JPH05232853A - Production of hologram - Google Patents

Abstract

PURPOSE:To enable the inexpensive and rapid production of the hologram which has a stereoscopic image and exhibit beauty and to produce such hologram which has a high wear resistant characteristic and is usable as various packaging materials, surface protective materials, etc. CONSTITUTION:A UV (or electron beam) curing resin compsn. 4 is applied on a hologram base body 2 and is brought into pressurized contact with a supporting base material 8; thereafter, the UV (or electron beam) curing resin compsn. 4 is irradiated with UV rays (or electron rays) and is thereby cured. The hologram base body 2 is then peeled, by which the hologram image is transferred onto the surface of the supporting base material 8.

Description

Detailed Description of the Invention

[0001]

INDUSTRIAL APPLICABILITY The present invention can be used as a variety of packaging materials, surface protection materials, etc., capable of inexpensively and rapidly producing a hologram having a stereoscopic image and exhibiting an aesthetic appearance and having high abrasion resistance. The present invention relates to a method of manufacturing a hologram that can be manufactured.

[0002]

2. Description of the Related Art As is well known, a hologram uses two types of laser light, an object light and a reference light, which are applied to an object at the same time.
This is recorded on a special film or plastic plate. With this hologram, it is possible to express three-dimensional patterns and images that were impossible in the past, and it is possible to express things that are aesthetically pleasing, things that are visually superior, and record various information. The utilization and the development of applications are expanding every day as what can be done. While further research and development has progressed, a hologram foil or a hologram film has been marketed as a special packaging material or decoration material as a two-dimensional material having a high artistic and visual taste.

[0003]

However, since the hologram foil and the hologram film described above are expensive, they have been used only in an extremely narrow area. Further, in these hologram substrates, a thermoplastic resin layer such as an acrylic lacquer is usually formed on the surface of a support film such as a polyester film, and a hologram surface having irregularities of about 2500 Å is formed on the surface (further, if necessary). Since the aluminum vapor deposition of 100 to 500Å was applied, its wear resistance was extremely low.
Therefore, the application of such a hologram substrate is limited to an extremely narrow range, and it is necessary to protect the surface by attaching an application sheet or the like. Further, such a hologram substrate is often printed on the surface thereof to obtain a product, but since the adhesiveness between the support film and the thermoplastic resin layer in the hologram substrate is poor, the hologram substrate is not suitable for post-processing. In many cases, the quality was poor due to problems and insufficient adhesion between the printing layer and the hologram substrate.

[0004]

The present invention has been proposed in view of the above, and after coating the hologram substrate with the ultraviolet curable resin composition or the electron beam curable resin composition and press-bonding to the supporting substrate, Irradiation with ultraviolet rays or electron beams to cure the ultraviolet curable resin composition or electron beam curable resin composition, and then peeling off the hologram substrate to transfer the hologram image to the surface of the supporting substrate. And a method for manufacturing a hologram.

As the hologram substrate used in the present invention described above, a commercially available hologram foil or hologram film can be used. These hologram substrates are obtained by forming a thermoplastic resin layer such as an acrylic lacquer on the surface of a support film such as a polyester film and forming a hologram surface having irregularities of about 2500Å on the surface. The holographic surface is used as a plate.

The ultraviolet curable resin composition or electron beam curable resin composition used in the present invention is not particularly limited as long as it has a property of being cured by ultraviolet rays or electron beams. A material having good adhesiveness to the supporting base material described later is selected. Since such an ultraviolet curable resin composition or an electron beam curable resin composition usually has high fluidity (before irradiation of ultraviolet rays or electron beams), it sufficiently follows the hologram surface of the hologram substrate. That is, it fills the minute irregularities on the hologram surface. By irradiating with ultraviolet rays or electron beams in this state, a hard coat that faithfully reproduces the fine irregularities of the hologram substrate is obtained. Further, the ultraviolet curable resin layer or the electron beam curable resin layer is a hard coat having a three-dimensionally crosslinked structure, and has high abrasion resistance. Further, there is an attempt to improve abrasion resistance by selecting and using a component such as an oligomer having a urethane structure in the molecule.

