JP2016037291A - Pouch - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pouch from which contents hardly leak out while the pouch is heated.SOLUTION: A first laminate film 10 of a pouch comprises a sealant layer 11 which is overlaid on the innermost side and which is a layer coming into contact with contents 100, and an outer layer 15 that is overlaid on the outside with respect to the sealant layer 11. In the first laminate film 10, a space 16 is formed between the sealant layer 11 and the outer layer 15.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a pouch formed of a laminated film.

  The pouch is heated by a heating means such as a microwave oven in a state where food as an example of the contents is stored in the storage space. Patent Document 1 discloses an example of a pouch heated by a heating unit.

  As an example, the pouch of Patent Document 1 is formed by sealing sealant layers of two laminated films. The two laminated films have the same layer configuration. As an example, the laminated film includes a sealant layer that is a layer in contact with the contents, and an outer layer bonded to the sealant layer via an adhesive. An example of the material constituting the sealant layer is a polyethylene film. On the other hand, an example of the material constituting the outer layer is a polyethylene terephthalate film.

JP 2011-173618 A

  When the pouch is heated by the heating means, for example, a portion of the sealant layer that is in contact with the contents becomes high temperature, and a part of the sealant layer may melt. Further, the heat of the contents is transferred from the melted portion of the sealant layer to the outer layer, and the outer layer may also melt. When the sealant layer and the outer layer are thus melted, the contents may leak from the melted portion of the outer layer to the outside of the pouch.

  An object of the present invention is to provide a pouch in which contents are not easily leaked while being heated.

  [1] According to an independent form of the present pouch, the pouch is formed of a laminated film, and the laminated film is laminated on the innermost side, and is a sealant layer that is a layer that comes into contact with the contents. An outer layer laminated outside the sealant layer is provided, and a space is formed between the sealant layer and the outer layer.

  For example, when contents such as food are contained in the pouch, when the pouch is heated by heating means such as a microwave oven, the portion of the sealant layer that is in contact with the contents is hot. And the sealant layer may melt. According to this pouch, even if the sealant layer is melted, a space is formed between the sealant layer and the outer layer, so the heat of the contents transferred from the melted portion of the sealant layer to the outer layer exists in the space. Easy to be absorbed by the air. Thereby, since it can suppress that an outer layer becomes high temperature, an outer layer is hard to melt | dissolve. Thus, according to the present pouch, the outer layer is hardly melted while being heated, so that the contents are less likely to leak out of the pouch.

  [2] According to one aspect dependent on the pouch, an intermediate layer laminated between the sealant layer and the outer layer, the material constituting the intermediate layer, and the material constituting the outer layer At least one is a uniaxially stretched film or a biaxially stretched film.

  When the pouch is formed by sealing the sealant layers, the material constituting the sealant layer is preferably, for example, a material having a relatively low melting point. Considering such points, for example, when an unstretched film is used as the material constituting the sealant layer, the tensile strength of the pouch may be lowered.

  According to this pouch, since at least one of the material constituting the intermediate layer and the material constituting the outer layer is a uniaxially stretched film or a biaxially stretched film, the tensile strength of the laminated film, that is, the tensile strength of the pouch Strength is increased.

  [3] According to an embodiment dependent on the pouch, the material constituting the intermediate layer is the uniaxially stretched film or the biaxially stretched film, and the space between the intermediate layer and the outer layer Is formed.

  The inventor of the present application adheres the sealant layer to an intermediate layer made of a uniaxially stretched film or a biaxially stretched film, so that when a part of the sealant layer is melted, the expansion of the meltable range of the sealant layer is suppressed. It was confirmed by a test.

  [4] According to one aspect dependent on the pouch, the space is formed in an unbonded portion between the continuously stacked layers, and the continuously stacked layers are At least a part of the edge is bonded, and the area of the bonded portion is smaller than the area of the unbonded portion.

  According to this pouch, a large space is formed in the central portion of the laminated film, that is, the portion corresponding to the portion in contact with the contents in the sealant layer. For this reason, since the heat of the content transmitted from the sealant layer to the outer layer is easily absorbed by more air, the outer layer is less likely to have a higher temperature. This makes it difficult for the outer layer to melt while the pouch is being heated, and the contents are less likely to leak out of the pouch.

