JPH0999933A - Easy peel container and its manufacture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To surely form a resin lump piece in such a condition that a flange is connected to a flexible heat seal cover by a method wherein easily unsealable property and high seal strength are provided and heat seal by means of molten resin (resin lump piece) can be effected only on the inner side of the flange, and the strength of the resin lump piece can be made uniform entirely over the piece. SOLUTION: In a container body 11 for easy peel container, a thin wall part 25 is formed along the entire circumference of a flange 14 on the inner side of a plastic surface 22 of the flange 14 in such a manner that a step is provided with respect to the surface 22 of the flange 14. An inclined protrusion 24 is formed on a thick wall part 26 of the flange 14. If a flexible heat seal cover 30 is heat sealed to the body 11, the protrusion 24 is melted and formed into a resin lump piece and further molten resin of a peelable heat sealing resin layer 36 of the cover 30 is formed into a claw-shaped extended resin part so as to cover the resin lump piece so that the cover 30 is connected to the body 11 in a non-bonded or weak-bonded state.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an easy peel container for containing foods and the like and a method for manufacturing the same, and more particularly, to an easy peel container having a good balance of easy-opening property and high sealing strength, and its manufacturing method. It relates to a manufacturing method.

[0002]

2. Description of the Related Art Conventionally, a single-layer or multi-layer (laminated) plastic film or sheet or a laminate of a metal foil and a plastic film is injection-molded, vacuum-molded, pressure-molded, plug-assisted, press-molded, or bulged. A container that is formed by drawing into a cup shape with a flange by a means such as molding, and has a sealed portion formed by heat sealing between the flange of the container main body and the lid is used to hold various foods, etc. It is widely known as a container.

There are various types of heat-sealing methods between the flange and the lid. For example, a heat-sealing resin such as an olefin resin is used as a constituent material on the outer surface of the flange and the inner surface of the lid, and the heat-sealing strength of both is 1 ~ 4kg / 1.5
Using the composition of olefin resin, waxes and tackifier as the material for the inner surface of the lid in the range of cm, the heat seal strength of both is 500 g / 1.5 cm called easy peelable seal. ~ 1.5 kg / cm
It is known to be adjusted to the range.

However, in the heat sterilization process of the contents and the cooling treatment process accompanied therewith, a significant pressure difference is generated between the inside and the outside of the container, so that the heat sealing using only the peelable seal interface described above lacks sealing reliability. There is a problem, and for the purpose of solving it, it shows a strong seal strength against the pressure from the inside of the container (that is, the force from the center of the container to the outside), and easy peeling from the outside of the container toward the center is possible. Containers are also being developed.

As an example of this type of heat-sealed container, Japanese Patent Laid-Open No. 62-28355 proposed by the present inventors.
The gazette is cited. The outline is as follows. That is, in the container body of the present invention, the flange portion whose surface is formed of the heat seal resin layer is formed on the outer circumference of the opening. The flange portion has a curved seal surface that is convex upward (outward of the opening) when viewed in a vertical cross section, and the thickness gradually decreases toward the center of the seal on at least one of the inner and outer peripheral portions of the seal surface. Overhanging part (resin collecting piece)
Is provided integrally with the lid. Then, a lid member having a heat-sealing resin portion on the inner surface formed as a separate body is placed on the container body, and the flange portion of the container body and the heat-sealing resin portion of the lid member are heat-sealed. , To get an easy peel container.

The container according to the present invention is configured as described above, so that the peeling force from the outside to the inside of the container causes cohesive failure of the heat-sealing resin layer of the lid member or the flange resin. Interfacial peeling with the heat-seal resin layer of the lid allows easy opening by hand, while the peeling force from the inside to the outside of the container causes shear stress due to lifting of the resin pool of the flange resin. The strength increases due to the breakage of the resin reservoir of the flange portion and the breakage of the lid material due to the occurrence of the above.

[0007]

By the way, in the easy peel container, in order to realize a sufficient easy peel, it is desirable to form the resin pool piece only on the inner side of the sealing surface. In the structure of the easy peel container, the resin pool may be formed not only inside the sealing surface but also outside. Therefore, it is necessary to surely form the resin reservoir piece only inside the sealing surface by devising the shape of the container. Further, generally, in an easy peel container of the type in which heat sealing is performed in the state where the resin collecting pieces are formed, the strength of the resin collecting pieces is made uniform throughout and the container body and the lid member are securely sealed by the resin collecting pieces. There is a request to do so.

[0008]

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide an easy peel container having a good balance of easy opening and high sealing strength. Further, another object of the present invention is to
Equipped with a good balance of easy opening and high sealing strength, heat sealing with molten resin (resin puddle) can be performed only on the inner side of the flange, and the strength of the resin puddle can be made uniform throughout and the resin puddle can be flanged. (EN) Provided is an easy peel container which can be reliably formed in a state where a flexible heat seal lid and a flexible heat seal lid are connected, and a manufacturing method thereof.

