JP4163408B2 - Heat shrinkable laminated film - Google Patents

Description

【００３８】
【発明の効果】
以上のように、本発明の包装体及びその製造方法に用いられる熱収縮性積層フィルムは熱収縮性及び柔軟性を有しており、本発明によれば、食品包装、とりわけ自動充填包装機械によりセンターシームすることにより充填・包装された包装体がボイル殺菌、或いはレトルト殺菌などの熱処理により収縮し、密着包装状態になったときに、包装体表面に皺、凹凸が入り難くなり、スティックチーズ等の柔らかい内容物の取り出し性が改善される。 [0001]
BACKGROUND OF THE INVENTION
  The present invention is a laminated film comprising a heat-sealable film on both sides of a gas barrier film, which is excellent in flexibility and suitable for automatic filling and packaging.And a manufacturing method thereofAbout.
[0002]
[Prior art]
A heat-shrinkable multilayer film obtained by laminating a polyolefin-based film layer and a polyamide-based film layer has a good heat-sealing property and a certain degree of gas barrier property, and thus is widely used for food packaging applications. In particular, for packaging applications that require gas barrier properties, a multilayer film in which a layer of a film of vinylidene chloride resin, ethylene / vinyl acetate partially saponified product (EVOH) resin or the like is used as a gas barrier layer is used. In addition, a gas-barrier heat-shrinkable film having various functions is obtained as a biaxially stretched multilayer film as required.
For example, Japanese Patent Publication No. 5-76423 proposes an invention relating to a heat-shrinkable laminated packaging material having heat-sealing properties obtained by laminating heat-shrinkable sealant films on both sides of a heat-shrinkable base film. Specifically, a heat-shrinkable laminated film is disclosed in which a biaxially stretched polyamide film is used as a heat-shrinkable base film, and a biaxially-stretched linear low-density polyethylene film heat-shrinkable sealant film is laminated on both sides. ing. It is described that this packaging material has a good finished appearance when used in heat shrink packaging, and is suitable for shrink packaging of meat packages, cheese and other various articles. However, the oxygen barrier property is insufficient and the shelf life of the packaged article is short.
Japanese Patent Application Laid-Open No. 2000-153590 discloses a layer of a thermoplastic film made of a polyamide resin containing at least one of an aromatic diamine polymer and an aromatic diamine copolymer and a heat shrinkability made of a polypropylene resin. An invention relating to at least two multilayer films in which a film layer and a heat-shrinkable film layer made of polypropylene resin or polyethylene resin are dry-laminated is described. This laminated film has a barrier property and enables long-term storage of the packaged article. However, it has been difficult to handle the package in the manufacturing process of the packaged article for which the packaging material is required to be flexible, and to take out the soft contents.
[0003]
[Problems to be solved by the invention]
  The object of the present invention is food packaging, especially automatic filling packagingCenter seam by machineWhen the package filled and packaged by heat treatment such as boil sterilization or retort sterilization is brought into a close-packed state, the surface of the package is less likely to have wrinkles and irregularities, and the surface of the package is glossy. , Excellent flexibility, easy handling of the package in the manufacturing process of packaged articles, good take-out of packed and packed contentsPackage and method for producing the sameIs to provide.
[0004]
[Means for Solving the Problems]
The present inventors include, for example, a polypropylene resin layer, or a polypropylene resin layer and a polyethylene resin layer on both sides of a multilayer gas barrier film having a specific Young's modulus including an aliphatic polyamide resin layer and an EVOH resin layer. It was found that a heat-shrinkable laminated film provided with a laminated film can solve such problems with a laminated film having a specific loop stiffness, and the present invention has been completed.
[0005]
  That is, the first group of the present invention has both sides of the gas barrier film (a).Including the polypropylene resin layer and having the same ultrasonic sealabilityHeat sealable film (b) is laminatedBecomeA heat-shrinkable laminated film having a loop stiffness of 1.5 gf / 20 mm or less of the whole heat-shrinkable laminated filmIn addition, the hot water shrinkage rate at 95 ° C for 1 minute is 10% or more in the vertical and horizontal directionsHeat shrinkable laminated film, And the contents are filled and packaged by center seam using an automatic filling and packaging machine, and the laminated film is thermally shrunk by heat treatmentI will provide a. The heat-sealable film (b) has at least a three-layer structure of polypropylene resin layer (PP layer) / polyethylene resin layer (PE layer) / (PP layer).PackageI will provide a.
  The second group of the present invention is provided on both sides of the gas barrier film (a).Including the polypropylene resin layer and having the same ultrasonic sealabilityA heat-shrinkable laminated film in which a heat-sealable film (b) is laminated, and either of the films (a) and (b) has a multilayer structure, and both the films (a) and (b) are stretched. Any of the films (a) and (b) is heat-shrinkable, and the loop stiffness of the whole heat-shrinkable laminated film is 1.5 gf / 20 mm or lessIn addition, the hot water shrinkage rate at 95 ° C for 1 minute is 10% or more in the vertical and horizontal directionsHeat shrinkable laminated film, And the contents are filled and packaged by center seam using an automatic filling and packaging machine, and the laminated film is thermally shrunk by heat treatmentI will provide a.
