JP2019218099A - Lid member and container therewith - Google Patents

Abstract

To provide a lid member in which an adhesion prevention function is not reduced and fusion performance to a container can be maintained even ater a process in which heat is applied to the lid member.SOLUTION: In a lid member (1) which consists of a sheet obtained by laminating at least a base member (2), an adhesion layer (3), a protection layer (4), and an attachment prevention layer (5) in this order, the adhesion layer comprises concave-convex shapes in a surface and is made of thermoplastic resin capable of being fused to a container body, and the protection layer is made of hardening resin, and the attachment prevention layer includes hydrophobic fine particles (51) whose particle diameter is 1.0 μm or less.SELECTED DRAWING: Figure 1

Description

  The present invention is a lid material that is sealed by fusing to a container opening such as a cup shape, and particularly, when a content such as a liquid, a semi-solid, or a gel-like substance is in contact with the inner surface of the lid material, it is difficult to adhere thereto. The present invention relates to a lid material and a container using the same.

In a container that contains yogurt, jelly, pudding, syrup, etc., the lid material that is sealed by fusing it to the opening of the container has a problem that the contents adhere to the inner surface of the lid material when the lid is opened because consumers eat it. there were.
When the volume of the attached contents is small, the ratio of the content to the volume is large and cannot be ignored. In addition, there is a problem that the surroundings are easily stained when the lid is opened and the lid material is lifted.

To solve such a problem, for example, in Patent Document 1,
In a lid material having at least a base material layer and a heat sealing layer,
On the outer surface of the heat sealing layer, a large number of fine projections having a height of 100 μm or less are densely provided over the entire surface,
An adhesion preventing layer is formed on the outer surface having the protrusion,
The adhesion preventing layer is made of hydrophobic fine particles, and the amount of adhesion is set to 0.05 g / m ² or more and at most to an amount that slightly covers the top end surface of the fine projections. We have proposed a lid material to prevent material adhesion.

  However, since this lid material is provided with an anti-adhesion layer directly on the outer surface of the heat-sealing layer, it can be used for heat drying when applying the anti-adhesion layer or for heat-sealing the lid material to a container. There is a problem that the state of the heat sealing layer changes depending on the step of using heat, and the performance of the adhesion preventing layer is reduced.

Japanese Patent No. 5441843

  Therefore, it is an object of the present invention to provide a lid material that does not lower the adhesion prevention function even after a step of applying heat to the lid material and that can maintain the fusion performance to a container.

The invention according to claim 1 of the present invention
At least, a base material, an adhesive layer, a protective layer, a lid material comprising a sheet laminated in the order of the adhesion preventing layer,
The adhesive layer has an uneven shape on the surface, and is made of a thermoplastic resin that can be fused to the container body,
The protective layer is made of a curable resin,
A lid material, wherein the adhesion preventing layer contains hydrophobic fine particles having a particle diameter of 1.0 μm or less.

  In the lid material of the present invention according to claim 1, by providing the protective layer between the adhesive layer and the adhesion preventing layer, the uneven shape of the adhesive layer does not change even by radiant heat received when sealing the lid material. Therefore, the performance of the adhesion preventing layer in contact with the contents can be maintained.

The invention according to claim 2 of the present invention, the thickness of the protective layer of the coating amount after drying, Lid according to claim 1, characterized in that a range of 1.0 to 5.0 g / m ² Material.

Lid of the present invention according to claim 2, the thickness of the protective layer of the coating amount after drying, by a 1.0 to 5.0 g / m ^2, at the time of thermal bonding, to ensure that anti-adhesion layer Cracks are generated, the adhesive layer is made to flow out, and fusion is possible.

  The invention according to claim 3 of the present invention is the lid material according to claim 1 or 2, wherein the protective layer is made of a thermosetting resin.

  In the lid material according to the third aspect of the present invention, since the protective layer is a thermosetting resin, the protective layer does not soften when heat is applied, and maintains the concavo-convex shape provided by the adhesive layer. Can be.

  The invention according to claim 4 of the present invention is the lid according to any one of claims 1 to 3, wherein the adhesive layer is made of a hot melt adhesive.

