JP3266978B2 - Package for oxygen scavenger - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a package for an oxygen scavenger containing an oxygen scavenger to be used by being enclosed in a packaging material such as food or medicine.

[0002]

2. Description of the Related Art In the case of preserving goods in which the presence of oxygen is not preferable in the preservation atmosphere, such as foods and pharmaceuticals,
A method of sealing a gas barrier material with the article and an oxygen scavenger coexisting in a packaging material having a gas barrier property has been used. The deoxidizer is a composition having a property of absorbing oxygen, an inorganic type mainly composed of iron powder or an iron compound, and an organic type using complex carbohydrates such as ascorbate and catechol. At present, iron-based compounds are mainly used from the viewpoint of safety, oxygen absorption rate and cost. In addition, the oxygen absorber is a method that expresses its function, a humidity-dependent type that targets only high-moisture foods that react only when the atmospheric humidity is high, and a medium-low moisture food that starts the reaction regardless of the atmospheric humidity. And self-reactive type.

[0003] The oxygen absorber is usually used in a small air-permeable package, and the material of the package is made of a gas-permeable material that allows the oxygen absorber to sufficiently exhibit its oxygen-absorbing ability. For example, a laminate of paper and a perforated polyethylene film, a laminate of a perforated plastic film, paper and a perforated polyethylene film, and the like have been used.

[0004]

However, the oxygen scavenger starts to exhibit its oxygen scavenging ability at the time when the oxygen scavenger is enclosed in the packaging material together with the object to be scavenged, such as food or medicine. Desirably, if expression of the deoxygenating ability is started before the encapsulation, it causes a decrease in the amount of oxygen absorbed after the encapsulation. Therefore, the above-mentioned humidity-dependent type is a packaging material having a water vapor barrier property, and the self-reactive type is a packaging material having a gas barrier property, so that an oxygen scavenger is not used. It was double-packed and stored from the top of the stored package. According to this conventional method, when enclosing the oxygen absorber in the packaging material for food or medicine to be preserved, the outer package of the double package of the oxygen absorber is opened and inserted. It becomes necessary to control the time from when the packaging material is sealed until it is sealed. Also,
The oxygen absorber remaining after use must be stored in a double package again, and further, in the oxygen absorber package such as paper / perforated polyethylene, the fine particles of the oxygen absorber are When the package is used in an atmosphere of high humidity, there are many points to be noted, such as leakage of the components of the oxygen scavenger due to moisture, and handling of the package is complicated. The oxygen-absorbing agent package of the present invention does not need to double-wrap the package with a barrier-capable packaging material when storing the oxygen-absorbing agent, and quickly expresses the oxygen-absorbing ability of the oxygen-absorbing agent when used. To provide a package for a deoxidizer.

[0005]

As shown in FIG. 1, the oxygen absorber package of the present invention has an oxygen permeability of 1,000 c.
A thin film layer (12) of magnesium oxide having a thickness of 300 to 1,500 ° is formed on one surface of a plastic film (11) having a c / m ² · day · atm or more, and
Using a laminate (10) having a resin layer (13) having a heat-sealing property having an oxygen permeability of not less than 3,000 cc / m ² · day · atm, as shown in FIG. A package (20) for an oxygen scavenger characterized in that an oxygen scavenger (30) is housed in a package that is superimposed and heat sealed (21) at the periphery by a sheet heel method or the like and sealed. is there.

[0006] The thin layer of magnesium oxide formed on the above-mentioned plastic film has an excellent barrier property against oxygen and water vapor. However, due to high humidity conditions, heat, and physical external forces such as pressure and massaging, the thin film layer of magnesium oxide is formed on the plastic film. The barrier characteristics deteriorate. Therefore, the package for an oxygen scavenger of the present invention, which is packaged with the magnesium oxide thin film layer on the outside using a plastic film having the magnesium oxide thin film layer formed on one side, can be stored during storage due to the high barrier property of the package. Although the expression of the oxygen scavenging ability of the oxygen scavenger is suppressed, during use, the barrier property is deteriorated by applying moisture, heat or physical force to the magnesium oxide thin film layer formed on the outer surface, The oxygen scavenging ability of the oxygen scavenger in the package can be exhibited. The above-mentioned moisture is the moisture contained in the food to be deoxygenated, the heat is a heat treatment performed for the purpose of sterilization or the like after sealing, and the physical force is a mechanical force. It is an external force such as masturbation.