Both the gas barrier film (a) and the heat-sealable film (b) are heat-shrinkable in the invention of the first group or the second group.PackageI will provide a. GaThe invention of the first group or the second group, wherein the barrier film (a) has at least three layers of an aliphatic polyamide resin layer / ethylene-vinyl acetate copolymer saponified product (EVOH) resin layer / aliphatic polyamide resin layer. Any ofPackageI will provide a. Either of the inventions of the first group or the second group, wherein the gas barrier film (a) has at least three layers of aliphatic polyamide resin layer / aromatic diamine polymer resin layer / aliphatic polyamide resin layerPackageI will provide a. PoThe propylene resin is a block copolymer of a crystalline polypropylene component and a propylene-α olefin copolymer, either of the first group or the second group of inventionsPackageProvideThe
  The third group of the present invention is a heat-shrinkable laminated film in which the same heat-sealable film (b) including a polypropylene-based resin layer and having an ultrasonic sealing property is laminated on both surfaces of the gas barrier film (a). A heat-shrinkable laminated film having a loop stiffness of the whole heat-shrinkable laminated film of 1.5 gf / 20 mm or less and a hot water shrinkage rate of 95 ° C. for 1 minute in length and width of 10% or more is used. Provided is a method for manufacturing a package, in which the contents are filled and packaged by center seam using an automatic filling and packaging machine, and the laminated film is thermally contracted by heat treatment to obtain a package.
  The fourth group of the present invention is a heat-shrinkable laminated film in which the same heat-sealable film (b) containing a polypropylene-based resin layer and having an ultrasonic sealability is laminated on both sides of the gas barrier film (a). Any one of the films (a) and (b) has a multilayer structure, both the films (a) and (b) are stretched and oriented, and any one of the films (a) and (b) is hot. A heat-shrinkable laminated film having a shrinkability and having a loop stiffness of the whole heat-shrinkable laminated film of 1.5 gf / 20 mm or less and a hot water shrinkage rate of 95 ° C. for 1 minute in length and width of 10% or more. Is used, and the contents are filled and packaged by center seam by an automatic filling and packaging machine, and the laminated film is thermally shrunk by heat treatment to obtain a package.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, the present invention will be described in detail.
  It should be noted that the description of the present invention and the terms used in it are the first group of the present invention unless otherwise specified.~ Group 4It is common to both.
[0007]
The gas barrier film (a) preferably has a Young's modulus of 2100 MPa or less from the viewpoint of flexibility and handleability. As a preferred embodiment, a resin having a gas barrier property selected from an aliphatic polyamide resin layer, a saponified ethylene-vinyl acetate copolymer (hereinafter abbreviated as EVOH) resin layer, or an aromatic diamine polymer resin layer. Examples thereof include a gas barrier film (a) having a multilayer structure including layers.
The material constituting the gas barrier film (a) is generally a hard and brittle material, but it can be provided with flexibility by being sandwiched between layers of a more flexible aliphatic polyamide resin and having a multilayer structure. it can.
Examples of the resin used for the aliphatic polyamide-based resin layer include polymers of condensation units such as nylon 6, nylon 11, nylon 12, nylon 66, nylon 69, nylon 610, and copolymers of these two or more. Furthermore, aliphatic polyamides such as a mixture thereof can be mentioned. Of these, nylon 6, generally nylon 6-66, nylon 6-12, and the like are used.
[0008]
EVOH has an ethylene content of preferably 20 to 60 mol%, more preferably 25 to 50 mol%. The degree of saponification is preferably 90% or more, more preferably 95% or more.
[0009]
The aromatic diamine polymer resin constituting the aromatic diamine polymer resin layer is used in the meaning including the aromatic diamine copolymer. The aromatic diamine polymer resin is metaxylylenediamine alone or metaxylylenediamine 60% by weight or more, preferably 70% by weight or more, and paraxylylenediamine 40% by weight or less, preferably 30% by weight or less. Aromatic diamines such as diamine mixtures and aromatic or aliphatic dicarboxylic acids, preferably aliphatic dicarboxylic acids, more preferably aliphatic dicarboxylic acids having 6 to 12 carbon atoms, such as adipic acid, sebacic acid, suberic acid Polyamide resin synthesized by polycondensation reaction with undecanedioic acid, dodecanedioic acid and the like.
Specifically, homopolymers such as polymetaxylylene adipamide, polymetaxylylene sebacamide, polymetaxylylene veramide, metaxylylene / paraxylylene adipamide copolymer, metaxylylene / paraxylylene piramami Copolymer, metaxylylene / paraxylylene azelamide copolymer, metaxylylene / paraxylylene adipamide / sebacamide copolymer, and the like. Among these, polymetaxylylene adipamide (^TRMXD6) is preferred. The film layer comprising these aromatic diamine polymers imparts oxygen gas barrier properties to the heat-shrinkable laminated film for packaging of the present invention.