  Since the adhesive layer is a hot-melt adhesive, when the protective layer is broken by heating and pressurizing, the lid material of the present invention according to claim 4 can be removed from the gap of the protective layer which is surely broken. The adhesive flows out and can be fused to the container body.

  The invention according to claim 5 of the present invention is characterized in that when the lid material is fused to the container body, heat and pressure are applied to the lid material, so that a crack is generated in the protective layer and the adhesion preventing layer, and the adhesive layer is formed through the generated crack. The lid material according to any one of claims 1 to 4, wherein the resin can be fused to the container body.

  In the lid material according to the fifth aspect of the present invention, heat and pressure are applied only to the portion to be fused with the container, so that the material can be fused, and the protective layer and the adhesion preventing layer are broken near the opening in contact with other contents. There is no danger of contents being attached.

  Lid material of the present invention, by providing a protective layer between the adhesive layer and the anti-adhesion layer, even by radiant heat received when sealing the lid material, since the uneven shape of the adhesive layer does not change, the content is It is possible to maintain the performance of the adhesion preventing layer in contact.

It is an expanded sectional view showing the structure of the lid material of the present invention.

Hereinafter, an embodiment of a lid material of the present invention and a container having the same will be described in detail with reference to the drawings.
As shown in FIG. 1, the lid 1 of the present invention is formed from a sheet in which a substrate 2, an adhesive layer 3, a protective layer 4, and an adhesion preventing layer 5 are laminated in this order.

The substrate 2 is made of paper, a film, a metal foil, or a laminated sheet obtained by multiplying them.
As the paper, high quality paper, special high quality paper, coated paper, art paper, cast coated paper, imitation paper, kraft paper, or the like can be used.
Examples of the film include polyolefins such as polyethylene and polypropylene, acid-modified olefin resin films such as ethylene-vinyl acetate copolymer and ethylene-methacrylic acid copolymer, and polyester resin films such as polyethylene terephthalate and polybutylene terephthalate. , 6-nylon and other polyamide-based resin films, polyvinyl chloride and other halogenated ethylene resin films, cellulose acetate and cellophane and other fiber-based films.

Further, a laminated film obtained by laminating two or more of the above materials can also be used. In this case, a metal foil, metal deposition, metal oxide deposition, or the like may be combined and combined to form a laminated film having high barrier properties. Similarly, a film having a high barrier property such as a saponified ethylene / vinyl acetate copolymer may be laminated.
Examples of the metal foil include aluminum foil, copper foil, tin foil, nickel foil, titanium foil, lead foil, pure iron foil, and other pure metal foils, as well as aluminum alloy foil, brass foil, stainless steel foil, nickel foil, and the like. Metal alloy foils can also be used. The metal foil is useful for preventing light transmission and protecting contents that degrade by light.
When a metal oxide deposited layer such as silicon oxide is laminated on the above film or the like instead of the metal foil, it is possible to prevent water vapor permeation, and it is effective in preventing deterioration of the contents due to moisture, deterioration and decay. . This is particularly useful when transparency is required so that the contents can be confirmed.
In addition to the metal foil, there is a method of bonding a film having a high barrier property. Films with high barrier properties include ethylene-vinyl alcohol copolymer, polyvinylidene chloride, polyacrylonitrile, cellulose acetate, biaxially oriented polyethylene terephthalate, oriented films of polyethylene and polypropylene, biaxially oriented polyamide films, cellophane films, and polychlorinated films. A film composed of a vinyl film or the like can be used.
Further, a polyvinylidene coat, a polyvinyl alcohol coat, an acrylic resin-based coat, or the like may be applied to the film.

The adhesive layer 3 is a layer having a sealing function with respect to the container opening, and a thermoplastic resin according to the material of the container body or the intended use can be used.
That is, it can withstand the use of each container such as a chilled or frozen container, an aseptic container that fills and seals the contents under a sterile atmosphere, and a boil or retort container after sealing. It must be an adhesive layer.
Depending on the purpose of use, thermoplastic resins containing ethylene resin, polyacrylate resin, ethylene / vinyl acetate copolymer resin, modified polyolefin resin, etc. as main components can be used.
Usually, the thermoplastic resin can be melt-coated with a T-die or the like and laminated, or dissolved in a compatible organic solvent, and roll-coated, gravure-coated, dip-coated, spray-coated, bar-coated, etc. Can be applied onto the base material 1 by the coating method described above.

