KR910009911B1 - Easily-openable packging container having notched inner surface layer - Google Patents

Abstract

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Description

Easy to open packaging container

1 is a cross-sectional view showing the structure of a multilayer container of an embodiment according to the present invention.

2 is a cross-sectional view of the container in which the multilayer container shown in FIG. 1 is sealed with a lid member.

3 is a cross-sectional view of a multi-layered container of yet another embodiment of the present invention.

4A, 4B, 4C, 4D and 4E are explanatory views showing the notch forming method, respectively.

5 is a process chart showing the manufacturing process of the multilayer container of the embodiment according to the present invention.

FIG. 6 is a partial sectional view of an example of a cross section of the process diagram shown in FIG.

7 and 8 are schematic cross-sectional views of notch forming apparatuses of different embodiments according to the present invention, respectively.

9a, b, c, d, e, f, g are explanatory views showing the shape of the blade edge of a ring blade, respectively.

10 is a cross-sectional view showing the shape of the notch formed by the blade shown in FIG. 9g.

11 is an explanatory diagram showing a state in which a plurality of multilayer containers are formed on one paper.

12 is a partial cross-sectional view of an easy opening packaging container of the embodiment according to the present invention.

13 is a partial cross-sectional view of an easy opening packaging container of another embodiment according to the present invention.

14 to 16 are partial cross-sectional views of an easy opening packaging container of another embodiment according to the present invention.

FIG. 17A is a partial cross-sectional view of an easy opening packaging container of the embodiment according to the present invention, and FIG. 17B is a partial cross-sectional view showing a state in which the lid member of the easy opening packaging container shown in FIG. 17A is peeled off.

18A and 18B are explanatory cross-sectional views showing an example of the operation of forming a notch on a multilayer container.

19 and 20 are perspective views of the multilayer container of the embodiment according to the present invention, respectively, and FIGS. 21 and 22 are easy-open packaging in which the multilayer container shown in FIGS. 19 and 20 is sealed with a lid member. Partial cross section of the container.

FIG. 23 is a partial cross-sectional view of an easy opening packaging container of the embodiment according to the present invention, and FIG. 24 is a partial cross-sectional view showing a state in which the easy opening packaging container shown in FIG. 23 is opened.

25 is a cross-sectional view of an example of a lid member used in the present invention.

Figure 26 is an explanatory view showing an apparatus for filling and packing an article of an embodiment according to the present invention.

27 is a partial cross-sectional view of an example of an easy open container of the present invention.

28 is a cross-sectional view of a test piece for measuring peel strength of a packaging container.

The present invention relates to a multilayer container and a method for producing the multilayer container, an easy-open packaging container packaged using the multilayer container, a method for packaging an article using the multilayer container, and an apparatus for packaging an article (for example, food and beverage). will be. More precisely, the present invention facilitates the fixing of the sealing conditions when sealing the lid member, and is suitable for thermal sterilization packaging, which can make a package that can be opened with a stable opening force as well as excellent sealing properties. Containers, methods and apparatuses for easily making such multilayer containers, easy-open packaging packaged using the multilayer containers described above, which provide a peeled surface with good appearance and have excellent resistance to boiling and retort processing A container, a packaging method, and an apparatus for easily packaging.

To date, containers with flanges have been widely used for packing foodstuffs, etc., which are sealed by heat sealing the lid member after filling the contents therein. However, the sealed container thus formed should use an edge tool if its contents are deteriorated if the sealing properties are improved by increasing the strength of the sealed seal, while using heat such as temperature, pressure and time. The sealing properties vary widely depending on the sealing conditions, or the contents sandwiched between the surfaces that are heat-sealed, so if a material with the appropriate interlaminar strength is selected to improve openability, uniform interlaminar strength may not be obtained, resulting in reduced sealing properties. Has the drawback. Therefore, it cannot be used for packaging where the internal pressure increases by thermal sterilization such as boiling and retort treatment.

However, conventionally, the ease of opening has been limited to the opening property in peeling opening from the sealing area where the flange portion of the lid member and the container is heat sealed. Therefore, it has been proposed to reduce the heat seal properties of the heat seal layer. However, this method is incompatible with good sealing properties and easy opening, and the appearance of the peeled surface is degraded (fog or yarn), thereby reducing commercial value. Thus, this is not a practical solution.

To date, as a device for forming a notch in a flange portion of a container, a device for forming a notched gold for bending-cutting is known at one bottom of the flange portion of the container in order to improve the opening property of the lid member. Utility Model Publication No. 48102/1983). The device consists of a lifted heat blade that forms a notch on the bottom of the flange portion and a cooling bed that supports the flange portion.

However, although such a device may form a notch for cutting the flange along a straight line on a portion of the flange portion, the accuracy of the depth or position of the notch is not always required of the device, depending on the purpose of the device, so This is not satisfactory in the accuracy of the notch.

It is an object of the present invention to advantageously be used as a packaging container heat sealed with a lid member which is opened by using a release layer of the multilayer container instead of using the sealed area of the multilayer container and the lid member as the peeling area, and a stable opening force. The present invention provides a multilayer container that can be easily opened, has excellent sealing properties because it is tightly sealed with a lid member which neglected (without consideration) peeling property, and also has resistance to boiling or retort treatment. To provide a method for producing.

It is a further object of the present invention to provide a packaging container as described above having excellent opening and sealing properties for filling an article in the multilayer container and to provide a filling-packing method.

It is another object of the present invention to provide an apparatus for producing the above-mentioned multilayer container and an apparatus for use in the above-mentioned filling-packing method.

The multilayer container of the present invention is a multilayer container having a flange portion, and a notch is provided at an inner periphery of the flange portion of the multilayer container that can delaminate between an inner surface layer and a layer in contact with the inner surface layer. When this peels off, the inner surface layer can be cut at the inner periphery of the flange portion. Such multilayer containers may be compressed by a notching blade, compressed by a heating blade, cut by a cutting blade, on the inner periphery of the flange portion of the multilayer container, which may be delaminated between the inner surface layer and the layer in contact with it. The notch can be produced by heating means or a combination thereof, wherein the notch can cut the inner surface layer at the inner periphery of the flange portion during peeling of the inner surface layer.

In addition, such multi-layered containers can be accurately sized by a method of making a flanged container that includes heating and thermoforming a multi-layered paper made of thermoplastic resin, wherein the notch is formed with a ring notching edge. Is formed in a step.