[0010]
As the aromatic diamine copolymer, a condensation unit (for example, metaxylylene adipamide) having the aromatic diamine polymer as a structural unit and another polyamide, preferably an aliphatic polyamide, for example, nylon 6 , Nylon 11, Nylon 12, Nylon 66, Nylon 69, Nylon 69, Nylon 610, and the like, and the aromatic diamine polymer condensation unit content in the aromatic diamine copolymer. It is preferably in the range of 4 to 40% by weight. If it is less than 4% by weight, the oxygen gas barrier property of the product laminated film is lowered, and if it exceeds 40% by weight, the rigidity of the resulting laminate becomes too large, and the moldability, heat shrinkability, and flexibility tend to be inferior.
Preferable examples of the aromatic diamine copolymer include nylon 6/12 / MXD6, nylon 610 / MXD6, nylon 66/610 / MXD6, and the like. The aromatic diamine copolymer can make the heating and stretching operation easy by slowing down the crystallization rate of the crystalline polyamide resin mainly composed of the aromatic diamine polymer, resulting in flexibility in the film. Therefore, the polyamide-based resin of the present invention contains 50 to 100% by weight of the aromatic diamine polymer, more preferably 60 to 95% by weight, and 0 to 50% by weight of the aromatic diamine copolymer. Are preferably mixed at a ratio of 5 to 40% by weight.
[0011]
The multilayer gas barrier film (a) comprising an aliphatic polyamide resin layer used in the present invention is a layer made of a resin having a gas barrier property selected from the EVOH resin layer or the aromatic diamine polymer resin layer. This refers to a multilayer film in which a resin layer of the above aliphatic polyamide resin, for example, nylon 6 is laminated on both sides. Specifically, it is aliphatic polyamide resin layer / EVOH resin layer / aliphatic polyamide resin layer, or aliphatic polyamide resin layer / MXD6 resin layer / aliphatic polyamide resin layer. A layer structure in which a nylon 6 resin layer is disposed on both sides of the gas barrier resin layer is more preferable. The gas barrier film (a) has a Young's modulus (both in the length direction and width direction of the film; the same applies hereinafter) of 2100 MPa or less, more preferably 1900 to 1000. When the Young's modulus exceeds 2100 MPa, the flexibility is impaired.
[0012]
The heat sealable film (b) of the present invention is a layer having ultrasonic sealability and heat sealability. The heat-sealable film (b) may be a single layer or a plurality of layers. The material constituting the heat-sealable film (b) is preferably composed mainly of a polypropylene resin from the viewpoint of water vapor barrier properties and heat-resistant heat-seal properties. The polypropylene resin may be a propylene homopolymer, or a copolymer of an α-olefin having 2 or 4 to 8 carbon atoms and propylene (propylene content of 90% by weight or more). The copolymer may be a random copolymer, a block copolymer, or a mixture of these polymers. For retort sterilization, a random copolymer composed of propylene and an α-olefin having 2 or 4 to 8 carbon atoms and having a propylene content of 90% by weight or more, or a homopolymer or copolymer of polyethylene or polypropylene mainly containing this. And a mixture thereof are preferably used. In addition, a block copolymer of a crystalline polypropylene component and a propylene-α olefin copolymer is preferably used. As the heat-sealable film of the present invention, a polypropylene resin having a Young's modulus of 600 MPa or less is preferably used in terms of flexibility and handleability of the entire heat-shrinkable laminated film.
The physical properties of the polypropylene resin are not limited, but the melt index (MFR) usually suitable for forming a laminated film is in the range of 0.5 to 20 g / 10 min (according to JIS K6758, 230 ° C., 2.16 kg load). In particular, those in the range of 0.5 to 10 g / 10 min are preferable, and the density is 0.86 to 0.92 g / cm.^ThreeThose within the range are preferred. A laminated film made of these resins is laminated after stretching and has excellent properties such as heat sealability, water vapor barrier property, heat resistance, heat seal strength during voiling and the like.
A polypropylene resin layer (PP layer) can also form the heat-shrinkable heat seal layer of the present invention alone.
[0013]
When the heat-sealable film (b) is composed of a plurality of layers, it is flexible and water vapor to take at least three layers of the PP layer / polyethylene resin layer (hereinafter abbreviated as PE layer) / PP layer. It is preferable in terms of the balance of barrier properties.
The polyethylene resin used for the multilayer structure may be a copolymer of α-olefin and ethylene (ethylene content is 90% by weight or more) in addition to polyethylene homopolymer. The copolymer may be a random copolymer, a block copolymer, or a mixture of these polymers. Examples include ethylene / α-olefin copolymers such as very low density polyethylene (VLDPE) and linear low density polyethylene (L-LDPE). Especially density 0.86 ~ 0.94g / cm^Three, Preferably 0.88 to 0.92 g / cm^ThreeAre preferred. Among these copolymers, a copolymer obtained using a metallocene catalyst is particularly preferable. For example, trade names “Affinity”, “Elite”, etc., commercially available from Dow. Moreover, high density polyethylene (HDPE), medium density polyethylene (MDPE), low density polyethylene (LDPE), etc. can also be mentioned. These resins are used when laminated films are required to have heat shrinkability, low temperature sealing properties, abuse resistance and flexibility. Among them, a heat-shrinkable laminated film obtained by using a metallocene catalyst and comprising a film composed of linear low-density polyethylene of ethylene having a melting point of 100 to 120 ° C. and α-olefin having 3 to 8 carbon atoms as a constituent layer. Is suitably used for automatic filling and packaging of ham and sausage for boil sterilization.
