JP2010132335A - Packaging material for cross-section ventilation and deoxidizer package - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a packaging material for cross-section ventilation (or end-face ventilation) which allows air to pass not through the surface of sheet-like packaging material but through the cut surface of the sheet, and further to provide a deoxidizer package material packaged with the packaging material. <P>SOLUTION: A nonbreathable plastic film such as polyethylene terephthalate and a spunbonded nonwoven fabric made of polyethylene terephthalate fiber or the like having a heat sealability on one surface are laminated and bonded to each other with the surface having the heat sealability facing outward. The deoxidizer package is constituted using the packaging material made of the laminated sheet having a ventilation cross-section. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

The present invention relates to a breathable packaging material used for packaging oxygen scavengers, freshness-keeping agents, desiccants and the like.
More specifically, the present invention relates to a packaging material for cross-sectional ventilation (also referred to as “end-face ventilation”) in which air permeability is not given to the surface of a sheet-like packaging material, but the cut surface of the sheet is given air permeability. Further, the present invention relates to an oxygen scavenger package packaged with this packaging material, and belongs to the field of packaging technology.

Conventionally, various drugs such as an oxygen scavenger, a freshness-keeping agent, and a desiccant are packaged in a breathable packaging material into a product and used for each purpose.
If the purpose or use of these products is for food preservation, etc., the breathable packaging material must be water-resistant, breakage-resistant, safety and hygiene, food fragrance retention, Performance stability is an important requirement.

In particular, as a packaging material for the oxygen scavenger, a material obtained by laminating and bonding paper and a perforated polyethylene film is often used, but this packaging material has a problem in water resistance.
That is, when the oxygen scavenger package using this packaging material is applied to a food with a high water content, or when an oxygen scavenger with a high water content is used, the packaging material is wetted. Problems such as breakage and seepage of oxygen scavengers occur, which is not preferable in terms of food safety and hygiene as well as appearance.
In addition, wet oxygen scavengers also have the problem of a slow oxygen absorption rate.

Many proposals have been made as packaging materials for improving the above drawbacks.
As one of them, Japanese Patent Publication No. 5-85419 (Patent Document 1) has laminated a perforated plastic film 1 and a perforated film of plastic having a softening point lower than that of polyethylene or polyethylene on both surfaces of paper or nonwoven fabric. It has been proposed to use, as an air-permeable packaging material, a sheet 3 that is superposed without being attached to a sheet 2 that is bonded or heat-sealed.

  As shown in FIG. 2 and FIG. 3 of Patent Document 1, the oxygen scavenger packaging body using a sheet in which the two sheets 2 are stacked as a packaging material is provided with a perforated plastic on both sides of the packaging body. A sheet 3 formed by superimposing the film 1 and the sheet 2 is disposed so as to face the sheet 2 inside, and an oxygen scavenger is disposed therebetween to seal a peripheral portion.

  That is, in the oxygen scavenger package of Patent Document 1, the porous plastic film 1 and the sheet 2 made of air-permeable paper or nonwoven fabric are not laminated and bonded, that is, a space ( An air layer is provided to solve the above problem.

  Furthermore, Japanese Patent Publication No. 4-10857 (Patent Document 2) discloses that the packaging material of Patent Document 1 is improved and the water resistance is improved, instead of the porous plastic film 1 having air permeability. Using a non-breathable film such as terephthalate or polyamide film, the breathability is given to the sheet 2 made of paper or nonwoven fabric and the breathable sealing layer, that is, the surface of the film or sheet in which the oxygen scavenger is packaged, It has been proposed to make it non-breathable and have breathability on their cut surfaces.

