JP5214834B2 - Easy-open packaging - Google Patents

Description

  The present invention relates to an easy-open packaging body, and in particular, in the packaging of food such as bread, confectionery bread, and confectionery that is resealed using a binding tool after part of the contents is taken out (partial use). The present invention relates to an easy-open packaging body made of a polypropylene-based resin that prevents mixing and has bag-making properties and easy peel properties.

  Conventionally, a film made of a polypropylene resin has been widely used as a packaging bag film by taking advantage of its excellent rigidity, transparency, moisture resistance, and the like. However, a film of propylene homopolymer has a great difficulty in low temperature heat sealability when heat-sealing and sealing the opening after bag making and contents insertion. For this reason, it is also possible to use a random copolymer with ethylene or the like having a low melting point. However, a film made of a random propylene copolymer has low rigidity and is not practical due to insufficient packaging suitability.

  For this reason, conventionally, it has been widely used as a multilayer film in which a high-rigidity polypropylene-based resin is used as a base layer and a resin excellent in heat sealability is used as a seal layer. For this sealing layer, for example, a random propylene copolymer obtained by copolymerizing propylene with an α-olefin such as ethylene is used.

  In general packaging, these multilayer films are used without any particular problem. Above all, in the packaging of foods such as bread, confectionery bread, confectionery, etc., a packaging bag is manufactured by fusing and sealing a multilayer film, and bread is inserted into this bag, and the opening is sealed with a binding tool. The packaging form is common. The purchaser adopts a usage mode in which the purchaser removes the binding tool and takes out a necessary amount of bread and the like and then binds and stores the bread again.

  However, with this method, there is a risk of foreign matter being mixed after the bread is inserted and before binding. Further, there is a possibility that foreign matter enters the opening side of the binding tool during transportation / storage after binding, and before the binding tool is removed at home, and falls and mixes into the interior when the binding tool is removed. In such packaged foods such as bread, foreign matter such as insects should not be mixed from the viewpoint of safety and hygiene, and has recently become a problem. Further, in this case, it is difficult to specify at which point in time the foreign matter has entered, and there are new problems such as difficulty in preventing the prevention in quality control, and a solution is required.

  Japanese Patent No. 3032163 discloses a packaging for preventing foreign matter from being mixed into the bread loaf, and is partially welded by a plurality of dot-like heat welding portions on the opening side of the bag-like body. There is disclosed a packaging structure of a bag-like body that can be repeatedly opened and closed by a binding tool that binds the seal portion to the seal portion after opening, as a belt-like seal portion that substantially maintains the outside and the inside so that it can be opened and opened.

Problems to be solved by the invention

  However, in this packaging structure, the seal is limited to a special heat seal in which the seal is partially welded at the dot-like heat welded portion in order to ensure the openability. For this reason, since interruption | blocking is not perfect, it is thought that it is difficult to prevent even mixing of foreign materials, such as a flaw. In addition, a special heat seal is unavoidable because it is difficult to open a normal solid seal.

Further, it is conceivable to use a multilayer film having a seal layer with low heat seal strength for sealing in order to facilitate opening, but there is a problem that the heat seal temperature range is narrow and impractical.
Further, there is a problem that the sealing strength is not stable in bag making by fusing sealing.

  An object of the present invention is to provide an easy-open packaging body that can obtain appropriate easy peelability and a high fusing seal strength under a wide range of sealing conditions (sealing temperature range).

Means for solving the problem

  As a result of intensive studies to develop an easy-open packaging body having the above-mentioned preferable properties, the present inventors have found that an easy-open packaging body composed of a multilayer film having a specific structure has a wide range of sealing conditions (seal It was found that an appropriate easy peel property was obtained in the temperature range. The present invention has been completed based on such findings.

That is, the easy-open packaging body of the present invention, as an inner sealing layer of a multilayer film, a easy-open packaging body formed by heat-sealing at least one end, wherein the multilayer film is a propylene homopolymer or other The content of the other α-olefin is on one side of the base material layer (B) composed of 50% by mass or less of the propylene copolymer having a content of α-olefin of 0.2 to 10% by mass and a propylene homopolymer. A sealing layer (A) comprising 0.2 to 10% by weight of propylene copolymer 55 to 70 % by weight and a density of 880 to 920 kg / m ³ of butene-1-propylene copolymer 45 to 30 % by weight, and On the other side of the base material layer (B), ethylene / α having a content of another α-olefin of 0.2 to 10% by mass of a propylene copolymer of 80 to 100% by mass and a density of 850 to 910 kg / m ^3. -Olefin Characterized by comprising forming a layer (C) consisting of polymer 20-0 wt%.

