JP2017218196A - Film-made container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an inexpensive and highly productive film-made container for storing liquid, through which the content is visible, and which can exhibit internal oxygen absorption throughout the container and allow for extended storage of the content.SOLUTION: Provided is a film-made container, which is self-standable and comprises a transparent laminated film having at least a gas barrier layer (14) for preventing oxygen permeation and a sealant layer (13), and which has a bottom surface with a folded portion thereon, and a left side surface, a right side surface and an upper surface each provided with a seal portion. The self-standable film-made container includes a head space (8) on the upper portion which carries no content therein, and an interior side of the gas barrier layer of the laminated film adjoining the head space comprises a film layer (11) having oxygen absorbability.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a self-supporting film container that reduces oxygen inside the container to prevent oxidation and can preserve the contents for a long period of time.

It is known that oxygen present in the container oxidizes the contents in the container and causes deterioration such as discoloration and oxidative decomposition.
In particular, the increase in viscosity and discoloration due to oxidation of fats and oils, oxidation and discoloration of pigments, oxidative decomposition of vitamins, non-enzymatic browning such as amino-carbonyl reaction and Maillard reaction, etc. Also, the growth of bacteria such as mold occurs.
To solve the above problem, it is not possible to prevent the deterioration by simply using a container having a high gas barrier property that blocks oxygen and blocking oxygen that permeates from the outside of the container.
In particular, when the contents have a head space, not only does the oxygen present in the head space deteriorate, but the oxygen contained in the contents itself often causes deterioration.
Therefore, very high oxygen barrier and absorption have been demanded.

For such a problem, for example, in Patent Document 1, it is configured by adhering the peripheral edge of a sheet, and is a package with an oxygen-absorbing tape that blocks ventilation to the contents,
On the inner surface of the sheet, an oxygen-absorbing tape having an oxygen-absorbing layer containing an oxygen-absorbing substance and a thermoplastic resin layer not containing an oxygen-absorbing substance is disposed with the thermoplastic resin layer facing the inside of the package. Heat-bonded, and the thermoplastic resin layer is formed such that its cross section covers the periphery of the oxygen absorbing layer,
A package with an oxygen-absorbing tape is proposed, in which a so-called core-sheath structure is formed in which the oxygen-absorbing layer is a core and the thermoplastic resin layer is a sheath.

If such a package with an oxygen-absorbing tape is a granule or powder, the oxygen-absorbing ability is exhibited, and there is a high possibility that the storage performance can be secured for a long time.
However, if the content is a liquid with significant oxygen deterioration, such as soy sauce, dashi, mayonnaise, etc., the content is covered with a thermoplastic resin layer around the oxygen absorbing tape, and oxygen is only applied to the content on the contact surface. There was a problem that it was not possible to absorb, and the ability to absorb oxygen in the entire head space and contents could not be fully exhibited.

  Until now, a film container using a film provided with oxygen absorbability over the entire surface has been manufactured. However, when oxygen absorptivity is imparted, there is a problem that the contents are not visible due to lack of transparency. In order to solve this problem, a film-made container is manufactured by preparing a film having oxygen absorbability on the entire surface and a transparent film having no oxygen absorbability on the entire surface, and bonding these films together. The contents could be confirmed from the transparent film side. However, when this film container is manufactured, there is a problem that a new process of positioning the films increases, which increases the manufacturing cost.

Japanese Patent No. 3934898

Therefore, an inexpensive film container that can store the liquid and can see through the contents, can exhibit internal oxygen absorbability in the entire container, can be stored for a long time, and has high productivity. Obtaining is the subject of the present invention.

  The film container according to claim 1 of the present invention is made of a transparent laminated film having at least a gas barrier layer for preventing oxygen permeation and a sealant layer, has a folded portion on the bottom surface, and has a left side surface and a right side surface. A self-supporting film container having a seal portion on the upper surface, and having a head space free from contents on the upper part of the self-supporting film container, and inside the gas barrier layer of the laminated film in contact with the head space And a film container having an oxygen-absorbing film layer.

The film container of the present invention has a folding portion on the bottom surface, thereby making the film container a self-supporting container.
Further, the container is covered with a barrier layer to suppress oxygen permeation from the outside, and has a structure including a layer that absorbs oxygen inside the barrier layer.
Therefore, a head space can be created in the upper part of the container, and by providing a film layer having oxygen absorbability in the head space portion, the oxygen absorbability is hardly affected by the contents, and the oxygen absorption ability can be maintained high. it can. In addition, oxygen in the air in the head space and oxygen transmitted from the outside can be efficiently absorbed.
Furthermore, since the non-transparent oxygen-absorbing film layer has a structure that is in contact with only the head space where there is no content, in the storage portion where the content is present, the content should be seen through, I can confirm.

  The film container according to claim 2 of the present invention is characterized in that the film layer having oxygen absorptivity consists of a polyolefin resin layer in which iron powder and a reaction accelerator are kneaded into a resin. The film container described.