The packaging material proposed in Patent Document 2 is composed of a non-breathable outer material, a breathable seal layer 1, a breathable inner material, and a breathable seal layer 2, and the non-breathable outer material. A breathable sealing layer 1 is disposed between the breathable inner material and the breathable seal layer 1 and the breathable seal layer 2 are provided with a breathable inner material. These are disposed and laminated and bonded so that they can be ventilated through the cut surface of the breathable inner member and the breathable sealing layer.
Japanese Patent Publication No. 5-85419 (Claims) Japanese Patent Publication No. 4-10857 (Claims)

In these conventional techniques, the package is made double, and a space (air layer) is provided between the double-wrapped sheet and film, thereby providing the package with water resistance.
Therefore, the water resistance is improved compared to the previous ones, but in order to make a double packaging, as shown in FIG. A film supply system is required, the process is complicated, and process control is required to be stricter.

  Further, in order to improve the water resistance, the packaging material of Patent Document 2 in which the outermost layer is made of a non-breathable sheet or film that is non-breathable is a breathable sheet, film, or seal. Since the process is performed using the cut surface of the layer, the water resistance is improved, but the air permeability is inferior.

In view of the present situation, the present invention solves the problems of the packaging material described above, provides a packaging material for cross-sectional ventilation excellent in water resistance and ventilation capability, and packaging with the packaging material for cross-sectional ventilation. An object of the present invention is to provide an oxygen scavenger package.

In order to achieve the above object, the invention according to claim 1 of the present invention provides:
A cross-sectional ventilation packaging material comprising a non-breathable plastic film and a non-woven fabric having a heat sealing property on one side and laminated and bonded with the heat sealing surface facing outside.

The invention according to claim 2 of the present invention is
The packaging material for cross-sectional ventilation according to claim 1,
The nonwoven fabric is
It consists of a thermoplastic polyester fiber, and the heat-sealability is characterized by being imparted by a low-melting modified thermoplastic polyester fiber having a melting point of 100 to 160 ° C.

The invention according to claim 3 of the present invention is
In the cross-sectional ventilation packaging material according to claim 2,
The nonwoven fabric is
It is a laminate of a spunbond nonwoven fabric made of thermoplastic polyester fibers and the nonwoven fabric made of the low-melting modified thermoplastic polyester fibers.

The invention according to claim 4 of the present invention is
In the cross-sectional ventilation packaging material according to claim 3,
The low-melting modified thermoplastic polyester fiber is
It is a fiber having a core-sheath structure in which a thermoplastic polyester fiber is used as a core material and the surface is coated with a low-melting modified thermoplastic polyester.

The invention according to claim 5 of the present invention is
The packaging material for cross-sectional ventilation according to claim 1,
The non-breathable plastic film is
It is made of a thermoplastic polyester.

The invention according to claim 7 of the present invention provides
In the cross-sectional ventilation packaging material according to claim 5,
The thermoplastic polyester is
It is a polyethylene terephthalate.

The invention according to claim 7 of the present invention provides
The packaging material for cross-sectional ventilation according to claim 1,
The laminate adhesion is
It is made by extrusion lamination using polyethylene.

The invention according to claim 8 of the present invention provides
The packaging material for cross-sectional ventilation according to claim 7,
The polyethylene is
It is colored and has a shielding property.

Furthermore, the invention according to claim 9 of the present invention is
It is packaged with the packaging material for cross-sectional ventilation in any one of Claims 1-8, It is a deoxidizer packaging body which has cross-sectional breathability characterized by the above-mentioned.

  The packaging material for cross-sectional ventilation according to the present invention comprises a non-breathable plastic film on the outer surface, and a non-woven fabric having a heat sealing property on one side and laminated and bonded with the heat sealing surface facing outside. Packaging, that is, it is not necessary to provide a space (air layer) in the packaging material, so it is excellent in water resistance and air permeability, simplifies the manufacturing process of the package, and packages such as oxygen scavengers It facilitates the production of the body.

  In particular, in the process of using a packaging material for cross-sectional ventilation according to the present invention, a package of an oxygen scavenger or the like formed in a continuous form such as a belt or a roll is cut into individual pieces and attached to various products. In the state where it is cut and attached to various products and sealed, it absorbs oxygen etc. rapidly and maintains the quality of the product, especially for damage. It greatly contributes to the quality maintenance of fast food.