Further, the supporting base material used in the present invention is not particularly limited, and a material having a material and a thickness suitable for the application can be used. That is, it may be a film-shaped one or a plate-shaped one. Further, it may be a long continuous body supplied in the form of a roll (roll) or a short sheet. However, if the hologram substrate used is a foil and the supporting substrate also has a shielding property against ultraviolet rays and electron beams, it will interfere with the curing of the ultraviolet curable resin composition or the electron beam curable resin composition. At least one of the hologram substrate and the supporting substrate has a property of transmitting ultraviolet rays or electron beams.

According to the present invention, as described above, the hologram substrate is coated with the ultraviolet curable resin composition or the electron beam curable resin composition, and the support substrate is pressure-bonded, followed by irradiation with ultraviolet rays or electron beams, and then the hologram. The base is peeled off. The obtained hologram has a structure in which an ultraviolet curable resin layer or an electron beam curable resin layer is formed on the surface of a supporting substrate, and the surface of the ultraviolet curable resin layer or the electron beam curable resin layer is a hologram substrate. The fine irregularities on the hologram surface are transferred and reproduced. in this way,
The present invention utilizes a commercially available hologram substrate as a plate. Since the peeled hologram substrate has no cause for damage, it can be applied again to the production of a similar hologram as a plate. Therefore, this material cost becomes the material cost for the number of times of use, and the hologram can be manufactured at an extremely low cost. can do.

Further, in the present invention, the ultraviolet curable resin composition or the electron beam curable resin composition may be applied to the supporting base material and pressure-bonded to the hologram substrate. Both of these two methods have a constitution in which an ultraviolet curable resin composition or an electron beam curable resin composition is interposed between a hologram substrate and a supporting substrate. The curable resin composition or the electron beam curable resin composition is cured, and then the hologram substrate is peeled off. Both of these two methods are suitable for mass production, and since the ultraviolet curable resin composition or the electron beam curable resin composition is used, it is possible to continuously use an ordinary roll coater. Holograms can be mass-produced rapidly and rapidly. Therefore, the hologram obtained according to the present invention is highly likely to be cost-effective even if it is used with a relatively large area, and is easily used in a very wide range of fields as compared with the conventional hologram substrate. Be inferred.

In the method as described above, the ultraviolet curable resin composition or the electron beam curable resin composition is not applied to the entire surface of the hologram substrate or the supporting substrate, but is partially applied in a predetermined pattern / shape. You may do it. For example, a holographic substrate is coated with a UV curable resin composition or an electron beam curable resin composition in a desired pattern / shape using gravure coating, flexo coating, screen printing, etc. It is needless to say that irradiation with an electron beam forms an ultraviolet curable resin layer or an electron beam curable resin layer having that shape, but a hologram image is formed on the surface of the ultraviolet curable resin layer or the electron beam curable resin layer. Since it is transferred and reproduced, it is extremely aesthetically pleasing in combination with the design of the desired pattern and shape. Alternatively, the presence of such a hologram image partially mixed with normal printing provides an excellent aesthetic effect together with the pattern of printing.

It should be noted that the present invention does not prevent the use of a usual coating technique, for example, the use of a primer for improving the adhesion between the supporting substrate and the ultraviolet curable resin layer or the electron beam curable resin layer. It may be done.

Further, it was found that the hologram image is transferred to the supporting substrate even when the hologram substrate is thermocompression bonded to the supporting substrate. In this case, it is necessary that the supporting base material is a material having thermoplasticity, or that a thermoplastic layer is formed on the surface of the supporting base material.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments of the drawings. Example 1 In the manufacturing apparatus shown in FIG. 1, the ultraviolet (or electron beam) curable resin composition 4 is applied to the hologram substrate 2 supplied from the payout roll 1 by the application mechanism 3, and the drying zone 5 is used.
And travels to the laminating unit 6. At the same time, the supporting base material 7 is supplied to the laminating section 6, and the hologram base body 2 and the supporting base material 7 are pressure bonded. Then, the pressure-bonded laminated body is irradiated with ultraviolet rays (or an electron beam) by the irradiation unit 8, and then only the hologram substrate 2 of the laminated body is peeled off. The remaining product (hologram) 9 from which the hologram substrate 2 has been peeled off is wound up by a product roll 10.