[0014]
In the present invention, the PE layer is used as a constituent layer of a laminated film including a PP layer, and forms a heat-sealable film (b). Examples of the layer structure of the heat-sealable film (b) include PP layer / PE layer / PP layer, or PP layer alone. The heat-sealable film (b) is disposed on both sides of the gas barrier film (a) described above and functions as a heat-seal layer. The heat-sealable films (b) on both sides may be made of the same material layer or different resin materials. Moreover, as long as the laminated film as a whole has a hot water shrinkage rate of 95% at a temperature of 10 ° C. for at least 10% in width and width, the heat-sealable film (b) is non-heat-shrinkable even if heat-shrinkable There may be. From the viewpoint of flexibility, the heat-sealable film (b) preferably has a Young's modulus of 600 MPa or less, and more preferably 550 or less. When the heat-sealable film (b) has a multilayer structure, it is preferable from the viewpoint of the heat resistance of the seal portion that a PP layer is disposed on the outermost layer or the innermost layer in contact with the package.
The thickness of the heat-sealable film (b) is preferably 5 to 30 μm, more preferably 10 to 20 μm, from the viewpoint of the balance between flexibility, heat-sealability and water vapor permeability.
[0015]
In the heat-shrinkable laminated film of the present invention, the gas barrier film (a) and the heat-sealable film (b) are laminated by dry lamination. For example, a multilayer heat-sealable film (b) including a polypropylene resin layer is dried by applying a polyurethane adhesive on both surfaces of a gas barrier film (a) composed of an EVOH resin layer sandwiched between aliphatic polyamide resin layers. Laminate.
Nylon 6 / which is a gas barrier film (a)^TMThe lamination of MXD6 / nylon 6 and nylon 6 / EVOH / nylon 6 is, for example, coextruded with a circular die, adjusted for thermal shrinkage by inflation, heat treatment or coextrusion by T-die, stretching by tenter, heat shrinkage by heat treatment Any of the adjustments can be performed.
[0016]
Commercial products can be obtained as the gas barrier film (a) and the heat sealable film (b). Examples of the gas barrier film (a) include a shrinkable barrier nylon film having a layer structure of nylon 6 / EVOH / nylon 6 (manufactured by Unitika, each layer thickness 6 μm, 3 μm, 6 μm, total thickness 15 μm, trade name: Embron E801) ), Shrinkable nylon barrier film (Mitsubishi Chemical Kojin Pax, Ny6 / MXD6 / Ny6 = 5/5/5 μm = 15 μm, trade name: Super Neal SPR SHW) (95 ° C., 1 minute hot water shrinkage: vertical / Width = 20/17%), as the heat-sealable film (b), stretched polyolefin multilayer shrink film (manufactured by Okura Kogyo Co., Ltd., PP / PE / PP, each layer thickness 4.5 μm, 4.5 μm, 4.5 μm, Total thickness 13.5μm, trade name: Lapler 501) (95 ° C, hot water shrinkage for 1 minute: length / width = 28/28%) Can.
[0017]
The heat-shrinkable laminated film of the present invention includes a heat-sealable film (b) comprising PP layers disposed on both sides of a multilayer gas barrier film (a) (GBL) comprising an aliphatic polyamide-based resin layer. ) (HSL). Adhesive layers (abbreviated as “AD”) are used as needed and are not included in the number of layers. For example, (HSL) / (AD) / (GBL) / (AD) / (HSL). The materials of (HSL) may be the same or different. Here, (HSL) preferably has a layer structure of, for example, a PP layer alone or a PP layer / PE layer / PP layer. The layer structure of (GBL) is, for example, nylon 6 / EVOH / nylon 6, or nylon 6 /^TMIt is preferable to take a layer structure of MXD6 / nylon 6.
Further, depending on the contents, storage conditions, storage period, etc., high gas barrier properties may not be required, and an aliphatic nylon single layer film such as nylon-6 (6Ny) can also be used as the gas barrier film. In this case, a more flexible heat-shrinkable laminated film can be obtained as compared with a film including a high barrier resin layer such as EVOH or MXD6. As an example of the composition of the heat-shrinkable laminated film, a polyolefin multilayer shrink film (manufactured by Okura Kogyo Co., Ltd., PP) on both sides of a heat-shrinkable nylon film (Mitsubishi Chemical Kojin Packs, 6 Ny, thickness 15 μm, product name: Ponil SSC). / PE / PP, a total thickness of 13.5 μm, and a film on which a trade name: Loveler 501) is bonded.
