JPH0472135A - Container for foodstuff and method and device for manufacturing the same - Google Patents

Abstract

PURPOSE:To simplify construction by superposing a surface layer which can be thermally laminated and a gas barrier layer of resin latex on an expanded resin sheet of a surface layer of laminated film by thermal lamination process, and heat-sealing a cover material to the heat sealed layer of laminated film. CONSTITUTION:A surface layer 1 comprises and expanded resin sheet A and a resin sheet able to be thermally laminated. A gas barrier layer 2 is a coated film composed of latex of poly(vinylidene chlorice), which is formed by applying it to the layer 1. A heat steal layer 3 can be brought into sealing engagement with a seal layer of cover material 4 and is composed of films of polyolefin. A foaming sheet C having gas barriering property thus prepared is formed into a tray-shaped container, into which contents are put, and deoxidation agent is placed into said container or the interior thereof is replaced by gas. The container is sealed with the cover material 4. The material 4 is attached to the heat seal layer 3 of laminated film B by applying heat seal. Since thermal lamination can be applied to an expanded resin sheet through a heat seal layer, the expanded resin sheet can be easily coupled with the laminated film.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a food container in which a lid material is heat-sealed to a container body such as a tray shape, and particularly to a food container using a container body with gas barrier properties. The present invention also relates to a method of manufacturing food containers using a thermal lamination method, and further to a manufacturing apparatus that performs molding of a container body following the thermal lamination process.

[Prior Art 1] Containers made of foamed resin sheets, such as foamed polystyrene sheets, molded into the shape of trays are used as means for packaging various foods and perishables.

This type of foamed resin sheet has advantages such as being lightweight and inexpensive, and has good heat insulation properties, but has drawbacks such as lacking gas barrier properties, moisture proofing properties, and heat resistance for the inner surface of the container.

Therefore, attempts have been made to overcome the above-mentioned drawbacks by laminating various films to the foamed resin sheet.

Japanese Utility Model Publication No. 63-25156 discloses a laminated sheet in which a polyvinylidene chloride film and an unstretched polypropylene film are adhered to a foamed polystyrene sheet via a binder, as well as a container formed from the laminated sheet. By adhering the polyvinylidene chloride film to the expanded polystyrene sheet, gas barrier properties are provided, and by adhering the unstretched polypropylene film, heat resistance and oil resistance are provided.

Japanese Utility Model Application No. 62-179911 discloses a foamed plastic container made of polystyrene resin or the like whose inner or outer surface is coated with a gas barrier resin.

JP-A-1-213116 discloses a method for manufacturing a container in which a gas barrier layer and an adhesive layer are sequentially laminated on the surface of a foam sheet. By providing a gas barrier layer, the interior is replaced with gas to prevent spoilage of the contents, and the adhesive layer allows the lid sheet to be welded.

[Problems to be Solved by the Invention] However, in any of the above conventional means, in order to manufacture a food container, each layer is laminated in advance on a foamed resin sheet, and the laminated sheet is used to manufacture the container. Containers must be manufactured after transporting them to the factory, and sheet manufacturing, container manufacturing, and food filling cannot be performed as a series of processes. Jitsukai 1986-17
Publication No. 9911 also discloses a method of coating the inner or outer surface of a foamed plastic container with a gas barrier resin after molding, but in this method, the manufacturing process of the container and the coating with the gas barrier resin are performed in separate processes. Furthermore, filling the food will be done in a separate process.
Inefficient.

Furthermore, in the method described in Japanese Utility Model Publication No. 63-25156, the polyvinylidene chloride film and the unstretched polypropylene film are both films, and therefore a binder is inserted between each film. It will be necessary to glue it through.

The present invention solves the above-mentioned conventional problems, and includes providing a gas barrier layer and a heat sealing layer on a foamed resin sheet.
Moreover, it is an object of the present invention to provide a food container whose structure can be simplified by forming a gas barrier layer using latex coating.

Another object of the present invention is to provide a method for manufacturing a food package in which the lamination work is facilitated by laminating a laminated film and a foamed resin sheet together by a thermal lamination method.

Furthermore, the present invention provides a method for bonding the laminated film and the foamed resin sheet together using a thermal lamination method in the upstream stage of an automatic forming and filling device, followed by a step of forming the container body, a step of filling the contents, and a sealing step of the lid material. It is an object of the present invention to provide a food container manufacturing apparatus that makes the manufacturing process more efficient.

[Means and Effects for Solving the Problems] The food container according to the present invention includes a container body made of a foamed resin sheet and a laminated film, and a lid material heat-sealed to the laminated film of the container body. In the container, the laminated film includes a surface layer that can be thermally laminated to the foamed resin sheet and a gas barrier made of resin latex.
layer and a heat-sealing layer are stacked in order, the surface layer of this laminated film is thermally laminated to a foamed resin sheet, and the lid material is heat-sealed to the heat-sealing layer of the laminated film. It is something to do.

