JP2012086855A - Air-permeable packaging material, and air-permeable double packaging material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air-permeable packaging material having air permeability which is suitable for the storage of deoxidizers or the like.SOLUTION: The air-permeable packaging material, constituted in such a manner that at least an oil-resistant layer, an air-permeable base material layer, and an air-permeable heat-seal layer of which the air permeability according to Ohken method is 10 to 600 seconds are piled up from the external layer to the internal layer, keeps an air permeability adjusting layer piled up between the outside of the oil-resistant layer and/or the air-permeable base material layer and an air-permeable heat-seal layer for the air-permeable packaging material. In this case, the air permeability of the laminated material according to Ohken method is 10 to 800 seconds. By constituting the air-permeability adjusting layer by pattern printing, the air permeability can easily be adjusted.

Description

  The present invention relates to a breathable packaging material having excellent breathability, and a breathable double packaging material composed of the breathable packaging material and a protective film, and more specifically, for storing an oxygen scavenger, a desiccant, and the like. The present invention relates to a suitable breathable packaging material, a breathable double packaging material, and a packaging body containing an oxygen scavenger and the like.

  In order to prevent deterioration and deterioration of food, oxidation of electronic parts, and the like, oxygen scavengers and desiccants are frequently used, and these are packaged in a breathable sachet and sealed together with contents such as food.

  The oxygen scavenger is obtained by coating a composition for oxygen scavenger such as iron powder with a packaging material for oxygen scavenger. As a packaging material for storing such an oxygen scavenger composition, a vent hole that allows the outside air to communicate with the oxygen scavenger composition is formed so that the oxygen scavenger composition can absorb oxygen in the atmosphere. In addition, the fixing property is required so that the oxygen scavenger composition does not leak and contaminate the contents. For this reason, it is common to use a packaging material in which a heat seal layer is laminated inside a breathable base material such as paper, a plastic film is laminated on the outside air side, and pores are formed in the plastic film. . The oxygen scavenger composition can be accommodated by the paper base material, and the mechanical strength can be ensured by the plastic film.

  As a packaging material for packaging such an oxygen scavenger and desiccant, one layer or a plurality of layers of a non-breathable synthetic resin film are bonded to one side or both sides of a breathable sheet material to form a laminate, There is also a packaging material having air permeability formed by forming a ventilation portion communicating with the sheet material in a non-breathable synthetic resin film layer (Patent Document 1). According to the above publication, a laminate of a breathable sheet material and a non-breathable synthetic resin film is formed in a single laminating step, and air holes are opened from the surface layer to produce a packaging material, which is easy to manufacture. In other words, it is possible to suppress variations in the arrangement and shape of the air holes at the time of manufacturing the packaging material, and to obtain a predetermined air permeability stably.

  Also, a biaxially stretched nylon film layer, a network-structured reinforcing material layer laminated on one side of the biaxially oriented nylon film layer, and a long fiber nonwoven fabric layer having heat seal properties, laminated on the reinforcing material layer, There is also a breathable packaging material having the following (Patent Document 2). Conventionally, the polyethylene layer or the reinforcing material layer is penetrated into a material in which a polyethylene layer is laminated on the surface of a breathable base material such as paper, or a reinforcing material layer in which a lattice network is sandwiched between polyethylene layers. However, it is not easy to form pores that do not penetrate to the substrate. Therefore, a biaxially stretched nylon film layer or a heat seal layer having air permeability is used to ensure air permeability without forming pores.

  Furthermore, a non-breathable outer material and a sealing layer are bonded to each other, and a packaging material in which a breathable inner material and a breathable sealing layer are bonded to each other. There is also a breathable double wrapping material that is laminated and bonded so that air can be vented through the cut surface of the breathable inner material and the breathable sealing layer (Patent Document 3). Those using polyethylene film as a packaging material for oxygen scavengers have poor water resistance in the case of foods with a high water content, and the oxygen scavenger packaging bag may be damaged. According to the packaging material, it is strong, can be applied to high-humidity foods, and can ensure stable air permeability.

  There is also a packaging material for oxygen scavengers, which is a packaging material composed of a sheet having a multilayer structure, and the outermost layer of the sheet having a multilayer structure is a silicone resin coating layer (Patent Document 4). Depending on the contents, the packaging material for the oxygen scavenger is also required to have oil resistance. According to the silicone resin coating layer, water resistance and oil resistance can be ensured.

JP 2007-126212 A JP 2004-25662 A Japanese Examined Patent Publication No. 3-305 Japanese Unexamined Patent Publication No. 7-17559

  The oxygen scavenger is sealed together with food and electronic devices to become a product. Since the packaging material for oxygen scavengers is breathable, when manufacturing with a product sealed with food, etc., if the handling time is long, the oxygen scavenger absorbs oxygen from the outside air and already seals the product. Oxygen absorption ability may decrease. On the other hand, if the air permeability is reduced, the oxygen absorption is weak after the product is manufactured, and the enclosed contents may be altered. Thus, the degree of breathability is an important factor that also affects the activity of the oxygen scavenger, but its control is not easy.

  For example, the method described in Patent Document 2 uses a biaxially stretched nylon film layer or a heat seal layer having air permeability, but a biaxially stretched nylon film layer or seal strength for ensuring mechanical strength. When the thickness of the heat seal layer for ensuring the air permeability does not match the thickness for ensuring the air permeability, the desired air permeability cannot be ensured.

  Moreover, although oil resistance is requested | required depending on the contents, although the air permeable double packaging material of patent document 3 is excellent in water resistance, it is desirable that it is further excellent in oil resistance. On the other hand, the packaging material for oxygen scavengers described in Patent Document 4 ensures oil resistance by the silicone resin coating layer, but cannot control air permeability.

  In order to ensure such air permeability, the method described in Patent Document 1 is to open a vent hole in a laminate made of a non-breathable synthetic resin film. A hole device is required and is not easy to manufacture.

In view of the above-mentioned present situation, an object of the present invention is to provide a breathable packaging material that allows easy breathability control and is excellent in oil resistance.
Moreover, this invention provides the air permeable packaging material which can control air permeability, without using an opening apparatus, and its manufacturing method.