[0009]

The present invention has been proposed in order to achieve the above object, and is characterized by the following points. That is, according to the present invention, the plastic surface of the easy peel container body in which the flange is provided on the outer periphery of the opening and the surface of the flange on the opening side is formed of plastic is formed on the flexible heat seal lid. In an easy peel container heat-sealed with the peelable heat-sealable resin layer, the heat-sealing strength between the plastic surface and the peelable heat-sealable resin layer is 500 g to 2500 g / 15.
a resin pool piece having a length of 0.08 mm or more, and having a length of 0.08 mm or more toward the inner side of the flange and projecting over the entire circumferential direction of the flange at the inner end on the plastic surface side of the flange, And a claw-shaped extending resin portion that is melt-extended from the peelable heat-sealable resin layer and surrounds the resin pool piece in a non-adhered or weakly adhered state in a tightly adhered state over the entire circumferential direction of the flange. An easy peel container is provided.

Further, according to the present invention, the container body before heat-sealing is located inside the flange of the plastic surface of the flange with respect to the surface on the opening side of the flange along the entire circumferential direction of the flange. There is provided the above-mentioned easy peel container in which a thin portion is formed with a step.

Further, according to the present invention, a plastic projection is formed outside the thin portion of the flange of the container body before heat-sealing, in the vicinity of the thin portion and along the entire circumferential direction of the flange. An easy peel container body is provided.

Further, according to the present invention, there is provided the easy peel container body in which the protrusion of the container body before heat sealing is gradually thickened toward the inside of the flange.

Further, according to the present invention, the thin portion is formed on the inner side of the flange along the entire circumferential direction of the flange so as to have a step with respect to the surface on the opening side of the flange, and the thin portion is formed. And a flexible heat seal lid having a peelable heat-sealable resin layer on the inner surface, and a container main body formed with a plastic projection along the entire circumference of the flange in the vicinity of the thin portion on the outside of the part. Heat seal, and in the first stage of heat sealing, the protrusion melts to form a resin puddle with a length of 0.08 mm or more toward the inside of the flange, and in the second stage, peelable cover Manufacture of an easy peel container characterized in that the extended resin portion melt-extended from the heat-sealable resin layer is formed so as to surround the resin pool piece in a non-adhered or weakly adhered state over the entire circumferential direction in a tightly adhered state. Method.

Further, according to the present invention, the heat seal strength between the plastic surface of the flange of the container body and the peelable heat sealable resin layer is 500 g to 250.
A method of making an easy peel container that is 0 g / 15 mm is provided.

According to the present invention, the container body is
There is provided a method for manufacturing an easy peel container having a projection that gradually becomes thicker toward the inside of the flange.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The easy peel container according to the present invention as set forth in claim 1 is a plastic of an easy peel container body in which a flange is provided on the outer periphery of the opening, and the surface of the flange on the opening side is made of plastic. In an easy peel container having a surface heat-sealed with a peelable heat-sealable resin layer formed on a flexible heat-seal lid, the heat-sealing strength between the plastic surface and the peelable heat-sealable resin layer is 500 g to 2500 g.
It is one of the important technical features that it is set to / 15 mm. The heat seal strength is a value defined by repeated experiments by the present inventors, and when the heat seal strength is less than 500 g / 15 mm, the heat seal portion is peeled off even by a small external force during transportation or handling. If the heat-sealing strength is greater than 2500 g / 15 mm, the adhesive force may be too strong to properly open the package.

The heat-sealing strength in the present invention means a test piece obtained by cutting the lid material of the hermetically-sealed molding container and the molding container into a strip shape having a width of 15 mm to prepare a test piece.
It refers to the value measured in accordance with No. 70 "sealing strength test".

Further, the easy peel container according to the present invention is provided at the inner end of the flange on the plastic surface side over the entire circumference of the flange and has a length of 0.08 mm toward the inside of the flange. The above resin puddle is formed, and the claw-shaped extending resin part extended from the peelable heat-sealable resin layer surrounds this resin puddle in a tightly adhered state over the entire circumferential direction of the flange. That is the second technical feature. In this close contact state, the resin reservoir piece and the claw-shaped extending resin portion are formed in a non-adhered or weakly adhered state, which is formed only on the inner side of the flange and not on the outer side. Sex will be maintained. Further, since the resin puddle is formed to have a length of 0.08 mm or more toward the inside of the flange, the amount of the extended resin increases, and the resin puddle and the claw-shaped extended resin portion are connected. Is effective in obtaining a strong and stable high seal strength.

