition of 5 μm An unstretched multilayer laminated resin film consisting of 5 layers was produced.
The multilayer laminated resin film produced above was milky white and excellent in aesthetics when visually recognized from the appearance.
Further, even when viewed from the fifth layer side, it was milky white and excellent in aesthetics and clarity.
Further, the light-shielding property or light-shielding property was sufficient, and each wavelength resulting from the oxidation of fats and oils was hardly transmitted, which was very good.
[0064]
Reference Example 5
(1). A normal gravure ink composition is used on the corona-treated surface of a biaxially stretched nylon 6 film having a thickness of 15 μm, and a desired printed pattern is formed by a gravure printing method. A thickness of 4.0 g / m of a liquid curing type polyurethane adhesive using a gravure roll coating method. ² (Laminated state) to form an adhesive layer for laminating, and then, on the surface of the laminating adhesive layer, the multilayer laminated resin film produced in Example 5 was And the corona-treated surface of the layer made of the resin composition of FIG. 2) are overlapped and then laminated together by dry lamination to produce a laminate.
(2). Next, two sheets of the laminated material produced as described above were prepared, the surfaces of the layers of the resin composition of (e) were opposed to each other, and thereafter, the end portion around the outer periphery was placed on the three-sided heat seal. Thus, a three-sided seal type flexible packaging bag having a seal part and an opening above was manufactured.
The three-sided seal type soft packaging bag manufactured above is filled and packaged with a bleaching agent (liquid) from the opening, and then the opening is heated and sealed. To produce a packaged product.
Even if the packaged product produced above was placed on a display shelf that received a lot of fluorescence from a fluorescent lamp or the like at a mass retailer such as a supermarket, the contents were not decomposed or altered.
In addition, the packaged product manufactured above could be subjected to foreign matter inspection using a metal detector.
[0065]
Reference Example 6
(1). A glow discharge plasma generator is used on the surface of the silicon oxide vapor-deposited film of a 12 μm-thick biaxially stretched polyethylene terephthalate film having a 200-nm thick silicon oxide vapor-deposited film (by chemical vapor deposition). , Power 9kw, oxygen gas (O ₂ ): Argon gas (Ar) = 7.0: 2.5 (unit: slm) is used, and the mixed gas pressure is 6 × 10. ^-Five Oxygen / argon mixed gas plasma treatment was performed at Torr to form a plasma treated surface in which the surface tension of the deposited silicon oxide film surface was improved by 54 dyne / cm or more.
Further, on the plasma treatment surface of the deposited silicon oxide film formed above, an initial condensation product of polyurethane resin, epoxy silane coupling agent (8.0 wt%) and antiblocking agent (1.0 wt%) are used. %) And a sufficiently kneaded primer resin composition is used, and this is formed into a film thickness of 0.5 g / m by the gravure roll coating method. ² A primer layer was formed by coating so as to be in a dry state.
Next, after forming the primer layer as described above, a normal gravure ink composition is used on the entire surface including the primer layer, and a desired print pattern is formed by a gravure printing method. A two-component curable polyurethane laminating adhesive is applied to the entire surface using a gravure roll coating method to a thickness of 4.0 g / m. ² (Dry state) to form an adhesive layer for laminating, and then to the surface of the laminating adhesive layer, a biaxially stretched nylon 6 film having a thickness of 15 μm was applied to the corona-treated surface. The surfaces were overlapped, and then both were laminated by dry lamination.
Next, after the corona discharge treatment was applied to the other surface of the 15 μm thick biaxially stretched nylon 6 film laminated as described above, the surface of the corona discharge treatment surface was subjected to a two-component curable type in the same manner as described above. A thickness of 4.0 g / m of polyurethane-based laminating adhesive using a gravure roll coating method. ² (Laminated state) to form an adhesive layer for laminating, and then, on the surface of the laminating adhesive layer, the multilayer laminated resin film produced in Example 5 was And the corona-treated surface of the layer made of the resin composition of FIG. 2) are overlapped and then laminated together by dry lamination to produce a laminate.
(2). Next, two sheets of the laminated material produced as described above were prepared, the surfaces of the layers of the resin composition of (e) were opposed to each other, and thereafter, the end portion around the outer periphery was placed on the three-sided heat seal. Thus, a three-sided seal type flexible packaging bag having a seal part and an opening above was manufactured.
In the three-sided seal type soft packaging bag manufactured above, the curry is filled and packaged from the opening, and then the opening is heat sealed to form the upper seal. The semi-finished packaging product is manufactured, and then the semi-finished packaging product is put into a retort kettle, and the temperature, 120 ° C., pressure, 2.1 kgf / cm ² -Retort processing was performed on the retort processing conditions which consist of G, time, and 30 minutes, and the retort processing packaging product concerning this invention was manufactured. Even if the retort-processed packaging products manufactured above were placed on display shelves that received a lot of fluorescence from fluorescent lamps, etc. at supermarkets, etc., no decomposition or alteration of the contents was observed. .
In addition, the retort-processed packaged product manufactured above could be subjected to foreign matter inspection using a metal detector.
[0066]
Comparative Example 1
A polyolefin resin film (made by Idemitsu Unitech Co., Ltd., trade name, MS-602CG) having a film thickness of 50 μm was used as a heat-seal resin film, and this was comparatively evaluated.
[0067]
Experimental example
About the multilayer resin film concerning said Examples 1-5 and the polyolefin-type resin film concerning the comparative example 1, (1). Total light transmittance, (2). The light shielding property was measured and evaluated.
(1). Measurement of total light transmittance
This was evaluated by measuring the transmittance of all light rays using a model name, haze meter (SM-C) manufactured by Suga Test Instruments Co., Ltd.
(2). Measurement of light shielding
This was evaluated by measuring the light transmittance in the region of 220 [nm] to 800 [nm] using a model name, UV-2400PC, spectrophotometer, manufactured by Shimadzu Corporation.
The measurement results are shown in Table 1 below.
[0068]