Further, the apparatus of the present invention for forming a ring notch in the flange portion of the container includes (a) a ring blade with heating means for forming a ring notch in the inner surface layer of the flange portion of the multilayer container and (b) notch formation. And a support member having a container receiving portion for supporting the seam flange, wherein at least one of (a) and (b) is liftable and securely secured to the device via an elastic member, the device being sized on a multi-layer container. Can form a notch accurately.

The easily openable packaging container of the present invention is a packaging container including a lid member sealed at a flange portion in a multilayer container having a flange portion, wherein the interlayer strength of the multilayer container is a peel strength between the flange portion and the lid member. Even smaller, a ring notch is provided in the inner surface layer of the flange portion inside the heat seal portion, and the packaging container has good sealing properties and easy opening.

The article, filling and packaging method of the present invention is a packaging method including filling an article in a container and heat-sealing a lid member on a flange portion of the container. Notches are provided in the inner surface layer of the container at the periphery of the heat seal inner flange before or after filling and the lid member is heat sealed. The apparatus for filling and packaging an article of the present invention comprises (a) an article filling means for filling an article in a container made of a delaminated multi-layer paper, (b) a flange portion of the vessel and a heat seal portion of the lid member before or after filling the article. Notch forming means for providing a notch in the inner surface layer of the inner flange portion, (c) a lid heat sealing means for sealing the lid member in the flange portion of the container, and (d) punching for punching the periphery of the heat sealing portion. Means; Using the above-mentioned filling and packaging method and this filling and packaging apparatus, a packaging container having good sealing characteristics and easy opening property can be obtained.

1 is a cross-sectional view of a multilayer container of an embodiment according to the present invention. Reference numeral 1 denotes an inner surface layer of the multilayer container, reference numeral 2 denotes a layer in contact with it, and reference numeral 3 denotes a notch formed in the inner periphery of the flange portion. Reference numeral 4 denotes a flange portion, which is used to heat seal the lid member and the inner surface layer 1 of the multilayer container after filling the article and covering the lid member.

The shape of the multilayer container of the present invention is not critical and is usually round, square, or the like, and the multilayer container is heat-sealed annularly along the flange of this type. The multilayer container may also be cup or tray type.

As for the multilayer structure of the multilayer container, if the interlayer strength of the multilayer container is smaller than that of the lid member and the heat seal of the multilayer container, if a delamination occurs between the layers of the multilayer container when the lid member is peeled off, and the lid member can be easily opened, The structure is not decisive. Preferred interlayer strength of the multilayer container is 200 to 1500 g / 15 mm, more preferably 300 to 1200 g / 15 mm (tensile speed: 300 mm / min). In addition, the thickness of the inner surface layer in the flange portion is usually 5 to 150 µm, preferably 10 to 100 µm.

Such a multilayer container is not critical as long as it has a multilayer structure composed of resins or combinations of resins and other materials to obtain adequate interlaminar strength. Examples of suitable resins include polyolefin-based resins, polystyrene-based resins, polyamide-based resins, polyester-based resins, polycarbonate-based resins, and the like, or mixtures thereof, and various elastomers and various additives or inorganic fillers in an amount of 5 to 70% by weight. There is a mixture of more.

Examples of resin combinations of layers include (a) polypropylene or polypropylene blended with up to 20% by weight polyethylene or elastomer and (b) polyethylene or polyethylene blended with up to 40% by weight polyethylene, polystyrene and ethylene-vinyl Combinations of acetate copolymers, and inorganic fillers containing polyolefins and combinations of polyethylene terephthalates.

Then, as a preferable example which can be used for a boiling or retort process, the multilayered structure comprised from the combination of (A) resin mixture layer of polypropylene resin-polyethylene resin, and (B) high density polyethylene resin layer can be used suitably. As a illustrative example of the polypropylene resin to be used in the resin mixture layer, random copolymers of propylene with α-olefins such as ethylene, butene-1, pentene-1,3-methylbutene-1 and 4-methyl pentene-1, and Mixtures thereof, as well as highly crystalline propylene homopolymers. Here, the random copolymer may be a mixture with homo polypropylene obtained by this and multistage polymerization. It is preferable that the ratio of a copolymerization monomer is 10 mol% or less in the above-mentioned copolymer. Among these polypropylene resins, the melt index (MI) is preferably 0.1 to 20, preferably 0.2 to 15.

On the other hand, low density polyethylene (high pressure low density polyethylene, linear low density polyethylene, etc.), medium density polyethylene, and high density polyethylene can be used as the polyethylene resin to be used in the resin mixture layer. In addition to ethylene homopolymers, ethylene and α-olefins such as propylene, butene-1, pentene-1,3-methylbutene-1, and 4-methylpentene-1, or unsaturated carboxylic acids such as vinyl acetate and acrylic acid Crystalline, low crystalline, or amorphous random or block copolymers, or mixtures thereof can be used. It is preferable that the ratio of a copolymerization monomer is 20 mol% or less in the above-mentioned copolymer. Among these polyethylene resins, those having a melt index of 0.02 to 50, preferably 0.05 to 30, and a density of 0.850 to 0.980 g / cm 3 and preferably 0.900 to 0.975 g / cm 3 are suitable.

The ratio between the polypropylene-based resin and the polyethylene-based resin described above is preferably selected from the range of 50:50 to 97: 3 (weight ratio), more preferably 60:40 to 95: 5 (weight ratio).

In addition, if necessary, the resin mixture may be blended with the third resin component to improve the compatibility or to adjust the adhesive properties. The description of the third resin component includes modified polyolefins or derivatives thereof modified with unsaturated carboxylic acids, ethylene-vinyl acetate copolymers, ethylene-acrylate copolymers, ethylene-propylene rubbers, ethylene-propylene-diene rubbers, polybutenes, poly Isobutylene, polybutadiene rubber, polyisoprene rubber, atactic poly-4-methylpentene-1, styrene-butadiene rubber, acrylonitrile-butadiene rubber, and ion-crosslinked olefin copolymers (ionomers), which are It may be used alone or in combination of two or more thereof. Preferably, these third components are used by 30 parts by weight or less per 100 parts by weight of polypropylene resin.

Exemplary examples of high density polyethylene resins that can be suitably used in other layers of the multilayer container, that is, the high density polyethylene resin layer, include ethylene and propylene, butene-1, pentene-1,3-methylbutene-1 and 4-methylpentene in addition to ethylene homopolymers. Copolymers with α-olefins such as -1 and the like. Preferred in these copolymers is 10 mol% or less of the copolymerized monomer. It is preferable that the melt index in the high density polyethylene resin is 0.01-50, preferably 0.02-20, and the density is 0.940-0.775 / cm 3, which may be a mixture of those having different densities or molecular weights.