Although the propylene homopolymer which comprises a base material layer (B) is not specifically limited, The thing whose melt flow rate (MFR) is 1-20 g / 10min is preferable, and what is 5-10 g / 10min. Particularly preferred.
The MFR is measured according to JIS K 7210 (measurement conditions: load 21.18 N, temperature: 230 ° C.).

  The propylene copolymer has a content of α-olefin such as ethylene, butene-1,4-methylpentene-1, octene-1, etc., particularly ethylene and / or butene-1 in the copolymer of 0.2 to 0.2. 10% by mass, preferably 0.2 to 5% by mass. Here, when the content of α-olefin exceeds 10% by mass, rigidity is lowered, and due to the influence, bag-making suitability and packaging suitability are lowered. The content of α-olefin such as ethylene is measured by an infrared absorption spectrum method.

  Moreover, 1-20 g / 10min is preferable and, as for MFR of a propylene copolymer, 5-10 g / 10min is especially preferable. If it is less than 1 g / 10 minutes, transparency and film impact may be reduced, and if it exceeds 20 g / 10 minutes, molding defects are likely to occur.

  The method for producing the propylene homopolymer or propylene / α-olefin copolymer used in the present invention, and further the ethylene / α-olefin copolymer is not particularly limited, and may be one produced by a known method. . For example, it is based on the manufacturing method using what is called a Ziegler-Natta catalyst.

  Specifically, a catalyst system in which a titanium-containing compound itself or a titanium-containing compound supported on a carrier such as a magnesium compound is used as a main catalyst and an organoaluminum compound is used as a co-catalyst, propylene alone or a desired α such as ethylene -The method of superposing | polymerizing by adding an olefin can be mentioned. This polymerization may be any process such as a slurry polymerization method, a solution polymerization method, and a gas phase polymerization method.

  Further, a homogeneous catalyst may be used, and a conventionally known catalyst comprising a vanadium compound and an organoaluminum compound, or a cyclopentadienyl group, a substituted cyclopentadienyl group, an indenyl group, a substituted indenyl group, etc. A metallocene system comprising a transition metal compound such as zirconium, titanium or hafnium as one or two ligands, and a transition metal compound in which the ligand is geometrically controlled and a promoter such as an aluminoxane or an ionic compound. Mention may also be made of homogeneous catalyst systems such as catalysts. The metallocene catalyst may be any process such as a slurry polymerization method or a gas phase polymerization method in addition to homogeneous polymerization in the presence of a solvent, if necessary, using an organoaluminum compound.

For the sealing layer (A) of the multilayer film, the propylene / α-olefin copolymer is 50 to 80% by mass and the density is 880 to 920 kg / m ³ butene - 1 - propylene copolymer 50 to 20% by mass, Preferably, 55 to 75% by mass of propylene / α-olefin copolymer and 45 to 25% by mass of butene - 1 - propylene copolymer having a density of 880 to 920 kg / m ³ , more preferably propylene / α-olefin copolymer. A resin composition comprising 60 to 70% by mass of a polymer and 40 to 30% by mass of a butene - 1 - propylene copolymer having a density of 880 to 920 kg / m ³ is used.

Here, if the content of butene - 1 - propylene copolymer is less than 20% by mass, it is difficult to obtain the easy peel property that is a feature of the present invention. It causes difficulty in sex.

Here, the butene - 1 - propylene copolymer is a copolymer of propylene and butene-1, and has a density of 880 to 920 kg / m ³ , preferably 890 to 910 kg / m ³ . When the density of the copolymer exceeds 920 kg / m ³ , easy peelability at low temperatures becomes difficult, and when it is less than 880 kg / m ³ , film formation becomes difficult. The density is measured in accordance with JIS K 7112.

The MFR [measurement conditions: load 21.18 N, temperature 190 ° C.] of the butene - 1 - propylene copolymer is preferably 1 to 50 g / 10 min, and particularly preferably 1 to 10 g / 10 min. Even if MFR is less than 1 g / 10 minutes or more than 50 g / 10 minutes, the compatibility with the propylene copolymer is deteriorated.