[0069]
As is clear from the measurement results shown in Table 1 above, the multilayer laminated resin film according to the present invention has an appropriate light-shielding property or light-shielding property while maintaining the appearance, aesthetics, etc., and is a light-shielding packaging material. In contrast, the polyolefin resin film according to Comparative Example 1 has a light shielding property or a light shielding property, but does not look good in appearance. It was a packaging material with a weak appelling force.
[0070]
【The invention's effect】
As apparent from the above description, the present invention first includes a white base resin layer made of a resin composition containing at least a thermoplastic resin and a white colorant, and at least a thermoplastic resin and a silver colorant. A multilayer laminated resin film having a structure co-extruded and laminated in order with a silver-based light-shielding resin layer by a resin composition, or a white base resin layer by a resin composition containing at least a thermoplastic resin and a white colorant, Silver-based light-shielding resin layer comprising a resin composition containing at least a thermoplastic resin and a silver-based colorant, and a concealing resin for concealing the above-mentioned silver-based light-shielding resin layer containing at least a thermoplastic resin as a main component of a vehicle A multilayer laminated resin film having a structure in which a concealing resin layer by a composition is coextruded and laminated in the order is manufactured, and then the multilayer laminated resin film is used, and another substrate film is used. Rum etc. are laminated arbitrarily to produce a laminated material as a packaging material, and then the laminated material is used, and this is made into a bag to produce a packaging bag. When a packaged product is manufactured by filling and packaging contents such as food and beverage products, it has excellent appearance aesthetics, decorativeness, etc., has strength, etc., and has weather resistance, heat resistance, water resistance, -Excellent physical properties such as tossal and other properties, especially light-shielding or light-blocking properties, for example, blocking sunlight or fluorescent light transmission by the sun or fluorescent lamp, etc. Prevents photo-degradation such as deterioration or discoloration, etc., has contents filling / packaging suitability, storage suitability, etc., and generates harmful substances when incinerated and discarded after use It is extremely excellent in waste disposal suitability, environmental suitability, etc. Metal piece (foreign matter) detection by detectors such as also those that can be obtained to produce a packaging bag is easy.
[Brief description of the drawings]
FIG. 1 is a schematic cross-sectional view showing an example of a layer structure of a multilayer laminated resin film according to the present invention.
FIG. 2 is a schematic cross-sectional view showing an example of the layer structure of the multilayer laminated resin film according to the present invention.
3 is a schematic cross-sectional view showing an example of the layer structure of a laminated material as a packaging material manufactured using the multilayer laminated resin film according to the present invention shown in FIG.
4 is a schematic cross-sectional view showing an example of a layer structure of a laminated material as a packaging material manufactured using the multilayer laminated resin film according to the present invention shown in FIG. 1; FIG.
5 is a schematic perspective view showing an example of a configuration of a packaging bag manufactured by bag-making a laminated material manufactured using the multilayer laminated resin film according to the present invention shown in FIG. 3 described above.
6 shows an example of the configuration of a packaged product manufactured using a packaging bag made of a laminated material manufactured using the multilayer laminated resin film according to the present invention shown in FIG. It is a schematic perspective view shown.
[Explanation of symbols]
A Multilayer laminated resin film
A ₁ Multilayer laminated resin film
B Laminate
B ₁ Laminate
C Three-way seal type bag-like container body
D Packaging product
1 White base resin layer
2 Silver-based light-shielding resin layer
3 Concealing resin layer
11 Base film
12 Print pattern layer
13 Adhesive layer for laminating
14 Barrier substrate
15 Adhesive layer for laminating
21 Seal part
22 opening
23 Contents
24 Upper seal

Claims (5)

At least colorless and transparent resin layer of a resin composition for a thermoplastic resin as a main component of the vehicle, at least the white-based base resin layer of a resin composition comprising a thermoplastic resin and a white coloring agent, at least a thermoplastic resin and silver coloring A silver-based light-shielding resin layer comprising a resin composition containing an agent , and a concealing resin layer comprising a concealing resin composition for concealing the silver-based light-shielding resin layer comprising at least a thermoplastic resin as a main component of a vehicle . A multilayer laminated resin film comprising a heat-sealable resin layer comprising four layers by coextrusion lamination in order. A colorless transparent resin layer made of a resin composition containing at least a thermoplastic resin as a main component of the vehicle, a white base resin layer made of a resin composition containing at least a thermoplastic resin and a white colorant, and at least a thermoplastic resin and a silvery colored material A silver-based light-shielding resin layer comprising a resin composition comprising an agent, a concealing resin layer comprising a concealing resin composition for concealing the silver-based light-shielding resin layer comprising at least a thermoplastic resin as a main component of the vehicle, and It is characterized by comprising a heat-sealable resin layer consisting of 5 layers by coextrusion laminating in the order of a colorless transparent resin layer with a resin composition containing at least a thermoplastic resin as a main component of the vehicle. Laminated resin film.   3. The multilayer laminate according to claim 1, wherein the concealing resin layer comprises a white resin layer made of a resin composition containing at least a thermoplastic resin and a white colorant. Resin film. The multilayer laminated resin film according to any one of claims 1 to 3 , wherein a printed pattern layer is provided on the colorless and transparent resin layer provided on the white base resin layer. Silver-based light-shielding resin layer, the above characterized in that it consists of silver-based light-shielding resin layer with a resin composition containing at least a thermoplastic resin and a silver-colored colorant and the white colorant of claim 1-4 The multilayer laminated resin film described in any one item.

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