Example 2 In the manufacturing apparatus shown in FIG. 2, an ultraviolet (or electron beam) curable resin composition 4 is applied to a supporting substrate 7 by a coating mechanism 3, and a laminating section 6 is reached through a drying zone 5. Let it run. Along with that, the hologram substrate 2 from the roll 12
Is supplied to the laminating unit 6, and the hologram substrate 2 and the supporting substrate 7 are pressure bonded. The irradiation unit 8 is attached to the pressure-bonded laminated body.
After irradiating with ultraviolet ray (or electron beam), only the hologram base body 2 of the laminated body is supplied to the roll 12 and peeled off. The hologram substrate 2 is continuously supplied from the roll 11 to the laminating unit 6. Incidentally, the symbols attached to the figure indicate the same as those shown in FIG.

The present invention has been described above based on the embodiments of the drawings. However, the present invention is not limited to the above-mentioned embodiments, and can be carried out in any manner as long as the configuration described in the claims is not changed. can do. For example, both the hologram substrate and the supporting substrate may be continuous materials that are supplied in a roll shape, or may be sheet-shaped materials that are cut into a certain size.

[0016]

As described above, according to the present invention, a three-dimensional image is obtained by using a commercially available hologram substrate as a plate and using an ultraviolet curable resin composition or an electron beam curable resin composition. It is possible to quickly and inexpensively manufacture a hologram that has a beautiful appearance. Further, since the hologram surface of the obtained hologram is formed on the ultraviolet curable resin layer or the electron beam curable resin layer, it becomes a hard coat having a three-dimensional cross-linking structure, which is more wear-resistant than the conventional hologram substrate. It has extremely high properties and can be used in various fields. For example, examples of its use include various packaging materials and surface protection materials. Furthermore, since the supporting base material used and the ultraviolet curable resin composition or the electron beam curable resin composition can be appropriately selected so as to prevent delamination, the above-mentioned applications are broader. Becomes

In addition, in the present invention, the ultraviolet curable resin composition or the electron beam curable resin composition is partially applied so that the hologram image is partially transferred. By applying the ultraviolet curable resin composition or the electron beam curable resin composition to the composition, a product with an extremely high aesthetic appeal can be produced together with the design of the pattern and shape.

[Brief description of drawings]

FIG. 1 is a side sectional view of a manufacturing apparatus used in an embodiment of the present invention.

FIG. 2 is a side sectional view of a manufacturing apparatus used in another embodiment of the present invention.

[Explanation of symbols]

 2 Hologram substrate 4 Ultraviolet (or electron beam) curable resin composition 8 Support substrate 12 Product (hologram)

Claims (5)

[Claims] 1. A hologram substrate is coated with a UV-curable resin composition or an electron beam-curable resin composition, pressure-bonded to a support substrate, and then irradiated with UV rays or an electron beam to cure the UV-curable resin composition or electrons. A method for producing a hologram, characterized in that a hologram image is transferred onto the surface of a supporting substrate by curing the line curable resin composition and then peeling off the hologram substrate. 2. A UV curable resin composition or electron is applied by applying a UV curable resin composition or an electron beam curable resin composition onto a supporting substrate and pressing the hologram substrate under pressure, and then irradiating it with UV rays or an electron beam. A method for producing a hologram, characterized in that a hologram image is transferred onto the surface of a supporting substrate by curing the line curable resin composition and then peeling off the hologram substrate. 3. A method for producing a hologram, characterized in that a hologram image is transferred onto the surface of the supporting base material by thermocompression bonding the hologram substrate to the surface of the supporting base material. 4. A hologram substrate is partially coated with an ultraviolet curable resin composition or an electron beam curable resin composition to partially transfer a hologram image to the surface of a supporting substrate. The method for manufacturing a hologram according to claim 1. 5. A support substrate is partially coated with an ultraviolet curable resin composition or an electron beam curable resin composition to partially transfer a hologram image to the surface of the support substrate. The method for manufacturing a hologram according to claim 2.