Furthermore, it aims at providing the double packaging material which laminated | stacked the said breathable packaging material on the protective layer which is excellent in mechanical strength.
In addition, an object of the present invention is to provide a package comprising such a breathable packaging material or double packaging material containing an oxygen scavenger, desiccant, exothermic agent, moisture absorbent, deodorant, moisture absorbent or insect repellent. And

  In the present invention, an oil-resistant layer is laminated on a breathable base material layer to ensure oil resistance of the obtained breathable packaging material, and a member having low breathability is pattern-printed on the oil-resistant layer. By laminating the air permeability adjusting layer, it is possible to easily adjust the air permeability of the obtained air permeable member, and by laminating a heat seal layer having air permeability inside the air permeable base material layer, the heat seal The present inventors completed the present invention by finding that oxygen scavengers and the like can be easily produced by adhering the layers to each other using a three-side seal, a four-side seal, or the like.

  That is, the present invention comprises an oil-resistant layer, a breathable base material layer, and a breathable heat seal layer having an air permeability of 10 to 600 seconds according to the Oken method, which are laminated at least from the outer layer to the inner layer. And / or a laminated material in which an air permeability adjusting layer is laminated between the air permeable base material layer and the air permeable heat seal layer, and the air permeability of the laminated material according to the Oken method is 10 to 800 seconds. A breathable packaging material is provided.

The present invention also provides the breathable packaging material, wherein the laminate of the oil-resistant layer and the breathable base material layer has an air permeability of 10 to 600 seconds according to the Oken method.
The present invention further provides the breathable packaging material, wherein an adhesion auxiliary layer having an air permeability of 10 to 600 seconds according to the Oken method is laminated on the outermost layer.

The present invention also provides a breathable double wrapping material, which is laminated on the outside of the breathable wrapping material without adhering a breathable protective film.
Further, according to the present invention, the breathable protective film comprises a non-breathable base resin layer, a breathable heat seal layer having a gas permeability of 10 to 600 seconds according to the Oken method, and a low-temperature heat fusion layer from the outer layer toward the inner layer. The air-permeable double packaging material is provided with a through-hole for ventilation.

  In addition, the present invention provides a breathable packaging material-covered package in which the oxygen-absorbing agent, desiccant, exothermic agent, hygroscopic agent, deodorant, hygroscopic agent or insect repellent is housed in the breathable packaging material. Is.

  Further, the present invention provides a breathable double packaging material-covered package comprising the above breathable double packaging material containing a deoxidant, a desiccant, a heat generating agent, a moisture absorbent, a deodorant, a moisture absorbent or an insect repellent. Provide the body.

  In the present invention, at least from the outer layer to the inner layer, an air permeability adjusting layer, an oil resistant layer, an air permeable base material layer, and an air permeable heat seal layer having an air permeability of 10 to 600 seconds according to the Oken method are laminated. A method for producing a breathable packaging material, wherein at least an oil permeability adjusting ink is applied to the oil resistant layer of the breathable base material layer on which the oil resistant layer is laminated so as to be 5 to 95% of the area of the oil resistant layer. The present invention provides a method for producing a breathable packaging material, comprising a step of pattern printing and adjusting the air permeability of the breathable packaging material according to the Wangken method to 10 to 800 seconds.

  According to the present invention, a breathable packaging material having excellent breathability can be produced without using an opening device. Moreover, the obtained breathable packaging material is excellent in oil resistance and has a constant breathability, and can be easily made by the innermost heat seal layer.

  The breathable packaging material of the present invention can further be laminated with a breathable protective film, thereby ensuring strength. At that time, if a heat seal layer is formed on the outermost layer of the breathable packaging material, the adhesion to the breathable protective film is excellent.

  The package of the present invention can adjust the air permeability in accordance with the handling time of the filling operation for sealing together with the contents such as food and electronic parts.

FIG. 2 is a schematic cross-sectional view showing an example of a layer configuration of a breathable packaging material according to the present invention, in which an air permeability adjustment layer (40), an oil resistant layer (30), and a breathable base material layer are formed from an outer layer toward an inner layer. (20) It is a figure explaining the aspect formed by laminating | stacking with the air permeable heat seal layer (10) whose air permeability by Ooken method is 10 to 600 second. 1 is a schematic cross-sectional view showing an example of a layer configuration of a breathable packaging material according to the present invention, and an oil-resistant layer (30), a breathable substrate layer (20), and an air permeability adjustment layer from an outer layer toward an inner layer. (40) It is a figure explaining the aspect laminated | stacked with the air permeable heat seal layer (10) with the air permeability by 10-600 second by the Oken method. FIG. 2 is a schematic cross-sectional view showing an example of a layer structure of a breathable packaging material according to the present invention, and illustrates an aspect in which an adhesion auxiliary layer (50) having an air permeability of 10 to 600 seconds is further laminated on the outermost layer. It is a figure to do. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic cross-sectional view showing an example of a layer structure of a breathable double packaging material according to the present invention, the breathable packaging material (A) of the present invention, and a non-breathable base resin from an outer layer toward an inner layer. It is a figure explaining the aspect with a breathable protective film (B) which consists of a layer (90), a heat seal layer (80), and a low-temperature heat fusion layer (70). It is a figure explaining the air permeable packaging material covering packaging body of this invention, and is sectional drawing of the air permeable packaging material covering packaging body which filled the container which consists of air permeable packaging material (A) shown in FIG. 3 with the oxygen absorber. . It is a figure explaining the air permeable double packaging material covering packaging body of this invention, and is sectional drawing of the air permeable packaging material covering packaging body which filled the container which consists of air permeable double packaging material shown in FIG. is there. It is a figure explaining the pattern printing of the air permeability adjustment layer in the air permeable packaging material of this invention.

  In the first aspect of the present invention, an oil resistant layer, a breathable base material layer, and a breathable heat seal layer having a gas permeability of 10 to 600 seconds according to the Oken method are laminated at least from the outer layer to the inner layer. And / or an air permeability adjusting layer is laminated between the air-permeable base material layer and the air-permeable heat seal layer, and the air permeability of the laminated material according to the Oken method is 10 to 800 seconds. It is a breathable packaging material characterized by being.

The second of the present invention is a breathable double wrapping material which is laminated without adhering a breathable protective film on the outside of the breathable packaging material.
Further, the third aspect of the present invention contains the oxygen-absorbing agent, desiccant, exothermic agent, moisture absorbent, deodorant, moisture absorbent or insect repellent in the breathable packaging material or the breathable double packaging material. It is a breathable packaging material-coated package. Hereinafter, the present invention will be described in detail.