In order to increase gas barrier properties or reduce deformation of the container, the multilayer container may be a two-layer type composed of the above-described resin layers, but it may be a multilayer type composed of three or more layers using layers of other materials. As an example of the material of the other layers, there is a resin layer such as ethylene-vinyl alcohol copolymer, polyvinylidene chloride, nylon and polyethylene terephthalate or a welding metal layer having good gas barrier property (for example, a welding aluminum layer). The layer composed of these other materials may be one layer or a laminate composed of two or more layers, which may be provided with a resin layer containing 10 to 80% by weight of an inorganic filler. In the case of these multilayer structures, they are laminated using adhesives such as polyolefins or derivatives thereof and ionomers modified with the aforementioned unsaturated carboxylic acids according to the combination of resins.

The thickness of the said resin mixture layer and the high density polyethylene resin layer is 10-1,000 micrometers normally, Preferably it is within the range of 20-500 micrometers. The inner surface layer is made thin because the outer layers maintain the strength of the multilayer container and the inner surface layer does is to protect the contents and seal with the lid member.

The multilayer structure of the multilayer container is appropriately selected according to the sealing layer resin of the lid member. For example, when the sealing layer of the lid member is a polyethylene-based sealing layer, the high-density polyethylene layer is used as the inner surface layer of the multilayer container when the combination of the resin layers described above is used. use. Here, the multilayer container of the present invention may have another layer, such as a sealing layer, on the inside of the inner surface layer of the multilayer container, if necessary, so long as it retains the characteristics of the present invention that it has a release layer.

When using a metal layer such as iron (tin plate, galvanized plate) and copper as the outer layer of the present invention, a resin layer that is easily peeled from the metal layer as the inner surface layer, such as polyethylene, polypropylene, ethylene-α-olefin copolymer and ethylene Polyolefins such as vinyl acetate copolymers; A mixture of a modified polyolefin obtained by graft modification of the polyolefin with an unsaturated carboxylic acid such as maleic anhydride or a derivative thereof and the polyolefin; Ionomers; And polyethylene terephthalate. By using this multilayer container, an easy-opening packaging container that can withstand boiling and retort treatment and has excellent strength, rigidity, pressure resistance, and thermal stability can be produced. The outer layer can also be made of paper, resin impregnated paper or the like.

At the periphery of the flange portion of the multilayer container, a notch 3 is formed on the flange which can cut the inner surface layer upon peeling off of the inner surface layer. As the notch, any kind of notch can be used as long as they can cut the inner surface layer at the time of peeling off the lid member, so that the notch may extend in the layer in contact with the inner surface layer or only to the middle of the inner surface layer. In addition, the shape of the notch is not critical, for example, it may be U-shaped, V-shaped, cut line (half-cut) and the like. It may also be cut from the underside of the inner surface layer. Further, the notch may be completely annularly formed throughout the inner periphery of the flange portion, but part of the inner periphery may be left unnotched. When peeling a lid member without peeling a part of lid member, only that part is not notched.

With reference to FIG. 2, this is a cross-sectional view showing the sealed state of the multilayer container of the present invention covered with a lid member 5, wherein reference numeral 6 denotes a heat seal portion, and the multilayer container and the lid member are provided at the flange portion of the multilayer container. Heat sealed to resist peeling. The peel strength of the seal portion sealing the inner layer of the multilayer container with the lid member is larger than the interlayer strength of the inner layer of the multilayer container, and the preferred peel strength is usually at least 2.0 kg / 15 mm, more preferably at least 2.5 kg / 15 mm (tensile speed). : 300mm / min). Reference numeral 7 denotes a picking portion that facilitates peeling. As a sealing method, the heat sealing method of the conventional plastic film, such as the heat sealing method, the impact sealing method, the high frequency bonding method, and the ultrasonic bonding method, can be used.

In the multilayer container shown in FIG. 2, the lid member is a single layer film, but is not limited thereto, and may be a single layer film or a multilayer film, depending on the embodiment thereof. When the lid member is formed of a multilayer film, a multilayer film suitable for use is composed of a substrate and a sealing layer, wherein the substrate is a one-layer film made of synthetic resin, a synthetic resin, paper, a multilayer film made of aluminum foil, a composite layer thereof, or the like. The sealing layer is made of a resin having easy heat sealability on the inner surface layer of the multilayer container such as polyethylene, polypropylene, ethylene-α-olefin copolymer, ethylene-vinyl acetate copolymer.

With regard to FIG. 3, this is a cross-sectional view showing a multi-layered container of another embodiment according to the invention, wherein ribs 8 are formed around the outside of the flange portion. It is also possible to form curls instead of ribs. In this case, although the peeling of the lid member is difficult, the second notch formed around the outer side of the flange portion facilitates this.

The multilayer container of the present invention produces a flanged multilayer container that can be delaminated between an inner surface layer and a layer in contact with the inner surface layer, and is compressed by a notching blade, compressed by a heating blade, cutting by a cutting blade, heating means. Or a combination thereof to form a notch capable of causing a cut of the inner surface layer at the inner periphery of the flange portion upon delamination of the inner surface layer of the flange portion.

The multilayer container can be produced from the resin of the above-described combination by a method such as thermoforming, multilayer injection molding, multilayer injection blow molding, multilayer blow molding, or the like such as vacuum molding and compression molding of coextruded multilayer paper or laminated paper. It may also be produced by stretching a multilayer sheet composed of a metal and a resin such as aluminum or by thermoforming a multilayer film inside the paper container.

As lamination processing, compression lamination, hot melt lamination, dry lamination, wet lamination, etc. are used, for example.

Preferred notch forming means are compression with a heating blade or the like and are not critical to the description of the heating means, which include electric heater means, heating by a thermal medium, impact heating, high frequency heating, ultrasonic heating and the like. These means combine with a U- or V-shaped ring compression member to form a notch. When using pressure and heat simultaneously, it is preferable that the inner surface layer of the multilayer container is made of a resin whose melting point or softening point is smaller than that of the outer layer while the inner surface layer has a thickness of 200 µm or less. In particular, the notches can of course be formed only in the inner layer when using a heat-impermeable material such as metal as the outer layer.

4a, 4b, 4c, 4d, and 4e showing the notch forming method, FIG. 4a shows a state in which notches are formed by compressing the notching blades, and FIG. 4b shows a state in which notches are formed by cutting with a cutting blade. FIG. 4c shows a state in which the notch is formed by protruding the multilayer sheet from the bottom and cutting the protrusion. FIG. 4d shows a state in which the notch is formed by compressing the heating ring. FIG. The state of formation is shown.

