JP4139681B2 - Self-supporting bag-like container that can be retorted - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a self-supporting bag-like container that can be retorted, and more specifically, is a self-supporting bag-like container of the same type as a self-supporting bag whose bottom is formed in a gusset form, and the rigidity of the container body Further, the present invention relates to a self-supporting bag-like container capable of retorting with improved shape retention and improved content protection.
[0002]
[Prior art]
Conventionally, as a self-supporting bag-like container in which the contents are hermetically sealed and subjected to retort sterilization, a self-supporting bag made of a standing pouch using a laminated film excellent in heat resistance and water resistance is usually used. It was.
Since such a self-supporting bag has the characteristics of a three-dimensional container because the bottom is formed in a gusset form, the contents can be packaged in a compact manner, excellent in self-supporting properties, and easy to handle. It is used for packaging contents and widely used in the field of contents subjected to retort sterilization.
只 In addition to the above features, such a self-supporting bag has the advantages of being light and not bulky and easy to dispose of after use, but because the bag material is a laminated film and is a flexible material In the case that the shape retention is not sufficient and the contents are, for example, retort curry, etc., there is a problem that the tools are easily crushed, and when touched at the store, the tools are crushed and the commercial value is impaired. .
[0003]
As a container that can eliminate such problems, for example, a container such as a paper base that can be heat sterilized by an autoclave or the like in a box-type container having a shape-retaining property such as a brick type has been developed.
Specifically, as “a laminate for packaging based on cardboard and paper”, at least an intermediate layer is made of a material that absorbs liquid such as paper or cardboard as a base layer, and an outer coating and an inner coating are laminated on the outside and inside of the sheet. Or a folded moisture-proof and heat-resistant container formed of a laminate-type material in the form of a web and heat-treated in a humid atmosphere at a temperature of 85 ° C. or higher on at least one side thereof (For example, refer to Patent Document 1).
[0004]
In addition, as a “method and packaging for extending the shelf life of food”, a container that can be finally finished into a brick-type container using laminated packaging materials that are heat-sealing on both sides. In order to efficiently perform the process, a method and a package have been proposed in which the contents are sealed and packaged in a relatively flat shape, sterilized, and then formed into a parallelepiped shape (brick type) ( For example, Patent Document 2).
[0005]
[Patent Document 1]
Japanese National Patent Publication No. 11-508502 (pages 2-5, FIG. 1)
[Patent Document 2]
Japanese Patent Publication No. 11-508858 (Pages 2-4, Figures 1-5)
[0006]
[Problems to be solved by the invention]
However, any of the box-shaped containers made of a laminated material in which paper or cardboard is laminated on the intermediate layer as described above has shape retention and can be heat sterilized by an autoclave or the like. Since it has a three-dimensional structure, it is difficult to open the entire upper surface of the container, which is suitable for liquid contents, but not suitable for contents containing solids. In addition, a dedicated molding / filling seal device in which the molding of the container and the filling seal of the contents are inlined, or a dedicated filling seal device is required, so that the equipment cost is expensive and long-term use is expected. Unless it was connected, there was a problem that it was difficult to adopt.
[0007]
The present invention has been made in order to solve the various problems as described above, and the object of the present invention is to provide a device that can be manufactured with an inexpensive material and is special for manufacturing a container, a filling seal device, and the like. Can be easily manufactured using a conventional apparatus, and the container is self-supporting and has an appropriate rigidity, that is, a shape-retaining property, and can be retorted and the contents are easily crushed. Even if it contains things, it can be safely protected, and it is easy to open the entire top of the container, and it can improve the design effect by printing the container etc. The object is to provide a self-supporting bag-like container with high productivity.
[0008]
[Means for Solving the Problems]
The above problems can be solved by the following present invention.
That is, the invention described in claim 1 is a self-supporting bag-like container formed by heat-sealing a laminated body in a bag shape, and a body portion of the container is provided at both side ends of the front and rear wall-side laminated bodies. It is formed by heat-sealing the edge part with side seal parts, and the bottom part has a gusset part formed by folding the bottom laminate to the inside between the lower parts of the front and rear wall laminates and heat-sealing. The laminate for the front and back walls formed in the form includes at least an outer heat-resistant / water-resistant resin layer, an intermediate layer of paper with a basis weight of 70 to 280 g / m 2, a gas barrier layer, and an innermost layer Formed of a laminate including a heat resistant thermal adhesive resin layer, and The thickness of the thick paper is 400 seconds or more, Further, the bottom laminate is formed of a laminate including at least an outer heat-resistant / water-resistant resin layer, an intermediate gas barrier layer, and an innermost heat-resistant thermal adhesive resin layer. It consists of a self-supporting bag-like container that can be treated with retort.