(1) Layer structure of breathable packaging material and breathable double packaging material As shown in FIG. 1, the breathable packaging material of the present invention has an air permeability adjusting layer (40), an oil resistant layer from the outer layer toward the inner layer. A layer (30), a breathable base material layer (20), and a breathable heat seal layer (10) having an air permeability measured by the Oken method of 10 to 600 seconds are laminated. An air permeability adjustment layer (40) is laminated outside the oil resistant layer (30). Further, as shown in FIG. 2, from the outer layer toward the inner layer, the oil resistant layer (30), the breathable base material layer (20), the air permeability adjusting layer (40), and the air permeability according to the Oken method are 10 to 600 seconds. The laminated material on which the breathable heat seal layer (10) is laminated may be used. Thus, by laminating the air permeability adjusting layer (40) outside the oil resistant layer (30) and / or between the breathable base material layer (20) and the breathable heat seal layer (10), The air permeability of the obtained air permeable packaging material can be adjusted. Further, as shown in FIG. 3, an adhesion auxiliary layer (50) having an air permeability of 10 to 600 seconds may be further laminated on the outermost layer. This is because, when another protective film or the like is laminated together with the breathable packaging material of the present invention, it can be laminated and bonded through the adhesion auxiliary layer (50).

  As shown in FIG. 4, the breathable double packaging material of the present invention is a laminate in which the breathable packaging material (A) and the breathable protective film (B) are stacked without bonding, The breathable protective film (B) is composed of a non-breathable base resin layer (90), a breathable heat seal layer (80), and a low-temperature heat-sealing layer (70) from the outer layer to the inner layer. What formed C) can be used conveniently. FIG. 4 is a mode in which the breathable packaging material (A) and the breathable protective film (B) shown in FIG. 3 are laminated. When the bag is formed by heat sealing using the breathable double packaging material shown in FIG. 4, the low-temperature heat-sealing layer (70) of the breathable protective film (B) and the adhesion auxiliary layer (50) of the breathable packaging material (A) ) Are in contact with each other by the heat seal, and are excellent in low temperature sealability during heat fusion. In the present invention, the breathable packaging material and the breathable double packaging material preferably have an air permeability of 10 to 800 seconds according to the Oken method.

  In the present invention, the breathable packaging material (A) can be filled with an oxygen scavenger (D) or the like to obtain a breathable packaging material coated package (100). FIG. 5 shows a cross-sectional view of such a breathable packaging material-coated package (100). According to the present invention, by using the breathable packaging material (A) whose breathability is controlled without using an opening device, it is possible to prevent leakage of the oxygen scavenger and to ensure breathability suitable for handling. be able to. In FIG. 5, for the sake of convenience, the breathable base material layer (20), the oil resistant layer (30), and the air permeability adjustment layer (40) are shown as a single layer.

  Also, a breathable double packaging material-covered package is obtained by filling a breathable double packaging material comprising the breathable packaging material (A) and the breathable protective film (B) with an oxygen scavenger (D). It can be. A cross-sectional view of such a breathable double packaging material-coated package is shown in FIG. According to the present invention, strength can be secured by using a breathable double packaging material in which a breathable protective film (B) is laminated on the outer periphery of the breathable packaging material (A). And although the said air permeable double packaging material consists of air permeable packaging material (A) and an air permeable protective film (B), air permeable packaging material (A) except a heat-fusion part in the case of bag making. And the breathable protective film (B) are not bonded to each other to form a space (E), and the through-hole (C) of the breathable protective film (B) is not heat-sealed. ) And the breathable protective film (B) are not reduced.

(2) Breathable packaging material The breathable packaging material of the present invention is a packaging material that can be suitably used when forming a package such as an oxygen scavenger and can ensure breathability without using a hole opening device. is there. In order to ensure the breathability, breathable base layer, heat seal layer, and adhesion auxiliary layer that have been laminated with a breathable oil resistant layer in advance, and breathable by pattern printing of non-breathable resin The air permeability is adjusted by laminating the adjustment layer and controlling the pattern printing area.

(I) Breathable base material layer As the breathable base material layer that can be used in the breathable packaging material of the present invention, since this is a basic material constituting the breathable packaging material, flex resistance, rigidity, waist, A member having strength or the like can be used, and a member having an air permeability of 10 to 600 seconds can be used. In the present invention, the air permeability of each member or packaging material is determined according to JAPAN TAPPI No. shown in the examples described later. Based on 5-2: 2000, it is a measured value by the Oken method.

  For example, paper materials such as pulp paper and mixed paper made from polyethylene, fiber layers such as non-woven fabrics by spunbond and spunlace methods made of synthetic resins such as polyethylene and polyester, polyethylene-based synthetic resins, etc. A breathable material such as a microporous film that has been subjected to microporous treatment can be used. In addition to non-coated paper such as kraft paper, high-quality paper, single gloss kraft paper, pure white roll paper, glassine paper, and cup base paper, synthetic paper that does not use natural pulp can also be used.

Although there is no limitation on the weighing breathable substrate used in the present invention, preferably in the range of basis weight 10~120g / m ^2, and more preferably at a basis weight of 20 to 100 g / m ^2. This is because air permeability, rigidity and strength can be secured within this range.

(Ii) Oil resistant layer In the breathable packaging material of the present invention, an oil resistant layer is laminated on the outside of the breathable substrate layer. By laminating the oil-resistant layer, it is possible to avoid the influence of the oil content of the oxygen scavenger from the food.

In order to form the oil-resistant layer on the breathable base material layer, pulp paper or polyethylene which has been subjected to oil-repellent treatment or oil-proof treatment in advance may be mixed on the breathable base material layer, or the air-permeable layer described above. It can be formed by applying an oil-resistant resin or the like to the conductive substrate layer. Examples of the resin constituting such an oil resistant layer include a fluororesin and a silicone resin. For example, by laminating the above breathable base material layer so that the coating amount at the time of drying is 0.1 to 5 g / m ² , oil resistance is imparted to the breathable base material layer to form an oil resistant layer. can do.