Notch formation by the methods described above may be carried out at the time of thermoforming of the container, at the time of punching out of the container or after punching out of the container.

In addition, the present invention can easily manufacture a multi-layer container for easy opening packaging container notched in the flange portion size accurately in position, depth and the like, and a multi-layer container capable of integrating the notch forming parts in conventional machinery It provides a manufacturing method.

The manufacturing method of the multilayer container which has the notch of this invention is demonstrated with reference to an accompanying drawing. 5 shows an example of a method for manufacturing a multilayer container according to the method of the present invention, and FIG. 6 is a partial cross-sectional view of an example of a thermoformed cross section in FIG.

In FIG. 5, reference numeral 31 denotes a multilayer sheet composed of a thermoplastic resin, which is fed to a heating step 32 which heats it to a temperature at which the sheet can be thermoformed, and then to a thermoforming step 33, Thermoforming is performed in a flanged multilayer container with a notch provided in the flange.

In the above-mentioned thermoforming step, as shown in FIG. 6, the multilayer sheet 31 heated to a temperature that can be thermoformed is usually held by the sheet press ring 113, which is subjected to a differential such as vacuum forming, pressure forming, and the like. It is attached to the mold 111 by pressure means and thermoformed into a container. At this time, the notching processing is performed with the ring notching blade 114 before, after or simultaneously with punching the periphery of the flange portion of the container with the punching blade 112. Reference numeral 115 denotes a vent of the mold 111 and reference numeral 116 denotes an air compression channel provided to the sheet press ring 113.

In addition, the punching edge 112, the sheet press ring 113 and the ring notching edge 114 may operate simultaneously or sequentially. Moreover, the notch formation timing is not decisive so that notches can be formed before the container forming (when the sheet is held), after the heat treatment following the container forming (particularly effective for PET or the like), or upon punching out of the container. In the present invention, in the case of the circular container, notches are formed at the same distance from the center, so the punching of the multilayer container is not necessarily performed during the forming step, but may be performed in the subsequent step. In addition, the temperature of the ring notching edge 114 may be any of room temperature, low temperature, and high temperature, but this is appropriately selected depending on the type of resin, notch formation time, depth of notch to be formed, and the like.

Examples of the operation procedure of the punching blade 112, the sheet press ring 113, and the ring notching blade 114 include (A) ① thermoforming, ② lowering of the sheet press ring, ③ lowering of the ring notching blade, and ④ of the punching blade. Lowering, (B) ① lowering of sheet press ring, ② lowering of ring notching blade, ③ thermoforming, ④ lowering of punching blade, and (C) ① lowering of sheet press ring and ring notching blade, ② thermoforming, ③ punching There is a descent of the day.

The present invention also provides a notch forming apparatus capable of precisely forming notches in size in a flange portion of a multilayer container.

7 and 8 are schematic explanatory cross-sectional views of ring notch forming apparatuses of different embodiments of the present invention with reference to the accompanying drawings for explaining examples of the ring notch forming apparatus of the present invention; FIG. 7 shows a device in which the ring blade is located at the top and the container guide is not installed inside the ring blade. FIG. 8 shows the device in which the ring blade is located at the bottom and the container guide is installed inside the ring blade.

In these drawings, the ring blade 43 is a means for forming a ring notch on the upper surface of the flange portion of the multilayer container and is equipped with a heater 45 as a heating means. Ring blades may have adjustable blade lengths and edge shapes such as those shown in Figures 9a, b, c, d, e, f, and (g) for edge shapes.

When using a ring blade having an edge of the form shown in Fig. 9g, it is preferable to use a multilayer container in which the melting point or softening point of the resin of the notch forming layer is lower than that of the resin of the next layer. The state of the notch formed in this case is shown in FIG.

As shown in FIG. 7, sufficient accuracy can be obtained in notch formation without the vessel guide inside the ring blade, but as shown in FIG. 8, the vessel guide 46 is provided in the ring blade 43 to further increase the formation accuracy. It is good. The shape of the ring blade 43 varies depending on the shape of the flange portion of the multilayer container, which usually has a continuous ring shape such as round, triangular, square and elliptical, for example, high carbon steel (Thomson blade), chromium-stainless steel, Aluminum, ceramic, etc. are used.

On the other hand, a support member 47 is provided for support of the flange portion when the notch is formed and has a container receiving portion 44. The support member 47 and the ring blade 43 described above are capable of elevating one or more of them, and are fixed to the appropriate devices 41 and 41 'through the elastic members 42 and 42', respectively. As the elastic members 42 and 42 ', for example, a spring or a dashpot can be used. By using the elastic member, an increase in the uniformity of the compression pressure and the accuracy of the notch forming depth can be obtained. In addition, when providing the container guide 46 in the ring blade 43, it is preferable to fix the container guide to the ring blade fixing member via the elastic member 42.

The multilayer container in which the notch is to be provided in the flange may be an individual or multilayer container formed in one sheet.

In the same case, when the notches are formed in the plurality of containers, the plurality of containers formed in one sheet by using the container receiving part or the container guide to finely move the notching tool or by providing the notched gold 49 as shown in FIG. It is advantageous to allow the 48 to each move finely.

In order to form a notch in the flange portion of the multilayer container using the apparatus of the present invention, the multilayer container is first placed in the container connection or mounted on the container guide 46, and in the former case, the support member 47 is raised or The ring blade 43 is lowered or both are formed to form a notch in the flange portion of the container. In the latter case, the notch is formed in the flange portion of the container by raising the ring blade 43, lowering the support member 43, or both. At this time, the temperature of the ring blade 43 is appropriately adjusted according to the type of resin, the notch formation time, the depth of the notch formed, and the like.

The present invention also provides a packaging container having a high sealing strength and easy opening, which is filled with an article in a multilayer container and heat sealed with a lid member.

An easy-open packaging container of the present invention will be described with reference to the drawings. 12 is a partial cross-sectional view of an easy-opening packaging container of the embodiment according to the present invention using the above-described multilayer container and lid member.

Reference letter A denotes a multilayer sheet formed of a co-extruded sheet or the like, which is usually formed in the multilayer container 10 by vacuum molding or pressure molding. This multilayer container is provided with a flange portion 4 for sealing the lid member.

The multilayer structure A of the multilayer container has an outer layer (1) which can be heat-sealed with peel-resistant sealing to the sealing layer 12 of the lid member and an outer layer whose adhesive strength to the inner surface layer is smaller than that of the peel-resistant heat-sealing ( 2) consists of.