The total thickness of the heat-shrinkable laminated film is preferably 10 to 60 μm, more preferably 30 to 50 μm.
[0018]
The manufacturing method by the dry lamination method of the heat-shrinkable laminated film in this invention is not specifically limited, A well-known method can be used. For example, a commercially available Ny6 / EVOH / Ny6 (each layer thickness: 6/3/6 μm) layer of heat-shrinkable barrier nylon film (made by Unitika, trade name: ENBRON) having a thickness of 15 μm and stretched in advance using a laminator E801) is used as a gas barrier film (a), a urethane adhesive is applied to one side thereof, and the solvent is evaporated at 60 to 70 ° C. while passing through a drying furnace. A commercially available polyolefin multilayer shrink film having a 13.5 μm thick PP / PE / PP layer structure (drawn from Okura Kogyo Co., Ltd., trade name) that has been previously stretched by a pressure roll onto the adhesive-coated surface of the film base that has exited the drying oven. Lapler 501) is bonded together. Next, a urethane adhesive is applied to the other surface of the gas barrier base material layer, and the commercially available polyolefin multilayer shrink film is bonded in the same manner. The normal winding speed is about 60 to 120 m / min. The laminated film that has been bonded is aged at 40 ° C. for about 72 hours to further strengthen the adhesion.
[0019]
The heat-shrinkable laminated film thus obtained is used for automatic filling and packaging of stick cheese using, for example, an automatic filling and packaging machine. Examples of the automatic filling and packaging machine include Kureha Chemical, automatic filling machine KAP500, Asahi Kasei, and ADP-F.
Mechanical suitability required for a laminated film used in an automatic filling and packaging machine includes slipperiness with a machine part, thickness accuracy, absence of talmi, etc., and appropriate flexibility. If the laminated film is too hard, there will be inconveniences such as the film running becomes unstable in the forming part of the packaging machine (the process of bending a flat film into a cylinder), and the operator's fingers are damaged at the end of the ligation part of the package. Arise. In addition, in the case of soft contents such as stick cheese, if the laminate film is too hard, there is an inconvenience that part of the contents remains at the end of the package when the contents are taken out, or the contents are easily broken. Arise. As a measure of the hardness of the laminated film, the loop stiffness (same in both the length direction and width direction of the film) is preferably 1.5 gf / 20 mm or less, and preferably 1.2 gf / 20 mm or less. . If the loop stiffness exceeds 1.5 gf / 20 mm, the above disadvantages may occur.
When the loop stiffness of the laminated film is in the range of 1.5 gf / 20 mm or less, it is easy to operate the automatic filling and packaging machine and work in the post-process. It is possible to provide a laminated film suitable for filled packaging and filled products filled therewith, such as a phenomenon in which the remaining part is less likely to occur.
[0020]
In the present invention, either the gas barrier film (a) or the heat-sealable film (b) or both may be heat-shrinkable. The required heat shrinkage rate varies depending on the contents, production conditions, etc., but the heat shrinkable laminated film of the present invention is heat shrinkable when 95 ° C., 1 minute hot water shrinkage rate is vertical (machine direction). The width (in the width direction) is 4% or more, preferably 10% or more. In the case of retort sausage, it is 5 to 20%, in the case of boiled sausage, it is about 8 to 25%, and in the case of stick cheese, it is about 10 to 25%. When the thermal contraction rate is in the above range, a package that does not cause wrinkles on the surface of the package after heat treatment such as boil treatment and in which the state of the surface does not change over time is provided.
In the second group of the present invention, both the gas barrier film (a) and the heat-sealable film (b) are stretched and oriented, and either of the films (a) and (b) has heat shrinkability. is necessary. It is preferable that both the films (a) and (b) are stretched and oriented because the film has good cutability.
[0021]
In order to suppress oxidative deterioration of the contents, the oxygen permeability of the heat-shrinkable laminated film of the present invention at 30 ° C. and 80% (relative humidity) is 100 cm.^Three/ M²・ D ・ atm or less, and 50cm^Three/ M²-It is preferable that it is below d * atm.
In addition, the water vapor permeability of the laminated film at 40 ° C. and 90% (relative humidity) is 20 g / m to suppress the dissipation of moisture from the contents.²-D or less, and further 15g / m²-It is preferable that it is d.
[0022]
An example of manufacturing a stick cheese having a diameter of 10 to 15 mm filled and packaged by an automatic filling and packaging machine using the heat-shrinkable laminated film of the present invention will be described. The heat-shrinkable laminated film of the present invention is passed through the forming portion to form a cylinder, is run while wrapping the content filling nozzle, and is center-sealed by ultrasonic sealing or hot air sealing. In order to give fluidity, cheese is heated to about 60 to 90 ° C. and supplied from a nozzle. After the ironing process, the cylindrical laminated film filled with cheese is ligated by an ultrasonic seal or an aluminum clip, and is cut between the ligation parts with a cutter to form individual packages. This is immersed in hot water at 90 to 100 ° C. for about 10 to 60 seconds.