Moreover, the polyolefin copolymer resin which contains unsaturated carboxylic acid or its anhydride in 0.01-5 mass% as an oil-resistant layer can also be used conveniently.
The unsaturated carboxylic acid or anhydride thereof is a compound having at least one carboxyl group or acid anhydride group in the molecule, and specifically includes acrylic acid, methacrylic acid, maleic acid, maleic anhydride, itacone. In addition to acids, itaconic anhydride, fumaric acid, crotonic acid and the like, unsaturated dicarboxylic acid half esters, half amides and the like can be mentioned. Of these, acrylic acid, methacrylic acid, maleic acid, and maleic anhydride are preferable, and acrylic acid and maleic anhydride are particularly preferable. The unsaturated carboxylic acid may be neutralized with a basic compound including an organic amine compound such as ammonia or triethylamine. In the present invention, in addition to the unsaturated carboxylic acid or its anhydride, alkene having 2 to 6 carbon atoms such as ethylene, propylene, isobutylene, 1-butene, 1-pentene, 1-hexene, etc. may be mentioned, and a mixture thereof. It is preferable that these are further copolymerized. Further, in addition to the alkene having 2 to 6 carbon atoms, (meth) acrylate esters such as methyl (meth) acrylate, ethyl (meth) acrylate, butyl (meth) acrylate, dimethyl maleate, maleic acid Maleic acid esters such as diethyl and dibutyl maleate, (meth) acrylic acid amides, alkyl vinyl ethers such as methyl vinyl ether and ethyl vinyl ether, vinyl formate, vinyl acetate, vinyl propionate, vinyl pivalate, vinyl versatate, etc. It is preferable to copolymerize other copolymer components such as vinyl esters, vinyl alcohol obtained by saponifying vinyl esters with a basic compound, and mixtures thereof. In addition, the form of copolymerization is not limited, For example, any of random copolymerization, block copolymerization, graft copolymerization, etc. may be sufficient. In the present invention, a copolymer obtained by copolymerizing a terpolymer comprising ethylene, methyl acrylate or ethyl acrylate, and maleic anhydride in the above blending range is preferable.

The blending ratio of the unsaturated carboxylic acid or anhydride (I), alkene (II) having 2 to 6 carbon atoms, and other copolymerization component (III) is 0.01 ≦ (I) / {(I) It is preferred that + (II) + (III)} × 100 <5 and (II) / (III) = 55/45 to 99/1. An aqueous dispersion containing a polyolefin resin having a number average particle diameter of 1 μm or less thus obtained is applied to the breathable substrate layer. The polyolefin copolymer resin content is preferably 10 to 45% by mass. This aqueous dispersion may contain an organic solvent such as alcohols and ethers in the range of 40% by mass or less. This aqueous dispersion can be formed on the air-permeable base layer by applying and heat-drying so that the coating amount when dried is 0.1 to 100 g / m ² , thereby forming an oil-resistant layer.

In the present invention, in order to ensure air permeability, the air permeability of the oil resistant layer and the air permeable base material layer according to the Wangken method is preferably 10 to 600 seconds.
(Iii) Breathable Heat Seal Layer The breathable heat seal layer used in the present invention has an air permeability of 10 to 600 seconds according to the Oken method. Conventionally known heat seal layers can be used. Low density polyethylene, medium density polyethylene, high density polyethylene, linear (linear) low density polyethylene, polypropylene, ethylene-vinyl acetate copolymer, ionomer resin, ethylene -Acrylic acid copolymer, ethylene-ethyl acrylate copolymer, ethylene-methacrylic acid copolymer, ethylene-α / olefin copolymer polymerized using metallocene catalyst, polypropylene, ethylene-methyl methacrylate copolymer Polyolefin resins such as polymers, ethylene-propylene copolymers, methyl pentene polymers, polybutene polymers, polyethylene or polypropylene with unsaturated carboxylic acids such as acrylic acid, methacrylic acid, maleic acid, maleic anhydride, fumaric acid and itaconic acid. Modified acid modification It can be used re-olefin resins, polyvinyl acetate resins, poly (meth) acrylic resin, one or more films made of a resin such as polyvinyl chloride resin or sheet or coated film and the like.

  In the present invention, a polyolefin resin and an ethylene-vinyl acetate copolymer can be preferably used. As long as it is a polyolefin resin, a polypropylene random copolymer using a single site metallocene catalyst is also suitable. Specifically, it is a polypropylene random copolymer comprising a block or random copolymer of propylene and ethylene or propylene and 1-octene. It is because it is excellent in adhesiveness.

The heat seal layer is preferably laminated by heat extrusion resin or the like by melt extrusion. This is to ensure air permeability.
The heat seal layer has a thickness of 2 to 20 μm, preferably 5 to 10 μm.

(Iv) Air permeability adjustment layer In the present invention, the air permeability is between the outer side of the oil resistant layer as shown in FIG. 1 and between the breathable base material layer and the innermost heat seal layer as shown in FIG. The adjustment layer is laminated.

  As described above, the breathable packaging material of the present invention comprises a breathable oil-resistant layer, a breathable base material layer, and a breathable heat seal layer, and has a desired air permeability by laminating an air permeability adjustment layer. A packaging material having a degree is obtained.

  The air permeability adjusting layer can be formed by printing the resin for the air permeability adjusting layer by gravure printing, letterpress printing, screen printing, transfer printing, flexographic printing, and the like. By printing so as to have a predetermined area, the air permeability can be adjusted easily and precisely. At this time, the overall air permeability of the packaging material can be uniformly adjusted if the pattern is symmetrical and the pattern printing is performed on the top and bottom.

  There is no particular limitation on the pattern printing pattern. For example, FIG. 7 is an example of such pattern printing, which is an aspect in which diamond-shaped white portions are formed at equal intervals, and the black portion is a resin for the air permeability adjustment layer and is inferior in air permeability. Yes, the white part is the ventilation part. In the pattern of FIG. 7, about 75% of the area is printed, but the air permeability can be improved by increasing the area of the white portion. According to such pattern printing, it is easy to control the printing area, and therefore the air permeability of the breathable packaging material can be adjusted with high accuracy.

  In addition to the pattern printing shown in FIG. 7, for example, a border pattern formed by forming a linear striped pattern with a width of 5 mm or a width of 2 mm at intervals of 2 mm may be used. Instead of a mold, circular polka dots may be outlined. The printed part may be indefinite.