The inner surface layer of the multilayer container and the lid member are heat sealed at the heat seal 6 in the flange portion of the container.

On the flange portion, the ring notch 3 is cut on the opening side of the inner surface layer of the multilayer container.

13 is a partial cross-sectional view of an easy opening packaging container of another embodiment according to the present invention. In this case, the periphery of the flange portion of the container curls inward. In this case, the notch 14 shown in the drawing formed in the inner surface layer on the peripheral side of the flange portion of the container allows the inner surface layer to be easily peeled off.

The periphery of the lid member protrudes out of the multilayer container to form a picking portion 7 to facilitate picking during opening.

The easy-opening packaging container filled with the article in the multilayer container of the present invention and sealed with a lid member can be easily opened by the following simple operation.

For example, the picking portion 7 is lifted up in relation to FIG. Then, delamination of the multilayer container occurs between the inner surface layer 1 and the layer 2 in contact therewith, and the inner surface layer is peeled off the notch 3 so that the lid member is peeled off. Therefore, even if the lid member and the multilayer container are heat-sealed with peel-resistance, the opening can be facilitated.

In addition, in contrast to the conventional method in which peeling occurs in the sealing area, there is no notch result caused by incomplete sealing of the sealing end, difference in sealing conditions, influence of foreign matter, and the like, and thus stable opening strength can be obtained. Moreover, even if the peeling strength of a heat seal increases, since it can peel easily, this easily openable packaging container is good in heat resistance, and can endure boiling and retort processing.

By lifting the picking portion in FIG. 13, the inner surface layer and outer layer are delaminated from the notch on the outer periphery so that the lid member can be easily opened as described above.

In the easily openable packaging container of the present invention, it is preferable that a gap is provided between the inner end of the heat sealing portion and the notch. The length of the space | interval t is 0.5-10 mm, Preferably it is 1.5-5 mm. This spacing allows the peel strength from the inside of the container to be greater than that from the outside so that an excellent packaging container can be obtained in food packaging where heat resistance and pressure resistance to boiling, retort treatment, and the like are required. Although the reason is not clear, in the case of peeling from the inside, the force is concentrated at the point X and the shear strength of the Y-Z area becomes the peeling strength from the point Y, increasing the peeling strength. If the length of t is less than 0.5 mm, the peel strength from the inside of the container is not sufficiently greater than that from the outside and the length over 10 mm is not practical.

When the spacing t is provided as described above, it is difficult to precisely adjust the position of the heat seal on the flat flange portion. Thus, in the case of easy opening packaging containers, it is advisable to provide a ring notch on the inner, non-sealing surface more than the heat sealing portion.

14 is a partial cross-sectional view of an easy opening container of the embodiment according to the present invention. In this case, the flange portion 4 of the multilayer container is not completely flat, the inner periphery of the flange portion is gradually inclined toward the inside of the multilayer container, and the notch 3 is provided on the inclined surface. In other words, a notch is provided on the non-heat seal surface 15, ie the inclined surface of the flange portion. If the distance from the start of the non-sealed seal face of the flange to the notch is represented by t ', then the heat seal using such a multilayer container is the heat in the gap (length t') from the outer end of the non-sealed seal face to the notch. It prevents the seal and adjusts the length of t more than the length of t 'even if the heat seal is out of order so that sufficient pressure resistance and opening can be shown.

15 is a partial sectional view of an easy opening packaging container of another embodiment according to the present invention. In this embodiment, the notch 3 is provided on the lower surface 16 of the non-heat seal face with a level difference on the inner periphery of the flange portion 4 to provide a notch on the non-heat seal seal.

16 is a partial cross-sectional view of an easy opening package of the embodiment according to the present invention in which ribs 17 are formed on the outer periphery of the flange portion 4. The vessel is provided with a notch 14 in the outer peripheral inner surface layer 1 of the flange portion.

In addition to the inclined surface shown in FIG. 14 or the lowered surface shown in FIG. 15, any non-heated surface may be used as long as it is an area such as a curved surface that cannot be in contact with the lid member. Since the notch is provided on the non-sealing seal surface by using a relatively wide sealing ring when sealing the lid member and the multilayer container, even if the seal moves, the entire flat surface portion of the flange portion can be sealed so that a uniform length t And a uniform position of the outer end of the heat seal portion. Therefore, the sealing work can be facilitated and a stable opening strength can be obtained.

In addition, in the easy-opening packaging container of the present invention, it is preferable to make a heat insoluble layer on at least one of the flange portion and the lid member inside the heat seal portion and to provide a ring notch inside the heat seal portion.

Figure 17a is a partial cross-sectional view of an easy opening packaging container of another embodiment according to the present invention. In this case, a heat insufflation layer 18 is formed inside the heat seal portion 6 of the flange portion 4 of the multilayer container, and this portion is not sealed when the lid member is heat sealed to the flange portion with a heat seal ring. Thus, a fixed gap can be provided between the inner end of the flange portion and the notch. In FIG. 17A, even if a heat fuse layer is provided on the flange portion, the heat fuse layer may also be provided on the lid member. The material of the heat melting layer is not limited as long as it can prevent heat melting of the flange portion and the lid member when heat sealing the flange portion and the lid member. The notch 3 is provided in advance in the heat fuse of the inner surface layer in the flange portion. However, the heat seal using the container allows the length of t to be adjusted to be fixed and thus can show sufficient sealability and good ease of opening.

FIG. 17B is a partial sectional view showing a state in which the lid member shown in FIG. 17A is peeled off. After delamination of the multilayer container, the inner surface layer is cut at the notch, causing peeling of the lid member.

18A and 18B are cross-sectional explanatory views showing a method of simultaneously sealing and notching the heat-sealing container of the present invention. The heat sealing ring 19 is provided with a sealing member 20 for sealing and a ring member 21 integrally with the distance t from the sealing portion. Thus, by simultaneously forming the heat seal and the notch, a fixed t and good working efficiency can be obtained and the heat seal and the notch can be formed without damaging the shape of the container. In any case, in this example, as the material of the layer 2 in contact with the inner surface layer so as not to cause damage to the lid member at the time of formation of the notch, a resin, metal or the like whose melting point is higher than that of the material of the inner surface layer 1 is obtained. It is better to use the same insoluble material. Such a thermally impermeable layer provided herein enables the formation of notches simultaneously with or after heat sealing and thus can use conventional packaging methods.