  In the range which does not impair the objective of this invention as needed to the polypropylene resin which comprises a sealing layer (A), other resin and elastomer can also be mix | blended. Examples of other resins include ethylene / vinyl acetate copolymers and ethylene / acrylic acid copolymers. Examples of elastomers include styrene / diene elastomers and hydrogenated styrene / diene elastomers.

The polypropylene resin constituting the layer (C) contains the propylene copolymer and the ethylene / α-olefin copolymer in an amount of 20% by mass or less. As these resins, a copolymer selected from the substantially same range as that described for the seal layer (A) is appropriately used.
Here, when the content of the ethylene / α-olefin copolymer exceeds 20% by mass, the heat resistance is lowered, and the temperature conditions at the time of heat sealing are restricted, so that the bag-making speed is reduced and inserted. There is a reduction in speed during (filling).

In addition, this ethylene / α-olefin copolymer has relatively few problems in terms of fusing and sealing properties of general packaging bags, but it is gusset folded (bottom part) in the case of square bottom packaging bags used for packaging food such as bread. In the case of (folding) bag-making, it is blended to stabilize the fusing seal strength of the four-sheet overlapping portion of the folding portion.
Therefore, in the case of a square bottom packaging bag, it is particularly preferable that the content of the ethylene / α-olefin copolymer is in the range of 5 to 15% by mass.

  The propylene homopolymer, propylene / α-olefin copolymer and ethylene / α-olefin copolymer used in the present invention are commonly used additives, specifically, antioxidants, neutralizers, and slip agents. An antiblocking agent, an antistatic agent, etc. can be mix | blended as needed.

  Moreover, as the whole thickness of a multilayer film, the thing of the range of 10-70 micrometers is preferable, and the thing of the range of 20-50 micrometers is especially preferable for food packaging.

The multilayer film may be formed by forming a seal layer, a base material layer and an outer layer (heat-resistant layer) separately, and then laminating them by a known dry lamination method, etc., but simultaneously forming them by a known coextrusion film forming method. It is preferable.
In particular, a T-die cast coextrusion film forming method capable of high-speed film formation by a large film forming machine is preferable, and a film having a thickness of 10 to 70 μm is suitably manufactured under high-speed film forming conditions with a take-up speed of 50 m / min or more. Can be membrane.

  The multilayer film is printed as necessary, and is formed into bags by various sealing methods to obtain a packaging bag. As a sealing method at the time of bag making, an overlap seal at the end and a T-shaped seal are possible, but a fusing seal frequently used for food packaging can be preferably employed from the viewpoint of productivity and low cost.

  According to this, by having the structure of the specific multilayer film described above, it is possible to simultaneously satisfy the conflicting characteristics of further increasing the fusing adhesive strength and lowering the heat seal strength.

  In the easy-open packaging body of the present invention, it is preferable that the fusing seal strength when the packaging article is inserted and the opening is heat sealed is 10 N / 15 mm or more and the heat seal strength is 1 to 4 N / 15 mm. Moreover, 10 degreeC or more is preferable and, as for the temperature range in which heat seal intensity | strength shows the value of 1-4 N / 15mm, it is more preferable that it is 20 degreeC or more.

  In addition, the package of the present invention has an easy peel property that can be easily opened when the food is taken out, and the fusing seal of the packaging bag is also strongly stable. This easy peel property is a sealing property required for bread, confectionery wrapping, etc. In general handling, the bag will not break and the contents will not pop out. It shows the property of peeling. Since the seal strength required for the sealability varies depending on the weight of the package, the size of the package, and the like, it is necessary to appropriately adjust the thickness of the multilayer film, the shape, width, and seal conditions of the seal portion.

  The packaging body of the present invention can preferably employ the fusing point sealing method and tight sealing method used in bread, confectionery bread packaging, etc., and it is great that stable easy peel properties can be obtained by both of these sealing methods. Features. In particular, it is a great feature that an easy peel property can be secured even in the tight sealing method.

  According to this, since the fusing seal strength is 10 N / 15 mm or more, the fusing adhesive strength is increased, and since the heat seal strength is 1 to 4 N / 15 mm, the conflicting characteristics that the heat seal strength is relatively low. Can be satisfied at the same time.

In the easy-open packaging body of the present invention, the layer (C) comprises 80 to 98% by mass of a propylene copolymer having a content of other α-olefins of 0.2 to 10% by mass and a density of 850 to 910 kg / It is preferably composed of 20 to 2% by mass of m ³ ethylene / α-olefin copolymer.