  In the present invention, the air permeability adjusting layer is subjected to pattern printing in consideration of the air permeability of other members of the obtained breathable packaging material, and the final air permeability of the breathable packaging material is set to 10 to 800 seconds. In particular, it is preferable to adjust to 100 to 700 seconds, more preferably 200 to 600 seconds. Depending on the air permeability of the breathable oil-resistant layer, breathable base material layer and breathable heat seal layer to be used, the printing area is appropriately changed by pattern printing, and the air permeability of the obtained breathable packaging material is Adjust to be in the above range.

  The air permeability adjusting layer can be formed on the oil-resistant layer. When the air permeability adjusting layer is formed between the air permeable base layer and the air permeable heat seal layer, the air permeable base layer is described above. It can be formed by pattern printing. In the present invention, an air permeability adjusting layer may be formed on both the oil resistant layer and the breathable base material layer.

  The resin for the air permeability adjusting layer can be appropriately selected according to the type of the oil-resistant layer or breathable substrate layer to be used, and examples thereof include nitrocellulose, acrylic resins, polyurethane resins and the like. Since the air permeability varies depending on the air permeability adjusting layer resin to be used, the type of the air permeability adjusting layer resin, the coating amount during drying, the printing pattern, and the like can be appropriately selected.

(V) Adhesion auxiliary layer In the breathable packaging material of the present invention, an adhesion auxiliary layer having an air permeability of 10 to 600 seconds according to the Oken method is preferably laminated on the outermost layer. In the present invention, the adhesion auxiliary layer means a layer that can easily adhere to another film when another film is laminated on the breathable packaging material of the present invention.

  Specifically, the breathable packaging material of the present invention itself can contain a deoxygenating agent or the like to constitute a package, but the breathable packaging material is laminated with another breathable protective film. It is also possible to make a package by storing a heavy oxygen packaging material and the like in a heavy packaging material. When laminating such a breathable protective film, it is preferable to ensure adhesion with the breathable protective film. It is not limited to the innermost layer of such a breathable protective film, but is laminated to ensure adhesion with the breathable protective film. Therefore, when the innermost layer of the breathable protective film is a heat seal layer, it is not necessary to form such an adhesion auxiliary layer in the breathable packaging material.

  From the above purpose, as the adhesion auxiliary layer that can be suitably used in the breathable packaging material of the present invention, the resin constituting the breathable heat seal layer can be suitably used. The adhesion auxiliary layer has a thickness of 0.1 to 10 μm, preferably 0.5 to 1 μm.

(Vi) Printing Layer In the present invention, characters such as “oxygen scavenger” and “cannot eat” can be printed on any layer constituting the breathable packaging material. Such a printing layer is preferably formed on the outermost layer. At this time, the printing layer can be protected by back printing.

  The printing layer is composed of one or more ordinary ink vehicles as the main component, and if necessary, a plasticizer, a stabilizer, an antioxidant, a light stabilizer, an ultraviolet absorber, a curing agent, and a crosslinking agent. Add one or more additives such as additives, lubricants, antistatic agents, fillers, etc., add colorants such as dyes and pigments, and use solvents, diluents, etc. An ink composition obtained by kneading to prepare an ink composition can be used. As such an ink vehicle, known ones such as sesame oil, drill oil, soybean oil, hydrocarbon oil, rosin, rosin ester, rosin modified resin, shellac, alkyd resin, phenolic resin, maleic resin, Natural resin, hydrocarbon resin, polyvinyl chloride resin, polyacetic acid resin, polystyrene resin, polyvinyl butyral resin, acrylic or methacrylic resin, polyamide resin, polyester resin, polyurethane resin, epoxy resin, urea resin , Melamine resin, amino alkyd resin, nitrocellulose, ethyl cellulose, chlorinated rubber, cyclized rubber, etc. can be used alone or in combination.

The printing method may be a printing method such as relief printing, screen printing, transfer printing, flexographic printing, or the like in addition to gravure printing.
(Vii) Manufacturing method There is no limitation in the manufacturing method of the air permeable packaging material of this invention. For example, at least the oil-resistant layer of the breathable base material layer on which the oil-resistant layer is laminated is subjected to pattern printing with the air permeability adjusting ink so as to be the oil-resistant layer, and the air permeability of the breathable packaging material is set to 10 It is preferable to have the process of adjusting to -800 second. In addition to the oil resistant layer, a heat seal layer may be previously laminated on the breathable base material layer. That is, an oil resistant layer and a heat seal layer are laminated on both sides of the breathable base material layer, and the air permeability adjustment ink is patterned on the upper surface of the oil resistant layer so as to be 5 to 95% of the area of the oil resistant layer. Print. When laminating an adhesion auxiliary layer on the outer side of the oil resistant layer, a coating process for the adhesion auxiliary layer may be performed following the pattern printing.

  According to the present invention, when a laminate in which an oil resistant layer is previously formed on a breathable base material layer is used, the above-described air permeability adjusting layer is formed on the oil resistant layer by printing, and the air permeability adjusting layer is Further, the adhesion auxiliary layer and the heat seal layer can be simultaneously laminated on the breathable base material layer on the other surface by the melt adhesion method, so that the production is easy.

(3) Breathable Protective Film The breathable protective film constituting the breathable double packaging material of the present invention is laminated on the outside of the breathable packaging material, and has excellent mechanical strength to protect the breathable packaging material. It is a film. The simplest example is a film in which through-holes are formed in a non-breathable base resin layer. On the other hand, in order to ensure adhesiveness with the breathable packaging material, a material in which a heat seal layer is laminated on the inner layer can be suitably used. Furthermore, depending on the use of the breathable double packaging material, a low temperature seal may be required. In such a case, it is more preferable that a non-breathable base resin layer is laminated on the innermost layer. A through hole is formed in order to ensure air permeability.

(I) Non-breathable substrate resin layer As the non-breathable substrate resin layer constituting the breathable protective film of the present invention, it is possible to use a material that can ensure mechanical strength and is excellent in chemical resistance. it can.

For example, as the non-breathable base resin layer, a polyamide resin or a polyester resin such as polyethylene terephthalate or polyethylene naphthalate can be used.
As the polyester resin, polyethylene terephthalate, polybutylene terephthalate, or the like can be suitably used. The polyester resin preferably has a specific gravity of 1.00 to 1.41 g / m ³ .

