JPS5835579A - Manufacture of reflection type hologram - Google Patents

Abstract

PURPOSE:To enable observation from both sides, by sandwiching a UV hardenable resin between a reflection type hologram and a protective sheet, hardening it with UV rays, and protecting the metallic thin film of a light reflection layer. CONSTITUTION:A reflection type hologram 1 provided with no protective layer consists of a base layer 2 having a pattern on one side, and a light reflection layer 3 of a metallic thin film, and a UV hardenable resin 5 is placed between the layer 3 and the protective sheet 4 on an opposite plate 11 of UV transmitting glass. Polyvinyl chloride and polyacrylic resin good in adhesion to the resin 5 and small in UV absorption are used for the sheet 4. The resin 5 consists essentially of a prepolymer having a radically polymerizable unsatd. group and an ethylenically unsatd. monomer. The hologram 1 and the sheet 4 are pressed to enlarge the resin 5 on the upper surface of the sheet 4, and it is hardened with UV rays, and separated from the plate 11.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for manufacturing a hologram, and more particularly to a method for manufacturing a reflection hologram having a light reflective layer.

Holograms are usually made on silver salt sensitive materials, but they can also be obtained by forming a hologram pattern with unevenness.In other words, a hologram image is exposed to light on a dry plate coated with photoresist, and then developed to form an uneven image on the dry plate. obtain. Thereafter, copper is deposited on the uneven surface forming the image to impart conductivity. Next, nickel plating was applied to this copper surface as a negative electrode.
After electrodepositing a nickel layer to a thickness that can withstand handling, this is peeled off from the photosensitive material surface, and then the vapor-deposited copper to provide conductivity is melted and removed to expose the nickel surface, which is then molded into a mold. is obtained. On the surface of the mold from which the copper has been removed, the uneven surface obtained by the above-described exposure and development is duplicated with the unevenness reversed.

Of course, this surface also forms a hologram image.

A transmission type hologram can be obtained by transfer-molding the mold pattern thus obtained onto a synthetic resin such as a thermoplastic synthetic resin or a thermosetting synthetic resin.

If a thin metal film is formed by vacuum deposition, sputtering, or other methods on the patterned surface of a transmission hologram that is viewed using transmitted light, this thin metal film will become a light-reflecting layer and a reflection hologram will be obtained. .

Conventional reflective holograms have exposed metal thin films, and are therefore susceptible to scratches, and once they are scratched, their effectiveness as a product is reduced to zero, so they must be handled with great care. It is. In order to prevent such scratches, by providing a protective layer on the metal thin film, which is the pattern surface, the difficulty of handling it can be solved at once.

The present invention was made based on this viewpoint, and provides a method for manufacturing a reflection hologram that can protect the metal thin film that is the light reflection layer well and enable viewing from both sides.

The present invention will be explained in detail below based on embodiments of the drawings.

FIG. 1 is a schematic explanatory diagram of the method of the present invention, and FIG. 2 is an explanatory diagram showing a cross section of a hologram manufactured by the method of the present invention.

In FIG. 1, (1) is a conventional reflection hologram that is not provided with a protective layer. Light reflecting layer (3) made of a thin metal film provided on the surface
It is composed of.

An ultraviolet curable resin (5) is placed between the light reflection layer (3) of such a reflection hologram (1) and the anti-oscillator (protective material sheet on 111) (4) made of ultraviolet transmitting glass or the like.

This protective material sheet is suitably made of a material that has good adhesion to the UV-curable resin to be cured and has low UV absorption, such as vinyl chloride resin or acrylic resin, and also has a refractive index almost equal to that of the cured resin layer. It is preferable that the Note that the protective material sheet is required to transmit ultraviolet rays, but it may be colored. In this case, it is also possible to obtain special effects.