In addition, by making the inner surface into a non-woven fabric having heat sealability on one side, the corners of the package are softened, and when attached to the product package, a pinhole is generated in the package, resulting in a defective product. Is almost gone.
In addition, when attached to a food product, it may be mistakenly opened for food and accidentally eaten, making it difficult to open a package made of plastic film and non-woven fabric. As a result, there is also an effect that almost no generation occurs.

  The packaging material for cross-sectional ventilation according to the present invention is formed by laminating and bonding a non-breathable plastic film and a non-woven fabric having a heat sealing property on one side, with the surface having a heat sealing property facing outside. Will be described in detail.

<Non-breathable plastic film>
Examples of the non-breathable plastic film in the present invention include various films used for oxygen scavengers, for example, films made of polyethylene, polypropylene, polyester, polyamide, polycarbonate, etc., various films of polyvinylidene chloride, aluminum foil A laminate film, an aluminum vapor deposition film, etc. are mentioned.

Among these, in order to achieve the object of the present invention better and efficiently, it is preferable to use polyester, particularly polyethylene terephthalate film.
The thickness of the non-breathable plastic film is preferably 50 μm or less, particularly preferably 10 to 20 μm from the viewpoint of ease of handling in manufacturing.

<Nonwoven fabric with heat sealability>
The non-woven fabric having heat sealability according to the present invention has heat sealability on one side, that is, heat sealability is not good or poor, but is excellent in strength and handleability and is the main component of the packaging material and heat sealability. It is formed from the nonwoven fabric which has.

As the non-woven fabric, any of a wet type, a dry type or a spun bond type non-woven fabric can be used.
The material is exemplified by various materials such as polyamide, polyethylene terephthalate, rayon, etc., but preferred for the present invention is a spunbond type made of polyester, particularly a polyethylene terephthalate fiber having a high melting point of around 250 ° C. It is preferable to use a nonwoven fabric and a nonwoven fabric having a heat-sealing property made of a modified thermoplastic polyester fiber having a melting point of 110 to 160 ° C. by copolymerization or the like.

The spunbonded nonwoven fabric made of polyethylene terephthalate fibers is determined in consideration of air permeability, handleability, strength, etc., but has a basis weight of 15 to 100 g / m ² and a thickness of 100 to 400 μm, particularly 200 to 200 μm. 300 μm is preferably used.

The non-woven fabric having heat sealability is preferably a fiber using a fiber made of polyethylene terephthalate having a core-sheath structure, a core part made of polyethylene terephthalate, and a sheath part modified by copolymerization. The basis weight is preferably about 5 to ²⁰ g / m ² .

<Lamination method>
Lamination of the nonwoven fabric that is the main component of the packaging material and the nonwoven fabric having heat sealability is easily performed by a heat roll or the like using the heat sealability.
Furthermore, lamination of a non-breathable plastic film and a non-woven fabric having heat sealability on one side can be easily performed by providing a non-breathable non-woven fabric or other sealing agent on the non-woven fabric laminate surface side. Can do.

At that time, in consideration of the strength of the packaging material, it is preferable to laminate by extrusion lamination using polyethylene.
At that time, it is preferable to use polyethylene having a shielding property with a white pigment or the like as the polyethylene, thereby improving the appearance of printing applied to the laminated surface side of the plastic film and improving the appearance of the product. Can be.
The thickness of the polyethylene film formed by extrusion lamination is usually 10 to 20 μm.

<Packaging body>
The packaging material for cross-sectional ventilation of the present invention can be used for products that require cross-sectional air permeability as packaging materials for various products such as oxygen scavengers, desiccants, insect repellents, and alcoholic freshness-keeping agents.
In particular, it is suitable as a packaging material for an oxygen scavenger package, and among the various oxygen scavengers, it is particularly suitable for an iron powder-based oxygen scavenger.