[5] According to one aspect dependent on the pouch, a part of an edge of the continuously laminated layers includes a part that is not adhered to each other.
According to this pouch, since a part of the edge of the layer laminated | stacked continuously is not adhere | attached, space and the exterior communicate. For this reason, compared with the structure where the whole edge of the layer laminated | stacked continuously is adhere | attached, air tends to enter into space. For this reason, the heat of the contents transmitted from the sealant layer to the outer layer is easily absorbed by the air in the space.

  [6] According to one aspect dependent on the pouch, the contents are sealed in any one of the above [1] to [5].

  According to this pouch, it is difficult for the contents to leak out while being heated.

The top view of the pouch of embodiment. Sectional drawing of the 1st laminated | multilayer film which follows the D2-D2 line | wire of FIG. The top view of the outer layer and 2nd contact bonding layer of the 1st laminated film of embodiment. Sectional drawing of the 2nd laminated | multilayer film which follows the D2-D2 line | wire of FIG. The top view of the outer layer of the 2nd laminated | multilayer film of embodiment, and a 2nd contact bonding layer. Sectional drawing of the 2nd laminated | multilayer film which follows the D6-D6 line | wire of FIG. The top view of the pouch which shows the state in which the content is accommodated in the pouch of embodiment. Sectional drawing of the 1st laminated | multilayer film which follows the D8-D8 line | wire of FIG. Sectional drawing which shows the state in which a part of 1st laminated | multilayer film of FIG. 8 is melt | dissolving. Sectional drawing which shows the state which the 2nd laminated | multilayer film of embodiment is expanding. Sectional drawing which shows the state in which the hole was formed in the 2nd laminated | multilayer film of FIG. The top view of the outer layer of the 2nd lamination film of other embodiments, and the 2nd adhesion layer. The top view of the outer layer of the 2nd lamination film of other embodiments, and the 2nd adhesion layer.

The configuration of the pouch 1 will be described with reference to FIG.
The pouch 1 is formed by the first laminated film 10 and the second laminated film 20. In the pouch 1, the edge of the sealant layer 11 (see FIG. 2) that is the innermost layer of the first laminated film 10 and the edge of the sealant layer 21 (see FIG. 4) that is the innermost layer of the second laminated film 20 are sealed together. The sealing part 2 which is the part which was the same is provided. Inside the pouch 1 is formed a storage space 3 for storing contents such as food. An opening 4 for putting the contents into the accommodation space 3 is formed in a portion of the edge of the pouch 1 where the seal portion 2 is not formed. Two notches 5 for separating the pouch 1 are formed in the seal portion 2. Further, water vapor generated from the contents when the pouch 1 is heated is discharged from the storage space 3 to the outside above the notch 5 in the longitudinal direction of the pouch 1 and in the center in the short direction of the pouch 1. For this purpose, a slit 6 for steaming is formed.

With reference to FIG. 2, the layer structure of the 1st laminated | multilayer film 10 is demonstrated.
As an example, the first laminated film 10 has a three-layer structure in which a sealant layer 11, an intermediate layer 13, and an outer layer 15 formed of a transparent material are laminated.

  The sealant layer 11 is a layer that is laminated at a position closest to the accommodation space 3 in the first laminated film 10 and is in contact with the content 100 such as food. An example of the material constituting the sealant layer 11 is a polyethylene film. The entire surface of the sealant layer 11 is bonded to the intermediate layer 13 via the first adhesive layer 12.

  The intermediate layer 13 is laminated between the sealant layer 11 and the outer layer 15. An example of the material constituting the intermediate layer 13 is a biaxially stretched polyethylene terephthalate film. The intermediate layer 13 is partially bonded to the outer layer 15 via the second adhesive layer 14. For this reason, a space 16 is formed in a portion where the second adhesive layer 14 between the intermediate layer 13 and the outer layer 15 that are continuously laminated does not exist. The adhesion between the intermediate layer 13 and the outer layer 15 is performed by pattern lamination.

  The outer layer 15 is laminated at a position farthest from the accommodation space 3 in the first laminated film 10, that is, at the outermost side. An example of the material constituting the outer layer 15 is a biaxially stretched polyethylene terephthalate film.

