JPH1020751A - Formation method of film-shaped hologram - Google Patents

Abstract

PROBLEM TO BE SOLVED: To form the hologram onto a film by recording an image by using a hologram photographic plate in which the adhesion force between the film and a photosensitive agent layer, is stronger than that between a supporting base and the photosensitive agent layer. SOLUTION: A film material in which the adhesion force between a photosensitive agent layer 2 and a film 4, is stronger than that between a supporting base 1 and the photosensitive agent layer 2 in the stage before the recording of the hologram, is used as a hologram photographic plate having the photosensitive agent layer 2 on the supporting base 1, or the film 4 is adhered to the photosensitive agent layer 2 through an adhesive agent and a bond to be used as the hologram photographic plate, and then the film 4 and the photosensitive agent layer 2 are separated from the supporting base 1 after the hologram recording, to form the hologram. In this time, the film-shaped hologram can be made by selecting the film 4. In this case, the adhesion force of the transparent film 4, the adhesive agent and the photosensitive agent, should be stronger that between the supporting base 1 and the photosensitive agent, to separate the photosensitive agent from the supporting base 1 in the condition that the photosensitive agent is adhered to the transparent film side, when the transparent film 4 is separated.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method for forming a hologram on a film, and an image recorded on the hologram according to the present invention can be attached to wood, paper, plastic, ceramics, metal or the like. Product versatility expands.

[0002]

2. Description of the Related Art As a conventional technique for obtaining a film hologram, there is an emboss type hologram.
There is a problem that diffraction efficiency is low, and a volume phase hologram must be used to obtain high diffraction efficiency. Further, an optical element such as a HUD needs to be provided with functions such as forming a hologram on a film and reducing noise.

As a prior art of a film hologram in a volume phase hologram, Japanese Patent Application Laid-Open No. 63-2845 discloses
No. 86, for example, a volume phase hologram in which a base material (supporting substrate) and a desired image that can be peeled off from the base material are recorded. And a transfer type hologram to be attached to another base material is disclosed.

[0004]

In the above method, a hologram is formed by forming a photosensitive agent layer on a support substrate, photographing, developing, and fixing the structure, and transferring the hologram to a film or the like thereafter. The method is mentioned. on the other hand,
Holograms are required to have additional functions such as low noise. In the above-described method, for example, in order to reduce noise due to interface reflection, a hologram dry plate is sandwiched between glass having an anti-reflection film (hereinafter referred to as “AR coated glass”) via an index matching liquid, and photographing is performed. After that, it is necessary to perform development and fixing, and then stick and peel off to another substrate, which complicates the process.

Also, a film is stuck on the photosensitive agent layer,
When the film is peeled when the photosensitive agent layer is transferred to the film side, there is a problem that the photosensitive agent layer is broken or the film adheres to the supporting substrate by the adhesive, making it difficult to peel. Therefore, in order to peel the film, an optimum peeling method is required depending on the structure and material of the dry plate.

[0006]

According to the present invention, in order to solve the above-mentioned problems, (1) a hologram dry plate having a photosensitive agent layer formed on a support substrate, at a stage before hologram recording,
Use a film material that has a stronger adhesion between the photosensitive agent layer and the film than the adhesion between the support substrate and the photosensitive agent layer, or attach the film to the photosensitive agent layer via an adhesive or adhesive, and after the hologram recording, Peel the agent layer from the support substrate,
Form a hologram on the film.

At this time, by selecting a film to be used, a film hologram utilizing the function of the film material can be produced.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION In the structure of the hologram dry plate, the support substrate, the photosensitive agent, and the transparent film, when the transparent film is peeled off, the photosensitive agent adheres to the transparent film side,
In order for the photosensitive agent to be separated from the support substrate, the adhesion between the transparent film, the adhesive, and the photosensitive agent must be stronger than the adhesion between the support substrate and the photosensitive agent.

Therefore, in order to separate the photosensitive agent from the support substrate, the adhesion between the transparent film and the photosensitive agent should be increased or the adhesion between the support substrate and the photosensitive agent should be decreased (Japanese Patent Laid-Open No. 63-28).
No. 7982, a release layer is formed between the photosensitive agent and the supporting substrate. The transparent film used at this time has a transmittance of 8
5% or more and a refractive index in the range of 1.44 to 1.66 (the higher the transmittance, the better the refractive index is closer to the refractive index of the photosensitive agent used), which does not hinder the hologram preparation. (Eg, cellulose triacetate, polycarbonate, polyethylene terephthalate, etc.).

In order to increase the adhesion between the transparent film and the photosensitive agent, there is a method of performing a surface treatment on the transparent film. For example, the adhesion can be increased by silane coupling, titanium coupling agent treatment, corona, plasma discharge treatment, chemical treatment with acid or alkali. These surface treatments are desirably performed within a range that does not impair the optical performance required of the transparent film for producing a hologram.