However, when a hot-melt material having a high fluidity at the time of melting and a high solidification speed is used as the adhesive layer 3 for the cover material of the present invention, particularly good results are easily obtained.
Some hot melt materials are softened by heating at a softening point of the order of 70 ° C., and the coating amount can be easily increased.
Basically, the hot melt adhesive can be heated and melted in a tank, pumped by a pump, and the pumped hot melt adhesive can be applied to a gun by using a hot melt applicator at a gun tip.
Various coating methods such as spot coating, line coating, surface coating, spiral coating, spray coating, and roll coating are possible depending on the type of gun.
Also, the coating may be performed by applying a gravure method with dot-like irregularities.

The hot melt material contains at least one of a wax, a thermoplastic resin, and a tackifier.

As the wax, both a natural wax and a synthetic wax can be used.
Natural waxes include candelilla wax, carnauba wax, rice bran wax, and beeswax. In addition, as the synthetic wax, paraffin, microcrystalline, polyethylene wax, polypropylene wax, montan wax, Fischer-Trops wax and the like can be used.

  As the thermoplastic resin, polyvinyl chloride, polyvinylidene chloride, polyvinyl alcohol, polystyrene, acrylonitrile / styrene copolymer, acrylonitrile / butadiene / styrene copolymer, polyethylene, ethylene / vinyl acetate copolymer, polypropylene, polyoxymethylene , Polymethyl methacrylate, methacryl / styrene copolymer, cellulose acetate, polycarbonate, polyethylene terephthalate, polyamide, thermoplastic polyurethane, polytetrafluoroethylene, tetrafluoroethylene / hexafluoropropylene copolymer, polychlorotrifluoroethylene And fluorocarbon resins such as perfluoroalkoxy fluororesin, ethylene / tetrafluoroethylene copolymer, and polyvinylidene fluoride, and can be used according to the application.

  Examples of the tackifier include a rosin derivative, a polyperten resin, a petroleum resin, and the like, and can be used depending on the application.

It is preferable that the surface of the adhesive layer 3 has an uneven surface. Since the surface has irregularities, it is difficult for the contents to adhere thereto, and it is preferable that the convexes have a height of 100 μm or less. The convex pattern preferably has regular heights and intervals, but does not necessarily have to be patterned.
At the time of coating, it is preferable to apply in a projection shape. For example, a method of coating in a dot form by a printing method has high productivity and can be applied in a pattern with a stable height and interval.
Further, a material obtained by kneading particulate or fibrous beads or fillers with the adhesive layer material may be used.

The protective layer 4 uses a curable resin in which polymerization of the resin proceeds due to external factors such as heat and ultraviolet rays.
If a thermoplastic resin is used for the protective layer, it cannot be used because it is softened by heat and loses the effect of preventing adhesion.
As the resin that can be used for the protective layer, an acrylic curable resin, a urethane curable resin, an epoxy curable resin, a melamine curable resin, a phenol curable resin, a silicone curable resin, a polyester curable resin, or the like can be used. .
One-part curing type or two-part curing type may be used, and thermosetting or photocuring may be used.
However, when the material is pressurized simultaneously with heating, the material is likely to crack and break easily.

  The adhesion preventing layer 5 provided on the surface of the protective layer 4 is formed of a composition comprising hydrophobic fine particles 51 having a particle diameter of 1.0 μm or less and a binder 52 capable of fixing the fine particles. The adhesion preventing layer 5 forms a minute uneven surface that can be formed by the hydrophobic fine particles 51, and can prevent the contents from adhering.

As the hydrophobic fine particles 51, fine particles that have been subjected to a surface treatment for imparting a hydrophobic functional group to the surface of the inorganic oxide particles can be used.
As the inorganic oxide particles, silica, alumina, magnesia, titanium oxide and the like can be used.
As the surface treatment for imparting a hydrophobic functional group, a surface treatment using a silane coupling agent can be used, and any of a wet method and a dry method may be used. Particularly, a dry method such as a DVD method and a plasma method is preferable.