[0009]
In the present invention, the cardboard laminated on the intermediate layer of the wall surface laminate is mainly laminated in order to moderately increase the rigidity of the laminate and improve the shape retention of the self-supporting bag-like container. The basis weight is 70 ~ 280g / m ² It is preferable that it is the range of these. US basis weight is 70g / m ² If it is less than the range, the effect of improving the rigidity of the laminate cannot be sufficiently obtained, and the shape retaining property of the container becomes insufficient. The basis weight of rice is 280g / m ² In the case of exceeding the thickness, the rigidity of the laminated body becomes too strong, the opening property of the container is deteriorated, the thickness of the cardboard is increased, and moisture is easily penetrated from the end face of the cardboard, which is not preferable. In this respect, the cardboard is preferably a strong sized cardboard. For example, a cup base paper or a milk carton base paper can be suitably used.
[0010]
The outer heat-resistant and water-resistant resin layers of the wall surface laminate and bottom surface laminate are heat resistant to withstand heat during retort sterilization and heat sealing, and water resistant to prevent moisture penetration from the outside. The resin is not particularly limited as long as it has a property, and can be appropriately selected and used. As specific examples, for example, in addition to polyesters such as polyethylene terephthalate, uniaxial or biaxially stretched films such as polyamides such as various nylons and polypropylenes can be suitably used. These may be used alone or in combination.
[0011]
The gas barrier layer laminated on the intermediate layer of the wall surface laminate and the bottom surface laminate is a metal foil such as an aluminum foil, a metal such as aluminum, or silica, alumina, zinc oxide, tin oxide, magnesium oxide. Vapor deposition film provided with an inorganic oxide vapor deposition layer on polyester film such as stretched polyethylene terephthalate film, polyamide film such as stretched nylon film, etc., ethylene-vinyl alcohol copolymer film, polyvinylidene chloride film, polyacrylonitrile A gas barrier film such as a film or a stretched film of MXD6 (polymetaxylylene adipamide) can be used, and can be appropriately selected from these.
[0012]
The metal or inorganic oxide deposition layer is formed on the substrate film by a PVD method such as vacuum deposition, sputtering, or ion plating, or a CVD method such as plasma chemical vapor deposition or thermal chemical vapor deposition. The thickness is suitably in the range of 100 to 1000 mm.
Such a vapor deposition layer of metal or inorganic oxide may be formed of a single layer, but can also be formed of a plurality of layers, thereby further improving gas barrier properties.
In addition, the metal or inorganic oxide vapor-deposited layer has an adhesion improving layer on its upper and lower surfaces in order to improve its adhesion or to effectively exhibit excellent gas barrier properties by preventing damage such as cracks. , Reactive acrylic resin, polyurethane resin, acrylic resin containing silane coupling agent, water-soluble polymer containing metal alkoxide, ethylene-vinyl for the purpose of protective layer, gas barrier property improving layer, etc. A gas barrier layer can also be formed as a composite layer by providing a resin layer such as an alcohol copolymer.
[0013]
The innermost heat-resistant heat-adhesive resin layer of the wall surface laminate and the bottom surface laminate has heat-adhesive properties capable of heat-sealing with each other and with each other, and at the same time has heat resistance to withstand retort sterilization treatment. It is necessary.
As such a heat-resistant thermal adhesive resin layer, polypropylene, propylene-ethylene copolymer (copolymer having an ethylene content of 10 mol% or less), or unsaturated carboxylic acid, unsaturated carboxylic acid anhydride on polypropylene. Polypropylene resins obtained by graft polymerization or copolymerization of products or ester monomers, unstretched films such as medium density polyethylene and high density polyethylene, or resin layers obtained by extrusion coating of these resins can be used.
In addition to the above, in addition to the above, linear low density polyethylene (hereinafter referred to as LLDPE), amorphous polyester, or the like may be used when processing under heating conditions called semi-retort processing. it can.
[0014]
The propylene-ethylene copolymer has an ethylene content of 10 mol% or less, for example, in the range of 5 to 10 mol%, and is suitable for extrusion without detracting from the advantages such as heat resistance and rigidity of polypropylene. Heat sealability and impact strength at low temperatures can be improved.
In the case of graft polymerization of unsaturated carboxylic acid, unsaturated carboxylic acid anhydride or ester monomer to polypropylene with the polypropylene resin, specific examples of the graft component include acrylic acid, methacrylic acid, methacrylic acid. Glycidyl, 2-hydroxyethyl acrylate, 2-hydroxyethyl methacrylate, diethyl maleate, monoethyl maleate, di-n-butyl maleate, maleic acid, maleic anhydride, fumaric acid, itaconic acid, itaconic anhydride , 5-norbornene-2,3-anhydride, citraconic acid, citraconic anhydride, crotonic acid, crotonic anhydride, acrylonitrile, methacrylonitrile, sodium acrylate, calcium acrylate, magnesium acrylate, and the like. Among these, a polypropylene resin obtained by graft polymerization of maleic anhydride onto polypropylene can be particularly preferably used because of cost and ease of graft polymerization.
