JP7338141B2 - Oxygen-absorbing film package - Google Patents

Description

TECHNICAL FIELD The present invention relates to an oxygen-absorbing film package comprising a roll of oxygen-absorbing film wound around a core and an exterior bag capable of packaging the roll under reduced pressure. More specifically, the present invention relates to an exterior packaging under reduced pressure. The present invention relates to an oxygen-absorbing film package in which wrinkles of the body are prevented from being transferred to the roll surface of the oxygen-absorbing film.

In the field of packaging containers, in addition to oxygen barrier properties that suppress the permeation of oxygen from the outside, in order to prevent the contents from oxidizing, deteriorating, or growing mold, oxygen absorption properties that can absorb residual oxygen inside the container. is widely used.
Such oxygen-absorbing packaging materials are composed of a resin composition containing an oxygen scavenger such as iron powder, an oxidative organic component, and a transition metal catalyst in a matrix resin. absorbs oxygen by reacting with it. Such an oxygen absorption reaction is an irreversible reaction, and once a packaging material reacts with oxygen, it loses its ability to absorb oxygen. are required to do so.

From this point of view, for example, in Patent Document 1 below, a roll-shaped oxygen-absorbing film wound around a winding core is placed in an outer bag having oxygen barrier properties, and the inside of the package is depressurized and degassed. , to suppress the decrease in the oxygen absorption capacity of the oxygen-absorbing film.

JP 2011-235915 A

However, when vacuum degassing is performed to remove oxygen in the exterior bag, the exterior bag is crimped to the outer peripheral surface of the roll of the oxygen-absorbing film in a wrinkled state. As a result, the wrinkles of the outer bag are transferred to the oxygen-absorbing film, and the oxygen-absorbing film with such wrinkles cannot be used as a product due to appearance problems and must be discarded. be.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an oxygen-absorbing film package comprising a roll of oxygen-absorbing film and an exterior bag containing the roll-shaped oxygen-absorbing film, in which deterioration of the oxygen-absorbing performance of the oxygen-absorbing film is effectively suppressed. The object of the present invention is to provide an oxygen-absorbing film package capable of effectively suppressing the transfer of wrinkles in the exterior bag to the oxygen-absorbing film, which are generated when the inside of the exterior bag is depressurized and degassed.

According to the present invention, in the oxygen-absorbing film package comprising a roll of oxygen-absorbing film wound around a core and an exterior bag for packaging the roll of oxygen-absorbing film in a decompressed state, the oxygen-absorbing A cushioning material is disposed between the outer peripheral surface of the roll of the protective film and the outer bag for preventing the wrinkles of the outer bag from being transferred to the roll surface of the oxygen-absorbing film, and the cushioning material has a thickness of 1. 0.0 to 6.0 mm, wherein the foam film is made of foamed polyethylene film, and the foam film extends the outer peripheral surface of the roll of the oxygen-absorbing film by 0.5 to 10.0 mm. There is provided an oxygen-absorbing film package having an overlapping length in the range of 0 cm, wherein the width of the foamable film is 1 to 5 mm wider than the width of the roll of the oxygen-absorbing film. be.
Further, according to the present invention, there is provided an oxygen-absorbing film package comprising an oxygen-absorbing film roll wound around a core and an exterior bag for packaging the oxygen-absorbing film roll in a decompressed state, wherein: A cushioning material is arranged between the outer peripheral surface of the roll of the oxygen-absorbing film and the outer bag to prevent the wrinkles of the outer bag from being transferred to the surface of the roll of the oxygen-absorbing film. is in the range of 100 to 500 μm and the tensile modulus is in the range of 2000 to 5000 MPa, the non-foaming film is made of a polyethylene terephthalate film, and the non-foaming film is the oxygen It has a length that overlaps the outer peripheral surface of the roll of the absorbent film in the range of 0.5 to 10.0 cm, and the width of the non-foaming film is 1 to 1 more than the width of the roll of the oxygen-absorbing film. An oxygen-absorbing film package is provided that is characterized by being 2 mm narrow .

In the oxygen-absorbing film package of the present invention ,
1 . wherein the non-foamable film is a biaxially oriented polyethylene terephthalate film;
2 . The exterior bag is made of a laminate having a barrier layer;
is preferred.