Hereinafter, the cross-sectional ventilation packaging material of the present invention will be described together with a comparative example as a control.
1) Preparation of packaging material Toyobo Spunbond Ecule 3401A (basis weight 40g / m ² , thickness 240μ) manufactured by Toyobo Co., Ltd. is used as the main nonwoven fabric of the packaging material. As described above, a 4.4 denier fiber (polyester manufactured by Toyobo Co., Ltd.) of polyethylene terephthalate having a melting point of 255 ° C. and modified polyethylene terephthalate having a melting point of 110 ° C. (the ratio of core / sheath is 50/50). A nonwoven fabric (basis weight: 10 g / m ² ) using staple fibers: Eslanal E) was pressed with a flat heat roller.
Next, using this nonwoven fabric and polyethylene terephthalate having a thickness of 12 μ printed on the inner surface, such as a product name, using a polyethylene exhibiting a milky white color by adding a white pigment, the thickness of the film is set to 15 μm. And laminated by extrusion lamination to obtain a packaging material for cross-sectional ventilation according to the present invention.

2) Preparation and performance evaluation of oxygen scavenger packaging body Using the packaging material obtained above, 3.1 g of iron powder-based oxygen scavenger was packaged in a three-sided seal system to obtain an oxygen scavenger packaging body with an outer diameter of 40 × 50 mm. .
The oxygen scavenger package is added and enclosed in the package of various foods shown in Table 1, and left at room temperature (15 to 25 ° C.) for 300 days to change the appearance of the oxygen scavenger package (change with time, stain). The presence or absence of dashi occurrence was observed. The results are shown in the table, but none of the problems occurred.

The result of comparing the oxygen absorbing performance of the oxygen scavenger package and the commercially available oxygen scavenger package is shown in FIG.
As is apparent from FIG. 1, the oxygen scavenger package of the present invention has a significantly improved oxygen absorption rate as compared with a commercially available end-face breathable one, and the absorption rate is a standard type or a fast-acting type. Almost the same as

The cross-sectional ventilation packaging material according to the present invention is used for various products such as oxygen scavengers, desiccants, insect repellents, alcohol freshness-preserving agents, and is used in various industries including the food industry. Is.
In particular, the oxygen scavenger packaged with this cross-sectional ventilation packaging material has a significantly improved water resistance and a high oxygen absorption rate compared to conventional ones. It is widely used in the manufacturing industry.

It is a figure which shows the result of having compared the oxygen absorption capability of the oxygen absorber package.

Explanation of symbols

  None

Claims (9)

Non-breathable plastic film,
A packaging material for cross-sectional ventilation, which is formed by laminating and bonding a non-woven fabric having a heat sealing property on one side, with a surface having a heat sealing property facing outside. The nonwoven fabric is
It consists of a thermoplastic polyester fiber, Comprising: Heat sealing property is provided by the low melting point modified thermoplastic polyester fiber whose melting | fusing point is 100-160 degreeC, It is characterized by the above-mentioned. Cross section ventilation packaging material. The nonwoven fabric is
The packaging material for cross-sectional ventilation according to claim 2, which is a laminate of a spunbond nonwoven fabric made of thermoplastic polyester fiber and a nonwoven fabric made of the low-melting modified thermoplastic polyester fiber. The low-melting modified thermoplastic polyester fiber is
The packaging material for cross-sectional ventilation according to claim 3, wherein the packaging material is a core-sheathed fiber having a thermoplastic polyester fiber as a core and a surface coated with a low-melting modified thermoplastic polyester. The non-breathable plastic film is
The packaging material for cross-sectional ventilation according to claim 1, wherein the packaging material is made of thermoplastic polyester. The thermoplastic polyester is
The packaging material for cross-sectional ventilation according to claim 6, wherein the packaging material is polyethylene terephthalate. The laminate adhesion is
The packaging material for cross-sectional ventilation according to claim 1, wherein the packaging material is made by extrusion lamination using polyethylene. The polyethylene is
The packaging material for cross-sectional ventilation according to claim 7, wherein the packaging material is colored and has a shielding property. An oxygen-absorbing agent package having cross-sectional air permeability, wherein the oxygen-absorbing agent package is packaged with the cross-sectional air-permeable packaging material according to any one of claims 1 to 8.