JP2018100108A - Lamination sheet for lid material, lid material and packaging body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lamination sheet for lid material in which there is no possibility of delamination generation upon opening a lid material even if a sealing condition between a container and the lid material is made severe.SOLUTION: A lamination sheet 10 for lid material comprises a metallic foil layer 11 and a sealant layer 13 which is laminated on one side surface of the metallic foil layer through an adhesive payer 12. The adhesive layer is formed by an adhesive agent which has Young's modulus of 70 to 400 Mpa after curing.SELECTED DRAWING: Figure 1

Description

  The present invention uses a laminated sheet for forming a lid used in combination with a container when food and beverages are hermetically packaged, a lid formed from the laminated sheet, and the lid and the container. The present invention relates to a package formed by hermetically packaging food, beverages and the like.

For example, as a package in which a beverage such as a coffee beverage or a milk beverage or a food such as various retort foods is hermetically packaged, a product obtained by heat-sealing a lid on the opening edge of a container filled with a beverage or food is known. ing.
The lid used for the package is formed from, for example, a laminated sheet including a metal foil layer such as an aluminum foil, and a sealant layer laminated on one side of the metal foil layer via an adhesive layer. The sealant layer has a structure that causes a cohesive failure in the same layer when the lid is opened from the opening edge of the container, that is, a so-called cohesive peeling type (see Patent Document 1 below).

  Here, in the case of the above-mentioned package body, a high barrier property is required for the constituent material of the container and the lid so that the beverage and food as the contents can be stored for a long period of time, and a high sealing between the container and the lid is required. Sex is required. For this reason, when heat-sealing the lid material on the opening edge of the container, the seal width should be set to ensure that both contaminants remain on the surface to be sealed (for example, the upper surface of the flange of the container) and are heat-sealed. It is not uncommon to use narrow and high temperature, high pressure sealing conditions (so-called line sealing).

Japanese Patent Laying-Open No. 2015-202879

  However, in the case of a conventional package, if the sealing conditions are strict and the container and the lid are heat sealed, the lid metal is not peeled off in the lid sealant layer when the lid is opened. In some cases, interfacial peeling between the foil layer and the sealant layer, that is, delamination (delamination) occurs, resulting in a “film residue” in which the sealant layer remains on the container side.

  An object of the present invention is to provide a laminated sheet for a lid material that does not cause delamination when the lid material is opened, even if the sealing conditions between the container and the lid material are strict, a lid material formed from the sheet, and the lid It is providing the package using a material and a container.

  In order to achieve the above object, the present invention comprises the following aspects.

1) A laminated sheet for forming a lid material heat-sealed at the opening edge of a container, comprising a metal foil layer and a sealant layer laminated on one side of the metal foil layer via an adhesive layer The laminated sheet for lid | cover materials which is provided and the adhesive bond layer is formed with the adhesive agent which has a Young's modulus of 70-400 Mpa after hardening.

2) The adhesive forming the adhesive layer is a two-part curable adhesive having a polyester resin as a main component and an isocyanate as a curing agent, and the number average molecular weight (MN) of the polyester resin as the main component is The laminated sheet for lid materials according to 1), which is 8000 to 25000.

3) The mixing ratio of the main agent and the curing agent of the two-component curable adhesive is 2 to 25 in terms of the molar ratio (NCO / OH) of the isocyanate functional group (NCO) of the curing agent to the polyol hydroxyl group (OH) of the main agent. The laminated sheet for lid materials according to 2) above.

4) Any one of the above 1) to 3), wherein the sealant layer has a structure that causes a cohesive failure in the same layer when the lid heat-sealed at the opening edge of the container is opened. Laminated sheet for lid materials.

5) The laminated sheet for lid materials according to 4) above, wherein the sealant layer is formed of a sealant film having a sea-island structure of polyolefin resin and polystyrene resin.

6) The laminated sheet for lid materials according to 5) above, wherein the sealant film has a thickness of 10 to 80 μm.

7) A lid material heat-sealed to the opening edge of the container, the lid material being formed from the laminated sheet for lid materials according to any one of 1) to 6) above.

8) A package comprising a container filled with contents and a lid material heat-sealed at the opening edge of the container, wherein the lid material is made of the lid material of 7) above.

According to the laminated sheet for a lid material of 1), since the adhesive layer joining the metal foil layer and the sealant layer is formed of an adhesive having a Young's modulus in the above range, the container and the lid material Even when the heat sealing is performed under severe sealing conditions such as wire sealing, it is possible to suppress the occurrence of delamination between the metal foil layer and the sealant layer when the lid member is opened.
Here, “Young's modulus” refers to the Young's modulus (elastic modulus) obtained by a tensile test of a cured film in accordance with JIS K7162-1994.