The invention of claim 2 defines the structure of the container body before heat sealing of the easy peel container. That is, the surface of the plastic surface 1A of the flange 1 shown in FIG. 9A is located inward of the flange 1 along the entire circumferential direction of the flange 1 with respect to the surface of the opening side of the flange 1 (upper side of FIG. 9A). Has a technical feature in that the thin portion 2 is formed in a state having a step, and by forming the step in this way, when heat-sealed with a flexible heat seal lid, At the inner end of the flange 1 on the plastic surface side, a resin pool piece is provided so as to project over the entire circumferential direction of the flange 1. A part of the peelable heat-sealable resin layer is extended to the resin reservoir piece by heat sealing so as to surround the flange in a tightly adhered manner over the entire circumferential direction. Therefore, the easy peel container body and the flexible heat seal lid are connected with high sealing strength.

The invention according to claim 3 also defines the structure of the container main body before heat sealing. In this container main body, the entire circumferential direction of the flange is in the vicinity of the thin wall portion on the outside of the thin wall portion of the flange. A protrusion made of plastic is formed along the. As a result, when heat sealing is performed, the protrusion is melted, and the resin pool piece is reliably provided at the inner end of the flange on the plastic surface side over the entire circumferential direction of the flange.

The shape of the protrusion is not particularly limited as long as it can surely form the resin pool piece, and FIG.
As shown by reference numeral 3 in (B), a flange 3D having a curved surface 3A that is erected at the inner end of the thick portion 1B and has an upper end surface that is gently curved upward, FIG. 9C. 9B, the curved surface 3A of the protrusion 3 in FIG. 9B is a flat surface 3B. As shown in FIG. 9D, the upper end of the protrusion 3 is erected so as to form an acute angle. It is possible to exemplify the ones.

The invention according to claim 4 also defines the structure of the container body before heat-sealing, and the protrusion according to claim 3 becomes thicker toward the inside of the flange. It is characterized by points. With this, when heat sealing is performed, the resin reservoir piece is more reliably formed at the inner end of the flange on the plastic surface side. Further, the present invention has an advantage that the formed resin pool piece can be surely formed in a state of an appropriate length toward the inside of the flange.

In the present invention, the projection that gradually becomes thicker toward the inside of the flange means that the protrusion of FIG. 9 (E) linearly extends toward the inside of the flange 1 as shown in FIG. 9 (E). Of course, as shown in FIG. 9 (F), the projection 3 having the inclined surface 3C that slopes upward is included, and as shown in FIG. 9 (F), the slope that rises steeperly than the inclined surface 3C at the intermediate portion of the inclined surface 3C. Surface 3
It may be the protrusion 3 having D. Furthermore, the protrusion in the present invention is not limited to the shapes shown in FIGS. 9 (E) and (F), and if the thickness becomes gradually thicker toward the inside of the flange, a smooth uneven portion is formed on the inclined surface. It may be formed. In addition, in the present invention, the term “becomes thick” means that FIG.
It means that the thickness becomes thicker in the vertical direction of (F).

A fifth aspect of the present invention defines a method for manufacturing an easy peel container according to the present invention. On the heat-sealed surface of the flange of the container body, a step portion, or
A point provided with a stepped portion and the above-mentioned inclined projection made of plastic, and in the case of providing the inclined projection, it is provided on the inner side of the flange, and a flexible heat sealable resin layer having a peelable heat-sealable resin layer on the inner surface thereof. A seal lid is placed, and heat sealing is performed so that the heat seal strength between the flange surface and the peelable heat sealable resin layer of the lid material is 500 g to 2500 g / 15 mm. The heat-sealing strength is such that the protrusion of the container body melts and extends to form a resin pooling piece, and that the lid material that melts and extends so as to cover the resin pooling piece extends from the peelable heat-sealable resin layer. It is obtained by connecting the resin parts in a non-bonded or weakly bonded state. Due to the connection of the resin pool piece and the extended resin portion, it is easy to open and has high sealing strength, and heat sealing with molten resin (resin pool piece) can be performed only on the inner side of the flange, and the strength of the resin pool piece can be improved. This makes it possible to make the resin uniform over the whole and to reliably form the resin reservoir piece in a state where the flange and the flexible heat seal lid are connected.

To explain this action in more detail,
When the flexible heat-sealing lid is heat-sealed to the container body for the easy peel container, first, the inclined projection 2 shown in FIG.
2 is melted and, as shown in FIG. 2, a resin pool piece 28 is projected on the upper end side of the boundary surface 27 between the thin wall portion 25 and the thick wall portion 26, and the flexible heat seal lid 30 is peeled off. The rubber heat-sealable resin layer 36 melts and extends, flows into the lower side of the resin pool piece 28 in FIG. 2 so as to cover the resin pool piece 28, and is integrated with the end surface 28A and the lower surface 28B of the resin pool piece 28. While coming into contact with the boundary surface 27, the claw-shaped extending resin portion 29 is formed. With this configuration, the extended resin portion 29 is provided with the flange 14 and the flexible heat seal lid 3.
0 and 0 are connected with high sealing strength.