With reference to FIG. 3, the position where the 2nd contact bonding layer 14 is formed is demonstrated.
The dots shown in FIG. 3 indicate the second adhesive layer 14. The second adhesive layer 14 is formed along the edge of the outer layer 15. The second adhesive layer 14 is not formed at the center portion of one edge extending in the short direction of the outer layer 15. On the other hand, two second adhesive layers 14 are not formed on one edge extending in the longitudinal direction of the outer layer 15 as an example. The area of the outer layer 15 where the second adhesive layer 14 is formed is smaller than the area of the portion where the second adhesive layer 14 is not formed. Further, a portion of the outer layer 15 where the second adhesive layer 14 is not formed is not bonded to the intermediate layer 13 (see FIG. 2). Therefore, a large space 16 (see FIG. 2) between the portion of the outer layer 15 where the second adhesive layer 14 is not formed and the intermediate layer 13, that is, at a position corresponding to the central portion of the first laminated film 10. Is formed.

With reference to FIG. 4, the layer structure of the second laminated film 20 will be described.
For example, the second laminated film 20 has a three-layer structure in which a sealant layer 21, an intermediate layer 23, and an outer layer 25 formed of a transparent material are laminated.

  The sealant layer 21 is laminated at a position closest to the accommodation space 3 in the second laminated film 20. An example of the material constituting the sealant layer 21 is a polyethylene film. The entire surface of the sealant layer 21 is bonded to the intermediate layer 23 via the first adhesive layer 22.

  The intermediate layer 23 is laminated between the sealant layer 21 and the outer layer 25. An example of the material constituting the intermediate layer 23 is a biaxially stretched polyethylene terephthalate film. The intermediate layer 23 is partially bonded to the outer layer 25 via the second adhesive layer 24. For this reason, a space 26 is formed in a portion where the second adhesive layer 24 between the intermediate layer 23 and the outer layer 25 that are continuously laminated does not exist. The adhesion between the intermediate layer 23 and the outer layer 25 is performed by pattern lamination.

  The outer layer 25 is laminated at a position farthest from the accommodation space 3 in the second laminated film 20, that is, at the outermost side. An example of the material constituting the outer layer 25 is a biaxially stretched polyethylene terephthalate film.

With reference to FIG. 5, the position where the 2nd contact bonding layer 24 is formed is demonstrated.
The dots shown in FIG. 5 indicate the second adhesive layer 24. As an example, the second adhesive layer 24 is formed at six locations on the surface of the outer layer 25 at intervals. The second adhesive layer 24 is not formed in the central portion of one edge extending in the short direction of the outer layer 25. On the other hand, on one edge extending in the longitudinal direction of the outer layer 25, two second adhesive layers 24 are not formed as an example. The area of the outer layer 25 where the second adhesive layer 24 is formed is larger than the area of the portion where the second adhesive layer 24 is not formed. Further, a portion of the outer layer 25 where the second adhesive layer 24 is not formed is not bonded to the intermediate layer 23 (see FIG. 4).

With reference to FIG. 6, the structure of the slit 6 for steaming is demonstrated.
The vapor slit 6 is formed in the second laminated film 20. For example, the vapor slit 6 is formed by penetrating the outer layer 25, the second adhesive layer 24, the intermediate layer 23, and the first adhesive layer 22 of the second laminated film 20 using a carbon dioxide laser. ing. In addition, it is preferable that the slit 6 for vapor transmission is formed in the part in which the space 26 does not exist in the second laminated film 20.

The operation of the pouch 1 will be described with reference to FIGS.
As shown in FIG. 7, in the pouch 1, the contents 100 are accommodated in the accommodation space 3, and the opening 4 (see FIG. 1) is sealed after the accommodation space 3 is in a vacuum state, for example. Thereby, the content 100 is sealed.

  As shown in FIG. 8, the temperature of the content 100 rises when the pouch 1 is heated by heating means (not shown) such as a microwave oven. In addition, the portion of the sealant layer 11 of the first laminated film 10 that is in contact with the content 100 is likely to be hotter than the portion that is not in contact with the content 100. In addition, when the pouch 1 is heated, water vapor is generated from the contents 100. The arrows in FIG. 8 indicate an image of water vapor generated from the contents 100.