[0023]
These heat treatments cause heat shrinkage and heat setting, and the laminated film is intimately adhered to the filled contents and suppresses shrinkage with time after heat shrinkage. If the shrinkage of the laminated film is insufficient, wrinkles occur and the appearance of the package is impaired. In the case of stick cheese, it is preferable that the heat shrinkage rate of the laminated film is 10% or more in both the vertical and horizontal directions with a hot water shrinkage rate of 95 ° C. for 1 minute in each of the vertical and horizontal directions. When the heat shrinkage rate is 10% or more, the finished state of the package (the surface state of the package, for example, the presence or absence of wrinkles on the surface) is improved. In order to make the thermal contraction rate of the laminated film within this range, it is achieved by appropriately selecting a combination of the gas barrier film (a) and the heat sealable film (b).
[0024]
The heat-shrinkable laminated film of the present invention can be used in applications such as boil and retort processing in automatic filling packaging, or can be used as a laminated film for shearing processing. Examples of packaging objects include sausages, stick cheeses, sea breams, and liquid eggs.
[0025]
【Example】
EXAMPLES Hereinafter, the present invention will be specifically described with reference to examples, but the present invention is not limited thereto. The physical property values were measured as follows.
(Young's modulus)
A film sample was cut into a film length direction (MD) and a width direction (TD), each having a width of 20 mm and a length of 200 mm, and using Tensilon RTM-100 manufactured by Toyo Baldwin, a chuck interval of 100 mm, a pulling speed of 10 mm / min. The Young's modulus when pulling with was obtained.
(Loop stiffness)
A film sample was cut into a width of 20 mm and a length of 200 mm, respectively, in the MD direction and the TD direction of the film. The load at the time of compressing at / second was measured.
(Heat shrinkage)
After immersing the film in hot water at 95 ° C. for 1 minute, the shrinkage in the MD direction and the TD direction was measured.
(Oxygen permeability)
According to ASTM D3985-81, it was measured under the conditions of 30 ° C. and 80% (relative humidity) using MOCON OXTRAN-2 / 20 manufactured by MODERN CONTROL.
(Water vapor permeability)
According to ASTM F1249, measurement was performed under the conditions of 40 ° C. and 90% (relative humidity) using MOCON PERMATRAN manufactured by MODERN CONTROL.
[0026]
(Stick cheese filling, appearance, takeout evaluation)
Made by Kureha Chemical, using automatic filling machine KAP500, use laminated film width: 54 mm, folding width of cylindrical laminated film after vertical sealing: 22 mm, product cut length: 115 mm, product weight: 15 g, both vertical and horizontal seals The cheese was filled by ultrasonic sealing. The stick-shaped cheese package obtained was soaked in hot water at 95 ° C. for 1 minute, stretched, and refrigerated in a refrigerator at 5 ° C. for 1 day.
The appearance of the stick cheese package at this time was observed and evaluated as follows.
○: There are no wrinkles and tension.
Δ: There is no wrinkle, but there is no tension and the laminated film is loose.
X: State with wrinkles.
Moreover, the vertical seal | sticker part of the stick cheese package after refrigeration was peeled off, and the ease of taking out when taking out the cheese of the contents was evaluated as follows.
○: The cheese can be taken out as it is.
(Triangle | delta): Cheese may break or some cheese may remain in the package edge part.
X: Cheese always breaks or part of the cheese remains at the end of the package.
[0027]
(Sausage filling, appearance evaluation)
Made of Kureha Chemical, using automatic filling machine KAP500, use laminated film width: 64mm, folding width of cylindrical laminated film after vertical sealing: 25mm, product cut length: 220mm, product weight: 35g, hot seal seal the vertical seal The sausage (minced raw meat) was filled into the horizontal knots with aluminum clips. The obtained sausage (minced raw meat) package was boiled with hot water at 80 ° C. for 50 minutes, stretched for 10 seconds with hot water at 90 ° C., and refrigerated in a refrigerator at 5 ° C. for 1 day. The appearance of the sausage package at this time was evaluated as follows.
○: There are no wrinkles and tension.
Δ: There is no wrinkle, but there is no tension and the laminated film is loose.
X: State with wrinkles.
[0028]
(Uiro filling, appearance evaluation)
Made of Kureha Chemical, using automatic filling machine KAP500, used laminated film width: 175 mm, folding width of cylindrical laminated film after vertical sealing: 80 mm, product cut length: 240 mm, product weight: 370 g, vertical seal is hot jet sealed The side ligatures were filled with Uiro with aluminum clips. The obtained wax packaging was steamed at 100 ° C. for 60 minutes and then allowed to stand at room temperature for 1 day. The appearance of the Uiro package at this time was evaluated as follows.
○: There are no wrinkles and tension.
Δ: There is no wrinkle, but there is no tension and the laminated film is loose.
X: State with wrinkles.