[0015]
By adopting the configuration as described above, the following effects can be obtained.
(1) In the self-supporting bag-like container of the present invention that can be retorted, the body portion is formed by heat-sealing both side edge portions of the front and rear wall laminates with side seal portions, and the bottom portion is a bottom surface. Since the container is filled with the contents, the bottom of the container is widened back and forth to form a three-dimensional structure, which is self-supporting and has a capacity. It can be packed compactly.
(2) The front and rear laminates for wall surfaces are at least the outer heat-resistant / water-resistant resin layer and the intermediate layer has a rice basis weight of 70-280 g / m ² Cardboard layer and a gas barrier layer and an innermost heat-resistant heat-adhesive resin layer, and the bottom laminate is composed of at least an outer heat-resistant / water-resistant resin layer and an intermediate layer. The container has a heat barrier and water resistance that can withstand retort sterilization, and also has a gas barrier property. In addition, the preservability of contents such as food can be improved.
(3) The laminate for wall surfaces before and after forming the body of the container is provided with an appropriate rigidity because the cardboard is laminated on the intermediate layer, and the shape retention of the container is improved and the contents are crushed. Even if easy things are included, it can be protected. Moreover, since the rigidity of the leg part formed by the heat seal part on the outer periphery of the bottom surface is increased at the lower part of the container, the self-supporting property of the container is further improved.
(4) In addition, the design of the container can be improved due to the whiteness of the cardboard by applying a design such as a printed pattern on the outer surface of the cardboard of the intermediate layer or the inner surface of the heat and water resistant resin layer on the outer side. Property can be further improved.
[0016]
Further claim 1 The invention described in 1) is characterized in that the Steight sizing degree of the cardboard having a basis weight of 70 to 280 g / m @ 2 is 400 seconds or more. It consists of a self-supporting bag-like container. The above-mentioned steecht sizing degree is a value measured in accordance with the JIS P8122 paper squecht sizing degree test method.
[0017]
Rice basis weight 70-280 g / m of the intermediate layer ² The thickness of the thick paper is preferably 400 seconds or more from the viewpoint that the retort treatment after filling the contents can be performed more safely, and the upper limit is not particularly limited, but it is about 1200 seconds from the viewpoint of economy and technology. Is appropriate.
If the thick paper sizing degree is less than 400 seconds, the water resistance is insufficient, and during retort treatment, moisture tends to be absorbed from the end face of the cardboard, which is not preferable.
[0018]
Therefore, by adopting the configuration as described above, Above In addition to the effects of the invention, the water resistance of the cardboard laminated on the intermediate layer of the container wall surface laminate is improved, so when retorting a self-supporting bag-like container filled with contents, Water permeation from the end face can be further reduced, and retort processing can be performed more safely.
[0019]
Claim 2 The invention described in the above item is characterized in that the gusset portion at the bottom of the container is heat-sealed in a ship-bottom-shaped seal pattern in which the inner central portion is low and increases toward both end portions. Claim 1 It consists of a self-supporting bag-like container described in 1.
[0020]
The ship bottom-shaped seal pattern for heat-sealing the gusset portion at the bottom of the self-supporting bag-like container is not particularly limited as long as the inner center portion is low and increases toward both side end portions. As a preferred shape, a ship-bottom-shaped seal pattern in which the inside is formed by a curved line such as an arc shape, or a ship-bottom-shaped seal pattern in which the inside rises in a straight line with an inclination from the bottom of a predetermined width to the outside on both sides Can be mentioned.
[0021]
By adopting such a configuration, Claim 1 In addition to the effects of the invention described in the above, the self-supporting bag-shaped container filled with the contents has a bottom shape whose bottom is formed by a curved line, for example, in accordance with the bottom-shaped seal pattern. In the case of the seal pattern, the inner side is an oval shape, and in the case of a ship-bottom shape seal pattern that rises straight from the bottom with a predetermined width from the bottom to the outside, it spreads in a hexagonal shape. Since the leg part by the heat seal part is reliably formed on the outer periphery of the bottom surface, the self-supporting property of the container can be further improved.
[0022]
Claim 3 The invention described in 1 is characterized in that an opening means is provided on the upper part of the container. Or 2 It consists of the self-supporting bag-like container as described in any one of.
[0023]
The opening means may be an opening instruction line such as a tear line displayed by printing or an opening instruction mark, and is an easy-opening means as described below that facilitates an opening operation by actual tearing. Also good. Further, a combination of a plurality of these may be provided.