Next, we will explain about ultraviolet curable resin. Its composition is mainly composed of a prepolymer having a radically polymerizable unsaturated group and a monomer having an ethylenically unsaturated group, and some polymerization initiators and auxiliaries. 250-38 with added configuration
By irradiating ultraviolet light in the 0 nm region, especially around 360 nrr), the monomer crosslinks the linear polymers to form a three-dimensional network structure. Examples of such prepolymers include epoxy acrylate, urethane acrylate, etc., and examples of monomers include n
-butyl acrylate, n-butyl methacrylate, etc.

Arrange such ultraviolet curable resin as shown in Figure 1,
While lowering the reflective hologram (1) or raising the anti-vibration αυ and protective material sheet (4), the reflective hologram (1)
The ultraviolet curable resin (5) is sandwiched and pressed between the protective material sheet (4) and the protective material sheet (4). The highly fluid ultraviolet curable resin (5) spreads and undulates on the upper surface of the protective material sheet, and at the same time fills the brim-turning surface (5) of the upper reflective hologram (1).

When the ultraviolet curable resin has spread sufficiently thinly, the anti-oscillation (
Ultraviolet light is irradiated from an ultraviolet lamp α such as an ultra-high-pressure mercury lamp arranged below 111. The thickness of the ultraviolet curable resin layer is 1 to 71 μm, preferably 25 μm or less.

This is not only to save resin, but also to avoid deformation after molding, and also to reduce the irradiation time of ultraviolet light.
In other words, this is to prevent the curing time of the resin layer from becoming too long. Irradiation of ultraviolet light can be done for 2 to 5 seconds using a 2KW ultra-high pressure mercury lamp at an irradiation distance of 25 cm, and can be irradiated for 1 second or less if the ultraviolet light is more powerful.

When the ultraviolet curable resin is completely cured, it is taken out from the opposite aIl, and a base layer (
2), UV-curable resin layer (5) and protective sheet layer (
4) can be obtained.

By disposing the resin layer on both sides of the light-reflecting layer (3) in this manner, the light-reflecting layer (3) can be well protected and can be viewed from either the front or the back.

As described above, according to the present invention, an ultraviolet curable resin is placed on the exposed metal thin film (light reflective layer) surface, and the metal thin film can be coated and reflected in an extremely short time by simply irradiating ultraviolet rays. It is possible to obtain a type hologram, and by using a protective sheet, the use of relatively expensive ultraviolet curable resin can be kept to the minimum necessary, and it is well worth the cost. Furthermore, the ultraviolet curable resin is well adapted to the surface of an extremely fine metal thin film with 1,000 to 6,000 lines per 1,101 parts, and does not cause uneven molding, so that defects such as pattern disturbances do not occur during viewing.

In the above embodiments, the image retention material sheet was selected to have good adhesion to the cured ultraviolet curable resin, but it should also be made of a material that easily peels off from the cured ultraviolet curable resin, such as polyester or polypropylene.

When a UV-curable resin is used, it is possible to obtain a protective layer made of a single UV-curable resin by peeling it off after curing.

It goes without saying that the arrangement of the base materials when providing the protective layer by this method may be completely reversed from the above-mentioned arrangement. In this case, the ultraviolet rays are irradiated from above.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention, and FIG. 1 is a schematic explanatory diagram of the method of the present invention, and FIG. 2 is an explanatory diagram showing a cross section of a reflection hologram obtained by the method of the present invention. (1)...Reflection hologram (2)...Base layer (
3)...Light reflective layer (4)...Protective material sheet (5)
...Ultraviolet curable resin (111...Antonym for mackerel...
Ultraviolet light source patent applicant Toppan Printing Co., Ltd.

Claims (1)

[Claims] An ultraviolet curable resin is placed between a reflective hologram in which a light reflective layer having a concavo-convex pattern is exposed and a protective sheet, and the light reflective layer of the reflective hologram is made to face the protective sheet so that the reflective hologram and the base material Place the sheets close together and press them from both sides while sandwiching the UV curable resin. When the UV curable resin has sufficiently spread between the light reflective layer and the protective sheet, irradiate the UV rays through the protective sheet to remove the UV curable resin. A method for manufacturing a reflection hologram by curing a curable resin.