  According to the laminated sheet for lid materials of 2) above, by using the above-described two-component curable adhesive as an adhesive for forming the adhesive layer, the Young's modulus of the adhesive layer becomes higher, and Generation is more effectively suppressed.

  According to the laminated sheet for lid materials of 3), the Young's modulus of the adhesive is increased by setting the mixing ratio of the main agent and the curing agent in the two-component curable adhesive forming the adhesive layer in the above range. And the occurrence of delamination is effectively suppressed.

  According to the laminate sheet for a lid material of 4) above, the sealant layer is of a so-called agglomerated and peeled type that agglomerates and peels within the same layer when the lid material is opened, so that it has excellent sealing strength and heat resistance. It becomes easy to tighten the sealing conditions like a seal.

  According to the laminated sheet for lid materials of 5) above, the use of the sealant film having the above structure as the sealant layer facilitates the occurrence of cohesive peeling within the sealant layer, thereby suppressing the occurrence of delamination and generating a film residue. It becomes difficult to do.

  According to the laminate sheet for lid material of 6), sufficient seal strength can be obtained by setting the thickness of the sealant film constituting the sealant layer within the above range.

  According to the lid material of the above 7), since delamination between the metal foil layer and the sealant layer is suppressed at the time of opening, heat sealing with the container is performed under severe sealing conditions such as wire sealing. It becomes possible to carry out by, and a sealing performance can be improved.

  According to the packaging body of the above 8), the delamination between the metal foil layer and the sealant layer does not occur when the lid is opened, and the heat sealing with the container is performed under severe sealing conditions such as a line seal. Since the sealing performance can be improved by carrying out, it is possible to preserve the drinks, foods and the like as the contents for a long period of time.

It is a partial expanded sectional view which shows the layer structure of the laminated sheet for lid | cover materials by this invention. It is a partial expanded vertical sectional view of the package according to the present invention. It is a partial expanded vertical sectional view which shows the state after opening of the package.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 shows a layer structure of a laminated sheet for a lid material according to an embodiment of the present invention. FIGS. 2 and 3 show a part of a package using a lid material formed from the sheet. It is an enlarged view.

As shown in FIG. 1, the laminated sheet (10) for a lid material includes a metal foil layer (11) and a sealant layer (13) laminated on one side of the metal foil layer (11) via an adhesive layer (12). ).
The laminated sheet (10) may further include a protective layer (14) laminated on the other surface of the metal foil layer (11) as shown in the figure.

The metal foil layer (11) functions as a barrier layer that blocks gas, water vapor, etc. in the lid material (1) .For example, aluminum foil, stainless steel foil, copper foil, iron foil, nickel foil, or titanium Consists of foil. However, in view of workability and versatility, a soft aluminum foil is preferably used.
The thickness of the metal foil layer (11) is preferably 15 to 80 μm in consideration of the workability at the time of molding, the pinhole generation rate, and the economy.

The sealant layer (13) serves to heat seal the lid (1) to the opening edge (21) of the container (2), and constitutes the inner surface of the lid (1) (see FIG. 2).
In the laminated sheet (10) for a lid material according to the present invention, when the lid material (1) heat-sealed on the opening edge (21) of the container (2) is opened as the sealant layer (13) (13 The material having a structure that causes a cohesive failure in the material (ie, a cohesive peeling type) is preferably used. In the case of the cohesive peeling type sealant layer (13), even if foreign matter enters the sealed surface of the opening edge (21) of the lid (1) and the container (2), compared to the interface peeling type This is because many of them have high sealing strength and are excellent in heat resistance and can raise the sealing temperature, so that the sealing strength can be kept high as a result. Specifically, the sealant layer (13) is constituted by, for example, a sealant film having a sea-island structure of polyolefin resin and polystyrene resin. The thickness of the sealant film is preferably 10 to 80 μm in view of sealing strength, thermal conductivity, and economy.