In the oxygen-absorbing film package of the present invention, the roll of the oxygen-absorbing film is housed in an oxygen-blocking exterior bag, and the interior of the exterior bag is maintained in a decompressed state. Since permeation is suppressed and there is no residual oxygen in the exterior bag, deterioration of the oxygen absorption performance of the oxygen-absorbing film is effectively prevented. Moreover, even if the exterior bag is crimped on the roll surface of the oxygen-absorbing film while the exterior bag is wrinkled due to the reduced pressure, the cushioning material exists between the exterior bag and the roll of the oxygen-absorbing film. It is possible to effectively prevent the wrinkles of the bag from being transferred to the roll of the oxygen-absorbing film.

In the oxygen-absorbing film package of the present invention, a cushioning material is interposed between the roll-shaped oxygen-absorbing film wound around the winding core and the exterior bag for containing the roll of the oxygen-absorbing film. and is in a decompressed state. For this reason, the exterior bag is crimped to the surface of the oxygen-absorbing film in a wrinkled state. Wrinkles are prevented from being transferred to the surface.

(oxygen-absorbing film)
The oxygen-absorbing film in the present invention is applicable without limitation as long as it has a function of capturing oxygen by reacting with oxygen. Examples thereof include conventionally known oxygen-absorbing films such as a film made of an oxygen-absorbing resin composition containing an oxidizable organic component and a transition metal catalyst, and a resin film containing an oxygen absorber such as iron powder. . In addition to the monolayer film of the oxygen-absorbing film, it may be a multi-layer film containing a layer composed of an oxygen-absorbing film.
As the winding core for winding the oxygen-absorbing film into a roll, conventionally known winding cores made of paper, plastic, metal, etc. can be used without limitation. Further, the winding core is generally hollow tubular, but is not limited to this, and may be solid columnar.

(Outer bag)
The exterior bag used to maintain the oxygen absorption performance of the oxygen-absorbing film is designed to prevent oxygen from entering the interior of the exterior bag, so that the exterior bag can be kept in place even when the exterior bag is compressed (wrinkled). A conventionally known exterior bag can be used as long as the internal pressure reduction state can be maintained.
In the present invention, an exterior bag having at least a barrier layer capable of blocking oxygen permeation can be suitably used from the viewpoint of suppressing permeation of oxygen into the interior of the exterior bag and maintaining a decompressed state in the interior of the exterior bag for a long period of time. . Examples of the barrier layer include, but are not limited to, a light metal foil such as an aluminum foil, an inorganic deposition layer, or a barrier layer made of an oxygen-barrier resin such as an ethylene-vinyl alcohol copolymer or a polyamide resin.
Specifically, at least a barrier layer is provided, and if necessary, a layer made of a heat-sealable resin such as polyethylene or polypropylene, a layer having mechanical strength made of a stretched film of nylon, polyethylene terephthalate, or polybutylene terephthalate, or the like. It preferably consists of a multilayer film.
Although not limited to this, a laminate having a layer structure of polyamide/aluminum foil/polyamide/polyethylene in order from the outside is used as an outer bag that can maintain oxygen barrier properties and the like without cracks or other damage even when compressed under reduced pressure. An exterior bag consisting of can be exemplified.

The outer bag is not limited to a bag formed by bonding the periphery of the film by heat sealing or the like in advance, but is formed by wrapping a roll of the oxygen-absorbing film with the film and then bonding the periphery of the film to form a bag. Alternatively, the roll of the oxygen-absorbing film may be accommodated in the exterior bag and the exterior bag may be formed at the same time.
From the viewpoint of reducing the occurrence of wrinkles under reduced pressure, the outer bag preferably has a volume about 1.2 to 8.0 times the volume of the roll of the oxygen-absorbing film.