  Examples of the silane coupling agent include a dimethylsilyl silane coupling agent, a trimethylsilyl silane coupling agent, a dimethylpolysiloxane silane coupling agent, an aminoalkylsilyl silane coupling agent, an alkylsilyl silane coupling agent, and methacrylsilyl. Although a silane coupling agent can be used, a trimethylsilyl silane coupling agent having many methyl groups is particularly preferable.

  Further, as the silane coupling agent, a fluorine-based silane coupling agent can also be used. As the fluorine-based silane coupling agent, a silane coupling agent having a fluoroalkyl group as a hydrophobic group can be used. For example, trifluoropropyl trialkoxysilane, heptadecafluorodecyl trialkoxysilane and the like can be used.

Further, fine particles of a fluororesin may be used as hydrophobic fine particles.
Examples of the fine particles of the fluororesin include polytetrafluoroethylene, polychlorotrifluoroethylene, polyhexafluoropropylene, tetrafluoroethylene-hexafluoropropylene copolymer, polyvinyl fluoride, polyvinylidene fluoride, and perfluoroalkoxy resin. Fine particles can be used.

As the binder 52, a cured product obtained by a dealcoholization reaction or a dehydration reaction of a metal alkoxide can be used. A cured product obtained by mixing and curing a metal alkoxide and a silane coupling agent can also be used.
Metal alkoxides can be described by the general formula M (OR) _n .
(Where M is a metal atom such as Si, Ti, Al, etc., R is an alkyl group, and n is an integer)
Among them, a metal alkoxide in which the metal atom M such as tetraethoxysilane or aluminum isopropoxide is made of Si, Ti or Al is particularly preferable.
Further, as the silane coupling agent, those having a vinyl group, an epoxy group, a styryl group, a methacrylic group, an acryl group, an amino group, a ureide group, a mercapto group, a sulfide group, and an isocyanate group as functional groups can be used.

The anti-adhesion layer 5 can be formed by adding the hydrophobic fine particles 51 to the material of the binder 52, mixing and applying the mixture to the surface of the protective layer 4, heating and drying, and thermosetting.
It is preferable to apply the coating so that the thickness of the adhesion preventing layer 5 after drying and curing is 0.5 to 3.0 g / m ² .
When the thickness of the adhesion preventing layer 5 is less than 0.5 g / m ^2, a portion where the protective layer is exposed occurs, and a sufficient adhesion preventing effect cannot be obtained.
If the thickness of the adhesion preventing layer 5 is 3.0 g / m ² or more, cracks are less likely to occur in the adhesion preventing layer 5 at the time of sealing, and a problem arises in that sufficient sealing strength with the periphery of the container opening cannot be obtained.

  The application method of the anti-adhesion layer 5 includes general roll coating, direct gravure coating, reverse gravure coating, bar coating, kiss reverse coating, die coating, doctor blade coating, dip coating, spray coating, and hand coating with a brush. It can be applied by coating or the like.

FIG. 2 is an enlarged cross-sectional view showing a state where a lid material of the present invention is fused to a container.
The cover material 1 of the present invention is in contact with the peripheral edge 6 of the container opening, and when heat and pressure are applied, cracks occur in the protective layer 4 inside the adhesion preventing layer 5 and the thermoplastic resin of the adhesive layer 3 below it. Can melt and come into contact with the peripheral edge 6 of the container opening. As described above, when the thermoplastic resin of the adhesive layer 3 that has passed over the protective layer 4 comes into contact with the end surface of the peripheral edge of the container opening, and in some cases, the fusion pool 31 is formed on the peripheral edge, the fusion strength is increased, and Can be fused.
On the inner surface of the lid 1 not in contact with the peripheral edge 6 of the container, no cracks or the like occur in the protective layer 4 and the adhesion preventing layer 5 does not collapse, so that the contents do not adhere to the inside of the opening.
In this way, the lid 1 can be fused to the container.