[0007] The thickness of the thin film layer of magnesium oxide is 300 to 1,500 ° C. If the thickness is 300 ° C or less, the oxygen-absorbing ability of the oxygen-absorbing agent is suppressed during storage of the oxygen-absorbing agent. Cannot provide sufficient oxygen barrier properties,
In the case of 0 ° or more, the barrier property after the deterioration of the magnesium oxide thin film layer is not sufficiently reduced, and sufficient oxygen permeability to express the oxygen scavenging ability of the oxygen scavenger cannot be obtained. The preferred thickness of the magnesium oxide thin film layer for sufficiently suppressing the oxygen scavenging ability of the oxygen scavenger during storage of the oxygen scavenger, and for promptly expressing the oxygen scavenging ability of the oxygen scavenger during use. Is around 500 °.

[0008] The plastic film is a plastic film having an oxygen permeability of 1,000 cc / m ² · day · atm or more. Specifically, a biaxially oriented polypropylene film, a biaxially oriented polyethylene film, or the like is used. Is done. Oxygen permeability is 1,000cc / m ²・
When a plastic film having a thickness of not more than day · atm is used, even when the thin film layer of magnesium oxide is deteriorated when the oxygen scavenger is used, the oxygen scavenging ability is equal to or higher than that of the oxygen scavenger stored in the conventional package. Can not be obtained.

[0009] The resin layer having heat sealing properties is
Oxygen permeability is formed at 3,000 cc / m ² · day · atm or more, but oxygen permeability is 3,000 cc / m ² ·
In the resin layer of day · atm or less, even if the thin film layer of magnesium oxide is deteriorated when the oxygen scavenger is used, sufficient oxygen for the oxygen scavenging ability of the oxygen scavenger stored in the package to be quickly developed. No permeability is obtained. The purpose of providing this resin layer in the constituent layer is to impart heat sealing properties during bag making, and the oxygen permeability thereof is preferably as high as possible, and a perforated film having holes at regular intervals is preferred. May be laminated. Further, a printing layer may be provided between the plastic film and the heat-sealing resin layer. However, printing on a thin layer of magnesium oxide is not preferable because the barrier property is likely to be deteriorated.

The reason why the thin layer of magnesium oxide is formed on the outermost layer of the package is that when the oxygen absorber is used, moisture or heat is applied so that the stored oxygen absorber quickly develops the oxygen absorbing ability. And physical effects. In addition, the oxygen scavenger package of the present invention uses a thin layer of magnesium oxide (1) as shown in FIG.
2) must be given above. Magnesium oxide is also degraded by moisture and heat, leading to the development of deoxygenation ability.Therefore, the degradation of deoxygenated objects such as foods due to moisture and the heat of heat treatment for the purpose of sterilization after sealing etc. Although the deoxidization ability may occur due to deterioration, a method of mechanically rubbing is most desirable in terms of reliability.

The method of forming a thin layer of magnesium oxide on the surface of a plastic film includes known vapor deposition processing methods such as resistance heating, high frequency induction heating, electron beam heating, electron impact heating, flash vapor deposition, Any method such as a vacuum evaporation method such as laser evaporation, a sputtering method such as ion beam sputtering and magnetron sputtering, and an ion plating method can be applied.

Further, as a method of laminating the laminate, any method such as dry lamination, non-solvent lamination, extrusion lamination and wet lamination may be applied.

The package for an oxygen scavenger of the present invention is effective for any type of oxygen scavenger, such as iron, sodium hyposulfite, and organic. There is no.

[0014]

The package for an oxygen scavenger according to the present invention is a laminate in which a thin film layer of magnesium oxide is formed on one surface of a plastic film having air permeability, and a resin layer having air permeability and heat sealability is formed on the other surface. A bag is formed using the thin layer of magnesium oxide as the outer surface, and the oxygen absorber is stored and sealed.When the oxygen absorber is stored, the thin film of magnesium oxide is formed on the outer surface of the package. Due to the oxygen barrier property of the layer, the oxygen scavenging capacity of the stored oxygen scavenger does not appear, but when the oxygen scavenger is used, the barrier property of the magnesium oxide thin film layer formed on the outer surface of the package is reduced by moisture or moisture. When deteriorated by applying heat or physical force,
Since the oxygen permeability of the package is increased, the oxygen absorbing capacity of the oxygen absorber stored therein is quickly expressed.

