JP2005162292A - Partitioned packaging bag - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a partitioned packaging bag capable of separately storing two or more kinds of materials and mixing them when in use without unsealing the packaging bag, free from a fear of both materials mixing during transportation and storage, and capable of easily mixing them when in use. <P>SOLUTION: The partitioned packaging bag consists of a thermoplastic resin film forming a bag body and a partition film for partitioning the bag body. The partition film is formed of a ribbon-like material including a heat-sealable layer and a weak heat-sealable layer laminated. The partition film is provided across two sides of the bag body. In addition, both side rims on the side of the weak heat-sealable layer are thermally fusion-bonded to internal surfaces of the thermoplastic resin film of the bag body respectively, thereby forming the partitioned packaging bag having the bag body with its inside partitioned. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a fraction packaging bag. More specifically, the present invention relates to a fraction packaging bag in which two or more kinds of contents can be divided and stored and mixed without opening the packaging bag at the time of use.

  In recent years, there are an increasing number of packages in which two or more kinds of drugs and foods are divided and packaged and mixed before use. For example, a caulking agent and an adhesive are divided into a main agent and its curing agent and mixed together before use. In food products, ingredients and seasonings are divided and packaged, and seasoned together before serving. By dividing each of the materials and packaging them independently, the contents can be stored for a long time without alteration.

  However, in use, it is difficult to mix the stored liquid material in a flexible bag. When mixing, it is necessary to prepare a rigid container and transfer it to the container for mixing. Yes, it took time.

  Therefore, a bag has been developed in which a partition is formed inside the bag body, each material is accommodated in each chamber, and the bag body is broken and mixed without opening the bag body before being used ( Patent Documents 1 and 2).

  However, in these fraction bags, a partition is formed by joining films forming a bag body with an easy-peel film interposed therebetween. However, when joining the film of the bag body, there is a problem that it is difficult to balance strength when it is necessary to maintain the fraction for transportation and storage and when the partition should be broken for use. . That is, if a partition with a strong adhesive strength is used to prevent the partition from breaking during transportation, it will be difficult to open the partition during use, and a partition with a weak adhesive strength will be used. If this is done, when a large number of containers are packed and transported, there arises a problem that the partition breaks due to the load of the upper bag or due to vibration and shock during transportation.

  In particular, when both sides of the bag film are bonded together with a thin-walled easy-peel film, when the material is stored inside the bag body, the bag storage portion becomes thicker. Since the partition part cannot swell and remains in a thin state, if a load is applied to the package body, the internal pressure of the package body increases and it becomes a force to spread the bag body wall. It acts and the partition is easily broken during transportation.

  Further, since the fractionated chambers are sealed with a bag film, each chamber is independent and capacity cannot be accommodated between the chambers. When the chambers are independent, when the chambers are filled with liquid, the heights of the chambers differ and become uneven. However, since the pressure in the other chambers remains low, a force is applied to the partition, and the partition breaks during transportation.

  In addition, when a thin-walled easy-peel film is sandwiched and the bag films on both sides are joined together, they become wavy, and the wavy packaging bag is stable when packaging many packages. There are also problems that cannot be accommodated well.

Therefore, it is stable during transportation and will not be damaged even if it is subjected to load or vibration. In use, it is required to develop a fraction packaging bag that can be easily broken and mixed. ing.
JP-A-9-221150 Japanese Patent Laid-Open No. 9-221176

  The present invention divides and stores two or more kinds of materials, enables mixing of materials without opening the packaging bag at the time of use, and there is no possibility of mixing materials during transportation and storage. Provides a fraction packaging bag that can be easily fitted.

The present invention has been made as a result of intensive studies to solve such problems. Specifically,
A thermoplastic resin film constituting the bag and a fraction film for fractionating the bag, and the fraction film is a ribbon-like body in which a heat seal layer and a weak heat seal layer are laminated. A bag in which the image film is disposed across two sides of the bag body, and the both side edges on the weak heat seal layer side are thermally fused to the inner surface of the thermoplastic resin film of the bag body, respectively, thereby separating the inside. The present invention provides a fraction packaging bag characterized by being a body.

  The present invention also provides the above-described fraction packaging bag, the film constituting the bag body, and the fraction film, in which the thermal fusion strength between the thermoplastic resin film and the fraction film of the bag body is 100 to 600 g / 15 mm. However, the above-mentioned fraction packaging bag composed of a thermoplastic resin mainly composed of an olefin polymer, and the weak heat seal layer of the fraction film is composed of an olefin polymer blended with an inorganic filler or a different resin. The present invention provides a fraction packaging bag and the above fraction packaging bag in which a gas barrier layer is interposed between a heat seal layer and a weak heat seal layer of a fraction film.