In addition, in order to improve the strength, the feeling of operation and the design quality of the flange portion of the multilayer container, when the ribs or curls are provided in the easy-opening packaging container of the present invention, a cut-off near the flange portion of the rib portion or the collar portion It is better to provide -off).

19 is a perspective view of an easily openable packaging container of the embodiment according to the present invention in which the cut-off portion 22 is provided in the rib portion 8. In this case, a cutoff portion 22 extending from the bottom to the flange level is provided in the rib portion provided at the end of the flange portion of the multilayer container. An inner end of the flange portion 4 is formed in the non-heat seal surface 15 of the inclined surface, and a notch 3 is provided in the non-heat seal surface 15.

In the easy-opening packaging container of the present invention, the cut-off portion provided at the rib portion or the collar portion near the flange level exposes the inner surface layer of the multilayer container and the end face of the layer in contact with the flange level near the flange level, It causes peeling of the inner surface layer. Although the cutoff portion extends from the lowest part of the rib portion to the flange level in FIG. 19, the size and shape are not limited so long as it achieves the above-mentioned object. Thus, the cutoff portion may be etched gold, holes, or the like provided in the rib or curl portion near the flange level. However, it must be located near the flange level and if it is located too far from the flange level it cannot cause delamination of the inner surface layer of the multilayer container.

Moreover, in this invention, since peeling of an inner surface layer starts from a cut off part, it is sufficient to provide a notch only in the inner end part of a flange part. In other words, the notch is not always necessary at the outer periphery of the flange part because the edge effect due to heat sealing enables cutting.

20 is a perspective view of a multi-layer container used for easy opening a packaging container of another embodiment according to the present invention. In this case, the cut off portion of the rib portion 8 is not cut at the position where it contacts the flange portion 4 but rather rises up to the flange level to form the flat surface 23. In this case, one side of the flat surface 23 may be connected to the rib 8.

FIG. 21 is a partial cross-sectional view of the cut-off portion of an easy-opening packaging container of the present invention, wherein the multilayer container shown in FIG. 19 is sealed with a lid member. The notch 3 is provided on the non-hot rod side 15 of the flange 4. The heat seal 6 extends around the outer side of the flange 4. The lid members 12 and 13 are provided with picking portions 7 to facilitate opening. FIG. 22 is a partial cross-sectional view of a portion including a cut-off portion of an easy-opening packaging container of the present invention in which the lid member is sealed in the multilayer container shown in FIG. 20. FIG. 21 and 22, the cross section of the inner surface layer 1 and the layer in contact with it is exposed by the cutoff portion near the flange level of the multilayer container. Thus, when lifting the picking portion 7 for opening, a delamination starts between the inner surface layer 1 and the layer 2 contacting it exposed by the cutting-off, so that the inner surface layer is continuously formed at the outer periphery of the sealing portion. It is cut along the outer end of the heat seal portion and the inner surface layer is further peeled off to cause the opening process. In addition, in the easy-opening packaging container of the present invention, in order to further increase the openability, the lid member described above is replaced with a tongue piece on the flange portion above the cut-off portion instead of providing a pitching portion and the lid member. Seal can be replaced with snowflake. In addition, instead of inserting the tongue piece, a picking part may be provided only on a part of the lid member on the cutoff part to form a tongue piece having a tongue shape.

When opening such a packaging having ribs or curls, for example, start by lifting the picking portion 7 in FIG. Then, the delamination starts between the inner surface layer 1 exposed by the cupping and the layer 2 in contact with it, the inner surface layer is cut around the outer periphery of the heat seal, and thereafter the inner surface layer 1 comes into contact with the inner surface layer 1. The delamination advances between the layers 2, and the inner surface layer peels up to the notch 3, causing peeling of the lid member. Therefore, even if the lid member and the multilayer container are heat-sealed with peel-resistance, opening is easy. In addition, when another notch is provided outside the heat seal portion of the flange portion, the cutting and peeling of the inner surface layer becomes easier and the openability is increased.

Also, as shown in FIG. 23, when notches are provided not only on the inner surface layer at the container flange opening side but also on the outer layer at the periphery of the container, the outer layer is notched as shown in FIG. Separated in two at 24, a delamination occurs between the inner surface layer 1 and the outer layer 2 of the container and can be easily opened.

As described above, the easy-opening packaging container of the present invention can be opened by peeling off the multilayer container in comparison with the conventional method of opening by peeling the lid member and the multilayer container from the sealing area, so that the lid member and the multilayer container are peeled-resistant. Even though it is sealed, it can be easily opened. Due to the strong sealing possibilities described above, a drop lid can be used as shown in FIG. 25 because of the wide selection of materials and shapes of the lid member. Packaging with a drop cap has the advantage of increasing the quality of food preservation since residual air in the container is reduced. However, the opening of the container using the conventional packing method was difficult because the contents overflowed by the fixing of the drop cap when filling the contents such as soup in the container adversely affected the sealing portion during sealing, thus making a strong seal. Because it requires. However, since the packaging container of the present invention can be strongly sealed, a strong lid can be suitably used therefor. The shape of the drop cap is not limited so long as it can engage the opening of the multi-layer container to dislodge the air, which may be a curved, flat bottom surface or the like.

In the article filling and packaging method of the present invention, a notch is provided in the inner surface layer of the flange portion before or after filling the article. Notches may be formed by, for example, physical methods using notching or cutting blades, heating by hot wire melting cutting (impact) or heat blades, mechanical vibration using ultrasonic waves, mechanical vibration using high frequency, and the like. Can be. However, when the notch is provided prior to filling the article, it continues to fill the article in the container and heat seal the lid member to the flange. For example, a ring notch blade with a V-shaped edge (heated if necessary) can be easily formed to form a notch. In this case, the notch forming ring can be installed in a conventional non-heating hitting ring for preheating the lid member by non-heating hitting before sealing. In the case of a container having a peeling tongue piece, it is preferable to heat seal the end of the tongue piece safely to the lid member. It is also preferable to form a through notch in the sheet. When the notch is formed after the article is filled, the lid member is continuously sealed in the flange portion.

After sealing the lid member in this manner, the periphery of the heat sealing portion is punched to obtain a package having a peelable opening. In this case two or three containers can be punched integrally.

In the filling and packaging method of the present invention described above, the term "molding of a container" means not only molding in a through line but also a preformed multilayer container.