Thus, when a peeling force acts from the inside to the outside of the container body 11, as shown in FIG. 3, the flange 14 and the flexible heat-seal lid 30 are not peeled off at the heat-sealing portion, and are spread. Since this is done by breaking the material of the cup and the lid due to the hinge effect of the resin-extruded portion 29, the sealing strength is increased. On the other hand, with respect to the peeling force from the outside to the inside of the container body 11, the flexible heat seal lid 30
The peelable heat-sealing resin layer 36 is cohesively broken or the interface between the plastic surface 22 (heat-sealing resin layer) of the flange 14 and the peelable heat-sealing resin layer 36 is peeled off so that the unsealing can be easily performed by hand. become.

In the easy peel container according to the present invention, as described above, the lid member placed on the container body is heated and pressed by a heat sealer known per se, so that the lid member is peelable at the flange portion of the container body. It is heat-sealed with the heat-sealable resin layer. When heat sealing,
First, in a short time of about 1.5 seconds, the protrusion formed on the heat seal surface inside the flange of the container body melts to form a resin pool piece on the stepped portion, and at the same time, the peelable heat seal of the lid material. The resinous resin layer is melted to form a claw-shaped extending resin portion in a form of covering the resin pooling piece, and both are firmly joined in a non-adhering or weakly adhering state to form a connecting portion. . In the easy peel container body used in the present invention, since the inclined projection 24 is provided on the inner side of the flange 14 and the resin pooling piece 28 is formed at this portion, the extending resin portion 29 is It is not formed on the outer side of the flange 14 and extends the easy peeling property to the resin portion 2
9 does not interfere.

Further, as described above, in the easy peel container manufactured according to the present invention, the inclined projection is provided on the heat sealed surface of the flange of the container body,
Since the step portion is formed on the surface on which the thin wall portion is formed and the inclined projection portion is provided, the inclined projection portion is made to project as a resin pool piece at the time of heat sealing. The claw-shaped melt (extended resin portion) of the peelable heat-sealable resin layer covers almost the entire resin pool piece, and the flange and the flexible heat-seal lid are reliably connected.

The easy peel container according to the present invention is useful as a container for storing foods in which foods and the like are filled and sealed, and then heat sterilized, which has high sealing reliability and easy opening property. It is a container. In the present invention,
Both the container body and the flexible heat-seal lid can be made of the same material as conventional ones, and no special material is required. Also, the flange of the container body, at the stage of molding the container body,
Moreover, since the conventional equipment can be used as it is, it is excellent in productivity. Furthermore, in terms of the content filling equipment, the existing equipment can be used as it is without any troublesome adjustment.
It has work merits and is economically superior.

The present invention will be described in detail below based on specific examples. [Construction of Container Main Body] The container main body 11 of the present invention is formed in a seamless integral structure as shown in FIG. 5, and is integrated with the circumferential side wall portion 12 and the lower end of the circumferential side wall portion 12. It comprises a bottom portion 13 and a flat heat-sealing flange 14 integrated with the upper end of the side wall portion. On the other hand, the flexible heat-seal lid 30 used in the present invention is sized to almost completely cover the opening of the container body 11 and the flange 14.

The container body is made of any material known per se, such as resin, metal, paper, glass, ceramic, or a laminate thereof, as long as the surface of the flange on the container opening side is formed of plastic. Can be formed. A suitable container body is made of a resin having at least an inner surface having a heat-sealing property, for example, low-medium-high density polyethylene, isotactic polypropylene, propylene-ethylene copolymer, ethylene-vinyl acetate copolymer. An olefin resin such as an olefin resin graft-modified with an ethylenically unsaturated carboxylic acid or an anhydride thereof, or a polyester or copolyester resin having a relatively low melting point or low softening point. These resins may contain an inorganic filler.