The metal foil layer (11) and the sealant layer (13) are joined and integrated by an adhesive layer (12) interposed therebetween, and constitute a part or the whole of the thickness of the laminated sheet (10). ing.
The adhesive layer (12) is formed of an adhesive having a Young's modulus of 70 to 400 Mpa after curing. If such an adhesive is used, even when the lid (1) and the container (2) are heat-sealed under strict sealing conditions such as wire sealing, the metal foil layer ( The effect that it becomes possible to suppress generation | occurrence | production of the delamination between 11) and a sealant layer (13) is acquired.
The adhesive for forming the adhesive layer (12) is a two-component curable adhesive having a polyester resin as a main component and an isocyanate as a curing agent, and the number average molecular weight (MN) of the polyester resin as the main component. Is preferably from 8000 to 25000 (mass average molecular weight (MW) is from 15000 to 50000), whereby the Young's modulus after curing is further increased, and a further delamination generation suppressing effect is obtained. In addition, since the reaction of the main agent is efficiently performed in the two-part curable adhesive, the mixing ratio of the main agent and the curing agent is a molar ratio of the isocyanate functional group (NCO) of the curing agent and the polyol hydroxyl group (OH) of the main agent. The ratio (NCO / OH) is preferably 2 to 25.
Examples of the polyester resin constituting the main component of the two-component curable adhesive include polyester polyol, polyhydric alcohol, polyether polyol, polyester polyurethane polyol, and polyether polyurethane polyol. Preferably, polyester polyol is used. .
Examples of the isocyanate constituting the curing agent of the two-component curable adhesive include hexamethylene diisocyanate (HMDI) and isophorone diisocyanate (IPDI) in aliphatic systems, and tolylene diisocyanate (TDI) and diphenylmethane in aromatic systems. And diisocyanate (MDI).

The protective layer (14) constitutes the outer surface of the lid member (1), and covers the outer surface of the metal foil layer (11) to prevent the metal foil layer (11) from corroding. It ensures the weather resistance of the material (1), and when the outer surface of the metal foil layer (11) is printed, it serves to protect the printed surface.
This protective layer (14) is made of, for example, a coat film. For the coating film, a coating solution made of, for example, epoxy resin, chlorinated polyolefin resin, nitrified cotton, acrylic resin, vinyl chloride-vinyl acetate copolymer resin or the like is applied to the outer surface of the metal foil layer (11) and dried and solidified. Is formed.

  As shown in FIG. 2, the package (3) is heat-sealed to the container (2) filled with contents (C) such as beverages and food, and the opening edge (21) of the container (2). And a lid member (1).

The container (2) is made of, for example, a resin molded product formed into a cup shape or a tray shape by injection molding, vacuum pressure forming, or the like.
Examples of the material of the resin container (2) include polystyrene resin (PS), polyethylene resin (PE), and polypropylene resin (PP).
A substantially horizontal annular flange portion (21) facing radially outward is provided at the upper opening edge of the container (2).

The lid member (1) is a circular shape having a predetermined shape and dimensions, for example, a diameter slightly larger than the outer diameter of the annular flange portion (21) of the container (2). It consists of a cut blank.
The sealed surface to be heat-sealed on the upper surface of the flange portion (21) of the container (2) is constituted by the sealant layer (13) of the sheet (10).
Although not shown, the lid member (1) is usually provided integrally with a knob that protrudes radially outward from a part of the length of the outer peripheral edge thereof.

  A means for heat-sealing the lid material on the upper surface of the flange portion of the container is not particularly limited, but a hot plate method is usually used. In particular, in order to keep the seal strength high even when impurities are mixed in the surface to be sealed, for example, using a seal disc having a seal portion width of about 1.0 to 3.0 mm, A wire seal performed under sealing conditions of a temperature of about 140 to 300 ° C., a pressure of about 500 to 2000 N, and a heating and pressing time of about 0.5 to 1.5 sec is suitably used. In the case of a wire seal, a concave portion (211) is usually formed in the seal portion on the upper surface of the flange portion (21) in the container (2) (see FIG. 2).

  When unpacking the package (3), if the handle (2) is picked up with fingers and lifted, the lid of the flange (21) of the container (2) and the lid (1) Cohesive failure occurs in the sealant layer (13) of the material (1), whereby the lid material (1) is peeled off from the flange portion (21) of the container (2), and the package (3) as shown in FIG. Is opened.

  Next, specific examples of the present invention will be described. However, the present invention is not limited to these examples.

<Example 1>
JIS H4160 on one side of an aluminum foil having a thickness of 45μm consisting A1N30H-O defined by (2006), the cohesive failure type of sealant film with a thickness of 30μm consisting of polyolefin resin, two-component curing type 3 g / ^{m 2} Dry lamination was performed using an adhesive.
Here, in the two-component curable adhesive, the main agent is a polyester polyol resin, the curing agent is a tolylene diisocyanate resin, the number average molecular weight of the main agent is 9000, and the Young's modulus after curing is 80 MPa. A thing was used. The number average molecular weight of the main agent is measured by the gel permeation chromatography (GPC) method as follows.
・ Device: SHODEX GPC (manufactured by Showa Denko KK)
・ Detector: SHODEX RI (manufactured by Showa Denko KK)
Column: KF805L, KF803L, and KF802 (made by Showa Denko KK)
-Column temperature: 40 ° C
Eluent (solvent): tetrahydrofuran (THF) sample concentration 0.02 wt%
・ Flow rate (flow rate): 0.6 ml / min ・ Standard sample: NBS706 polystyrene sample In addition, a coating agent made of epoxy / melamine resin is applied to the other surface of the aluminum foil and then thermally cured, so that the thickness is 3 μm. A coat layer was formed.
The laminated sheet thus obtained was cut into a circle having a diameter of 85 mm to produce a lid material.
Next, the lid material was heat-sealed on the upper surface of the annular flange portion (inner diameter 61 mm, outer diameter 71 mm) of a cup made of polystyrene resin in a cup shape to obtain a package of Example 1.
The heat seal uses a seal board (hot plate) having an annular seal portion with an inner diameter of 65 mm, an outer diameter of 67 mm, and a width of 2 mm, and is line sealed under a heating temperature of 260 ° C., a pressing force of 100 kgf, and a heating and pressing time of 1 sec. went.