[0029]
Example 1
Shrinkable barrier nylon film (hereinafter abbreviated as N-EVOH) as a gas barrier substrate layer (manufactured by Unitika, nylon-6 (Ny6) / EVOH / nylon-6 (Ny6) = 6/3/6 = 15 μm, product) Name: Embron E801), a stretched polyolefin multilayer film (hereinafter abbreviated as PP / PE / PP) as a heat seal layer with a polyurethane adhesive on both sides thereof (produced by Okura Kogyo Co., Ltd., polypropylene (PP) / polyethylene ( PE) / polypropylene (PP) = 4.5 / 4.5 / 4.5 μm = 13.5 μm, trade name: Lapler 501) was dry laminated to obtain a laminated film having a thickness of 46 μm. Table 1 shows the Young's modulus, hot water shrinkage rate, and physical properties and practical property evaluation of the laminated film after lamination. As is apparent from Table 1, the laminated film obtained in Example 1 has moderate flexibility and heat shrinkability, and is useful as a laminated film for stick cheese and boiled sausage.
[0030]
(Example 2)
A propylene-based block copolymer (hereinafter abbreviated as PP-BCP) (manufactured by Chisso, shrinkable film, trade name: Reactor TPO / Newcon NF1702) was extruded into a cylindrical shape using a circular die, rapidly cooled with cold water, A shrinkable TPO film having a thickness of 15 μm was obtained by biaxial stretching by an inflation method using a far infrared heating furnace. Except for using the shrinkable TPO film as the heat seal layer film, dry lamination was performed in the same manner as in Example 1 to obtain a laminated film having a thickness of 49 μm. Table 1 shows the Young's modulus, hot water shrinkage, and physical properties and evaluation of practical properties of the laminated film after lamination. As is apparent from Table 1, the laminated film obtained in Example 2 has moderate flexibility and heat shrinkability, and is useful as a laminated film for stick cheese and boiled sausage.
[0031]
(Example 3)
Shrinkable barrier nylon film (hereinafter abbreviated as N-MXD) as a gas barrier substrate layer (manufactured by Mitsubishi Chemical Kojin Pax, Ny6 / MXD6 / Ny6 = 5/5/5 μm = 15 μm, trade name: Super Neal SPR SHW ) Was dry laminated in the same manner as in Example 1 to obtain a laminated film having a thickness of 46 μm. Table 1 shows the Young's modulus, the hot water shrinkage rate, the physical properties of the laminated film after lamination, and the results of practical property evaluation. As is apparent from Table 1, the laminated film obtained in Example 3 has moderate flexibility and heat shrinkability, and is useful as a laminated film for stick cheese and boiled sausage.
[0032]
Example 4
Using N-MXD as the gas barrier substrate layer and PP-BCP (shrinkable TPO film) used in Example 2 as the heat seal layer, dry lamination was performed in the same manner as in Example 1 to obtain a laminated film having a thickness of 49 μm. Obtained. Table 1 shows the Young's modulus, the hot water shrinkage rate, the physical properties of the laminated film after lamination, and the results of practical property evaluation. As is apparent from Table 1, the laminated film obtained in Example 4 has moderate flexibility and heat shrinkability, and is useful as a laminated film for stick cheese and boiled sausage.
[0033]
(Example 5)
A PP-Et / ELPP · C1 / PP-Et three-layer cast film (manufactured by Chisso, PP-Et; propylene-ethylene random copolymer, ELPP · C1; elastomeric polypropylene) is biaxially stretched and thickened A shrinkable film (abbreviated as S-ELPP) having a thickness of 15 μm (thickness of each layer = 1.5 / 12 / 1.5 μm) was obtained. A laminated film having a thickness of 49 μm was obtained by dry lamination in the same manner as in Example 1 except that this S-ELPP was used as a heat seal layer. Table 1 shows the Young's modulus and hot water shrinkage of the original film for laminating used, the physical properties of the laminated film after lamination, and the results of evaluation of practical properties. The laminated film obtained in Example 5 has a loop stiffness as soft as 0.8 / 0.8 (gf / 20 mm), and is considered to be particularly useful as a laminated film for stick cheese.
[0034]
(Comparative Example 1)
A shrinkable barrier nylon film (manufactured by Mitsubishi Chemical Kojin Pax, Ny6 / MXD6 / Ny6 = 5/5/5 μm = 15 μm, trade name: Super Neal SPR SHW) is used as a gas barrier base material layer, and polyurethane-based adhesion is used on both sides A stretched polypropylene shrink film (abbreviated as PP-S) (manufactured by Kojin Co., Ltd., trade name: Polyset AS, 15 μm) was dry-laminated as a heat seal layer through an agent to obtain a laminated film having a thickness of 49 μm. Table 1 shows the Young's modulus, the hot water shrinkage rate, the physical properties of the laminated film after lamination, and the results of practical property evaluation. As can be seen from Table 1, the obtained laminated film is inferior in flexibility and is not suitable as a laminated film for stick cheese.
[0035]
(Comparative Example 2)
A laminate film having a thickness of 49 μm was obtained in the same manner as in Comparative Example 1 except that an unstretched polypropylene film (hereinafter abbreviated as CPP) (Dainippon Resin, 15 μm) was used as the heat seal layer. Table 1 shows the Young's modulus and hot water shrinkage of the laminate film used, and Table 1 shows the physical properties and results of practical property evaluation of the laminated film after lamination. As can be seen from Table 1, the obtained laminated film is inferior in shrinkability, and is not suitable as a laminated film for stick cheese or boiled sausage.