The container body 11 is, for example, formed by drawing a single-layer or multi-layer plastic film sheet by means of injection molding, vacuum molding, pressure molding, press molding, plug assist molding, stretch molding or the like. It is formed by Preferably, the container body has a multilayer structure containing a heat-sealable resin and a gas barrier resin, and in this specific example, the container wall has a heat-sealable property as shown in the cross-sectional view of FIG. And a thermoplastic resin having moisture resistance, for example, polyolefin such as polyethylene, polypropylene, and ethylene-propylene copolymer, and thermoplastic polyester or polycarbonate such as polyethylene terephthalate and polybutylene terephthalate. 16 and
A gas barrier thermoplastic resin, for example, an ethylene vinyl alcohol copolymer, a vinylidene chloride resin, a high nitrile resin, and an intermediate layer 17 made of a nylon resin are provided. The inner and outer surface layers and the intermediate layer are composed of a resin having thermal adhesiveness to both of them, for example, an adhesive layer 18 made of an acid-modified olefin resin, a copolyester adhesive resin, an epoxy-modified thermoplastic adhesive resin, and It may be joined via 19.

As another example, the container body 11 is formed by subjecting a laminate of a plastic film and a metal to, for example, drawing or pressing. The container according to this specific example may be regarded as the one in which the intermediate layer 17 is replaced with a metal foil or the like in the cross section of FIG.
Aluminum foil, steel foil, tin foil, etc. are used as 7,
These metal foils may be subjected to surface treatment known per se such as plating treatment and chemical treatment. Another example of a container body using a metal foil is that a heat-resistant resin coating made of one or more of polyimide, polyamideimide, polyimidazopyrroloneimide, fluororesin, etc. is provided on both inner and outer surfaces of the metal foil. The flange has a
As shown in the cross-sectional view of FIG. 1, it comprises a metal foil substrate 20, an inner surface side heat resistant resin coating 21, a heat seal resin layer 22 on the inner surface side resin coating and an outer surface side heat resistant resin coating 23.
This type of container is particularly useful as a packaging container for cooking contents.

The laminate constituting the container body is manufactured by a method known per se such as coextrusion, sandwich lamination, extrusion coating, dry lamination and the like.
When the heat-sealable resin is applied only to the flange, any means such as heat adhesion of the film, fluidized dipping of the heat-sealable resin, or application and melting of suspension can be applied. As shown in FIG. 1, a thick portion 26 and a thin portion 25 are formed on the flange 14 of the container body 11 used in the present invention, and the boundary surface 27 between the thick portion 26 and the thin portion 25 is formed by the flange 14 Is substantially orthogonal to the extending direction of.

The thick portion 26 of the flange 14 is provided with an inclined projection 24 on the inner side of the flange along the entire circumferential direction of the flange, and a boundary surface 27 between the thick portion 26 and the thin portion 25 is formed. It is provided in a continuous state. Inclined protrusion 24
Is made of plastic and gradually increases in thickness toward the inner side of the flange 14, and the upper surface 24C of the inclined projection is a flat surface that does not curve. The inclined projection 24 may be formed of the same material as the heat seal resin layer 22 or may be formed of a plastic material different from this.

The inclined projections 24 do not necessarily have to be formed continuously on the boundary surface 27, but may be formed slightly outside the flange as long as they are near the boundary surface 27. Further, the upper surface 24C of the inclined protrusion 24 does not necessarily have to be formed flat, and a slight curved portion may be formed. The inclination angle α (see FIG. 1) of the inclined protrusion 24 varies depending on the material forming the inclined protrusion 24, the condition of heat sealing, etc., but is 90 degrees or less, preferably 10 to 60 degrees, and particularly preferably. 20 to 45
It is preferable to set the degree to the extent that the resin pool can be effectively formed. Further, the height L1 (see FIG. 1) of the inclined projection 24 is
Although it varies depending on the length of the step L2 (see FIG. 1) and the conditions of heat sealing, in order to effectively form the resin pool in the same manner as above, 0.05 to 0.5 mm, particularly 0.
It is preferably 1 to 0.4 mm.

Further, the length of the step L1 can also be set as appropriate so that the resin pool can be effectively formed in consideration of the height of the inclined projection 24 and the like. In addition,
In this specific example, the boundary surface 27 is orthogonal to the extending direction of the flange 14, but this does not necessarily have to be orthogonal, and may be slightly inclined.

[Structure of Flexible Heat Seal Lid] As long as the flexible heat seal lid 30 used in the present invention is flexible and has sealing performance, and the inner surface is formed of a peelable heat seal resin. , Any container forming material known per se,
For example, it can be formed of resin, metal, paper, glass, ceramic, or a laminated body thereof.

This heat-sealable flexible lid includes an oxygen barrier layer, for example, metal foil such as aluminum foil, tin foil, steel foil, tin foil, ethylene-vinyl alcohol copolymer, vinylidene chloride resin, nylon resin. A high-oxygen barrier resin film such as a biaxially stretched polyethylene terephthalate film, a biaxially stretched nylon film, a thermoplastic resin film such as a polycarbonate film, various papers, or a laminate of these is used as a base material. The heat-sealable resin layer of the peel may be laminated as an inner surface material.

