JP2671344B2 - Holographic evaporated paper and labels - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial application> The present invention relates to a vapor-deposited paper and a label having a hologram. More specifically, it relates to a vapor-deposited paper and a label which can be used for improving workability and can easily peel off and remove a vapor-deposited label attached to a container which needs to be collected and regenerated with an alkaline solution.

<Prior Art> Holograms made by embossing plastic materials can be mass-produced at relatively low cost, and have the surprising effect of the hologram's beauty and three-dimensional effect, and are also difficult to counterfeit. Therefore, it is widely used for book covers, telephone cards, credit cards, and the like, and its field of use is expanding more and more. On the other hand, when using a label having a hologram on a container (glass bottle for various alcoholic beverages such as sake and beer) that needs to be collected and reused,
The resin layer forming the hologram has the hologram moldability and is required to be suitable for washing bottles with an alkaline solution.
In addition, this resin layer is generally applied by applying solvent-diluted resin paint, and then dried by heating to form the resin layer, which may cause curling defects of the paper or embossing with residual solvent. There is a problem in workability such as poor adhesion to the stamper and whitening phenomenon during metal deposition.
Conventionally, it has been difficult to deploy a hologram-deposited label on a container for collection.

<Problems to be Solved> In view of the above-mentioned circumstances, the present invention is free from curling defects of paper and defects when forming a relief hologram by standby, and is easy to wash and peel from a container to be collected. Intended to provide paper and labels.

<Means for Solving the Problems> The present invention is excellent in workability by using an electron beam curable resin that has alkali solubility in a vapor deposition anchor resin layer and can emboss a hologram, and
A vapor-deposited paper and a label having a high display effect are provided as a label for a collection container.

The present invention will be described in more detail below with reference to the drawings.

FIG. 1 is a schematic sectional view of a hologram-deposited paper and a label according to the present invention.
On the crecoat layer (2) of the base paper (3) provided with the above clay coat layer (2), the vapor deposition anchor resin layer (4) having a hologram having fine irregularities and the metal vapor deposition layer (5) are provided. It is a vapor deposition paper and a label that are sequentially provided.

Here, the base paper (3) needs to be 1.5% or less when it is immersed in water and has an elongation in water of 2.5% or less. When the base paper (3) having an elongation of 2.5% or more is used, it is attached to a beer bottle or the like. Then, when it is cooled in a refrigerator, the vapor deposition layer (5) provided on the base paper (3) is cracked by water droplets attached to the bottle surface, and the appearance is deteriorated.

Also, the vapor deposition anchor resin layer (4) is made of an electron beam curable resin, and this resin layer is not limited to the metal vapor deposition layer (5) as shown in FIG. Since the lower layer of the anchor resin layer for vapor deposition (4) is molded and realized, it is necessary to have moldability by hot pressing, that is, to have slightly thermoplastic resin-like performance. Further, the label for recovery and reuse needs to be soluble in alkali, and an acrylate having a high acid value is particularly suitable as the electron beam curable resin.

As the electron beam curable resin, specifically, as a base resin, polyurethane acrylate, polyester acrylate, epoxy acrylate, and the like, phthalic acid, isophthalic acid, terephthalic acid, hymic acid, succinic acid,
It is a resin obtained by adding a polybasic acid such as succinic anhydride, maleic acid, fumaric acid, adipic acid, trimellitic acid, etc., and is preferably an electron beam curable resin having an acid value of 80 or more.

As the monomer for diluting the coating suitability of these base resins, acrylic acid, acrylic ester, butyl acrylate, 2-ethylhexyl acrylate, N-vinylpyrrolidone, 2.6-hexadiol diacrylate, neopentyl glycol acrylate. Is appropriate.

As a method of applying the electron beam curable resin described in the present invention, usually well known gravure coating method,
It may be carried out by a method such as a roll coating method or a blade coating method, and a suitable thickness of the coating film is usually about 2 to 10 μm.

As an electron dose for curing the electron beam-curable resin in the present invention, the appropriate dose varies depending on the resin, but is usually in the range of 1 to 10 Mrad.

As a method for providing the metal vapor deposition layer (5), a metal having a high reflectance on the surface, for example, aluminum, tin or the like is provided by forming a thin film of about 100 Å to 1000 Å by a method such as vacuum vapor deposition or sputtering.

To form a hologram on the vapor-deposited paper and label of the present invention, as shown in FIG. 2, a stamper (7) having a relief-type hologram is attached to a press machine (6) and the surface of the metal vapor deposition layer (5) is attached. It is formed by heating and pressurizing.

The hologram can be formed in the present invention by any method such as a flat pressing method as shown in FIG. 2 or a roll pressing method, but the circular pressing method is preferable in consideration of productivity.

FIG. 3 shows the surface resistance and the display effect further improved by providing the hologram-attached vapor deposition additive and the label thus obtained with the playmer layer (8), the printing layer (9) and the overcoat layer (10).

The primer layer (8) in this case is a resin having good alkali solubility, and is made of shellac, nitrocellulose-based resin, a mixed resin obtained by adding a resin acid ester to the nitrocellulose-based resin, or a resin obtained by further adding an alkyd resin to the mixed resin. Either is preferred.