According to this, the layer (C) is composed of 80 to 98% by mass of a propylene copolymer having a content of another α-olefin of 0.2 to 10% by mass and a density of 850 to 910 kg / m ³ . By comprising 20 to 2% by mass of the α-olefin copolymer, the easy-open packaging body can obtain even easier peelability.

In the easy-open packaging body of the present invention, the layer thickness ratio of the multilayer film is (A) :( B) :( C) = 0.05 to 0.5: 1: 0.1 to 0.5. It is preferable. More preferably, it exists in the range of 0.1-0.5: 1: 0.1-0.3.
According to this, when the layer thickness ratio of the film is the above-described ratio, the conflicting characteristics of further increasing the fusing adhesive strength and lowering the heat seal strength can be satisfied at the same time.

In the easy-open packaging body of the present invention, it is preferable that the lower end portion of the packaging bag is gusset-folded and both side ends are fused and sealed.
According to this, the lower part of the packaging bag is folded inward, that is, sufficient fusing seal strength can be obtained even in the fusing seal having a four-sheet structure of gusset folding.

In the easy-open packaging body of the present invention, it is preferable that a detachable binding tool is provided on the opening side of the packaging bag.
The binding position of the binding tool is arbitrary as long as the opening is sealed, and of course, it is not necessary to be completely sealed, and a generally used binding tool is used.
According to this, since the binding tool is freely detachable by providing the binding tool on the opening side of the packaging bag, it can be repeatedly opened.

  The easy-open packaging body of the present invention is suitable as a food packaging body because the packaging article is food.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows a square-bottom packaging bag 1 for bread wrap packaging according to an embodiment of the present invention, in which (A) is a front view and (B) is an XX cross-sectional view of (A).
The packaging bag 1 has a planar rectangular shape and is composed of a single multilayer film 2. Further, a bottom folded portion 3 is formed on the bottom of the packaging bag 1, a fusing seal portion 4 is formed on the side surface, and a pin hole 5 and a perforation 6 are formed on the side of the opening facing the bottom. Is formed. This packaging bag 1 is manufactured in the following procedures.

The packaging bag 1 has a long multilayer film 2 as a seal layer (A) (not shown) as an inner surface, a bottom portion is folded inward (gazette folding), a bottom folded portion 3 is formed, and the other end is provided with a pin hole 5. It can be manufactured by shifting and folding only the part to be formed, running in the horizontal direction of the drawing, and fusing and sealing both sides of the multilayer film 2.
The bottom folded portion 3 (gazette folded portion) is fused and sealed in a state where the four multilayer films 2 are overlapped. The bottom folding portion 3 forms a square bottom when the bag is opened.

  FIG. 2 shows a package 10 for bread according to an embodiment of the present invention, in which (A) is a front view, (B) is a side view, and (C) is a side view after attaching the binding tool 13. When viewed from the front, this bread wrapping body 10 has a wide, trapezoidal shape on the opening side where the pin hole 5 and the perforation 6 are formed, and a rectangular parallelepiped on the bottom side. is there. A band-shaped heat seal portion 12 is formed on the opening side of the package 10 for bread. A binding tool 13 is inserted into the opening side of the package 10 for bread. As shown in the enlarged binding tool 14, the binding tool 13 is made of a plastic thin plate, and has a shape in which a hole is formed in a circular shape in the center and only a part thereof is opened. This package 10 for bread is manufactured in the following procedures.

In the case of general factory production, the bread wrapping body 10 blows air into the packaging bag 1 aligned with the pin hole 5 through a stick, widens the packaging bag 1, and forms a rectangular shape (integrated, sliced) from the opening side. ) Bread 11 is dropped and inserted. By this impact, the perforation 6 at the top of the pin hole 5 of the packaging bag 1 is cut and dropped. Subsequently, the opening side is heat-sealed in the next step. This heat sealing step is optional depending on the type of the insertion / heat sealing device, such as performing in a horizontal orientation. As shown in (C), the heat-sealed package is usually bound between the heat seal portion 12 and the bread 11 by inserting the binding tool 13.
As the binding tool 13, generally, a binding tool similar to the illustrated shape made of a thin plastic plate as shown in the enlarged binding tool 14 is used. However, there is no particular limitation as long as it has a binding function such as a resin-coated metal wire. In addition, the binding tools 13 and 14 are not particularly required to be bundled in the bread wrapping package 10 before opening the heat seal of the opening, but it is lost to be integrated with the bread wrapping package 10. This is preferable.