In the above means, the foamed resin sheet is a foamed polystyrene sheet, the surface layer of the laminated film is a polystyrene resin film, and the resin latex is polyvinylidene chloride resin latex.

Further, the method for manufacturing a food container according to the present invention uses a laminated film in which a surface layer that can be thermally laminated to a foamed resin sheet, a gas barrier layer made of resin latex, and a heat seal layer are laminated in order, and the surface layer is foamed. The laminated film and the foamed resin sheet are laminated onto a resin sheet by thermal lamination, and the container body is formed from the laminated sheet.

Furthermore, the food container manufacturing apparatus according to the present invention includes a laminated film supply unit that supplies a laminated film in which a surface layer that can be thermally laminated, a gas barrier layer made of resin latex, and a heat sealing layer are sequentially laminated on a foamed resin sheet. ,
A sheet supply section that supplies a foamed resin sheet, and a thermal lamination mechanism that laminates the laminated film and the foamed resin sheet are arranged.Continuously to this thermal lamination mechanism, a container body forming mechanism, a contents filling mechanism, and a lid material are installed. A heat-sealing mechanism for the laminated film is provided.

In the present invention, a laminated film in which a surface layer that can be thermally laminated to a foamed resin sheet, a gas barrier layer made of resin latex, and a heat seal layer are laminated in order, and more specifically, the surface layer is a polystyrene resin film, A laminated film whose resin latex is polyvinylidene chloride-based resin latex is used. Since latex is used as the gas barrier resin, a laminated film can be produced by coating the surface layer with latex and laminating a heat-sealing layer thereon. In particular, by using adhesive latex, a laminated film can be produced without using a binder. Then, the surface layer of this laminated film can be aligned with a foamed resin sheet and bonded together using a hot lamination method.

Therefore, the laminated film and the foamed resin sheet can be supplied from separate raw materials, heat laminated, and the laminated sheet can be formed into a container shape as it is.
The container manufacturing process can be a series.

In addition, we supply laminated films and foamed resin sheets, heat lamination process, container body molding process, content filling process,
By making the sealing process of the lid material continuous, it becomes possible to perform what was previously separate processes on the same production line.

The specific configuration of the present invention will be described below with reference to the drawings.

In FIG. 2, the symbol A is a foamed resin sheet, and the symbol B is a laminated film.

The foamed resin sheet A is a foamed polystyrene (PSP) sheet, and its thickness is 0.5 to 3.0 mm, usually 0.05 mm to 3.0 mm.
75 to 2.0 mm and a basis weight of 50 to 300 g/m''.

Laminated film B has a surface layer 1, a gas barrier layer 2, and a heat seal layer 3 laminated in this order.

The surface layer 1 is a resin sheet that can be thermally laminated with the foamed resin sheet A. Specifically, it is a polystyrene-based resin film, preferably high impact polystyrene (HIP).
S) It is a film.

The gas barrier layer 2 is made of polyvinylidene chloride resin (PVD).
This is a coating film coated with C) latex (emulsion). This latex is coated on the surface layer 1 (
The gas barrier layer 2 is obtained by applying the following coating.

The heat sealing layer 3 may be any material as long as it can seal with the sealing layer of the lid material 4 shown in FIG.
Films of other polyolefins may be used. Preferably, linear low density polyethylene (LLDPE) or very low density linear polyethylene (VLDPE) is used. Further, a sealant having a known easy-to-build function (simple peeling function) can also be used.

The laminated film B is manufactured by a lamination method. In this lamination method, a barrier adhesive (for example, the product name "Flehalon Latex") is used as the polyvinylidene chloride latex constituting the gas barrier layer 2.
By using AC-750J (manufactured by Kureha Chemical Industry Co., Ltd.), it is possible to apply this to the surface N1 and laminate and adhere the heat seal layer 3 without using a binder. When using latex with no or weak adhesiveness, a binder is interposed between the surface layer 1 and the heat-sealing layer 3.6 The foamed resin sheet A and the laminated film B shown in Fig. 2 are heated. By thermally laminating in the laminating step 5, a foamed sheet C having gas barrier properties can be obtained. That is, by placing the surface layer 1 of the laminated film B on the foamed resin sheet A side, and passing the foamed resin sheet A and the laminated film B between heating rollers, the polystyrene resin film of the surface layer 1 and the foamed polystyrene sheet are bonded to each other with a binder. It can be thermally attached without any intervention.