The film container of the present invention has a film layer composed of a polyolefin resin layer obtained by kneading iron powder or an iron-based oxygen absorbent into a resin.
Since the polyolefin resin has high oxygen permeability, it helps to absorb the kneaded oxygen absorbent and has high fusion properties to the barrier layer and sealant, so that they can be easily bonded together.
Moreover, it is highly flexible and can be easily processed into any shape.

The film container of the present invention has a folding portion on the bottom surface, thereby making the film container a self-supporting container.
Further, the container is covered with a barrier layer to suppress oxygen permeation from the outside, and has a structure including a layer that absorbs oxygen inside the barrier layer.
Therefore, a head space can be created in the upper part of the container, and the oxygen absorption capacity can be maintained high by providing a film layer having oxygen absorbability in the head space portion.

It is an example of the film container of this invention, and is a perspective view which shows the external appearance. It is an example of the film container of this invention, and is the longitudinal cross-sectional view.

Embodiments of the film container of the present invention will be described below in detail with reference to the drawings.
FIG. 1 is a perspective view showing an external appearance of an example of a film container of the present invention.
The film container of the present invention is composed of a laminated film having at least a gas barrier layer for preventing oxygen permeation and a sealant layer.
The gas barrier layer may be, for example, a film made of a resin having a gas barrier property such as saponified ethylene / vinyl acetate copolymer or polyamide resin, or may be a deposited layer on which a metal oxide such as silicon oxide is deposited. It doesn't matter.
The film container made of such a laminated film has the sealant side of the front film 1 and the back film 2 facing each other, the upper surface side is the upper surface fusion portion 4, and the left and right side surfaces are the left fusion portion 6 and the right fusion layer. A landing part 5 is provided. Then, the four sides of the front film 1 and the back film 2 are fused between the front film 1 and the back film 2 so as to be sandwiched by the bottom folding film 3 on the bottom side. Is a film container which is transparent and has a closed space in which the contents can be confirmed.
And the bottom part is formed when the bottom fold film 3 spreads. A bottom surface fusion portion 31 where the bottom folded film 3 and the front film 1 are fused, and a bottom back fusion portion 32 where the bottom folded film 3 and the back film 2 are fused protrude to the bottom side. It becomes a stable bottom that can stand on its own, and its capacity is increased accordingly.

Also, an oxygen-absorbing film layer is partially bonded to the laminated film slightly below the upper surface of the film container in the vicinity of the upper surface fusion portion 4 between the front film 1 and the back film 2. An oxygen absorption region 110 is provided.
As the film layer having oxygen absorptivity, a film obtained by kneading iron powder and a reaction accelerator such as a metal halide in a polyolefin-based resin can be considered, and the film layer has no transparency.
The oxygen absorbing region 110 partially containing the oxygen absorbing film layer is provided on the upper side of the film container, but may be partially in the upper surface fusion part 4. . Further, it may be bonded to the front film 1 side or the back film 2 side, or may be bonded to both the front film 1 side and the back film 2 side.
FIG. 2 is an example of a film container of the present invention, and is a longitudinal sectional view cut along the A plane in FIG.
A bottom surface fusion part 31 in which the bottom folded film 3 and the inner surface of the front film 1 are fused, and a bottom back fusion part 32 in which the bottom folded film 3 and the back film 2 are fused are formed. . And the bottom folded film 3 between the bottom surface fusion | fusion part 31 and the bottom back fusion | fusion part 32 protrudes to the bottom side, and has expanded the capacity | capacitance greatly. And the contents 7 are filled in the film container.

A head space 8 is formed above the contents.
An oxygen absorption region 110 is formed in a region in contact with the space of the head space 8 of the film container, and the oxygen absorbing film layer 11 is bonded to the inner surface of the oxygen absorption region 111 of the oxygen absorption region 110. Yes.
The cross section of the oxygen absorption region 110 is shown in an enlarged view. In the oxygen absorption region 110, a film layer 11 having oxygen absorption is contained inside the gas barrier layer 14 and the sealant layer 13, and from the outside, the base film 12, the barrier layer 14, the sealant layer 13, and an adhesive resin. The layer 15, the oxygen absorbing film layer 11, and the adhesive resin layer 15 are configured in this order.
Of course, it may be a laminated film in which a flexible layer is added between the base film 12 and the gas barrier layer 14 so as to suppress the generation of pinholes even when bent or folded, such as polyamide resin.

The film layer 11 having oxygen absorptivity in the oxygen absorption region 110 is composed of a resin that easily transmits oxygen and an oxygen absorbent that easily traps oxygen. Moreover, in order to ensure the fusion property with a sealant layer, it is necessary to provide an adhesive resin layer on both sides.
Examples of resins that easily transmit oxygen include low density polyethylene, linear low density polyethylene, medium density polyethylene, ethylene / polypropylene copolymer, ethylene / vinyl acetate copolymer, ethylene / methacrylic acid copolymer, ethylene Polyolefin resins such as acrylic acid copolymer, ethylene / ethyl acrylate copolymer, and ethylene / butyl acrylate copolymer can be used.