  Furthermore, the present invention provides the above-described fraction packaging bag in which the fraction film is disposed across the opposite sides of the bag body, and the opening of the bag body is formed on the opposite side across the fraction film. The above-described fraction packaging bag and the above-described fraction packaging bag in which the opening of the bag body is formed on one side in the direction intersecting with the fraction film.

  Two or more types of materials can be divided and stored, and can be mixed without opening the packaging bag at the time of use. Also, when the material is filled, the bag body maintains a flat shape. There is no significant load on the chamber, and the capacity is shared between the divided chambers.In particular, the internal pressure is equalized even when a biased load is applied, and force is applied to the partition film forming the partition. Since it does not hang, it can be transported safely.

  As shown in FIG. 1, the fraction packaging bag 1 of the present invention includes a bag body 3 formed by a pair of thermoplastic resin films 2 a and 2 b, and a fraction film 4 is mounted inside the bag body 3. 3 is partitioned into a plurality of chambers 3a and 3b.

  The structure of the fraction packaging bag 1 is not particularly limited and can be arbitrarily selected according to the purpose. In FIG. 1, a pair of thermoplastic resin films 2a and 2b are overlapped, and both side edges are heat sealed. By forming the fused portions 6a and 6b, the fraction packaging bag 1 is formed of two chambers opened up and down. In addition, it can also be set as a back-up type and can also be set as the fraction packaging bag 1 formed with folds on both sides (not shown).

The thermoplastic resin for forming the fractionated packaging bag 1 of the present invention is not particularly limited and can be widely selected according to the purpose. In general, the high-pressure method low-density polyethylene, linear low-density polyethylene, Polyolefins such as high-density polyethylene, polypropylene, ethylene / propylene copolymer, ethylene / vinyl acetate copolymer, polyesters such as polyethylene terephthalate and polybutylene terephthalate, polyamides such as nylon 6 and nylon 66, and the like can be used. Among these, polyolefin and polyamide are desirable, and in particular, the inner surface of the packaging bag 1 has a density of 0.91 to 0.93 g / mm ³ , a low density polyethylene of MFR 0.1 to 40 g / 10 min, or a density of 0.88 to 0. It is desirable to use a linear low density polyethylene of .94 g / mm ³ and MFR 0.1 to 40 g / 10 min.

  Although the thermoplastic resin film 2 can be used as a single layer of the above-mentioned resin, it is used as a laminated film in which a plurality of thermoplastic resin layers are laminated for the purpose of reinforcement, makeup, or improvement of heat-fusibility. Can do. For example, the outer surface may be a layer of a resin with less scratches, a glossy resin, or a resin with excellent mechanical strength, and the inner surface may be a heat-sealable resin layer.

  For example, as shown in FIG. 2A, the outer layer 11 is a resin layer with high mechanical strength such as polyamide, biaxially stretched polypropylene film layer, high-density polyethylene layer, or linear low-density polyethylene, and the inner layer 12 is high-pressure. By using a heat-sealable resin layer such as a low-density polyethylene layer or a linear low-density polyethylene layer, a film having strength and easy heat fusion can be obtained.

  Moreover, the film which provided gas barrier property according to the objective is used. For example, the outer layer 11 is a layer having a high gas barrier property such as a biaxially stretched polypropylene film layer, a polyester layer, or a polyamide layer. A film having wearability can be obtained.

  Further, as shown in FIG. 2B, a laminated film in which the outer layer 11 is a protective layer excellent in strength and gloss, the inner layer 12 is a heat-sealable layer, and the intermediate layer 13 is a gas barrier layer is used. it can.

  As a material for forming the heat sealable layer, high-pressure low-density polyethylene, linear low-density polyethylene, or ethylene-propylene copolymer, linear low-density polyethylene polymerized using a metallocene catalyst, or ethylene A vinyl acetate copolymer can be used, and as the gas barrier layer, biaxially stretched polypropylene, polyester, polyamide, saponified polyvinyl alcohol, aluminum vapor deposition film, aluminum foil, or the like can be used.

  Various additives can be added to these thermoplastic resins depending on the purpose. Specifically, antioxidants such as phenols and organic phosphites, such as organic phosphorus and thioethers; hindered amines and other light stabilizers; benzophenones, benzotriazoles, benzoates, and other ultraviolet absorbers; nonions System, cationic system, anionic system antistatic agent; bisamide system, wax system, organic metal salt system dispersant, etc .; alkaline earth metal salt carboxylate system, etc .; amide system, wax system, Examples include organic metal salt-based and ester-based lubricants; hydrazine-based, amine-acid-based metal inactive agents; inorganic, organic fillers, metal ion-based inorganic, organic antibacterial agents, plasticizers, and the like.