[0036]
(Comparative Example 3)
A barrier nylon film (manufactured by Unitika, Ny6 / MXD6 / Ny6 = 5/5/5 μm = 15 μm, three-layer film, trade name: Embron M150) is used as a gas barrier substrate layer, and a polyurethane adhesive is used on both sides thereof PP-S (stretched polypropylene shrink film) used in Comparative Example 1 was dry laminated as a heat seal layer to obtain a laminated film having a thickness of 49 μm. Table 1 shows the Young's modulus, the hot water shrinkage rate, the physical properties of the laminated film after lamination, and the results of practical property evaluation. As can be seen from Table 1, the obtained laminated film is inferior in heat shrinkability and flexibility, and is not suitable as a laminated film for stick cheeses, boiled sausages, or braids.
[0037]
[Table 1]

[0038]
【The invention's effect】
  As described above, the present inventionUsed in packaging and its manufacturing methodHeat shrinkable laminated filmHas heat shrinkability and flexibility, according to the present invention, Food packaging, especially automatic filling packagingCenter seam by machineWhen the package filled and packaged by heat treatment shrinks due to heat treatment such as boil sterilization or retort sterilization and becomes a close-packed state, it is difficult for wrinkles and irregularities to enter the surface of the packageKudari, The picking up of soft contents such as stick cheese is improvedThe

Claims (9)

A heat-shrinkable laminated film obtained by laminating the same heat-sealable film (b) containing a polypropylene resin layer and having ultrasonic sealing properties on both surfaces of a gas barrier film (a), the heat-shrinkable film Center seam using an automatic filling and packaging machine using a heat-shrinkable laminated film with a loop stiffness of the entire laminated film of 1.5 gf / 20 mm or less and a hot water shrinkage rate of 95% at a temperature of 1 min. By doing so, the contents are filled and packaged, and the laminated film is thermally shrunk by heat treatment . The package according to claim 1, wherein the heat-sealable film (b) has a constitution of at least three layers of polypropylene resin layer (PP layer) / polyethylene resin layer (PE layer) / (PP layer). A heat-shrinkable laminated film in which the same heat-sealable film (b) including a polypropylene resin layer and having an ultrasonic sealability is laminated on both surfaces of a gas barrier film (a), the film (a) , (B) has a multilayer structure, both the films (a), (b) are stretch-oriented, and either the film (a), (b) has heat shrinkability, and the heat Using a heat-shrinkable laminated film having a loop stiffness of the entire shrinkable laminated film of 1.5 gf / 20 mm or less and a hot water shrinkage rate of 95% for 1 minute in the vertical and horizontal directions of 10% or more , using an automatic filling and packaging machine. A package in which the contents are filled and packaged by center seaming, and the laminated film is thermally shrunk by heat treatment . The package according to claim 1 or 3, wherein both the gas barrier film (a) and the heat sealable film (b) are heat shrinkable. Gas barrier film (a) is an aliphatic polyamide resin layer / ethylene - according to any one of claims 1-4 that is at least three layers of vinyl acetate copolymer saponification product (EVOH) resin layer / aliphatic polyamide resin layer Packaging . The package according to any one of claims 1 to 4 , wherein the gas barrier film (a) has at least three layers of an aliphatic polyamide resin layer / aromatic diamine polymer resin layer / aliphatic polyamide resin layer. The package according to any one of claims 1 to 4 , wherein the polypropylene resin is a block copolymer of a crystalline polypropylene component and a propylene-α-olefin copolymer. A heat-shrinkable laminated film obtained by laminating the same heat-sealable film (b) containing a polypropylene resin layer and having ultrasonic sealing properties on both surfaces of a gas barrier film (a), the heat-shrinkable film Center seam using an automatic filling and packaging machine using a heat-shrinkable laminated film with a loop stiffness of the entire laminated film of 1.5 gf / 20 mm or less and a hot water shrinkage rate of 95% at a temperature of 1 min. A method for producing a package, in which the contents are filled and packaged, and the laminated film is thermally contracted by heat treatment to obtain a package. A heat-shrinkable laminated film in which the same heat-sealable film (b) including a polypropylene resin layer and having an ultrasonic sealability is laminated on both surfaces of a gas barrier film (a), the film (a) , (B) has a multilayer structure, both the films (a), (b) are stretch-oriented, and either the film (a), (b) has heat shrinkability, and the heat Using a heat-shrinkable laminated film having a loop stiffness of the entire shrinkable laminated film of 1.5 gf / 20 mm or less and a hot water shrinkage rate of 95% for 1 minute in the vertical and horizontal directions of 10% or more, using an automatic filling and packaging machine. A method for producing a package, wherein the contents are filled and packaged by center seaming, and the laminated film is thermally contracted by heat treatment to obtain a package.