The polyamide-based resin may be an aliphatic polyamide, an aromatic polyamide, or a composition in which these are mixed. Specific examples of preferred polyamides include polycaproamide (nylon 6), poly-ε-aminoheptanoic acid (nylon 7), poly-ε-aminononanoic acid (nylon 9), polyundecanamide (nylon 11), polylaurin Lactam (nylon 12), polyethylenediamine adipamide (nylon 2.6), polytetramethylene adipamide (nylon 4.6), polyhexamethylene adipamide (nylon 6/6), polyhexamethylene sebacamide (Nylon 6 · 10), Polyhexamethylene dodecamide (Nylon 6 · 12), Polyoctamethylene dodecamide (Nylon 8 · 12), Polyoctamethylene adipamide (Nylon 8.6), Polydecamethylene adipamide (Nylon 10/6), polydecamethylene sebacamide (nylon 10/10), Polydodecamethylene dodecamide (nylon 12 and 12), metaxylenediamine-6 nylon (MXD6) and the like may be used, and a copolymer containing these as main components may be used. Examples thereof include caprolactam / Laurin lactam copolymer, caprolactam / hexamethylene diammonium adipate copolymer, laurin lactam / hexamethylene diammonium adipate copolymer, hexamethylene diammonium adipate / hexamethylene diammonium sebacate copolymer And ethylene diammonium adipate / hexamethylene diammonium adipate copolymer, caprolactam / hexamethylene diammonium adipate / hexamethylene diammonium sebacate copolymer, and the like. It is also effective to blend these polyamides with plasticizers such as aromatic sulfonamides, p-hydroxybenzoic acid, esters, elastomer components with low elastic modulus, and lactams as film flexibility modifiers. is there. The polyamide resin preferably has a specific gravity of 1.14 to 1.22 g / m ³ .

In the present invention, the film thickness of the non-breathable base resin layer is preferably 5 to 25 μm, more preferably 5 to 15 μm.
In forming the non-breathable base resin layer, for example, heat resistance, weather resistance, mechanical properties, dimensional stability, antioxidant properties, mold release properties, flame retardancy, antifungal properties, strength, Various plastic compounding agents and additives can be added for the purpose of improving and modifying others, etc. The amount of addition can be arbitrarily selected from a very small amount to several tens of percent depending on the purpose. Can be added.

  In the above, as a general additive, for example, a crosslinking agent, an antioxidant, an ultraviolet absorber, a light stabilizer, a filler, a reinforcing agent, an antistatic agent, a pigment, and the like can be used. In this case, a modifying resin or the like can also be used.

In the present invention, a film made of the above base resin can also be used as the non-breathable base resin layer.
(Ii) Heat Seal Layer As the heat seal layer constituting the breathable protective film of the present invention, the heat seal layer used for the above-described breathable packaging material can be used in the same manner. In addition, the film which consists of resin which comprises the said heat seal layer may be sufficient as a heat seal layer. In this case, the heat seal layer may be bonded to the above-described non-breathable base resin layer with a laminating adhesive or the like. According to the laminating adhesive, the air permeability is reduced, but in the present invention, the air permeability can be ensured by forming the through holes.

(Iii) Low-temperature heat-sealing layer As the low-temperature heat-sealing layer constituting the breathable protective film of the present invention, the melting temperature is 120 to 160 ° C among the heat seal layer having an air permeability of 10 to 600 seconds according to the Oken method. These resins can be suitably used. For example, ethylene-methacrylic acid copolymer, ethylene-ethyl acrylate copolymer, linear low density polyethylene (LLDPE) obtained by copolymerization of ethylene and α-olefin polymerized using a metallocene catalyst, A resin having a melting point of 120 to 160 ° C. such as ultra-low density polyethylene can be exemplified.

  The low-temperature heat-fusible layer may be a film made of the above resin. In this case, the low-temperature heat-sealing layer may be laminated on the heat seal layer via a laminating adhesive or the like. This is because even if the air permeability is reduced by the laminating adhesive, the air permeability can be secured by the through holes.

  In addition, lamination | stacking of a low-temperature heat-fusion layer is ensuring low temperature sealing property. That is, when producing a package filled with a composition for oxygen scavenger, etc., using a breathable double packaging material obtained by laminating the breathable packaging material of the present invention and a breathable protective film. It is preferable to fill and package the composition for oxygen agent without applying heat. For this reason, a low-temperature heat-sealing layer is further laminated on the heat seal layer of the breathable protective film so that it can be heat-sealed at a low temperature during three-way sealing or four-way sealing. Therefore, when the contents to be filled can be heat-sealed at a high temperature, it is not necessary to stack such a low-temperature heat-sealing layer. In this invention, when laminating | stacking a low-temperature heat-fusion layer, it is preferable that it is 5-50 micrometers in thickness, Preferably it is 10-20 micrometers.

(Iv) Method for Producing Breathable Protective Film The breathable protective film of the present invention is formed by laminating the breathable heat seal layer and the low-temperature heat fusion layer on the non-breathable base resin layer and penetrating for ventilation. What is necessary is just to form a hole and there is no limitation in the manufacturing method. For example, a non-breathable film can be used as the non-breathable base resin layer, and a film constituting the heat seal layer and a film constituting the low-temperature heat-sealing layer can be laminated thereon with a laminating adhesive. Further, a non-breathable film may be used as the non-breathable base resin layer, and a heat seal layer and a low-temperature heat fusion layer may be laminated thereon by melt extrusion.

In the present invention, the through hole (C) is formed in the laminate obtained as described above. The degree of opening may be in the range of opening of a packaging material used for a normal oxygen scavenger or the like.
(4) Breathable double packaging material The breathable double packaging material of the present invention is obtained by stacking the breathable packaging material (A) and the breathable protective film (B) without bonding. In that case, it piles up so that the innermost layer of the said breathable packaging material (A) and the outermost layer of a breathable protective film (B) may contact. For example, when the breathable protective film (B) has a low-temperature heat-sealing layer (70) and the breathable packaging material (A) has an adhesion auxiliary layer (50), the adhesion auxiliary layer (50) It superimposes so that a low-temperature heat-fusion layer (70) may contact.