<Example 1>
As a cover material, a 7 μm-thick aluminum foil was adhered to the inner surface side of a 12 μm-thick polyethylene terephthalate film as a base material layer using a urethane-based adhesive by a dry lamination machine. Further, a low-density polyethylene resin having a thickness of 25 μm was formed on the surface of the aluminum foil side with a T-die while being bonded by an extrusion lamination machine to produce a base material layer.
As an adhesive layer, a hot melt adhesive having a Vicat softening point of 75 ° C. (Toyo Melt (registered trademark) H-319FA manufactured by Toyo Adre Co., Ltd.) was applied to the low-density polyethylene resin surface of the base material layer by a gravure coating machine.
In the gravure coating, a grid plate having a line width of 75 lines / inch and a depth of 145 μm was used as a gravure plate, and a regular convex shape having a pitch of 340 μm and a height of 45 μm was formed on the surface of the adhesive layer.
As a protective layer, a thermosetting two-component curable polyester resin (Dick Seal (registered trademark) A-970NT, a curing agent KN-75, manufactured by DIC Graphics Co., Ltd.) is applied on the adhesive layer, and a drying oven is used. And dried so that the coating amount after drying was 2.4 g / m ² .
Silica fine particles (RY200S, manufactured by Nippon Aerosil Co., Ltd.) obtained by subjecting hydrophobic fine particles to a surface treatment with a dimethylsiloxane-based silane coupling agent having an average primary particle diameter of 12 nm as an adhesion preventing layer, and using tetraethoxysilane as a binder. A coating solution mixed at a ratio of 1: 1 was applied so as to be 1.2 g / m ² to prepare a lid material.

<Example 2>
As an adhesive layer, a hot melt adhesive having a Vicat softening point of 103 ° C. (Toyo Melt (registered trademark) H-232, manufactured by Toyo Adre Co., Ltd.) was applied to the low-density polyethylene resin surface of the base material layer by a gravure coating machine.
In other respects, a lid material was prepared according to Example 1.

<Example 3>
As a protective layer, a two-component curable polyester resin (thermosetting type) was applied on the adhesive layer such that the applied amount after drying was 1.2 g / m ² .
In other respects, a lid material was prepared according to Example 1.

<Example 4>
As a protective layer, a two-component curable polyester resin (thermosetting type) was applied on the adhesive layer so that the applied amount after drying was 4.8 g / m ² .
In other respects, a lid material was prepared according to Example 1.

<Comparative Example 1>
A lid member was prepared in the same manner as in Example 1 except that the protective layer was not provided.

<Comparative Example 2>
A lid material was prepared in the same manner as in Example 2, except that the protective layer was not provided.

<Comparative Example 3>
As a protective layer, a two-component curable polyester resin (thermosetting type) was applied on the adhesive layer so that the applied amount after drying was 0.8 g / m ² .
In other respects, a lid material was prepared according to Example 1.

<Comparative Example 4>
As a protective layer, a two-component curable polyester resin (thermosetting type) was applied on the adhesive layer so that the applied amount after drying was 5.2 g / m ² .
In other respects, a lid material was prepared according to Example 1.

<Comparative Example 5>
As a protective layer, a thermoplastic low-density polyethylene was laminated on the adhesive layer with an extrusion lamination machine to a thickness of 5.2 g / m ² .
In other respects, a lid material was prepared according to Example 1.

<Comparative Example 6>
As a protective layer, a thermoplastic low-density polyethylene was laminated on the adhesive layer by an extrusion lamination machine to a thickness of 2.4 g / m ² .
In other respects, a lid material was prepared according to Example 2.

<Repelling property evaluation method>
The lid material was cut into a square of 100 mm square, and the contact angle with pure water was measured to determine the repellency. Before measuring the contact angle, prepare a lid heated to 80 ° C and 100 ° C for 1 minute together with the unheated lid before measuring the contact angle to confirm the change in the adhesion prevention performance due to the thermal energy applied to the lid. Was evaluated.
Since there is a possibility of being exposed to a temperature of 100 ° C. at the time of fusion, if the contact material with pure water has a contact angle of 150 ° or more with the lid material heated to 100 ° C. for 1 minute, the repellency is high, and the adhesion preventing performance is high. It was determined that there was.