The article filling and packaging apparatus of the present invention is an apparatus for the direct line method in the above filling and packaging method. FIG. 26 is an explanatory view showing an example of the apparatus with the container forming means, wherein the multilayer sheet 51 is heated by the heating means 52 and supplied to the container forming means 53. In the container forming means, the multilayer sheet 51 is molded into a container by, for example, vacuum forming or pressure molding.

The container thus formed is supplied to the article filling means 54, and the notch forming means 55 supplies the notch to the inner surface layer of the flange portion inside the flange portion and the heat seal portion of the lid member after the article filling. The article filling means and notch forming means described above in the device of the invention can be reversed and the notch forming means can comprise non-heating striking means. Subsequently, the lid member is sealed in the flange portion of the container in the lid member heat sealing means 56, and the periphery of the heat sealing portion is punched to obtain a package having a peelable opening. Reference numeral 58 denotes a lid member film.

According to the method and apparatus of the present invention, an easy-opening packaging container can be produced by a batch process using a multilayer sheet as a starting material without adding a special process, and in some cases from container forming to punching. . Therefore, the contents are not contaminated and the packaging cost is low.

The invention will be explained in more detail with reference to the following examples. However, the present invention is not limited to these examples.

Example 1

The multilayer sheet (I) as described below was formed by co-extrusion.

Inner layer: 70 micrometers of high density polyethylene ["Idemitsu polyethylene 440M", Idemitsu Petrochemical Co., Ltd. density, 0.99g / cm <3>, MI: 0.9g / 10min, molecular weight distribution: narrow]

Outer layer: Polypropylene-based resin layer 200 µm: Polypropylene [“Idemitsu Polypro E-100G”, Idemitsu Petrochemical Co., Ltd. product, MI: 0.6g / 10min] 80% by weight, low density polyethylene [“Petorosene 172 ”, manufactured by Toyo Soda Co., Ltd., density: 0.92 g / cm 3, MI: 0.3 g / 10 min] 15% by weight and high density polyethylene [“ Idemitsu Polyethylene 530B ”, manufactured by Idemitsu Petrochemical Co., Ltd.) Mixture of%.

The multilayer sheet (I) was used to form a flanged multilayer container of 60 m? X40 mm (height) by pressure thermoforming. Notches were formed in the inner periphery of the flange portion of the multilayer container by the following three methods.

(1) A notch was formed by compressing a ring notch blade 0.8 mm thick with sharp edges.

(2) A notch was formed by compressing a sealing ring having a thickness of 1 mm for 1 second at 170 to 190 ° C and 2 kgf / cm 2.

(3) The ring notching blade was brought into contact with the portion to be provided with the notch and ultrasonically treated from the opposite surface (900 W, irradiation time: 0.05 to 0.09 sec) to form a notch.

The inner layers of the multilayer container produced by these methods were peeled off and all of the inner layers were cut at the notches.

When the lid member 1 made of oriented nylon / polyvinylidene chloride / linear polyethylene (15μ / 20μ / 40μ) was heat-sealed in the multilayer container at the flange portion and the lid member was peeled off, the delamination of the multilayer sheet of the multilayer container Generated and the inner layer of the multilayer container was cut at the notches and easily opened.

Example 2

By co-extrusion, multilayer site II (four thicknesses) consisting of four types of six layers was formed.

a: b: c: d: c: b = 50; 350; 20; 30; 20; 350 (μm)

a: High density polyethylene [“Idemitsu Polyethylene 440M”, Idemitsu Petrochemical Co., Ltd. manufacture, density: 0.96g / cm 3, MI: 0.9g / 10min, molecular weight distribution: narrow)

b: Polypropylene [“Idemitsu Polypro E-100G”, Idemitsu Petrochemical Co., Ltd. manufacture, MI: 0.6 g / min] 80% by weight and low density polyethylene [“Petorosene 172” Toyo Soda Co., Ltd.) Product, density: 0.92 g / cm 3 MI: 0.3 g / 10 min] 20% by weight of the mixture.

c: Polypropylene modified with maleic anhydride [“Idemitsu Polytack E100”, Idemitsu Petrochemical Co., Ltd. product]

d: saponified ethylene: vinyl acetate copolymer [“EVAL EP-F101”, manufactured by Guraray Co., Ltd., ethylene content: 32 mol%, MI: 1.3 g / 10 min]

The multilayer sheet (II) is heated to a moldable temperature and placed on a mold as shown in FIG. 6, the sheet press ring is lowered, molded by pressure thermoforming, the ring notching blade is lowered, and the ring notching blade is Raised and the punching blade was lowered to prepare a container with a flange of 60 mm 占 40 mm (height). As shown in FIG. 27, a ring notch having a depth of 60 mu m was formed in the flange portion.

Subsequently, using the linear low density polyethylene layer as the sealing layer, the lid member 1 [e: f: g] used in Example 1 was subjected to the flange portion under conditions of a temperature of 170 ° C., a pressure of 4 kg, 1.5 seconds and a double compression seal. Sealed.

Peel test was performed on the flange portion of the container sealed according to JIS K6854. Further, after the container was filled with water and subjected to a retort treatment at 120 ° C. for 30 minutes, the peel test was performed again. The results are shown in the table. Here, no rupture occurred after the retort treatment and the vessel had good gas barrier properties.

Example 3

The container was manufactured by the same method as Example 2 by changing a high density polyethylene into "Idemitsu polyethylene 530B" [Idemitsu Petrochemical Co., Ltd., MI: 0.3g / 10min, density: 0.957g / cm <3>, molecular weight distribution: wide]. . The results are shown in the table.

Example 4

After opening from a polypropylene-coated aluminum sheet (thickness 0.6mm, resin layer 150μ) modified with maleic anhydride by stretching molding, a multilayer container having a flange portion of 50 mm, bottom 40 mm, height 20 mm, and thickness of about 200 μ Formed. On the inner side of the flange portion, a ring notch extending from the inner side of the multilayer container to the metal layer with a heat blade along the inner periphery of the flange portion was formed. And the lid member which heat-sealed the container which has the sealing layer which is 50 micrometers thick formed from the polyethylene containing the thin aluminum layer which is 20 micrometers in thickness, and the ethylene-vinyl acetate copolymer modified with maleic anhydride. The distance t between the inner end of the heat seal portion and the notch was adjusted to 1 mm.

When the sealed lid member was peeled off, a delamination occurred between the metal layer and the easily peeled resin layer, and the opening was easily performed with a uniform peel force.

Example 5

By thermoforming from the multilayer sheet, a multilayer container having a diameter of 60 mm in the opening, a diameter of 50 mm in the bottom surface, and a height of 25 mm was prepared. The inner layer of the flange portion was high density polyethylene (50 µ), and the outer layer was polypropylene (500 µ) mixed with 10% by weight of ethylene-propylene rubber.