[0024]
Examples of the easy-opening means include, for example, a method of providing a notch frequently used even in a normal pouch, a method of providing a half-cut line by laser light irradiation, or the like, or an easily tearable material in a laminate for a wall of a container. There is a method of laminating a uniaxially stretched film (in this case, the uniaxially stretched film is laminated so that the stretching direction thereof coincides with the opening direction of the container), and these may be used alone, A plurality of means can be used in combination as appropriate, such as lamination of half-cut lines or uniaxially stretched films.
As the notch, a notch such as a letter shape or a V shape is usually used, but the shape is not particularly limited, and any shape having an acute angle portion in the cutting direction can be used.
Also when providing the said half cut line, it is not restricted to a linear half cut line, It can also provide by intermittent half cut lines, such as perforation form. Furthermore, the number of such half-cut lines may be one, but assuming that the tearing direction is deviated, a plurality of half-cut lines such as one or two on each side of the center half-cut line are provided. It can also be provided to converge in parallel or in the center half-cut line.
[0025]
By adopting such a configuration, claim 1 Or 2 In addition to the operational effects of the invention described in any of the above, when the contents filled in the container are taken out, an opening means for facilitating the opening of the container is provided at the opening position of the upper part of the container. The entire opening of the container can be more easily cut and opened without making a mistake in the opening position. Moreover, even if the content contains a solid material together with a liquid material or the like, it can be easily taken out.

[0026]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a schematic cross-sectional view showing a configuration of an example of a front and back wall laminate used in a self-supporting bag-like container capable of retorting according to the present invention, and FIG. 2 is a self-supporting retortable processing according to the present invention. It is a schematic cross section which shows the structure of an example of the laminated body for bottom faces used for a bag-shaped container.
FIG. 3 is a diagram showing a configuration of a first embodiment of a self-supporting bag-like container capable of retorting according to the present invention, where (A) is a schematic front view thereof, and (B) is shown in (A). It is a schematic cross section of the AA line of a self-supporting bag-like container.
4 and 5 are schematic front views showing configurations of second and third embodiments of the self-supporting bag-like container capable of retorting according to the present invention.
However, the present invention is not limited to these drawings unless it exceeds the gist.
[0027]
FIG. 1 is a schematic cross-sectional view showing the structure of an example of a front and rear wall laminate used in a self-supporting bag-like container capable of being retorted, and the wall laminate 50a shown in FIG. From the upper side in the figure, the heat-resistant / water-resistant resin layer 1a and the rice basis weight of the intermediate layer are 70 to 280 g / m. ² The thick paper 2, the gas barrier layer 3a, and the innermost heat-resistant heat-adhesive resin layer 4a are laminated in this order via the adhesive layers 5a, 5b, and 5c.
FIG. 2 is a schematic cross-sectional view showing the configuration of an example of a bottom laminate for use in a self-supporting bag-like container capable of retorting according to the present invention. The bottom laminate 60a shown in FIG. (From the upper side in the figure), a heat-resistant / water-resistant resin layer 1b, an intermediate gas barrier layer 3b, and an innermost heat-resistant thermal adhesive resin layer 4b are laminated in this order via adhesive layers 5d and 5e. It is composed.
[0028]
In the wall surface laminate 50a or bottom surface laminate 60a shown in FIGS. 1 and 2, the outer heat and water resistant resin layers 1a and 1b and the intermediate layer have a rice basis weight of 70 to 280 g / m. ² The cardboard 2, the gas barrier layers 3 a and 3 b, and the innermost heat-resistant heat-adhesive resin layers 4 a and 4 b have been described above, and therefore are not described here to avoid duplication.
When each of the above layers is supplied in the form of a film, it can be bonded by a dry lamination method or an extrusion lamination method (sandwich lamination method).
When pasting together by the dry lamination method, a known dry laminating adhesive such as a two-component curable polyurethane adhesive can be used for the adhesive layers 5a to 5e between the above layers.
Moreover, when pasting together by the extrusion lamination method, the adhesive layers 5a to 5e between the layers are, for example, polypropylene-based heat-adhesive resins, and specific examples are polypropylene-based admers (manufactured by Mitsui Chemicals, Inc.). In addition, depending on the conditions of the retort treatment, an ethylene copolymer such as an ethylene-methacrylic acid copolymer can be melt-extruded into a film between the layers on both sides, and can be used by pressure bonding and cooling.
[0029]
In particular, the innermost heat-resistant and heat-adhesive resin layers 4a and 4b may be formed by bonding an unstretched film formed in advance by the above-mentioned method. And can be laminated.
When a metal foil such as an aluminum foil is used as the gas barrier layers 3a and 3b of the intermediate layer, a protective layer such as a biaxially stretched polyethylene terephthalate film is further formed on the inner surface in order to prevent cracks due to bending. Can be laminated.