Referring to FIG. 8, a flexible heat seal lid 30.
Is a metal foil substrate or a gas barrier resin layer 31 for imparting a gas barrier property, an outer surface protective resin coating layer 33 provided on the outer surface of the substrate 31 with an adhesive layer 32 if necessary, and It comprises an inner surface material layer 34 for heat sealing, which is provided on the inner surface of the metal foil substrate with an adhesive layer 32 if necessary. In this specific example,
The inner surface material layer 34 includes a resin support layer 35 and a peelable heat seal resin layer 36. The resin support layer 35 is
The peelable heat seal resin layer 36 is made of a resin having a large cohesive force and firmly supports the peelable heat seal resin layer 36 so as not to peel it off. On the other hand, the peelable heat seal resin layer 36 forms an easy peel seal with the heat sealable resin layer of the container body flange, and forms a tight seal with the resin support layer 35.

In the above specific example, the heat-sealable resin described for the container body is used as the resin support layer 35, and the resin support layer is preferably a resin having a main repeating unit in common with the flange upper surface resin layer of the container body. . Particularly suitable heat-sealable resin for this purpose is isotactic polypropylene or crystalline propylene-ethylene random copolymer, polypropylene-based polymer such as crystalline propylene-ethylene block copolymer, low density, When it is an olefin resin such as medium-density or high-density polyethylene or linear low-density polyethylene and heat resistance is required, a polypropylene resin is particularly preferably used.

On the other hand, as the easy peel heat sealable resin layer 36, a heat sealable resin having a weakened cohesive force or heat seal strength is used, and the heat sealable resin having two or more main repeating units different from each other is used. A resin composition comprising a blend of For olefin resins for heat sealing, for example, ethylene-propylene rubber (EPM), ethylene-propylene-non-conjugated diene rubber (EPDM), polyisobutylene, butyl rubber, polybutadiene rubber, polyisoprene rubber, styrene-butadiene rubber, nitrile-butadiene. The above-mentioned easy peel property can be achieved by blending a synthetic rubber such as rubber or an olefin resin different in kind from the olefin resin.
These synthetic rubbers or foreign olefin resins are preferably added in an amount of 3 to 30 parts by weight, particularly 5 to 20 parts by weight, per 100 parts by weight of the base olefin resin.

The easy peel resin layer is preferably composed of a composition of the polypropylene resin and the polyethylene resin. When the resin support layer is composed of the polypropylene resin, the polypropylene resin is the main component and the polyethylene resin is the main component. It is preferable to use a resin composition containing a small amount of a resin based on the resin. On the other hand, when the resin support layer is composed of a polyethylene resin, a resin composition containing a polyethylene resin as a main component and a small amount of a polypropylene resin is used. Is good. A heat-seal material that can withstand heat sterilization and has easy peelability is 5 to 2 per 100 parts by weight of polypropylene.
It is a resin composition containing 0 part by weight of polyethylene.

In the layer structure of the flexible heat seal lid 30, the resin support layer has a thickness of 20 μm or more, preferably 30.
On the other hand, the thickness of the easy peel heat sealable resin layer is 15 μm or less, preferably 10 μm or less. The multi-layered flexible heat seal lid is
It can be manufactured by a method similar to that described for the container body having a multilayer structure.

[Manufacturing Method of Heat Seal Container] The easy peel container according to the present invention is flexible in the state where the peelable heat seal resin layer 31 is in contact with the flange 14 having the inclined projection 24 as described above. The heat-sealing lid 30 is arranged and heat-sealed. The heat sealing may be performed in one step, or may be performed in two steps such as preliminary heat sealing and main heat sealing.

As the heat-sealing head, heat-sealing bar, high-frequency induction heating heat-sealing head, dielectric heating heat-sealing head, ultrasonic heat-sealing head, etc., which are known per se, can be used. It may be Teflon-coated to prevent it. The heat-sealing condition is that at least the easy-peel heat-sealing resin layer is melted and the heat-sealing resin layer on the upper surface of the flange is surely heat-sealed.
To 210 ° C.

The pressure at the time of heat sealing is not particularly limited as long as reliable heat sealing can be performed between both layers, and the pressing force of the seal head is generally 50 to 200 kg / The heat sealing time is usually about 1.0 to 3.0 seconds.

[0048]

The present invention will be described with reference to the following examples. The innermost layer of the example is composed of 90% by weight of homopolypropylene and 10% by weight of low-density polyethylene, and comprises a first layer having a MI of 1.0, a density of 0.90 g / cm ^{3 and} a layer thickness of 350 μm, and an Eval resin layer. A third layer having a layer thickness of about 60 μm, and a second layer formed of a maleic acid-modified polypropylene resin having a layer thickness of 20 μm, which is adhered to each of both surfaces of the third layer.
Layer and the same resin as the 4th and 1st layers, layer thickness 350μm
And a fifth layer were prepared to form a three-kind five-layer sheet having a total thickness of about 800 μm.