A ring notch extending to the outer layer nearly formed in the flange portion of the vessel.

And the sealing member of the multilayer film (PET / EVOH / LLDPE: 12 micro / 20 micro / 30 micro) was heat-sealed using LLDPE as a sealing layer, and the packaging container which was easy to open was obtained. When this container was peeled from the picking part, the delamination of the short-acting container occurred and peeling was favorable.

Example 6

The multilayer sheet and lid member having the layer structure shown in FIG. 28 were prepared.

A notch having a depth of 70 μm was formed on the coextruded multilayer sheet (III) composed of the following layers a (thickness 200 μm) and layer b (thickness 50 μm).

a: 80 parts by weight of polypropylene [“Idemitsu Polypro E-100G”, Idemitsu Petrochemical Co., Ltd., density: 0.91 g / cm 3, MI: 0.6 g / 10 min] and low density polyethylene [“Petorosene 172 ”, Toyo Soda Co., Ltd. product, Density: 0.92 g / cm <3>, MI: 0.3g / 10min] A mixture of 20 parts by weight.

b: high density polyethylene [Idemitsu polyethylene 440M, density: 0.96g / cm <3>, MI: 0.9g / 10min].

The lid member 1 [e: d: c] used in Example 1 was subjected to a temperature of 170 DEG C, a pressure of 1.5 kg / cm &lt; 2 &gt; Sealed. The 180 ° peeling strength of the seal was measured according to JIS K6854. The result is that delamination occurs between a and b, and the peel strength is as follows:

t = 0mm 0.54kg / 15mm

1mm 2.2kg / 15mm

3mm 3.5kg / 15mm

5mm〉 4kg / 15mm

Next, containers were prepared in which t had a thickness of 2 mm and 4 mm, the above-described layer structure, and the shape shown in FIG. And after filling with water, these containers were heat-sealed and retorted for 30 minutes at 120 degreeC. These containers were not opened at all.

Each container had an open strength of about 0.9 kg / 15 mm before retort treatment and about 0.6 kg / 15 mm after retort treatment and was easily opened. The peeled surface was smooth.

In addition, the internal pressure at which the lid member was peeled off was measured by applying an internal pressure with a pump to a sealed container having a t of 2 mm prepared by heat-sealing the lid member in a container filled with water (average value of five containers).

1.45kg / ㎠ before retort treatment

1.30kg / ㎠ after retort treatment

(Retort treatment condition: 120 ° C, 30 minutes)

At the time of internal input, the delamination of the multilayer container occurred after the lid member expanded in hemispherical shape from the inner end (point X) of the sealed area.

Example 7

From the multilayer sheet I of Example 1, a multilayer container having a flange portion of 60 mm 占 40 mm (height) was formed by vacuum and input thermoforming.

The inner part (width 3mm) was formed in the non-heat-sealed surface of the inclined surface at the flange portion of the multilayer container (width 8mm). The ring with a V-shaped edge heated to 160 ° C. was compressed to form a ring notch 2 mm from the outer end of the non-heated side.

When the inner surface layer of the flange portion of the multilayer container having the notch obtained by the above method was peeled off, the inner surface layer was cut at the notch portion.

When the lid member 1 used in Example 1 was sealed in the multilayer container at the flange portion, the non-sealing sealing face was not sealed. In addition, when the lid member was peeled off, delamination of the multilayer container occurred, and the inner surface layer of the multilayer container was cut at the notch, so that opening was easy. The opening force was stable.

Example 8

From the multilayer sheet (I) used in Example 1, a flanged multilayer container of 60 mm? X40 mm (height) was formed by vacuum and pressure thermoforming. The heat-unfused layer of the silicone resin shown in FIG. 17A was provided in the inner part of the flange part of this multilayer container. Cover this multilayer container with the lid member 1 used in Example 1, and use a heat sealing ring (t = 3 mm, width of the extrusion ring: 1 mm) at a temperature of 170 to 190 ° C. and a pressure of 2 kgf / cm 2. For the first time, as shown in FIG. 18B, heat seal and notch formation were simultaneously performed.

When the lid member was peeled off from the container thus formed, the delamination of the multilayer sheet of the multilayer container occurred, and the inner surface layer of the multilayer container was cut at the notch, and the container was easily opened. In addition, the opening force was stable.

Example 9

From the multilayer sheet (I) used in Example 1, a 60-mm (mm) * 40mm (height) flanged multilayer container with rib part of length 6mm was formed by vacuum and pressure thermoforming. An inclined surface having an inclination angle θ = 20 ° was provided on the inner periphery of this multilayer container, and a notch having a depth of 60 μm was formed at a position having t = 2 mm. Two ribs 7 mm in length each extending from the bottom of the rib to the flange level on the rib were made 10 mm apart, and the flat surface was cut off after lifting the cut pieces between the two notches to form a flat surface. In this multilayer container, the lid member which had a snow tongue and had the same layer structure as the lid member 1 used in Example 1 was heat-sealed so that the tongue could be located on the cutoff part of a multilayer container.

When the snow tongue piece of the lid member was lifted and opened with respect to the easily openable packaging container thus obtained, delamination was started from the cutoff portion under the snow piece piece, the inner surface layer was cut at the notch, and the container was easily opened.

Claims (6)

An openable packaging container including a multilayer container (10) having a flange portion (4) and a lid member (5) heat-sealed (6) to the flange portion, wherein the interlayer strength of the multilayer container is such that the flange portion ( 4) and the peeling strength of the lid member (5) is smaller, the easy-opening packaging container, characterized in that the ring notching (3) is provided on the inner surface layer of the inner flange portion of the heat seal portion (6). . The packaging container according to claim 1, wherein a distance (t) of 0.5 to 10 mm is spaced between the inner end of the heat sealing portion (6) and the notch (3). The easy-opening packaging container according to claim 2, wherein the interval t is 1.5 to 5 mm. The packaging container according to claim 1, wherein a ring notch (3) is provided on the inner non-sealing surface of the heat sealing portion (6). The heat sealing layer (18) is provided on at least one surface of the flange portion (4) and the lid member (5) inside the heat seal portion (6), and the ring notch (3) is the heat seal. Easy to open packaging, characterized in that provided inside the portion (6). According to claim 1, wherein the ring notch (3) is easy to open, characterized in that formed at the same time pressed together with the lid member 5 when sealing the lid member 5 and the multi-layer container (10). Multilayer container.

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