Further, when laminating each of the above layers by a dry lamination method or an extrusion lamination method, the lamination surface is publicly known, such as corona discharge treatment, ozone treatment, anchor coating, primer coating, etc., in order to improve adhesion as necessary. The easy adhesion treatment can be performed.
In particular, since the laminated surface of the cardboard of the intermediate layer is easy to absorb an adhesive or the like, it also serves as a seal when necessary, for example, an aqueous anchor coat by a water-dispersed emulsion or dispersion such as a polypropylene resin Can be applied.
An aqueous anchor coating agent using a polypropylene resin is excellent in heat resistance, and can be suitably used as an agent for improving the sizing degree of the cardboard in the present invention.
[0030]
In the present invention, the wallboard laminate 50a is laminated with the cardboard 2 on the intermediate layer mainly in order to increase its rigidity and improve the shape retention of the container. Since flexibility is required, it is not particularly necessary to laminate cardboard.只 In the vicinity of the center of the bottom of a self-supporting bag-like container, it can be used as an auxiliary means to improve the shape retention of the container by increasing the rigidity, so it is not a problem to stack cardboard in a pattern on this part. Absent.
In addition, when a design such as a pattern is applied to the wall surface laminate 50a by printing, the inner surface of the outer heat-resistant / water-resistant resin layer 1a or the rice basis weight of 70 to 280 g on the inner side is not shown. / M ² It is preferable to print on the outer surface of the cardboard 2, thereby making it possible to utilize the whiteness and opacity of the cardboard, thereby enhancing the printing effect and further improving the design of the container. Since it is protected by the water-resistant resin layer 1a, it is safe against external friction.
[0031]
FIG. 3 is a diagram showing a configuration of a first embodiment of a self-supporting bag-like container capable of retorting according to the present invention, where (A) is a schematic front view thereof, and (B) is shown in (A). It is a schematic cross section of the AA line of a self-supporting bag-like container.
The self-supporting bag-like container 100 capable of retorting shown in (a) and (b) of FIG. 3 has a bottom portion between the front and back wall laminates 50 and 50 and a bottom laminate 60. Is formed in a form having a gusset portion 9 formed by being folded back inward and inserted into the bottom-layer laminate folding portion 11, and in the vicinity of the lower ends on both sides of the bottom-layer laminate 60 folded inward, in this case, a semicircular shape The bottom laminated body cutouts 10a and 10b are provided, and the gusset portion 9 has a bottom-bottom-shaped seal pattern in which the inside rises linearly from the bottom having a predetermined width and the both sides are inclined outward. The bottom seal portion 7 is formed by heat sealing, and the body portion is formed by heat sealing the edge portions on both sides of the front and rear wall laminates 50, 50 with the side seal portions 6a, 6b.
[0032]
The upper part of the self-supporting bag-like container 100 is filled with contents from this part and then heat-sealed by the upper seal part 8, but the container 100 can be easily opened below the upper seal part 8. As the opening means, a half-cut line 13 and a notch 12 are provided at one end thereof.
The wall laminate 50a having the structure described with reference to FIG. 1 can be used for the front and rear wall laminate 50, and the bottom laminate 60 has been described with reference to FIG. The bottom laminate 60a having the configuration can be used.
[0033]
The seal pattern of the bottom seal portion 7 that heat-seals the bottom gusset portion 9 in the figure shows a more preferable shape, so that the bottom of the ship has a shape in which the inside rises linearly from the bottom with a predetermined width to the outside with both sides inclined outward Although a shape seal pattern is shown, it may be a seal pattern in which the outer periphery of the bottom gusset portion 9 is heat sealed with a predetermined width. Even in that case, in order to further improve the self-supporting property of the container, the bottom-layer laminate cutout portions 10a and 10b having similar shapes are provided in the vicinity of both lower ends of the bottom-layer laminate 60 folded inside, It is preferable that the portion is heat-sealed with the seal pattern having the predetermined width.
[0034]
By adopting such a configuration, for example, the filling of the contents can be performed easily from the opening at the top of the self-supporting bag-like container 100 using, for example, a conventional standing pouch filling machine. The upper seal portion 8 can be heat sealed by a method such as deaeration sealing.
The container 100 filled with the contents has a hexagonal shape at the bottom and expands in the front and rear, and has a three-dimensional structure. Therefore, the container 100 can be packaged compactly for its capacity, and the outer periphery of the bottom is formed by a heat seal portion. The leg portions are formed reliably, and the front and rear wall laminates 50 have a basis weight of 70 to 280 g / m in the intermediate layer. ² Because the cardboard 2 is laminated and the rigidity is increased, the self-supporting and shape-retaining properties of the container are improved, and the contents can be safely protected even in the case of foods that contain crushed solids. Can do.