Gas barrier foam sheet C obtained in this way
is formed into a tray-shaped container body as shown in FIG. 1, for example. Then, the contents are put inside and an oxygen absorber is put inside or the inside is replaced with gas. Then, it is sealed with a lid material 4. This lid material 4 is fused to the heat seal layer 3 of the laminated film B by heat sealing.

As the lid material 4, a film with heat-sealability and gas barrier properties is used, such as soft vinyl chloride (PV
C) A laminated film consisting of / polyvinylidene chloride (PVDC) / sealant, or a laminated film consisting of nylon / ethylene vinyl alcohol copolymer (EVOH) / sealant, or a laminated film consisting of KPET (polyethylene terephthalate coated with PVDC) / sealant. Such as laminated films.

Further, in the present invention, it is possible to separately supply the foamed resin sheet A and the laminated film B shown in FIG. 2, and successively perform thermal lamination, manufacture of the container body, and filling of the contents.

FIG. 3 (front view) and FIG. 4 (perspective view) show an example of a manufacturing apparatus for carrying out such a continuous process.

In the figure, the symbol 2Q is an automatic forming and filling device (Form/f
ill/5ea 1 machine), a sheet supply unit 10 in which the original fabric of the foamed resin sheet A was installed, a laminated film supply unit 11 in which the original fabric of the laminated film B was installed, and a heating roller 12a. A laminating mechanism 12 is installed. The foamed resin sheet A pulled out from the sheet supply section 10 and the laminated film B pulled out from the laminated film supply section 11 are heated by the heating roller 12a of the thermal lamination mechanism 12 and pressed between them with the opposing roller 12b. Heat laminated foam sheet C with gas barrier properties
is formed. Then, this foamed sheet C is fed into the automatic forming and filling device 20 as it is.

In the illustrated example, the laminated film B is heated and pressurized from the outside with the heating roller 12a, but the inside of the mating surface of the laminated film B is heated with the heating roller, and then the foamed resin sheet is heated with the pressure roller. A and the laminated film B may be pressed and thermally laminated.

In the molding section indicated by reference numeral 21, the gas barrier foam sheet C is heated and molded by vacuum and/or compressed air, plug assist, etc., to form a recessed portion such as a tray shape as shown in FIG. be done. In this molding section 21, the heat sealing strength between the foamed resin sheet A and the laminated film B is increased, and the two are firmly bonded together. Further, the foamed resin sheet A undergoes secondary foaming due to heating.

In the part indicated by reference numeral 22, contents (food, perishables, etc.) are filled (inserted) into the molded container body.If an oxygen absorber is used, the oxygen absorber is inserted into the container body. can be placed in

In the part indicated by the reference numeral 23, the lid material 4 is supplied from the raw material in the lid material supply section 13, and this lid material 4 is temporarily sealed to the heat seal layer 3 on the edge of the container body by the temporary securing roller 23a. .

In the vacuum chamber indicated by the reference numeral 24, the inside of the container body is evacuated and degassed, and furthermore, the lid member 4 is completely sealed here. In the case of gas exchange packaging, the package is vacuumed and degassed, then filled with 1 purge gas, and then sealed.

After being sealed with the lid material 4, it is cooled in the cooling section 25,
Each food container is separated by the trimming section 26,
It is taken out from the take-out section 27.

[Example] As the foamed resin sheet A, a foamed polystyrene sheet was used. This expanded polystyrene sheet has a thickness of 0.7+n
u, basis weight 110 g/m'', and width dimension 430 mm.

Laminated film B has a thickness of 64 μm and a width of 430 μm.
mm was used. The structure of the laminated film B is as follows.

Surface layer 1: high impact polystyrene film, thickness 30 μm.

Gas barrier layer 2: Adhesive polyvinylidene chloride resin latex, specifically "Flehalon Latex AC-750J, 4 μm thick.

Heat-sealing layer 3: linear low-density polyethylene film, thickness 30 um.

The method for producing laminated film B is to apply fullhalon latex to the surface of a high-impact polystyrene film, and then laminate and adhere a linear low-density polyethylene film. The physical properties of this laminated film B are shown in Table 1 below.
It is as follows.

Margin Table 1 Below: In Table 1 above, "Mocon" indicates a value measured using an oxygen permeability meter manufactured by Modern Control.

The lid material 4 is “rGP-8” manufactured by Kureha Chemical Industry Co., Ltd.
It has the following configuration.

Outer layer: Soft polyvinyl chloride film (contains polyester plasticizer, thickness 15 μm.

Core layer: Polyvinylidene chloride resin film, 15μ thick.

Sealant: Ethylene/vinyl acetate copolymer, thickness 30
μm.

An adhesive material (tie layer) is interposed between each of the above layers. The oxygen permeability of this lid material 4 is 20cc/m2day-
ATM is 20°C.