  As shown in FIG. 9, when the portion of the sealant layer 11 that is in contact with the content 100 becomes high temperature, for example, the sealant layer 11 and the intermediate layer 13 are melted, and a part of the content 100 is It may leak into the outer layer 15. According to the pouch 1, even when the sealant layer 11 and the intermediate layer 13 are melted as described above, the heat of the content 100 is absorbed by the air existing in the space 16. For this reason, it is difficult for the outer layer 15 to become high temperature, and it is suppressed that the outer layer 15 melt | dissolves.

  As shown in FIG. 10, when the pouch 1 is heated, as the water vapor is generated, the internal pressure of the pouch 1, that is, the pressure of the accommodation space 3 gradually increases, and the pouch 1 expands.

  As shown in FIG. 11, when the pressure in the accommodation space 3 reaches a predetermined pressure, the portion of the sealant layer 21 of the second laminated film 20 where the slit 6 for vapor transmission is formed is broken and the holes 7 are formed. Is formed. For this reason, the accommodation space 3 communicates with the outside, and water vapor in the accommodation space 3 is discharged to the outside of the pouch 1 through the hole 7 and the slit 6. Thereby, compared with the case where the hole 7 is not formed, an increase in the internal pressure of the pouch 1 is suppressed, and a situation in which the internal pressure of the pouch 1 is excessively increased and the pouch 1 is ruptured hardly occurs.

  After the end user heats the pouch 1 for a predetermined time, for example, the end user grasps the seal portion 2 and takes out the pouch 1 from the heating means. After the end user takes out the pouch 1 from the heating means, the end user separates the pouch 1 through the notch 5 and takes out the content 100 from the accommodation space 3.

The pouch 1 has the following effects.
(1) Since the space 16 is formed between the sealant layer 11 and the outer layer 15 of the first laminated film 10, even when the sealant layer 11 is melted, the heat of the contents 100 is transferred to the space 16. Absorbed by the air present. For this reason, it is difficult for the outer layer 15 to become high temperature, and it is suppressed that the outer layer 15 melt | dissolves. As described above, according to the pouch 1, the outer layer 15 is not easily melted while being heated, so that the contents 100 are not easily leaked to the outside of the pouch 1.

  (2) Since the pouch 1 is formed by sealing the sealant layer 11 of the first laminated film 10 and the sealant layer 21 of the second laminated film 20, the material constituting the sealant layers 11, 21 has, for example, a melting point A relatively low material is preferred. Considering such points, for example, when an unstretched film is used as a material constituting the sealant layers 11 and 21, the tensile strength of the pouch 1 is lowered. In that respect, according to the pouch 1, since the material constituting the intermediate layers 13 and 23 and the material constituting the outer layers 15 and 25 are biaxially stretched polyethylene terephthalate films, the tensile strengths of the laminated films 10 and 20 are the same. That is, the tensile strength of the pouch 1 is increased.

  (3) The inventor of the present application adheres the sealant layer 11 and the intermediate layer 13 made of a biaxially stretched polyethylene terephthalate film, so that a part of the sealant layer 11 is melted when the sealant layer 11 is partially melted. It was confirmed by a test that the spread of the water was suppressed.

  (4) According to the pouch 1, a large space 16 is formed in the central portion of the first laminated film 10, that is, the portion corresponding to the portion in contact with the content 100 in the sealant layer 11. For this reason, the heat of the content 100 transmitted from the inside to the outer layer 15 is easily absorbed by more air, and the outer layer 15 is unlikely to become hot. Thereby, the outer layer 15 is hardly melted while the pouch 1 is being heated, and the content 100 is less likely to leak out of the pouch 1.

  (5) According to the pouch 1, since the second adhesive layer 14 is not formed at a part of the edge between the intermediate layer 13 and the outer layer 15 that are continuously stacked, the space 16 communicates with the outside. For this reason, air can easily enter the space 16 as compared with the configuration in which the second adhesive layer 14 is formed on the entire edge of the intermediate layer 13 and the outer layer 15 that are continuously stacked. For this reason, the heat of the content 100 transmitted from the sealant layer 11 to the outer layer 15 is easily absorbed by the air in the space 16.

  (6) Since the pouch 1 is formed by sealing the sealant layers 11 and 21, it is not necessary to bond the first laminated film 10 and the second laminated film 20 with an adhesive or the like. For this reason, a material required in order to manufacture the pouch 1 can be reduced.