[0035]
Further, in the self-supporting bag-like container 100, the front and rear wall laminates 50 are at least from the outside from the heat-resistant / water-resistant resin layer 1a, the cardboard 2, the gas barrier layer 3a, and the heat-resistant thermoadhesive resin layer 4a. Are laminated in order through the adhesive layers 5a, 5b, 5c, and the bottom laminate 60 is formed from at least the outside from the heat resistant / water resistant resin layer 1b, the gas barrier layer 3b, the heat resistant thermal bond. Since the conductive resin layer 4b is formed by sequentially laminating through the adhesive layers 5d and 5e, as a whole, it has heat resistance and water resistance that can withstand retort sterilization treatment, and also has excellent gas barrier properties. Excellent long-term storage stability.
[0036]
When the contents filled in the self-supporting bag-like container 100 are taken out, the half-cut line 13 and one of the half-cut lines 13 are provided below the upper seal portion 8 as an opening means for easily opening the container 100. Since the notch 12 is provided at the end of the container, the entire upper portion of the container 100 can be opened by easily tearing along the half-cut line 13 starting from the notch 12 without using a tool such as a scissors. Can do. Therefore, even when the content contains a solid with a liquid, it can be easily taken out.
Further, when a design such as a printed pattern is applied to the self-supporting bag-like container 100, the inner surface of the heat and water resistant resin layer 1 a outside the front and rear wall laminates 50 or the outer surface of the cardboard 2 is also provided. By printing, the whiteness and opacity of the cardboard 2 can be used, so that the printing effect is enhanced and the design of the container 100 can be further improved.
[0037]
FIG. 4 is a schematic front view showing the configuration of the second embodiment of the self-supporting bag-like container capable of retorting according to the present invention. The self-supporting bag-like container 200 shown in FIG. In the structure of the self-supporting bag-like container 100 shown in FIG. 5, only the seal pattern of the bottom seal portion 7 that heat-seals the bottom gusset portion 9 is changed to a ship-bottom shape seal pattern that is formed with an arcuate curved line on the inside. All other configurations are formed in the same manner as the self-supporting bag-like container 100 shown in FIG.
[0038]
By adopting such a configuration, compared with the self-supporting bag-shaped container 100 shown in FIG. 3, the expanding shape of the bottom of the container 200 after filling the contents changes from a hexagonal shape to an elliptical shape, Since the self-supporting bag-shaped container 200 is almost the same as the self-supporting bag-shaped container 100 shown in FIG. 3, the self-supporting property and shape retention are almost the same, and the other configurations are the same. The same effects as those described in the self-supporting bag-like container 100 shown in FIG. 3 can be obtained.
[0039]
Next, FIG. 5 is a schematic front view showing the configuration of the third embodiment of the self-supporting bag-like container capable of retorting according to the present invention. The self-supporting bag-shaped container 300 shown in FIG. 5 is a wall surface forming front and rear wall surfaces in order to further improve the shape retention of the container 300 in the configuration of the self-supporting bag-shaped container 100 shown in FIG. From both sides of the center portion of the laminated body 50, 50 from both ends of the bottom portion of the bottom-shaped seal pattern of the bottom seal portion 7, that is, from the vicinity of the base portion of the portion that rises linearly with both sides inclined outward Upwardly, it is configured by adding two push rules 14, 14 (the back side is not shown) to the position slightly above the container body, and the other configurations are as follows: All are formed and configured in the same manner as the self-supporting bag-like container 100 shown in FIG.
[0040]
By adopting such a configuration, in addition to the configuration of the self-supporting bag-shaped container 100 shown in FIG. Since the two ruled lines 14, 14 are provided, when the container 300 is filled with contents, in addition to the effects described in the self-supporting bag-like container 100 shown in FIG. Is spread in a hexagonal shape at the front and back, and the four upper and lower ruled lines 14 are bent and widened on the upper body portion, so that the container body portion becomes a stable hexagonal column shape, and the shape retention of the container 300 is further improved. be able to.
[0041]
Since the self-supporting bag-like container of the present invention that can be retorted as described above has a form in which the main body portion is formed in a gusset form and is self-supporting like a normal standing pouch, Basically, it can be manufactured using a conventional bag making machine for standing pouches. If necessary, the shape of the sealing head such as a hot plate that heat-seals the bottom gusset portion is changed, and a half-cut line or notch is provided as an opening means on the top of the container. Add an irradiation device, a punching device, etc. to a bag making machine for a standing pouch, and when providing a ruled line on the front and back wall laminates, add an additional hot press device or embossing device, etc. Both can be easily manufactured.
[0042]
【Example】
Next, the self-supporting bag-like container capable of retorting according to the present invention will be described more specifically with reference to examples.