The printing layer (9) is composed of an ink using a nitrocellulose-based resin, a polyamide resin, or a mixed resin thereof as a vehicle, to which maleic acid is further added.

The overcoat layer (10) is an alkali-soluble layer made of a resin composed of the vehicle of the ink used in the printing layer (9).

<Operation> Since an alkali-soluble electron beam curable resin is used in the vapor deposition anchor layer, there is no need for heating and drying when forming the vapor deposition anchor layer, there is no curl defect in the paper, and the effect of residual solvent is a clean hologram. Can be formed.

Further, it can be easily peeled off with a washing bottle of an alkaline solution.

Further, the embossing of the bologram is generally performed by directly embossing the resin having thermoformability to provide the hologram, but in this case, since the resin is not directly heat-pressed even by embossing with heat, It does not cause defects such as contamination of the stamper and blocking due to additives contained, residual solvents, low molecular weight monomers, etc., and metal adhesion of the resin.

<Examples 1 to 3 and Comparative Example 1> Cormorant VMST (underwater elongation 1.2%) [Fuji Processing]
As shown in Table 1 below, various electron beam curable resins having different acid values were used as base resins on a base paper consisting of and a varnish containing ethyl acrylate as a diluent for coating suitability was applied by a gravure coating method to a thickness of about 3.0 μm. The coating was applied, and an electron beam of 3 Mrad was irradiated by an electron beam accelerator to cure the resin instantaneously to form an anchor resin layer for vapor deposition. Next 500 with a vacuum deposition machine
After providing the metal vapor deposition layer made of aluminum of Å, a hologram was formed on the metal vapor deposition layer at a pressure of 50 kg / cm and 140 ° C. using a roll embossing machine equipped with a relief type hologram stamper. Table 2 shows the evaluation effect of the obtained vapor-deposited paper.
Shown in

At the same time, Table 1 shows Comparative Example 1. Holographic vapor-deposited paper was manufactured in the same manner as in Examples 1 to 3 except that the base resin was used, and the same evaluation was performed.

 Table 2 shows the results.

The vapor-deposited papers of Examples 1 to 3 have excellent hologram moldability,
It had water resistance and wash bottle properties, and particularly those using a base resin with an oxidation of 80 or more were satisfactory in all performances.

<Example 4> On the aluminum vapor-deposited hologram-deposited paper obtained in Example 2, a primer layer made of a nitrocellulose resin and a printing layer made of an ink containing a polyamide resin as a vehicle and 6% of maleic acid added thereto. Then, an overcoat layer was sequentially formed by a gravure coating method using a varnish prepared by mixing an alkyd resin with a nitrocellulose resin to produce a vapor-deposited paper.

The above vapor-deposited paper was stuck as a label for beer bottles with casein, and when the wash bottle property was evaluated in the same manner as in Examples 1 to 3, it was peeled off within 4 minutes by immersion in an alkaline solution, and had excellent wash bottle properties, The water resistance and wear resistance were also good.

<Effects of the Invention> In the present invention, an electron beam curable resin which has alkali solubility in the vapor deposition anchor resin layer and which can emboss a hologram is used, thereby improving processability by eliminating the conventional solvent drying by heat. , Defective evaporation due to residual solvent,
The vapor-deposited paper that can solve various problems such as poor blocking and is also effective as a general wrapping paper, of course, is particularly excellent when used for labels of containers that require recovery and reuse. It has a washing bottle property.

From this, the present invention provides a high-grade feeling that has never been obtained as a label for vapor-deposited paper, especially for a collection bottle, and is effective in improving processability and economic efficiency. Further, it can be widely used in the field of packaging, books, catalogs, etc., and can be said to be industrially effective.

[Brief description of the drawings]

The drawings show the present invention in an embodiment, and FIG. 1 is a sectional view schematically showing the structure of a vapor-deposited paper with hologram according to the present invention.
FIG. 3 is an explanatory diagram showing a hologram embossing step, and FIG. 3 is an explanatory diagram showing a configuration of a hologram-deposited vapor deposition paper to which a print pattern is added. (1) …… Base paper, (2) …… Clay coat layer (3) …… Base paper, (4) …… Anchor agent layer for vapor deposition (5) …… Metal vapor deposition layer, (6) …… Press machine ( 7) …… Stamper, (8) …… Primer layer (9) …… Printing layer, (10) …… Overcoat layer

Claims (4)

(57) [Claims] 1. A base paper provided with a clay coat layer on a base paper,
A hologram-deposited paper, characterized in that a vapor deposition anchor resin layer and a metal vapor deposition layer made of an alkali-soluble electron beam curable resin are sequentially provided, and a relief hologram is formed on the vapor deposition anchor resin layer and the metal vapor deposition layer. 2. The hologram-attached vapor-deposited paper according to claim 1, wherein the vapor-deposition anchor resin layer is an electron beam curable resin having an acid value of 80 or more. 3. A base paper having a clay coat layer on the base paper,
A hologram-attached label comprising a vapor deposition anchor resin layer and a metal vapor deposition layer, which are made of an alkali-soluble electron beam curable resin, which are sequentially provided, and a relief hologram is formed on the vapor deposition anchor resin layer and the metal vapor deposition layer. 4. The label with hologram according to claim 3, wherein the anchor resin layer for vapor deposition is an electron beam curable resin having an acid value of 80 or more.