  These additives are blended in the process of producing a material composition by appropriately combining them. The blending of the additive may be prepared by mixing at a predetermined ratio using a kneading device such as a conventional known twin screw extruder, Banbury mixer, kneader, mixing roll, and melt-kneading the mixture. A so-called master batch having a high concentration may be prepared and used after being diluted.

  As a means for forming a laminated film, there is a method in which one preformed film and the other film are joined by heat or a hot melt agent, or a thermoplastic resin that forms the other layer on one preformed film is extruded. It can be carried out by appropriately selecting from known methods such as a laminating method or a method of extruding as a laminated film by a multilayer coextrusion method.

  Although the thickness of the thermoplastic resin film 2 can be arbitrarily selected according to the purpose, it is generally about 30 to 200 μm, preferably about 60 to 100 μm.

  As shown in FIG. 1, the present invention is characterized in that a fractionation film 4 is attached so as to fractionate a chamber of a bag body inside a fraction packaging bag 1.

  As shown in FIG. 3, the fractional film 4 is formed into a ribbon-like body 17 by laminating a heat seal layer 15 and a weak heat seal layer 16. As shown in FIG. 4, the width of the ribbon-like body 17 is the fraction packaging bag assumed when the distance a between the heat seal portions on both sides of the ribbon-like body 17 is filled with the material in the fraction packaging bag 1. The width is about the same as or slightly larger than the thickness b of 1.

  The heat seal layer 15 of the ribbon-like body 17 is folded when the side portions of the thermoplastic resin film 2 forming the bag body are heat-sealed to form a bag body with the folded ribbon-like body 17 interposed. In order to prevent the ribbon-like body 17 from being opened, a thermoplastic resin that is heat-sealed between the heat-seal layers 15 and is easy to heat-seal is used. Polyethylene polymers such as density polyethylene, high density polyethylene, polypropylene, ethylene / propylene copolymer, ethylene / vinyl acetate copolymer, polyesters such as polyethylene terephthalate and polybutylene terephthalate, polyamides such as nylon 6 and nylon 66, etc. Used. A polyolefin polymer is particularly preferable.

  In addition, the heat seal strength between the weak heat seal layer 16 and the thermoplastic resin film 2 is such that the weak heat seal layer 16 is formed by a thermoplastic resin that is a low strength heat seal relative to the heat seal strength between the thermoplastic resin films 2. It is formed. Examples of the thermoplastic resin with low heat seal strength include high melting point resins, and polypropylene and polyester can be used.

  Moreover, the thermoplastic resin in which the thermal welding has low strength can be obtained by dispersing an inorganic filler in the thermoplastic resin. As an inorganic filler, in an inorganic powder system, natural systems such as silica, talc, mica, clay, and calcium carbonate, magnesium carbonate, calcium hydroxide, titanium oxide, zinc oxide, alumina, zeolite, carbon black, graphite, etc. In the organic powder system, phenol resin powder, ebonite powder and the like can be mentioned.

  Moreover, the heat fusion strength can be suppressed by adding a different resin. For example, an olefin polymer is impregnated with a vinyl monomer and then subjected to polymerization conditions to knead the composite resin obtained. And can be obtained by dispersing.

  As the olefin polymer impregnated with the vinyl monomer, an olefin polymer such as high-pressure method low-density polyethylene, linear low-density polyethylene, high-density polyethylene, polypropylene, ethylene / propylene block copolymer, and the like can be used. As the monomer, styrene monomers such as styrene, α-methylstyrene, monochlorostyrene, p-methylstyrene, and ethylstyrene, and acrylic monomers such as acrylic acid and acrylic acid ester can be used. . The impregnation amount of the vinyl monomer is 10 to 80 parts by weight, preferably 20 to 80 parts by weight, based on 100 parts by weight of the olefin polymer.

  Further, a gas barrier layer can be formed on the ribbon-like body 17 according to the purpose, and the thermoplastic resin forming the gas barrier layer is the same as the gas barrier layer of the thermoplastic resin film 2 of the bag body. In general, the resin is provided between the heat seal layer 15 and the weak heat seal layer 16.

  The obtained fractionated film 4 is disposed across two sides of the bag body, and a partition is formed by heat sealing the inner surface of the thermoplastic resin film 2 forming the bag body.

  The fraction film 4 is folded over a line extending in the length direction as a fold line, and is disposed across two sides of the bag body so as to fractionate the bag body. FIG. The chambers 3a and 3b are formed vertically with the fraction film 4 in the middle, and the openings 20a and 20b are formed on opposite sides across the fraction film 4.