[0043]
(Example 1)
A self-supporting pouch-like container having the configuration shown in FIG. 3 is prepared, and a biaxially stretched polyethylene terephthalate film (hereinafter referred to as a PET film) is formed from the outside as the front and rear wall laminates 50. (Thickness 12 μm) / adhesive layer 1 / multicolor gravure printing layer / cup base paper (rice basis weight 150 g / m ² ) / Adhesive layer 2 / Aluminum foil (thickness 6 μm) / Adhesive layer 3 / PET film (thickness 12 μm) / Adhesive layer 4 / Unstretched polypropylene film (hereinafter referred to as CPP film) (thickness 60 μm) The bottom laminate 60 has a PET film (thickness 12 μm) / adhesive layer 5 / biaxially stretched nylon film (hereinafter referred to as ON film) (thickness 15 μm) / adhesive layer 6 from the outside. Using a pouch making machine for a standing pouch, using a laminate laminated in the following order: / aluminum foil (thickness 9 μm) / adhesive layer 7 / PET film (thickness 12 μm) / adhesive layer 8 / CPP film (thickness 60 μm) A laser beam irradiation device and a punching device for providing a half-cut line 13 and a notch 12 are attached to the outer dimensions of the structure shown in FIG. Was processed so that the length of the gusset part 9 was 40 mm, and the self-supporting bag-like container of Example 1 was produced.
[0044]
In the structure of the wall surface laminate 50 and the bottom surface laminate 60, the adhesive layer 2 portion of the adhesive layers 1 to 8, that is, only the bonding of the cup base paper and the aluminum foil is bonded to the adhesive layer 2 with ethylene. -All of them were bonded by a dry lamination method using a two-component curable polyurethane adhesive except that they were bonded by an extrusion lamination method using a methacrylic acid copolymer (thickness: 15 μm).
In addition, the half-cut line 13 at the upper part of the container has an outer layer of PET film (thickness 12 μm) and a cup base paper (US basis weight 150 g / m) ² ) Of about 1/2 of the thickness.
[0045]
(Example 2)
In the structure of the self-supporting bag-like container of Example 1, an aluminum foil (thickness: 6 μm) as an intermediate layer between the wall surface laminate 50 and the bottom surface laminate 60 and a PET film (thickness) bonded to the inside as a protective layer 12 μm) is laminated in place of a PET film (thickness 12 μm) in which aluminum is deposited to a thickness of 400 mm, and the same processing as in Example 1 is carried out except that the wall surface laminate 50 and the bottom surface laminate 60 are produced. Thus, a self-supporting bag-like container of Example 2 was produced.
[0046]
(Comparative Example 1)
In the structure of the self-supporting bag-like container of Example 1, a cup base paper (rice basis weight 150 g / m) provided with a multicolor gravure printing layer on the surface laminated on the intermediate layer of the wall laminate 50. ² ), And the printing layer is provided with a multicolor gravure printing layer of the same design on the inner surface of the outer PET film (thickness 12 μm) by the back printing method, and the printed layer surface of the PET film and aluminum foil (thickness 6 μm) A self-supporting bag-like container of Comparative Example 1 was produced by processing everything in the same manner as in Example 1 except that these were bonded together by the dry lamination method.
In this case, the half-cut line 13 is provided so that the entire layer of the outer PET film (thickness 12 μm) is cut.
[0047]
(Comparative Example 2)
In the configuration of the self-supporting bag-like container of Example 1, the CPP films (thickness 60 μm) used for the innermost layers of the wall surface laminate 50 and the bottom surface laminate 60 were both low density polyethylene films (hereinafter LDPE). A self-supporting bag-like container of Comparative Example 2 was prepared by processing in the same manner as Example 1 except that the film was changed to (thickness 60 μm) and pasted together.
[0048]
[Test and results]
In order to evaluate the suitability of the retort treatment for the self-supporting bag-like containers of Examples 1 and 2 and Comparative Examples 1 and 2 produced as described above, the container was tested for retort sterilization as follows. The shape retention, self-supporting property, openability and printing effect were also evaluated.
[0049]
Retort disinfection suitability test
The self-supporting bag-like containers of Examples 1 and 2 and Comparative Examples 1 and 2 were used as samples, filled with retort curry (containing ingredients) as contents, and the upper seal portion 8 was degassed and sealed. After sealing, using a steam retort kettle, temperature 120 ° C, pressure 1.5 x 10 ^Five Pause and heat sterilize under conditions of Pa for 30 minutes, after cooling mainly by air cooling, take out from the retort kettle, check for container seal leakage, appearance deterioration, cardboard puffing phenomenon, etc. The suitability of retort treatment was evaluated.