In addition, as a shape of the heat seal part 12 of the package 10 for bread of this invention, although the strip | belt shape of FIG. 2 is common, it can also be set as another shape for improvement of easy peel property. .
FIG. 3 shows another example of the shape of the heat seal portion 12 of the package 10 for bread. In the case of the chevron strip shape of FIG. 3A, peeling is performed substantially along the width of the strip from the central portion, so that easy peelability is further improved.
Moreover, in the case of (B), the start of peeling becomes easier. In this case, the easy peel property is further improved by narrowing the seal width of the valley.

According to this embodiment as described above, the following effects are obtained.
(1) The package 10 for bread can be easily opened at the time of opening, can simultaneously satisfy the conflicting characteristics of increasing the fusing adhesive strength and relatively lowering the heat seal strength.
(2) Since the package 10 for bread is excellent in transparency and uniformity, it can be preferably used for various food packaging, especially for bread-bottom packaging of bread.

It should be noted that the present invention is not limited to the above-described embodiment, and modifications and improvements within the scope that can achieve the object of the present invention are included in the present invention.
For example, in the packaging bag 1, if necessary, in addition to the fusing seal, a solid seal having a narrow width may be provided on the fusing seal portion 4 to reinforce the sealing strength of this portion.
In addition, the specific structure, shape, and the like when carrying out the present invention may be other structures and the like as long as the object of the present invention can be achieved.

  Hereinafter, the present invention will be described more specifically based on Examples and Comparative Examples, but the present invention is not limited to these. In the said embodiment, the multilayer film 2, the packaging bag 1, and the package body 10 for bread were manufactured for the specific conditions as follows.

First, polymers used in Examples and Comparative Examples, film forming methods, evaluation methods and the like are shown.
(1) Polymer used

Based on these polymers, A to C layers were formed with the formulation shown in Table 1.
The following additives were added to the resin for each layer.
(A) Layer-Erucamide: 1000 ppm
Silica antiblocking agent: 2500ppm
(B) Layer • Erucamide: 1000 ppm
Silica antiblocking agent: 2000ppm
(C) Layer / erucic acid amide: 1000 ppm
Silica antiblocking agent: 3500

(2) Manufacture of multilayer film The above-mentioned copolymer pellets and additives shown in Table 1 were blended and formed into a film with a three-layer T-die coextrusion cast molding machine to a total film thickness of 30 μm. A layer film was obtained.
The layer thickness ratio of the film was set to seal layer (A): base layer (B): outer layer (C) = 1: 5: 1.
The molding machine is provided with extruders of 40 mmφ / 65 mmφ / 50 mmφ corresponding to the seal layer (A): base material layer (B): outer layer (C), respectively, and the number of screw rotations is the seal layer (A) : Base material layer (B): Outer layer (C) was 40/130/30 (rpm), respectively.
The die outlet resin temperature was 250 ° C., the chill roll temperature was 23 ° C., and the corona treatment density was 38 W / m ² · min.
The total discharge rate was 80 kg / hr, and the take-up speed was 70 m / min.

(3) Evaluation of sealing properties 1) Fusing seal Using a seal testing machine (Tester Sangyo Co., Ltd., bag making testing machine) capable of fusing sealing, the sealing layer (A) contacts the film obtained above. Then, both ends were fused and sealed. Sealing was performed at preset temperatures of the cutting blades of 180 ° C, 190 ° C, 200 ° C, and 210 ° C. The pressure during sealing was 20 N / cm ² · 0.1 sec.

2) Heat (tight) seal Using a seal tester capable of tight sealing (Tester Sangyo Co., Ltd., bag making tester), the film obtained above is supplied so that the seal layers (A) are in contact with each other, Sealing was performed with a width of 10 mm. Sealing was performed at set temperatures of 110 ° C., 120 ° C., 130 ° C., and 140 ° C. of the seal bar. The pressure during sealing was 20 N / cm ² · 0.1 sec.
3) Seal strength After the condition of the seal sample obtained above is adjusted for 16 hours or more at a temperature of 23 ± 2 ° C. and a humidity of 50 ± 10%, the seal part is 15 mm wide under the same temperature and humidity conditions. The sample was sampled into strips, and the seal strength was measured by the T-type peeling method.
In accordance with JIS Z 1707, the peeling rate was 200 mm / min.