(buffer material)
The cushioning material interposed between the roll of the oxygen-absorbing film contained in the exterior bag and the exterior bag is designed to prevent wrinkles formed in the exterior bag by decompressing the interior of the exterior bag. It is important not to transfer a step caused by folding or overlapping) to the oxygen-absorbing film.
As such a cushioning material, a flexible foam film that can absorb wrinkles (steps) formed in the exterior bag, or a non-foaming film that has a rigidity that does not transfer the shape even if it comes into contact with the wrinkles (steps). It preferably consists of
In addition, in order to interpose the cushioning material between the roll-shaped oxygen-absorbing film and the exterior bag for housing the roll of the oxygen-absorbing film, when a sheet-shaped cushioning material is wound around the film roll, , a portion where the cushioning material overlaps occurs. Since a step is generated in the cushioning material at this overlapping portion, it is also important that the step is not transferred to the oxygen-absorbing film.
Therefore, the cushioning material should be made of a flexible foamed film that can absorb the stepped portion of the cushioning material, or a rigid non-foamed film that does not transfer its shape even when it comes into contact with the stepped portion. is more preferred.

[Foam film]
As described above, even if the wrinkles (steps) generated in the exterior bag are transferred to the side facing the exterior bag, the foamed film must not have wrinkles formed on the roll of the oxygen-absorbing film. is important.
In order for the foamed film to have such performance, the thickness of the foamed film is important, and it is desirable that the thickness be in the range of 1.0 to 6.0 mm, particularly 1.0 to 4.0 mm. . That is, when the thickness of the foamed film is thinner than the above range, the wrinkles of the exterior bag cannot be sufficiently absorbed, and there is a possibility that the transfer to the oxygen-absorbing film roll cannot be prevented. On the other hand, if the thickness of the foamed film is thicker than the above range, a large level difference is generated in the overlapped portion of the foamed film, and this level difference may be transferred to the oxygen-absorbing film roll. is also undesirable.
In the present invention, conventionally known foamed films can be used as the foamed film as long as it has a thickness within the above range. Specific examples include foamed polyethylene film, foamed polypropylene film, foamed polystyrene film, etc. A polyethylene film can be preferably used.

When a foamed film is used as the cushioning material, it is preferred that the foamed film has a width greater than the width of the roll of the oxygen-absorbing film, preferably about 1 to 5 mm wider. As a result, the foamed film can also cover and protect the edge portions of the roll of the oxygen-absorbing film, thereby preventing deformation of the edge portions of the roll of the oxygen-absorbing film. It is also possible to reduce the risk of damage such as cracks occurring in the exterior bag due to the edge portion of the roll of the oxygen-absorbing film.
In addition, the length of the foamed film can be set according to the roll diameter of the oxygen-absorbing film. It is preferred to have a length that wraps.

[Non-foaming film]
As described above, even if the non-foamed film comes into contact with wrinkles (steps) generated in the exterior bag, the wrinkles are not transferred to the non-foamed film itself, or even if they are transferred, the amount is very small. It is important to have a stiffness that does not have any effect on the elastic film.
In order for the non-foamed film to have such performance, the thickness and tensile modulus of the non-foamed film (JIS K7127 compliant) are important, and the thickness is in the range of 100 to 500 μm, particularly 150 to 250 μm. , the tensile modulus of elasticity (MD direction and TD direction) is desirably in the range of 2000 to 5000 MPa, particularly in the range of 2500 to 4000 MPa. That is, when the thickness of the non-foamed film is thinner than the above range, or when the tensile elastic modulus is lower than 2000 MPa, there is a risk that the wrinkles of the outer bag may be transferred to the non-foamed film, and the oxygen-absorbing film may be damaged. It may not be possible to prevent the occurrence of wrinkles on the roll. On the other hand, when the thickness of the non-foamed film is thicker than the above range, a large difference in level occurs in the overlapping portion of the non-foamed film, and this difference in level may be transferred to the oxygen-absorbing film roll. Not desirable from any point of view. If the tensile modulus of elasticity is greater than the above range, the rigidity of the non-foamed film is high, making it difficult to wind the film around an oxygen-absorbing film roll, resulting in poor workability. A non-foamed film may crack or split.

In the present invention, as the non-foamed film, conventionally known non-foamed films can be used as long as they have the thickness and tensile modulus within the above ranges. Specifically, films made of polyesters such as polyethylene terephthalate and polybutylene terephthalate, polyolefins such as polyethylene and polypropylene, polyamides such as nylon, ethylene-vinyl alcohol copolymers, etc., as well as laminates and blends made of these resins. A composite material consisting of can be exemplified. Moreover, as long as it has the thickness and tensile modulus within the above ranges, it may be either an unstretched film or a stretched film. A particularly suitable non-foamed film is a biaxially oriented polyethylene terephthalate film.