  The breathable double packaging material of the present invention may be formed by adhering the breathable packaging material (A) and the breathable protective film (B) by heat sealing. When a low temperature seal is not required, for example, the breathable protective film (B) is composed of only the non-breathable base resin layer (90) and the heat seal layer (80), and the low temperature heat fusion layer (70). May not be present. Similarly, as long as adhesion to the breathable protective film (B) is possible, the adhesion auxiliary layer (50) may not be present in the outermost layer of the breathable packaging material (A). That is, from the outer layer toward the inner layer, a breathable protective film (B) composed of a non-breathable base resin layer (90) and a heat seal layer (80), and an air permeability adjustment layer ( 40), an oil resistant layer (30), a breathable base material layer (20), a combination with a breathable packaging material (A) comprising a heat seal layer (10), and the like.

  In the present invention, the bag can be manufactured by facing the heat-sealing layer (10) of the breathable packaging material constituting the breathable double packaging material, for example, by three-side sealing. For example, when the breathable protective film (B) has a low-temperature heat sealing layer (70) and the breathable packaging material (A) has an adhesion auxiliary layer (50), the breathable protective film (B) The breathable packaging material (A) and the breathable protective film (B) are thermally fused by the low-temperature heat-sealing layer (70) and the adhesion auxiliary layer (50) of the breathable packaging material (A). The heat-resistant packaging material (A) and the breathable protective film (B) other than the heat-sealed portion are separated without heat-sealing.

  In the present invention, if this breathable double packaging material is used, the composition for oxygen scavenger is filled, and three-way sealing is performed, the adhesion assisting layer and the low-temperature heat-sealing layer are adhered to each other at the seal portion to remove oxygen. The adhesive auxiliary layer and the low-temperature heat-sealing layer are not bonded at locations other than the three-way seal, ensuring air permeability between the breathable packaging material and the breathable protective film, and breathability protection. It has been found that the mechanical strength of the oxygen scavenger can be secured by the film.

The breathable double packaging material of the present invention is excellent in oil resistance and water resistance, and can be suitably used when breathability is required.
(5) Deoxygenating composition In the present invention, any conventionally known oxygen scavenger composition can be suitably used. For example, as the reducing metal that is the main ingredient of the composition for oxygen scavengers, it is possible to use granular metal powders such as iron powder, copper powder, and zinc powder that are conventionally known as the main ingredients of oxygen scavengers. . The granular metal powder is preferably 1700 μm or less, particularly preferably 10 to 300 μm, in order to improve contact with oxygen. As the metal powder, iron powder is preferable, and reduced iron powder, electrolytic iron powder, sprayed iron powder, and the like are suitably used. In addition, pulverized products such as cast iron, ground products, and the like can be used.

  Moreover, a metal iodide and a metal bromide can be mix | blended as an oxygen absorption reaction accelerator of the composition for oxygen absorbers. For example, alkali metal and alkaline earth metal iodides and bromides are preferable, and sodium iodide, potassium iodide, sodium bromide, and potassium bromide are preferable. The compounding amount of the metal iodide or metal bromide with respect to the reducing metal is 0.01 to 20 parts by mass of the metal iodide or metal bromide per 100 parts by mass of the reducing metal.

  Furthermore, an additive can be added as needed. As such an additive, for example, silica powder, pearlite, diatomaceous earth, aluminum hydroxide, alumina, activated carbon, a water-absorbing polymer, etc. can be mixed for the purpose of preventing odor, suppressing dust, preventing rust exudation and the like. . The water content of the oxygen scavenger composition to which the additive has been added is preferably 1% by mass or less.

  The oxygen scavenger composition contains a reducing metal as a main component and a metal iodide or metal bromide that functions as a reaction accelerator. Therefore, the oxygen scavenger composition can be deoxygenated without water replenishment and without water migration. it can.

(6) Manufacturing method of packaging body The packaging body of the present invention can be manufactured by bag-making the above-mentioned air-permeable packaging material or air-permeable double packaging material. The package can be appropriately selected depending on the type and size of the contents, and the surfaces of the heat sealing layer of the packaging material are overlapped to face each other. It can be formed and manufactured. As the bag making method, the packaging material is folded or overlapped so that the inner layer faces each other, and the peripheral edge thereof is, for example, side seal type, two-side seal type, three-side seal type, four-sided It can be manufactured by heat-sealing in a heat-sealing form such as seal-type, envelope-sealed seal type, palm-sealed seal type (pillow seal type), pleated seal type, flat bottom seal type, square bottom seal type, gusset type, etc. it can.

  In the above, as a heat sealing method, for example, a known method such as a bar seal, a rotary roll seal, a belt seal, an impulse seal, a high frequency seal, and an ultrasonic seal can be used.

  FIG. 5 shows a cross-sectional view of an oxygen scavenger, which is an example of the breathable packaging material-coated package (100) of the present invention. The heat-sealing layer (10) constituting the breathable packaging material (A) is heat-sealed oppositely, formed into a bag shape, and filled with the oxygen scavenger composition (D).

  FIG. 6 shows a cross-sectional view of the breathable double packaging material-coated package (100). In FIG. 6, when the breathable protective film (B) has a low-temperature heat-sealing layer (70) and the breathable packaging material (A) has an adhesion auxiliary layer (50), the adhesion auxiliary layer (50 ) And a low-temperature heat-sealing layer (70) are shown in an embodiment using a breathable double packaging material laminated. In the heat-sealed portion, the heat-sealing layers (10) of the breathable packaging material (A) are heat-fused to face each other, and the adhesion auxiliary layer (50) of the breathable packaging material (A) and the breathable protective film (B) and the low-temperature heat-sealing layer (70) are heat-sealed to form a bag. Except for the heat fusion part, the air-permeable packaging material (A) and the air-permeable protective film (B) are not bonded to each other, and a space part (E) is formed. Thus, since the breathable protective film (B) is not thermally fused, the through holes (C) formed in the breathable protective film (B) are not crushed, and the breathability of the breathable double packaging material is reduced. There is nothing to do.

(7) Applications The breathable packaging material and the breathable double packaging material of the present invention are excellent in water resistance and oil resistance and excellent in breathability. For this reason, it can be suitably used as various breathable packaging materials. In particular, since the innermost layer has a heat seal layer, it is easy to make a bag by heat fusion.

  In the present invention, when the above-described breathable packaging material or breathable double packaging material is used and the composition for oxygen scavenger is filled, the oxygen scavenger can be produced. Further, in place of the oxygen scavenger composition described above, a component such as a desiccant, exothermic agent, hygroscopic agent, deodorant, hygroscopic agent or insect repellent is stored, and the desiccant, exothermic agent, hygroscopic agent, deodorant, A hygroscopic or insect repellent can be produced. Since the package of this invention is excellent in mechanical strength, water resistance, oil resistance, and air permeability, the performance of the said content can be exhibited effectively.