4) Haze Measured according to JIS K 7105.
5) Appearance According to visual observation.
6) Easy peel property A: Peels uniformly over the entire seal surface.
○: Although there is partial strength unevenness, the entire surface is peeled off.
Δ: The film partially stretches and peels off.
X: The entire film stretches and breaks from the seal edge.

[Examples and Comparative Examples]
Examples 1 and 2 and Comparative Examples 1 to 6
A multilayer film 2 was produced and evaluated as described above using the layer structure, polymers and compositions thereof as shown in Tables 1 and 2.
The evaluation results are shown in Tables 1 and 2.

[Example 3]
Further, the multilayer film (width 260 mm, length 60 mm) obtained in Example 2 was folded, and the end of the folded portion was folded 60 mm inward. Next, both end portions were fused and sealed to obtain a packaging bag 1 as shown in FIG.

[Example 4]
After inserting the sliced bread 11 into the packaging bag 1 of Example 3, it was heat-sealed at 100 ° C. and 20 N / cm ² · 0.1 seconds with a width of 10 mm, leaving 20 mm of the end of the opening. Subsequently, the film between the heat seal part and the bread was pinched and sealed with a resin binding tool 13 for sealing, and a package 10 for bread was obtained.
The package 10 for bread could be easily opened by manually opening the end of the multilayer film 2 at the end of the opening on both sides.

Effect of the invention

  The package of the present invention can be easily opened at the time of opening, and in particular, in the case of bag making with a fusing seal in the case of gusset folding for forming a square bottom, which is commonly used in the case of packaging of bread, fusing adhesion strength At the same time, and at the same time, the conflicting properties of relatively low heat seal strength can be satisfied.

  The square bottom packaging bag for bread-bread packaging concerning one Embodiment of this invention is shown, (A) is a front view, (B) is XX sectional drawing of (A).   The bread bun package concerning one Embodiment of this invention is shown, (A) is a front view, (B) is a side view, (C) is a side view after attaching a binding tool.   The other example of the heat seal shape of a bread wrap package is shown.

DESCRIPTION OF SYMBOLS 1 Packaging bag 2 Multilayer film 3 Bottom folding | returning part 4 Fusing seal part 5 Pin hole 6 Perforation 10 Package body for bread 11 Bread 12 Heat seal part 13 Binding tool 14 Binding tool (enlargement)

Claims (7)

With the sealing layer of the multilayer film as the inner side, an easily openable packaging body formed by fusing and sealing at least one side end,
The multilayer film has one side of a base layer (B) composed of a propylene homopolymer or 50% by mass or less of a propylene copolymer having a content of other α-olefin of 0.2 to 10% by mass and a propylene homopolymer. In addition, the content of the other α-olefin is 0.2 to 10% by mass of the propylene copolymer 55 to 70 % by mass and the density is 880 to 920 kg / m ³ of the butene-1-propylene copolymer 45 to 30 % by mass. % Sealing layer (A) and
On the other side of the base material layer (B), ethylene / polypropylene copolymer having a content of other α-olefin of 0.2 to 10% by mass and 80 to 100% by mass and a density of 850 to 910 kg / m ³ A layer (C) comprising 20 to 0% by mass of an α-olefin copolymer is formed.
In the easy-open packaging body according to claim 1,
An easy-open packaging body having a fusing seal strength of 10 N / 15 mm or more and a heat seal strength of 1 to 4 N / 15 mm when a packaging article is inserted and the opening is heat-sealed.
In the easy-open packaging body according to claim 1 or claim 2,
The layer (C) is composed of 80 to 98% by mass of a propylene copolymer having a content of other α-olefins of 0.2 to 10% by mass and an ethylene / α-olefin copolymer having a density of 850 to 910 kg / m ^3. An easily openable package comprising 20 to 2% by mass of a polymer.
In the easy-open packaging body according to any one of claims 1 to 3,
The layer thickness ratio of the multilayer film is (A) :( B) :( C) = 0.05 to 0.5: 1: 0.1 to 0.5. .
In the easy-open packaging body according to any one of claims 1 to 4,
An easy-open packaging body, wherein the lower end portion of the packaging bag is gusset-folded and both side ends are fused and sealed.
In the easy-open packaging body according to any one of claims 1 to 5,
An easy-open packaging body comprising a detachable binding tool on the opening side of the packaging bag.
In the easy-open packaging body according to any one of claims 1 to 6,
The easy-open packaging body, wherein the packaging article is food.

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