<Seal strength evaluation method>
The lid material was cut into five strips each having a width of 15 mm and a length of 100 mm, placed on a polystyrene sheet, sealed with a heat seal bar, and the peel strength was measured with a tensile tester.
The sealing conditions were 200 ° C., a pressure of 0.2 MPa for 1.0 second, a length of 20 mm was sealed, and the peel strength was measured by a tensile tester.
The peeling test was performed at a speed of 300 mm / min at 90 ° according to JIS Z 0238, and the average of five points was defined as the seal strength, and the seal strength of 14 N / 15 mm or more was determined to be good.

<Resilience evaluation result>
In the repellency evaluation, in Examples 1, 2, 3, 4, and Comparative Example 4, even when the lid material was heated at 100 ° C., the contact angle of pure water was 150 ° or more. , Water was firmly repelled.
However, in Comparative Example 1, Comparative Example 2, Comparative Example 5, and Comparative Example 6, although the lid material that was not heated had repellency, the lid material heated to 80 ° C. had a contact angle of less than 150 degrees, Poor repellency. In Comparative Example 3, the product heated to 80 ° C. had repellency, but the product heated at 100 ° C. had a contact angle of less than 150 °.

<Seal strength evaluation result>
In the evaluation of the seal strength, all of Example 1, Example 2, Example 3, Example 4, Comparative Example 1, Comparative Example 2, and Comparative Example 3 were good at 14 N / 15 mm or more.
However, in Comparative Example 4, Comparative Example 5, and Comparative Example 6, the welding strength was weak at less than 14 N / 15 mm.

From the above results, in order to ensure repellency after heating at a high temperature of 100 ° C., a protective layer is required, and the protective layer is not a thermoplastic but a cured protective layer such as thermosetting.
In addition, a thin layer having a coating amount of the protective layer of less than 1 g / m ² was easily broken, the repellency was reduced at the time of heating at 100 ° C., and no effect was obtained, but the sealing strength was high.
On the other hand, when the coating amount of the protective layer is 5 g / m ² or more, a sufficient crack is hardly generated at the time of sealing, the adhesive layer is hardly flowed to the surface, and there is a problem that complete sealing strength cannot be obtained.
From this evaluation result, it is understood that the protective layer needs to be controlled within a range of 1 to 5 g / m ² .

  The container using the lid material of the present invention is as described above, and by providing the protective layer between the adhesive layer and the adhesion preventing layer, the uneven shape of the adhesive layer can also be obtained by radiant heat received when sealing the lid material. Does not change. These can be manufactured with general-purpose production equipment, have high productivity, and can be manufactured stably. Therefore, it is possible to reliably maintain the performance of the anti-adhesion layer in contact with the contents, and to provide a lid material having an inexpensive and stable anti-adhesion performance and a container using the lid material, and the merits of the present invention. Is big.

1 ... lid material 2 ... base material 3 ... adhesive layer 4 ... protective layer 5 ... ·········································· Binder

Claims (6)

At least, a base material, an adhesive layer, a protective layer, a lid material comprising a sheet laminated in the order of the adhesion preventing layer,
The adhesive layer has an uneven shape on the surface, and is made of a thermoplastic resin that can be fused to the container body,
The protective layer is made of a curable resin,
A lid material wherein the adhesion preventing layer contains hydrophobic fine particles having a particle diameter of 1.0 μm or less. The cover material according to claim 1, wherein the thickness of the protective layer is in a range of 1.0 to 5.0 g / m ^{2 in} a dry application amount.   The cover material according to claim 1, wherein the protective layer is made of a thermosetting resin.   The lid material according to any one of claims 1 to 3, wherein the adhesive layer is made of a hot melt adhesive.   By applying heat and pressure to the lid material when the lid material is fused to the container body, cracks are generated in the protective layer and the adhesion preventing layer, and the adhesive layer resin can be fused to the container body through the generated cracks. The lid material according to any one of claims 1 to 4, characterized in that:   A container, wherein the lid material according to claim 1 is fused to an opening.

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