[0050]
As a result of the above retort sterilization treatment, the self-supporting bag-like containers of Examples 1 and 2 have no seal leakage or appearance deterioration, and there is almost no cardboard swell phenomenon, and good heat resistance and water resistance. It was suitable for retort processing. In addition, the shape retention property, self-supporting property, and printing effect of the container were excellent due to the improvement in rigidity and the addition of whiteness and opacity with cardboard. Further, regarding the opening of the container, in this case, since the notch 12 and the half cut line 13 are provided as the opening means, the upper seal part 8 of the container can be easily cut by hand to open the entire upper part. The openability was also good.
[0051]
In contrast, the self-supporting bag-like container of Comparative Example 1 does not have cardboard laminated on the intermediate layer of the wall surface laminate 50, and therefore has low rigidity and poor shape retention, and curls and the like are caused by retort processing. It was easy and it was easy to be rubbed by hand, so the contents were not protected, and it was somewhat inferior in terms of self-supporting and printing effects.
In addition, the self-supporting bag-like container of Comparative Example 2 has high rigidity because it is laminated with cardboard on the intermediate layer of the wall surface laminate 50, and has excellent shape retention and self-supporting properties. Since the innermost sealant layer of the body 50 and the bottom laminate 60 is LDPE, it is excellent as a container for general use, but lacks heat resistance as a container for retort sterilization treatment, and is sealed by the retort sterilization treatment. Leakage was not preferable.
[0052]
【The invention's effect】
As is clear from the above description, according to the present invention, it is possible to manufacture with an inexpensive material, and it is easy to use a conventional apparatus without requiring a special apparatus for producing a container or filling and sealing apparatus. Containers that can be manufactured and have excellent self-supporting property and moderate rigidity, that is, shape retention, heat resistance and water resistance that can withstand retort sterilization treatment, and contents that are easily crushed However, it can be safely protected, and it is easy to open the entire top of the container, and it can improve the design effect by printing the container, etc. The container can be provided with good productivity.
[Brief description of the drawings]
FIG. 1 is a schematic cross-sectional view showing a configuration of an example of a laminate for a wall surface before and after being used in a self-supporting bag-like container capable of retorting according to the present invention.
FIG. 2 is a schematic cross-sectional view showing a configuration of an example of a bottom laminate for use in a self-supporting bag-like container capable of retorting according to the present invention.
FIG. 3 is a diagram showing a configuration of a first embodiment of a self-supporting bag-like container capable of retorting according to the present invention, where (A) is a schematic front view thereof, and (B) is shown in (A). It is a schematic cross section of the AA line of a self-supporting bag-like container.
FIG. 4 is a schematic front view showing a configuration of a second embodiment of a self-supporting bag-like container capable of retorting according to the present invention.
FIG. 5 is a schematic front view showing a configuration of a third embodiment of a self-supporting bag-like container capable of retorting according to the present invention.
[Explanation of symbols]
1a, 1b Heat and water resistant resin layer
2 Cardboard
3a, 3b Gas barrier layer
4a, 4b Heat-resistant thermal adhesive resin layer
5a, 5b, 5c, 5d, 5e adhesive layer
6a, 6b Side seal
7 Bottom seal
8 Upper seal part
9 Gusset Club
10a, 10b Laminate cutout for bottom
11 Laminate Folding Section for Bottom
12 notches
13 Half-cut wire
14 Lined rule
50, 50a Wall surface laminate
60, 60a Laminate for bottom surface
100, 200, 300 Self-supporting bag-like container

Claims (3)

A self-supporting bag-shaped container formed by heat-sealing a laminate in a bag shape, and the body of the container heat-seals both side edge portions of the front and rear laminates for wall surfaces with side seal portions. The bottom portion is formed in a form having a gusset portion formed by folding and inserting the bottom surface laminate between the lower portions of the front and rear wall surface laminates and heat-sealing, and for the front and rear wall surfaces. A laminate in which the laminate includes at least an outer heat-resistant / water-resistant resin layer, an intermediate layer of cardboard having a basis weight of 70 to 280 g / m 2, a gas barrier layer, and an innermost heat-resistant thermoadhesive resin layer And the thickness of the thick paper is 400 seconds or more, and the laminate for the bottom surface includes at least an outer heat-resistant / water-resistant resin layer, an intermediate gas barrier layer, and an innermost layer Formed of a laminate including a heat-resistant and heat-adhesive resin layer A self-supporting bag-like container capable of retort processing. 2. The self-supporting bag-like shape according to claim 1 , wherein the gusset portion at the bottom of the container is heat-sealed in a ship-bottom-shaped seal pattern in which an inner central portion is low and increases toward both end portions. Container. The self-supporting bag-like container according to claim 1 or 2 , wherein an opening means is provided in an upper part of the container.

Images