  Moreover, the fractionation film 4 can be mounted in a direction orthogonal to the opening 20 of the bag as shown in FIG. By disposing the fractionation film 4 in a direction perpendicular to the opening 20, when filling the chambers 3a and 3b with the material, the bags can be filled from the same direction without being inverted. The bag body can be fractionated into three or more. In addition, the fractionation film 4 can also be arrange | positioned diagonally ranging over 2 sides which a bag body adjoins, as shown in FIG.

  The heat seal between the weak heat seal layer 16 and the thermoplastic resin film 2 is assumed to suppress the strength, and is generally 100 to 600 g / 15 mm, preferably 200 to 400 g / 15 mm.

  The attachment of the fraction film 4 is not limited to the present invention, but can be performed as follows, for example. On one thermoplastic resin film 2a, the fraction film 4 is placed in a predetermined position and direction so that the weak heat seal layer 16 faces downward, and the weak heat seal layer 16 of the fraction film 4 is placed. Is heat-sealed to the thermoplastic resin film 2 along one side edge of the ribbon-like body 17. The width of heat fusion is not particularly limited, but is generally about 1.0 to 8.0 mm.

  Next, the fraction film 4 is folded back at the center with the length direction as the fold line. Another thermoplastic resin film 2b is overlaid on the folded fraction film 4, and the free side edge of the fraction film 4 is heat sealed with the upper thermoplastic resin film 2b, and the thermoplastic resin films 2a and 2b. These side edges are heat-sealed to form the fused portions 6a and 6b to form the fraction packaging bag 1. The end of the fraction film 4 is embedded in the fusion part 6. In order to prevent thermal bonding between the heat seal layers 15 of the fraction film 4 when the fraction film 4 and the thermoplastic resin film 2 are thermally bonded, it is desirable to interpose a metal plate or the like therebetween. .

  The thus obtained fraction packaging bag 1 is filled with a material from the opening, and the opening is heat sealed to obtain a package. Since the fraction film 4 has a distance between both heat seals with the thermoplastic resin film 2, even when the fraction packaging bag 1 is filled with the material, the outer wall does not wave, and the packaging is easy. Further, the fractionation film 4 has a function to swell to the other chamber side and equalize the pressure when a load is applied to one chamber and the pressure in one chamber increases.

  When using the contents accommodated in the package, if one chamber is clamped without opening the fraction packaging bag 1, the fraction film 3 is pressed in the direction of the other chamber and the bag. Open in the thickness direction, the heat seal portion P of the weak heat seal layer 12 is peeled off, the two chambers communicate with each other, and the divided materials are mixed.

  The present invention can be widely used as a two-pack adhesive, caulking agent, and other chemical packaging, retort food, and pickles.

The perspective view which shows the example of this invention fraction packaging bag The perspective view which shows the example of the thermoplastic resin film used for this invention The perspective view which shows the example of this invention fraction film Longitudinal sectional view showing the fraction film part of the bag The perspective view which shows the other example of this invention fraction packaging bag The perspective view which shows the further another example of this invention fraction packaging bag

Explanation of symbols

1: Fraction packaging bag 2: Thermoplastic resin film 3: Bag body 4: Fractionation film 6: Fusing part 15: Heat seal layer 16: Weak heat seal layer 17: Ribbon-like body 20: Opening

Claims (8)

  A thermoplastic resin film constituting the bag and a fraction film for fractionating the bag, and the fraction film is a ribbon-like body in which a heat seal layer and a weak heat seal layer are laminated. The image film was disposed across the two sides of the bag body, and both sides on the weak heat seal layer side were thermally fused to the inner surfaces of the thermoplastic resin film of the bag body, thereby dividing the interior. A fraction packaging bag characterized by being a bag.   The fraction packaging bag according to claim 1, wherein the thermal fusion strength between the thermoplastic resin film of the bag and the fraction film is 100 to 600 g / 15 mm.   The fraction packaging bag according to claim 1 or 2, wherein the film constituting the bag and the fraction film are made of a thermoplastic resin mainly composed of an olefin polymer.   The fraction packaging bag according to any one of claims 1 to 3, wherein the weak heat seal layer of the fraction film is formed by blending an olefin polymer with an inorganic filler or a different resin.   The fraction packaging bag according to any one of claims 1 to 4, wherein a gas barrier layer is interposed between the heat seal layer and the weak heat seal layer of the fraction film.   The fraction packaging bag according to any one of claims 1 to 5, wherein the fraction film is disposed across opposing sides of the bag body.   The fraction packaging bag according to any one of claims 1 to 6, wherein the opening of the bag is formed on each side facing each other across the fraction film.   The fraction packaging bag according to any one of claims 1 to 6, wherein an opening of the bag is formed on one side in a direction intersecting with the fraction film.

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