The inner diameter of this sheet was 60 by vacuum pressure forming.
mm, an outer diameter of 74 mm, and a height of 23 mm were prepared, and at the same time, a step forming process was performed by a flange pressing ring. Next, biaxially stretched nylon with a layer thickness of 15 μm / layer thickness 1
On the laminated film surface made of 5 μm biaxially stretched nylon,
A homopolypropylene layer having a layer thickness of 46 μm, which has a sealing strength with respect to a cup of about 1 kg / 15 mm, and a sealant having a layer thickness of 4 μm, which contains 70% by weight of random polypropylene, 20% by weight of low-density polyethylene, and 10% by weight of ethylene butene-1 copolymer. A coextruded two-layer film consisting of layers was laminated to form a flexible heat seal lid. The above-mentioned flange-processed container body was hot-pack filled with about 65 g of water yokan, and the container body was brought into contact with the sealant layer,
2 with a flat seal board at a sealing temperature of 190 ° C, a sealing pressure of 120 kg / cup, and a sealing time of 1.5 seconds.
The container was sealed once to obtain a sealed container.

As shown in FIG. 2, the cross section of the sealing surface of the sealed container thus obtained has a resin pooling piece 28 formed on the protruding portion of the container body, and a heat-sealable peelable heat-sealing property is formed on the resin pooling piece 28. It was confirmed that the melted material of the resin layer extended so as to cover the resin pool piece and formed a nail-shaped extended resin portion 29 in a state of being in contact with the boundary surface 27. In this connected state, the protrusion of the container body first melts and extends by heat sealing to form the resin pool 28, and the melt of the peelable heat-sealable resin layer of the heat seal lid covers the resin pool. It is understood that the claw-shaped extending resin portion is formed in a state of extending and abutting on the boundary surface 27.

Regarding the sealed container formed by the above method,
Opening strength (kg / cup) from outside to inside of sealed container and sealing strength (kg / cup) from inside to outside
15 mm) was measured with a tensile tester. Table 1 shows the test results. The sealing strength and the opening strength are each 20
The measurement was performed once, and Table 1 shows the average, minimum, and maximum values of the seal strength and the opening strength. Furthermore, regarding the seal strength, the occurrence rate of the strength is a value smaller than 2.0 kg / 15 mm, and regarding the unsealing strength, the strength is 2.0.
Incidence rates greater than kg / cup are listed. Further, Table 1 shows the breakage rate of the flexible heat-sealing lid at the time of opening.

Comparative Example 1 As shown in FIG. 10, the same as that used in the Examples,
A flexible heat-seal lid 40, in which a 50 μm-thick easy peel material 44 is laminated on a base material 42 in which two nylon layers each having a 15-μm-thickness are laminated, is formed of the same material as the embodiment. Flange 5 of container body 50
No. 2 was arranged so that the easy peel material 44 would be the sealing surface, and sealing was carried out under the same conditions as in the example to obtain a sealed container. The sealing strength and opening strength of the obtained sealed container were measured under the same conditions as in Example 1 and shown in Table 1. In addition,
In the comparative example of FIG. 10, the flange 52 of the container body 50 is not formed with a step or an inclined projection, and the flange 52 is formed flat.

Comparative Example 2 As shown in FIG. 11, a flexible material in which the same easy peel material 64 as in the embodiment having a layer thickness of 50 μm is laminated on a base material 62 in which nylon layers each having a layer thickness of 15 μm are laminated in two layers. The heat-sealing lid 60 was placed on the flange 72 of the polypropylene container body 70 so that the easy peel material 64 would be the sealing surface, and sealed under the same conditions as in the example to obtain a sealed container. As shown in FIG. 11, the obtained seal container has a resin pooling piece 7 on the inner and outer surfaces of the seal portion.
4 was formed. The seal strength and unsealing strength of the obtained sealed container were measured under the same conditions as in Examples and are shown in Table 1. In the comparative example of FIG. 11, the flange 72 has a container main body 70 at the middle portion in the width direction along the entire circumferential direction of the flange.
A protrusion 71 that is convex toward the side opposite to the bottom.

[0054]Comparative Example 3 As a flexible heat seal lid, the base material is a 12 μm thick layer.
Polyethylene terephthalate and nylon with a layer thickness of 15 μm
It is composed of a laminated body consisting of and has a density of 0.91 g / cm ^Three , MI
95% by weight of block polypropylene of 2.0 and density
0.87 g / cm ^Three , MI 1.0 of ethylene-butene-
1 copolymer 5% by weight composed of a composition having a layer thickness of 70 μm
Same as Comparative Example 2 except using easy peel material
Sealing strength of the resulting sealed container that constitutes the sealed container
And the unsealing strength were measured under the same conditions as in the example and shown in Table 1.
Indicated.