EXAMPLES Next, although an Example is given and this invention is demonstrated concretely, these Examples do not restrict | limit this invention at all.
Example 1
One side of Kishu bleached kraft paper (basis weight 50 g / m ² ) was coated with EVA emulsion (product name “AD-37R345J” manufactured by Toyo Morton) at a coating amount of 5 g / m ² when dry. Let this be a laminated body (i).

The laminate (i) was coated on the surface of Kishu bleached kraft paper with an oil-resistant coat (trade name “Solvera PT5060” manufactured by Solvay Solexics Co., Ltd.) at a dry coating amount of 0.5 g / m ² . This is referred to as a laminate (ii).

  On the laminate (ii), an air permeability adjusting layer (manufactured by Toyo Ink, trade name “Fine Star R Medium”) was coated with the pattern shown in FIG. 7 so as to have an area of 80% of the oil-resistant coating. . This is referred to as a laminate (iii).

An EVA emulsion (manufactured by Toyo Morton, trade name “AD-37R345J”) was coated on the laminate (iii) at a dry coating amount of 1 g / m ² to obtain a breathable packaging material. This is designated as a laminate (iv).

(Measuring method)
About the air permeable base material layer used in Example 1, and laminated body (i)-(iv), the air permeability by the Oken method (JAPAN TAPPI No.5-2: 2000), oil resistance (JAPAN TAPPI No.42: 2000), the heat seal strength of the innermost layer and the adhesiveness with polyethylene of the outermost layer were measured. The results are shown in Table 1.

(I) Air permeability JAPAN TAPPI No. Based on 5-2: 2000, the air permeability by the Oken method was measured.

(Ii) Oil resistance JAPAN TAPPI No. The oil resistance by the kit method was measured based on 42: 2000.

(Iii) Heat seal strength The laminates (i) to (iv) were cut into a width of 15 mm to prepare two test pieces. For each laminate, superimposing the heat seal layers to each other which is laminated to the Kishu bleached kraft paper of the test piece, the temperature 110 ° C., and heat-sealed under the conditions of 2 kg / cm ^2, 1 second, after release cooling, the 50 mm / min Measuring the heat seal strength at the tensile rate was measured.

(Iv) Adhesiveness with polyethylene A polyethylene terephthalate film with a thickness of 12 μm was extrusion coated with polyethylene at a thickness of 15 μm and EMAA at 15 μm to form a protective film. The laminates (i) to (iv) were cut to a width of 15 mm to prepare test pieces, which were laminated with the polyethylene layer of the protective film and sealed at a temperature of 120 ° C., 2 kg / cm ² for 1 second. . After allowing to cool, it was peeled by hand, and if it caused cohesive failure of the paper, it was rated as ○.

(Example 2)
A 12 μm thick PET film was extrusion coated with 15 μm LDPE and 15 μm EMAA, then slit to a width of 110 mm, and 500 to 7000 through-holes with a diameter of 1.0 mm were formed per 1 m film with a width of 110 mm. did.

Further, the laminate (iv) of Example 1 was used as a breathable packaging material.
The EVA emulsion layer of the breathable packaging material and the EMAA layer of the breathable protective film are overlapped to form a breathable double packaging material, which is folded in half, filled with an oxygen scavenger, and sealed in three directions. Got the body.

  The breathable packaging material of the present invention can produce a breathable packaging material without using an opening device, such as an oxygen scavenger, desiccant, exothermic agent, moisture absorbent, deodorant, and moisture absorbent. Useful in the field.

10 ... Breathable heat seal layer,
20 ... Breathable substrate layer,
30 ... oil resistant layer,
40: Air permeability adjustment layer,
50 ... Adhesion auxiliary layer,
70 ... low temperature heat-sealing layer,
80 ... heat seal layer,
90 ... non-breathable base resin layer,
A ... Breathable packaging material,
B ... Breathable protective film

Claims (8)

At least from the outer layer to the inner layer, an oil resistant layer, a breathable base material layer, and a breathable heat seal layer having a gas permeability of 10 to 600 seconds according to the Oken method are laminated,
A laminate in which an air permeability adjusting layer is laminated outside the oil-resistant layer and / or between a breathable base material layer and a breathable heat seal layer,
A breathable packaging material, wherein the laminate material has an air permeability of 10 to 800 seconds according to the Oken method.   The breathable packaging material according to claim 1, wherein the laminate of the oil-resistant layer and the breathable substrate layer has an air permeability of 10 to 600 seconds according to the Oken method.   The breathable packaging material according to claim 1 or 2, wherein an adhesion auxiliary layer having an air permeability of 10 to 600 seconds according to the Oken method is laminated on the outermost layer.   A breathable double packaging material, wherein the breathable protective film according to any one of claims 1 to 3 is laminated on the outside without adhering a breathable protective film.   The breathable protective film is composed of a non-breathable base resin layer, a breathable heat seal layer having a gas permeability of 10 to 600 seconds and a low-temperature heat-sealing layer from the outer layer toward the inner layer. The breathable double packaging material according to claim 4, wherein a through hole is formed.   A breathable packaging material-covered package comprising the breathable packaging material according to any one of claims 1 to 3 and containing an oxygen scavenger, a desiccant, a heat generating agent, a moisture absorbent, a deodorant, a moisture absorbent or an insect repellent. body.   A breathable double packaging material-covered package comprising the breathable double packaging material according to claim 4 and containing an oxygen scavenger, a desiccant, a heat generating agent, a moisture absorbent, a deodorant, a moisture absorbent or an insect repellent. An air permeable packaging material in which an air permeability adjusting layer, an oil resistant layer, an air permeable base material layer, and an air permeable heat seal layer having an air permeability of 10 to 600 seconds according to the Oken method are laminated at least from the outer layer to the inner layer. A manufacturing method comprising:
At least the oil-resistant layer of the breathable base material layer on which the oil-resistant layer is laminated is subjected to pattern printing with an air permeability adjusting ink so as to be 5 to 95% of the area of the oil-resistant layer. A method for producing a breathable packaging material, comprising a step of adjusting the air permeability to 10 to 800 seconds.

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