When a non-foamed film is used as the cushioning material, the non-foamed film preferably has a width narrower than the width of the roll of oxygen-absorbing film, preferably about 1 to 2 mm narrower. That is, since the non-foamed film has high rigidity, if it is wider than the roll of the oxygen-absorbing film and protrudes beyond the edges of the roll of the oxygen-absorbing film, the non-foamed film may damage the outer bag. There is
In addition, the length of the non-foamed film can be set according to the roll diameter of the oxygen-absorbing film. have lengths that overlap in range.

[Oxygen-absorbing film package]
The oxygen-absorbing film package of the present invention comprises a roll (original roll) in which a long oxygen-absorbing film is wound around a core, and the outer peripheral surface of the roll (original fabric) is covered with a cushioning material made of foamed film or non-foamed film. After putting it in, the inside of the exterior bag is degassed as much as possible by a vacuum pump or the like, and it can be manufactured by sealing in a decompressed state.
In the oxygen-absorbing film package of the present invention, the inside of the exterior bag is deaerated and depressurized as much as possible, so the oxygen-absorbing performance of the oxygen-absorbing film is not impaired. Moreover, as described above, since the cushioning material is interposed between the roll of the oxygen-absorbing film and the outer bag so as to cover the outer peripheral surface of the roll of the oxygen-absorbing film, the wrinkles generated in the outer bag due to decompression are removed by the oxygen-absorbing film. is effectively prevented from being transferred to the surface of the roll.

(Test method)
The outer peripheral surface of the roll body of the oxygen-absorbing film was covered with a sheet shown in Tables 1 and 2 below as a cushioning material so that the overlap length was 5 cm. (consisting of a laminate with an inner layer polyethylene of 70 μm), and after depressurizing as much as possible, it was sealed.
After being stored at room temperature for one month in the sealed state, the film roll was opened and the appearance of the oxygen-absorbing film roll was visually confirmed.
The criteria for appearance evaluation are as follows. The test results are shown in Tables 1 and 2 below.
⊚: Wrinkle transfer on the exterior bag could be prevented.
◯: Wrinkle transfer on the exterior bag could be prevented, but the overlapping step mark of the sheet was conspicuous.
x: Wrinkles on the exterior bag were transferred.

Claims (4)

An oxygen-absorbing film package comprising a roll of oxygen-absorbing film wound around a core and an exterior bag for containing the roll of oxygen-absorbing film under reduced pressure,
A cushioning material is arranged between the outer peripheral surface of the roll of the oxygen-absorbing film and the outer bag to prevent the wrinkles of the outer bag from being transferred to the roll surface of the oxygen-absorbing film,
The cushioning material is a foamed film having a thickness in the range of 1.0 to 6.0 mm,
The foamable film is made of foamed polyethylene film,
The foamable film has a length that overlaps the outer peripheral surface of the roll of the oxygen-absorbing film in the range of 0.5 to 10.0 cm,
The width of the foamable film is 1 to 5 mm wider than the width of the roll of the oxygen-absorbing film.
An oxygen-absorbing film package characterized by: An oxygen-absorbing film package comprising a roll of oxygen-absorbing film wound around a core and an exterior bag for containing the roll of oxygen-absorbing film under reduced pressure,
A cushioning material is arranged between the outer peripheral surface of the roll of the oxygen-absorbing film and the outer bag to prevent the wrinkles of the outer bag from being transferred to the roll surface of the oxygen-absorbing film,
The cushioning material is a non-foaming film having a thickness in the range of 100 to 500 μm and a tensile modulus in the range of 2000 to 5000 MPa,
The non-foaming film is made of polyethylene terephthalate film,
The non-foaming film has a length that overlaps the outer peripheral surface of the roll of the oxygen-absorbing film in the range of 0.5 to 10.0 cm,
The width of the non-foaming film is 1-2 mm narrower than the width of the roll of the oxygen-absorbing film.
An oxygen-absorbing film package characterized by: 3. The oxygen-absorbing film package according to claim 2, wherein said non-foamable film comprises a biaxially oriented polyethylene terephthalate film. The oxygen-absorbing film package according to any one of claims 1 to 3, wherein the exterior bag comprises a laminate having a barrier layer.