[0055]

[Table 1] The “<2.0 occurrence rate” of the seal strength in the table is an index showing the stability of the seal strength, and from this result, the seal container according to the present example, Comparative Examples 1 to 3
It is clear that it has a good balance of easy-opening property and high sealing strength as compared with.

[0056]

According to the present invention, it is possible to provide an easy peel container having a good balance of easy opening and high sealing strength. Further, according to the present invention, easy-opening property and high sealing strength are provided in a well-balanced manner, and heat sealing with a molten resin (resin pool piece) can be performed only on the inner side of the flange.
Further, it is possible to provide an easy peel container main body and a method for manufacturing an easy peel container, which can make the strength of the resin puddle piece uniform throughout and can surely form the resin puddle piece in a state in which the flange and the flexible heat seal lid are connected. .

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a flexible heat-seal lid and a container body before heat-sealing.

FIG. 2 is a cross-sectional view showing a state where the flexible heat-sealing lid and the container body of FIG. 1 are heat-sealed.

FIG. 3 is a cross-sectional view showing a state in which a peeling force from the inside to the outside acts on the easy peel container of FIG.

FIG. 4 is a cross-sectional view showing a state where the easy peel container of FIG. 2 is opened.

FIG. 5 is a cross-sectional view showing a container body and a flexible heat seal lid of the present invention.

FIG. 6 is a cross-sectional view showing an example of a container having a multilayer structure.

FIG. 7 is a sectional view of a flange.

FIG. 8 is a cross-sectional view of a flexible heat seal lid used in the present invention.

9A to 9F are sectional views showing steps and protrusions formed on the flange.

FIG. 10 is a cross-sectional view showing a state where a conventional container body and a flexible heat seal lid are sealed.

FIG. 11 is a cross-sectional view showing a state where a conventional container body and a flexible heat seal lid are sealed.

[Explanation of symbols]

 11 Container Main Body 14 Flange 24 Inclined Protrusion 25 Thin Wall 30 Flexible Heat Seal Lid 36 Peelable Heat Sealable Resin Layer

Claims (7)

[Claims] 1. An easy-peel container main body, wherein a flange is provided on the outer periphery of an opening, and the surface of the flange on the opening side is made of plastic. In an easy peel container heat-sealed with a removable heat-sealable resin layer, the heat-sealing strength between the plastic surface and the peelable heat-sealable resin layer is 500 g to 2500 g / 15 mm, and the plastic surface side of the flange. A resin pooling piece protruding from the inner end of the flange over the entire circumferential direction of the flange and having a length of 0.08 mm or more toward the inner side of the flange, and melt-rolled from the peelable heat-sealable resin layer. Surrounding the exposed resin piece over the entire circumference of the flange in non-bonded or weakly bonded condition. An easy-peel container, comprising: a claw-shaped extending resin portion that is formed so as to be peeled off. 2. A state in which the container body before heat sealing has a step inside the flange of the plastic surface of the flange and along the entire circumferential direction of the flange with respect to the surface on the opening side of the flange. The easy peel container according to claim 1, wherein a thin portion is formed. 3. The easy peel container according to claim 2, wherein a protrusion made of plastic is formed outside the thin portion of the flange and in the vicinity of the thin portion along the entire circumferential direction of the flange. 4. The easy peel container according to claim 3, wherein the projection gradually becomes thicker toward the inside of the flange. 5. A thin portion is formed on the inside of the flange along the entire circumferential direction of the flange so as to have a step with respect to the surface on the opening side of the flange, and the thin portion is formed outside the thin portion. The container main body in which a plastic projection is formed along the entire circumferential direction of the flange in the vicinity of the portion, and a flexible heat seal lid having a peelable heat sealable resin layer on the inner surface are heat sealed, and the projection is formed. The part melts to form a resin pooling piece having a length of 0.08 mm or more toward the inside of the flange, and the extended resin part melt-extended from the peelable heat-sealable resin layer of the lid is formed. A method for manufacturing an easy peel container, characterized in that the resin pool piece is formed so as to surround the entire circumferential direction in a non-adhered or weakly adhered state in a close contact state. 6. The method for producing an easy peel container according to claim 5, wherein the heat seal strength between the flange plastic surface of the container body and the peelable heat sealable resin layer is 500 g to 2500 g / 15 mm. 7. The method for manufacturing an easy peel container according to claim 5, wherein the container body has a projection that gradually becomes thicker toward the inside of the flange.