<Example 2>
In producing a laminated sheet for a lid material, a two-component curable adhesive used for dry lamination of an aluminum foil and a sealant film is one having a number average molecular weight of 23,000 and a Young's modulus after curing of 350 MPa. Except for this point, a package was produced in the same manner as in Example 1, and this was designated as Example 2.

<Comparative Example 1>
In producing a laminated sheet for a lid material, a two-component curable adhesive used for dry lamination of an aluminum foil and a sealant film is one having a number average molecular weight of 7000 and a Young's modulus after curing of 50 MPa. Except for this point, a package was produced in the same manner as in Example 1, and this was designated as Comparative Example 1.

<Comparative example 2>
In preparing a laminated sheet for a lid material, a two-component curable adhesive used for dry lamination of an aluminum foil and a sealant film is one having a number average molecular weight of 28000 and a Young's modulus after curing of 470 MPa. Except for the above, a package was produced in the same manner as in Example 1, and this was designated as Comparative Example 2.

<Verification of lid openability>
For each of the packaging bodies of Examples 1 and 2 and Comparative Examples 1 and 2, the lid material was opened using a tensile tester under the conditions of a tensile speed of 100 mm / min and a tensile angle of 45 °, and the film residue of the sealant film of the lid material The presence or absence of (delamination) was visually confirmed.
The results are shown in Table 1 below.

  As is clear from Table 1, in Examples 1 and 2, no delamination was observed. On the other hand, in the case of Comparative Examples 1 and 2, the occurrence of delamination, that is, the film residue of the sealant film of the lid material was seen on the container side. As the cause, in the case of the comparative example 1, it is considered that the adhesive layer by the two-component curable adhesive was soft and the strength was insufficient, and in the case of the comparative example 2, the adhesion by the two-component curable adhesive It is conceivable that the agent layer became too hard and the strength decreased.

  This invention can be suitably used as a lid material that is heat-sealed at the opening edge of a container in order to hermetically package beverages and foods.

(1): Cover material
(10): Laminated sheet for lid
(11): Metal foil layer
(12): Adhesive layer
(13): Sealant layer
(14): Protective layer
(2): Container
(21): Flange (opening edge)
(3): Packaging
(C): Contents

Claims (8)

  A laminated sheet for forming a lid that is heat-sealed at the opening edge of a container, comprising a metal foil layer and a sealant layer laminated on one side of the metal foil layer via an adhesive layer And the adhesive layer is formed of an adhesive having a Young's modulus of 70 to 400 Mpa after curing.   The adhesive forming the adhesive layer is a two-component curable adhesive having a polyester resin as a main component and isocyanate as a curing agent, and the number average molecular weight (MN) of the polyester resin as the main component is 8000 to 8000. The laminated sheet for lid materials according to claim 1, which is 25000.   The mixing ratio of the main component and the curing agent of the two-component curable adhesive is 2 to 25 in terms of a molar ratio (NCO / OH) of the isocyanate functional group (NCO) of the curing agent to the polyol hydroxyl group (OH) of the main component. 2. Laminated sheet for lid according to 2.   The sealant layer according to any one of claims 1 to 3, wherein the sealant layer has a structure that causes a cohesive failure in the same layer when opening the lid heat-sealed at the opening edge of the container. Laminated sheet for lid materials.   The laminated sheet for lid materials according to claim 4, wherein the sealant layer is formed of a sealant film having a sea-island structure of polyolefin resin and polystyrene resin.   The laminated sheet for lid materials according to claim 5, wherein the sealant film has a thickness of 10 to 80 μm.   A lid material heat-sealed to an opening edge of a container, the lid material being formed from the laminated sheet for lid materials according to any one of claims 1 to 6.   A package comprising a container filled with contents and a lid material heat-sealed at an opening edge of the container, wherein the lid material is made of the lid material according to claim 7.

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