In addition, as oxygen absorbers, inorganic powders such as reduced iron / halogen metals, sulfites such as sodium sulfite, polyamide / transition metal catalyst systems such as ascovic acids, nylon MXD6 / cobalt salts, polybutadiene / cobalt salts, etc. Organic powders such as ethylenically unsaturated hydrocarbon / transition metal catalyst systems such as benzophenone and cyclohexene side chain-containing polymer / transition metal catalyst systems are conceivable.
Among these, the reduced iron / halogen metal inorganic powder agent has the advantage that it is less affected by processing, has high performance, and easily absorbs oxygen in the head space. The reduced iron in this case is preferably porous iron powder-based particles in which primary particles having a particle diameter of 20 μm or less are aggregated to 5 μm or more.

  The oxygen-absorbing film layer 11 of the present invention is formed by extruding a material having the above composition. At this time, in order to provide fusion with the sealant of the front film or the back film, the film layer 11 is bonded to the front and back. After sandwiching with the conductive resin layer 15, it is processed as an oxygen absorption band 111 slit into a band having a certain width.

The adhesive resin layer 15 needs to be fusible with the sealant layer, but at the same time, needs to be a resin layer that easily transmits oxygen. Therefore, low density polyethylene, linear low density polyethylene, medium density polyethylene, ethylene / polypropylene copolymer, ethylene / vinyl acetate copolymer, ethylene / methacrylic acid copolymer, ethylene / acrylic acid copolymer, Polyolefin resins such as ethylene / ethyl acrylate copolymer and ethylene / butyl acrylate copolymer can be used.
In addition, when laminating in the production of the front film or the back film, the oxygen absorption band 111 may be partially sandwiched between the barrier film and the sealant film.

Since the oxygen absorption area 110 has no light transmittance, it is difficult to confirm the state of the contents. In addition, when the contents 7 are covered with an oxygen absorbent that easily captures oxygen, the oxygen in the headspace or the like is easily blocked.
In the film container of the present invention, it is possible to absorb oxygen more easily by providing an oxygen absorption region 110 in the head space.
Therefore, the oxygen absorption area 110 is provided above the liquid level of the contents 7. At this time, it is preferable that the upper end of the oxygen-absorbing band 111 is hung on the lower end of the upper surface fusion portion 4 and slightly overlaps or is slightly separated from each other, so that the upper end of the oxygen absorption band 111 is disposed almost at the same position.

In FIG. 2, the oxygen absorption region 110 is provided only on the back film side, but the oxygen absorption region 110 may be either the front film 1 or the back film 2. Moreover, you may provide in both the film 1 and the back film 2.
However, it is preferable to provide the oxygen absorbing region 110 only on the front film or only on the back film and on only one film because the state of the contents can be seen.
Further, a spout manufactured by injection molding is fused to the upper end of the container, so that a film container capable of opening and closing the container can be obtained.

As the oxygen barrier layer used in the self-supporting container of the present invention, a barrier layer in which a metal oxide such as silicon oxide is deposited can be used if polyethylene terephthalate is used as the base material. In the case where a metal oxide vapor deposition layer such as silicon oxide is used as a barrier layer, there are merits such that the contents can be seen and the internal moisture is hardly transmitted.
Moreover, although it cannot see through, metal vapor deposition, such as aluminum, and metal foil, such as aluminum foil, can also be used.
Of course, the oxygen barrier property is lower than that of metal, but saponified ethylene / vinyl acetate copolymer, polyamide resin, polyvinylidene chloride and the like can provide barrier property while having transparency.

The film container of the present invention is as described above. The barrier layer suppresses oxygen permeation from the outside, makes the film container self-supporting, provides a headspace at a fixed position, and places oxygen on the inner surface of the container in the headspace part. Because it has an absorption function, it efficiently absorbs internal oxygen.
In addition, since the oxygen absorption layer can be bonded together at the time of manufacturing the front film or back film and manufactured in a highly productive state, it is inexpensive and can be mass-produced in large quantities. Is big.

DESCRIPTION OF SYMBOLS 1 ..... Omote film 11 ........ Oxygen-absorbing film layer 110 ..... Oxygen absorption region 111 ..... Oxygen Absorption band 12 ... Base film 13 ... Sealant layer 14 ... Gas barrier layer 15 ... Adhesive resin layer 2 ············································································································· Bottom melt Wearing part 4 ..... Upper surface fusion part
5 ... Right fused part 6 ... Left fused part 7 ... Contents 8 ... Headspace

Claims (2)

It consists of a transparent laminated film having at least a gas barrier layer that blocks oxygen permeation, and a sealant layer,
A self-supporting film container having a folded portion on the bottom surface and having a seal portion on the left side surface, the right side surface and the top surface,
A film having a head space having no contents at the upper part of the self-supporting film container, and having a film layer having oxygen absorbability inside a gas barrier layer of a laminated film in contact with the head space Made container.   2. The film container according to claim 1, wherein the oxygen-absorbing film layer comprises a polyolefin resin layer in which iron powder and a reaction accelerator are kneaded into a resin.