[0015]

【Example】

<Example 1> First, the oxygen permeability was 3,000 cc / m
Vacuum-deposited on one side of a ² -day-atm stretched polypropylene film by electron beam heating to a thickness of 50
Forming a thin layer of 0% magnesium oxide, and on the other side,
Low-density polyethylene is laminated at a thickness of 15 μm by an extrusion lamination method and has an oxygen permeability of 7,0.
A resin layer having a heat-sealing property of 00 cc / m ² · day · atm was formed to prepare a laminate having a thin layer of magnesium oxide / a stretched polypropylene film layer / a low-density polyethylene layer. Next, using this laminate, the low-density polyethylene layers are superimposed on each other with the magnesium oxide thin film layer on the outside, and the peripheral edge thereof is heat-sealed by a heat sealing method to obtain a 100 × 80 mm size. A square three-sided seal bag was produced. An oxygen scavenger (manufactured by Toppan Printing Co., Ltd .; freshness preservative FD-
500), and the opening is heat-sealed and sealed.
A package for an oxygen scavenger according to the present example in which an oxygen scavenger was stored was prepared.

Example 2 First, the oxygen permeability was 3,0
One side of a stretched polypropylene film of 00 cc / m ² · day · atm is vacuum-deposited by an electron beam heating method to form a thin film of magnesium oxide having a thickness of 500 °, and the other side is a 25 μm perforated polyethylene film. (Opening diameter 0.2 mm, opening ratio 1.0%) are laminated by a dry lamination method to form a heat-sealing resin layer, and a thin layer of magnesium oxide / a stretched polypropylene film layer / aperture A laminate having a polyethylene film layer configuration was produced. Next, using this laminate, the perforated polyethylene film layers are overlapped with the thin film layer of magnesium oxide on the outside, and the periphery thereof is heat-sealed by a heat sealing method to obtain a size of 100 × 80 mm. Was prepared. An oxygen scavenger (manufactured by Toppan Printing Co., Ltd .; freshness retaining agent FD)
-500), and the opening was heat-sealed and sealed to produce a package for an oxygen scavenger according to the present example containing the oxygen scavenger.

<Comparative Example 1> Using a laminate having a nonwoven fabric layer / perforated polyethylene film layer structure, a square three-side seal bag having a size of 100 × 80 mm was prepared, and an oxygen scavenger (letter printing) was formed through the opening. Co., Ltd .; freshness preservative FD-50
No. 0) was inserted, and the opening was heat-sealed and sealed to prepare a package for an oxygen scavenger of the present comparative example containing an oxygen scavenger.

Comparative Example 2 The thickness of the magnesium oxide thin film layer in Example 1 was reduced from 500 ° to 200 °, and the deoxidation of this comparative example in which a square oxygen absorber having a size of 100 × 80 mm was accommodated. An agent package was prepared.

Comparative Example 3 The thickness of the magnesium oxide thin film layer in Example 1 was increased from 500 ° to 2,000 °, and a square oxygen absorber having a size of 100 × 80 mm was accommodated in this comparative example. Was prepared.

[0020] <Comparative Example 4> The oriented polypropylene film of the oxygen permeability of Example 1 is ^{3,000cc / m 2 · day · atm} , an oxygen permeability is 120 cc / m ² ·
Instead of a day / atm stretched polyester film,
A package for oxygen scavenger of this comparative example containing a square oxygen scavenger having a size of 100 × 80 mm was prepared.

Comparative Example 5 The oxygen permeability in Example 1 was 7,000 cc / m ² · day · atm and the thickness was 15
A heat-sealing resin layer made of a low-density polyethylene layer having a thickness of μm was coated with an oxygen permeability of 2,500 cc / m ² ···
Instead of a resin layer having a heat-sealing property consisting of a polypropylene layer having a thickness of 60 μm with a day · atm, 100
A package for oxygen scavenger of this comparative example containing a square oxygen scavenger having a size of × 80 mm was prepared.