  The specific form that the pouch can take is not limited to the form exemplified in the above embodiment. This pouch can take various forms different from the above embodiment. The modifications of the embodiment described below are examples of various forms that the pouch can take.

  As shown in FIG. 12, according to the pouch 1 of the modified example, the second adhesive layer 14 is 3 as an example on one edge extending in the short direction of the outer layer 15 of the first laminated film 10. Not formed. On the other hand, on one edge extending in the longitudinal direction of the outer layer 15, for example, three second adhesive layers 14 are not formed.

As shown in FIG. 13, according to the modified pouch 1, the second adhesive layer 14 is formed on all the edges of the outer layer 15 in the first laminated film 10.
-According to the modified example of the pouch 1, the intermediate layer 13 and the second adhesive layer 14 are omitted. According to the pouch 1 of this modification, the sealant layer 11 and the outer layer 15 are bonded via the first adhesive layer 12, and a space 16 is formed between the sealant layer 11 and the outer layer 15.

  -According to the modified pouch 1, the sealant layer 11 and the intermediate layer 13 are partially bonded via the first adhesive layer 12. That is, according to the pouch 1 of this modification, a space 16 is formed between the sealant layer 11 and the intermediate layer 13.

-According to the pouch 1 of the modified example, the pouch 1 is formed, for example, by folding the first laminated film 10 and sealing the edges of the opposing sealant layers 11 to each other.
-According to the pouch 1 of the modified example, the pouch 1 is formed by three or more films including the first laminated film 10.

  According to the modified example of the pouch 1, the entire surface of the outer layer 25 of the second laminated film 20 and the entire surface of the intermediate layer 23 are bonded by the second adhesive layer 24. That is, in the pouch 1 of this modification, no space 26 is formed between the outer layer 25 and the intermediate layer 23 in the second laminated film 20.

-According to the pouch 1 of the modification, a polypropylene film is used as a material constituting the sealant layer 11.
-According to the pouch 1 of a modification, as a material which comprises the intermediate | middle layer 13, a uniaxially stretched nylon film, a biaxially stretched nylon film, or a uniaxially stretched polyethylene terephthalate film is used. The inventor of the present application adheres the sealant layer 11 and the intermediate layer 13 made of these films, so that when the sealant layer 11 is partially melted, the spread of the meltable range of the sealant layer 11 is suppressed. It was confirmed by a test.

  -According to the pouch 1 of a modification, as a material which comprises the outer layer 15, a uniaxially stretched nylon film, a biaxially stretched nylon film, or a uniaxially stretched polyethylene terephthalate film is used.

-According to the pouch 1 of a modification, a polypropylene film is used as a material which comprises the sealant layer 21. FIG.
-According to the pouch 1 of a modification, as a material which comprises the intermediate | middle layer 23, a uniaxially stretched nylon film, a biaxially stretched nylon film, or a uniaxially stretched polyethylene terephthalate film is used.

  -According to the pouch 1 of a modification, as a material which comprises the outer layer 25, a uniaxially stretched nylon film, a biaxially stretched nylon film, or a uniaxially stretched polyethylene terephthalate film is used.

1 ... pouch 10 ... first laminated film (laminated film)
11 ... Sealant layer 13 ... Intermediate layer 15 ... Outer layer 16 ... Space 100 ... Contents

Claims (6)

A pouch formed by a laminated film,
The laminated film includes a sealant layer that is laminated on the innermost side and is in contact with the contents, and an outer layer that is laminated outside the sealant layer,
A pouch in which a space is formed between the sealant layer and the outer layer. Comprising an intermediate layer laminated between the sealant layer and the outer layer;
The pouch according to claim 1, wherein at least one of a material constituting the intermediate layer and a material constituting the outer layer is a uniaxially stretched film or a biaxially stretched film. The material constituting the intermediate layer is the uniaxially stretched film or the biaxially stretched film,
The pouch according to claim 2, wherein the space is formed between the intermediate layer and the outer layer. The space is formed in an unbonded portion between the layers that are continuously laminated,
The at least a part of each edge of the layers that are continuously laminated are bonded, and the area of the bonded portion is smaller than the area of the non-bonded portion. The pouch according to item. The pouch according to claim 4, wherein a part of an edge of the continuously laminated layer includes a portion that is not bonded to each other. The pouch according to any one of claims 1 to 5, wherein the contents are sealed.