The above foamed resin sheet A, laminated film B and lid material 4
The sheet supply section 10 and the laminated film supply section 11. are shown in FIGS. 3 and 4. The M material was supplied from the M material supply section 13, and molding and filling operations were performed using the automatic molding and filling device 2o. The molding and filling conditions are as follows.

fl) Heating roller 12a surface temperature: 17Q±5℃ (2) Line speed (sheet feeding speed) approximately 2rl
/win (3) External dimensions of the container body: 125 x 195 x 25 (mml) (4) Filled food (contents): Sliced roast ham (75 g) (5) Gas replacement: Nitrogen/carbon dioxide = 80/20 vol. % (6) Gas replacement rate of 99.5% or more (calculated from the percentage of residual oxygen in the container space) (7) Heat sealing temperature between the lid material and the container body: 125°C [Comparative example] As a comparative example, In the laminated film B, a film B' is produced in which the polyvinylidene chloride resin latex is removed, that is, a high-impact polystyrene film and a linear low-density polyethylene film are laminated with an adhesive in between, and this film B' and The foamed polystyrene sheet was supplied to the apparatus shown in FIGS. 3 and 4, and molding and filling operations were performed under the same conditions as in the example.

[result] The results are shown in Table 2 below.

Margin Table 2 below [Effects] As described above, according to the food container according to the present invention, since the laminated film with gas barrier properties and heat sealability is bonded to the surface of the foamed resin sheet, the gas barrier properties are improved. Not only is this laminated film suitable for long-term storage of foods, but the lid material can be heat-sealed. In particular, in the laminated film of the present invention, since the gas barrier layer is made of resin latex, it can be made thin by laminating two films, the surface layer and the heat-sealing layer. By using an adhesive (adhesive latex), the surface layer and heat seal layer films can be laminated without using a binder, making it easier to construct a laminated film. Further, since the laminated film can be thermally laminated to the foamed resin sheet via the heat seal layer, it is easy to attach the foamed resin sheet and the laminated film.

In the method for manufacturing a food container according to the present invention, the foamed resin sheet and the laminated film can be prepared separately, and then they can be thermally laminated to form the container body. It can be done in a series of steps.

Furthermore, in the food container manufacturing apparatus according to the present invention, thermal lamination of the foamed resin sheet and laminated film, molding of the container body, filling (insertion) of contents, sealing of the lid body, etc. can be performed in a series of steps, and the manufacturing work process can be made more efficient.

[Brief explanation of the drawing]

Fig. 1 is a cross-sectional view showing a food container according to the present invention, Fig. 2 is a cross-sectional explanatory view showing the structure of a foamed resin sheet and a laminated film, and the state of thermal lamination thereof, and Fig. 3 is a fabrication of a food container according to the present invention. FIG. 4 is a front view showing the device, and FIG. 4 is a perspective view thereof. A... Foamed resin sheet, B... Laminated film, C...
...Barrier foam sheet, 1...Surface layer, 2...
・Gas barrier layer, 3... Heat seal layer, 4...
Lid material, 10... Sheet supply section, 11... Laminated film supply section, 20... Forming and filling device.

Claims (1)

[Scope of Claims] 1. A food container comprising a container body made of a foamed resin sheet and a laminated film, and a lid material heat-sealed to the laminated film of the container body, wherein the laminated film is A surface layer that can be thermally laminated to a foamed resin sheet, a gas barrier layer made of resin latex, and a heat sealing layer are laminated in this order.The surface layer of this laminated film is thermally laminated to the foamed resin sheet, and the A food container 2 characterized in that the lid material is heat-sealed to the heat-sealing layer, the foamed resin sheet is a foamed polystyrene sheet,
The food container 3 according to claim 1, wherein the surface layer of the laminated film is a polystyrene resin film and the resin latex is polyvinylidene chloride resin latex, and the gas barrier is made of a surface layer and resin latex that can be thermally laminated to a foamed resin sheet. Using a laminated film in which a layer and a heat-sealing layer are sequentially stacked, the surface layer is layered on a foamed resin sheet, and the laminated film and the foamed resin sheet are bonded together by a thermal lamination method, and the container body is formed by this bonded sheet. Method 4 for producing a food container characterized by molding, a laminated film that provides a laminated film in which a surface layer that can be thermally laminated to a foamed resin sheet, a gas barrier layer made of resin latex, and a heat seal layer are sequentially laminated A supply section, a sheet supply section that supplies a foamed resin sheet, and a thermal lamination mechanism that laminates the laminated film and the foamed resin sheet are arranged, and a container body forming mechanism and a contents filling mechanism are connected to the thermal lamination mechanism. and a heat-sealing mechanism for sealing the lid material and the laminated film.