<Evaluation of Characteristics of Package> Next, the characteristics of the seven types of prepared oxygen absorber packages containing the oxygen absorber were compared and evaluated. First, the oxygen absorber package containing the oxygen absorber of Examples 1 and 2 and Comparative Examples 1 to 5 was placed at 25 ° C./60%
After being left in an atmosphere of RH for one week, the packaging bodies other than Comparative Example 1 were subjected to mechanical kneading to the magnesium oxide thin film layer on the outer surface, and the packaging body of Comparative Example 1 was left as it was, with the polyvinylidene chloride-coated polyester film / In a bag having a high barrier property composed of a laminate having a polyethylene layer structure, air 5
After inserting with absorbent cotton containing 00 cc and 5 cc of water, the bag was sealed. The oxygen concentration in the bag was measured every 4 hours, and the time required for the oxygen concentration to become 0.1% or less was determined. From that time, the oxygen absorption of the oxygen absorber package containing the oxygen absorber was determined. I checked the speed. Table 1 shows the evaluation results.

Referring to Table 1, the packages of Examples 1 and 2 which are the packages for the oxygen absorber of the present invention containing the oxygen absorber are as follows.
If the barrier property is deteriorated by applying mechanical rubbing to the thin layer of magnesium oxide on the outer surface, oxygen easily permeates into the oxygen scavenger package, so that the oxygen scavenging capacity of the stored oxygen scavenger quickly increases. Expressed. On the contrary, the five types of oxygen absorber packages of the comparative examples exhibited poor oxygen absorbing ability of the stored oxygen absorber. The composition of the laminated body used is the same as that of the conventional package for oxygen absorber, and the oxygen absorber stored in the package for oxygen absorber of Comparative Example 1, which was not double-wrapped, exhibits the oxygen absorbing ability. Was not observed. In Comparative Example 2 in which the thickness of the thin film layer of magnesium oxide was made thinner than the package for an oxygen scavenger of the present invention, the barrier property was reduced, and the stored oxygen scavenger permeated the package during storage. Since the oxygen was already consumed by oxygen, the oxygen absorbing capacity of the oxygen absorber stored at the time of use was reduced. Conversely, in Comparative Example 3 in which the thickness of the magnesium oxide thin film layer was larger than that of the oxygen-absorbing agent package of the present invention, the barrier property was not deteriorated even when mechanical rubbing was applied to the magnesium oxide thin film layer. Insufficiently, the stored oxygen absorber did not exhibit the oxygen absorbing ability. Further, Comparative Example 4 using a plastic film having a lower oxygen permeability than the plastic film according to the present invention and a heat-sealing resin layer having a lower oxygen permeability than the heat-sealing resin layer according to the present invention were used. In each of Comparative Example 5 used, the oxygen absorption rate of the stored oxygen absorber was extremely low.

[0024]

[Table 1]

[0025]

When the package for an oxygen scavenger of the present invention is used, when the oxygen scavenger is stored, the package is double-wrapped with a packaging material having a barrier property, like a conventional package for an oxygen scavenger. The oxygen barrier property of the magnesium oxide thin film layer formed on the outer surface of the package sufficiently suppresses the oxygen-absorbing capacity of the oxygen absorber to be stored. When the oxygen barrier property is deteriorated by applying moisture, heat or physical force to the thin layer of magnesium oxide formed on the outer surface of the body, oxygen permeates into the package and the oxygen scavenging capacity of the stored oxygen absorber Is rapidly expressed.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of a laminate according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view of a package for an oxygen scavenger according to an embodiment of the present invention, in which the oxygen scavenger is stored.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Laminated body 11 ... Plastic film 12 ... Magnesium oxide thin film layer 13 ... Heat-sealing resin layer 20 ... Oxygen scavenger package 21 ... Heat-fused part 30 ... Oxygen scavenger

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-6-218865 (JP, A) JP-A-5-33122 (JP, A) JP-A-5-3776 (JP, A) JP-A-2- 261639 (JP, A) JP-A-1-17669 (JP, A) JP-A-60-49934 (JP, A) JP-A-53-117684 (JP, A) JP-A-2-126825 (JP, U) (58) Field surveyed (Int. Cl. ⁷ , DB name) B32B 1/00-35/00 B65D 85/50

Claims (1)

(57) [Claims] An oxygen permeability of 1,000 cc / m ² · d
A thin film layer of magnesium oxide having a thickness of 300 to 1,500 ° is formed on one surface of a plastic film having a thickness of not less than ay.atm, and the other surface has an oxygen permeability of 3,000 cc.
/ M ² · day · atm or more, using a laminate formed with a resin layer having a heat-sealing property of not less than the resin layers, the resin layers are superposed on each other, and the peripheral portion is heat-sealed and sealed.
A package for an oxygen absorber containing an oxygen absorber.