Further, if a material having a stronger adhesion to the photosensitive agent than the adhesion between the support substrate and the photosensitive agent is used as the transparent film to be used, a hologram can be formed on the transparent film as it is. As a method of increasing the adhesion between the transparent film and the photosensitive agent, there is a method of increasing the adhesion between the transparent film and the photosensitive agent by providing an adhesive layer or a pressure-sensitive adhesive layer between the transparent film and the photosensitive agent. In this case, the adhesive layer and the pressure-sensitive adhesive layer as well as the transparent film must have the optical performance required for hologram preparation. As the adhesive, an ultraviolet-curable acrylic adhesive, urethane acrylate adhesive (For example, Loctite 3311), and as the pressure-sensitive adhesive, an acrylic pressure-sensitive adhesive (for example, Nitto Denko HJ)
−9150 W) enhances the adhesion between the transparent film and the photosensitive agent layer without hindering the production of the hologram.

A hologram can be formed on these films by using a film having an optical function such as an antireflection film, a hologram, a diffraction grating, or a polarized light instead of the transparent film used above. Such a preferred embodiment of the present invention is as follows. (2) A hologram dry plate composed of a support substrate, a photosensitive agent, an adhesive (adhesive), and a film, and a film with an adhesive (adhesive) is attached to the film with an adhesive (adhesive) at the time of preparing the dry plate before photographing the hologram. The method according to (1), wherein after recording the hologram, the film is peeled off from the supporting substrate together with the photosensitive agent to form a hologram on the film.

(3) The support substrate and the film are anti-reflective (A
R coat), a hologram dry plate structure with added optical functions such as diffraction and polarization. After recording holograms using these optical functions, the holograms are peeled off together with the film, thereby achieving these optical functions. The method for forming a film-like hologram according to the above (1) or (2), which is added. (4) The method for forming a film-like hologram according to (1) or (2) above, wherein the film used in the hologram dry plate structure has a function of blocking air or protecting the dry plate.

(5) A hologram dry plate formed by providing a photosensitive agent layer on a flexible support substrate, and an optical coat such as an AR coat with an adhesive is provided on the photosensitive agent surface of the hologram dry plate facing the support substrate. After pasting a functional film and recording a hologram using the optical function of the film,
The method for forming a film-like hologram according to the above (1), wherein the photosensitive agent is peeled off together with the film to form a hologram on the film.

(6) A film having an optical function such as an AR coat with an adhesive is attached to the surface of the photosensitive agent using the hologram dry plate having a photosensitive support layer provided on a flexible support substrate. The method for forming a film-like hologram according to (1), wherein the hologram is formed by attaching a dry plate to another thick supporting substrate, recording the hologram, and peeling off the photosensitive agent together with the film to form a hologram on the film.

(7) After a film having an optical function such as an AR coat with an adhesive is adhered to the surface of the photosensitive agent with the hologram dry plate, which is constituted by providing a photosensitive agent on a flexible support substrate, and then becomes flexible. (1) The film-shaped hologram according to (1), wherein the hologram is formed by peeling off the supporting substrate, recording the hologram by attaching the photosensitive agent surface side to another supporting substrate, and then peeling the photosensitive agent together with the film. Formation method.

(8) The support substrate to which the hologram dry plate according to (6) or (7) is attached is a substrate to which an optical function such as an AR coat is added.
The method for forming a film-like hologram according to the above. (9) The above-described (1) to (1) to (1) to (2), in which the hologram dry plate in which the photosensitive agent layer is not provided on the outer peripheral portion of the support substrate is used to cut the support substrate in the portion where the photosensitive agent layer is provided, and peel off the film after hologram photographing. 8) The method for forming a film hologram according to the above.

(10) A hologram dry plate in which a photosensitive agent layer is not provided on the outer peripheral portion of the support substrate is used to hold down the film in a portion where the photosensitive agent layer is not provided, and fix the photosensitive agent in a state where the film is not deformed. The method for forming a film-like hologram according to the above (1) to (8), wherein the film is peeled after being cured. (11) The above-mentioned hologram dry plate in which the photosensitive agent layer is not provided on the outer periphery of the support substrate, wherein a release layer is provided on a portion where the adhesive comes into contact with the support substrate to facilitate peeling of the film from the outer periphery. (1) The method for forming a film-like hologram according to (8).

[0019]

Embodiment 1 Referring to FIG. 1, a photosensitive agent (photopolymer) 2 is coated on a solvent-resistant transparent support substrate 1 such as AR coated glass or glass by an applicator, a bar coater, a roll coater, a spin coater or the like. Then, the organic solvent contained in the photosensitive agent (photopolymer) is removed by heating and drying in a drying furnace, and the photosensitive agent (photopolymer) is dried. Next, an AR coat film in which an adhesive 3 (acrylic adhesive or the like—for example, HJ-9150W manufactured by Nitto Denko Corporation) is adhered on the photosensitive agent (photopolymer) is used as a three-layer adhesive to form the photosensitive agent (photopolymer). A hologram dry plate is prepared by using a rubber roller so as to be on the second side and sticking it so that air bubbles, dust and the like are not mixed.

The hologram dry plate is applied to a visible light laser (A
r laser; 514.5 nm) (optical system in FIG. 2 etc.)
However, when the AR-coated glass is not used for the support substrate, noise due to reflection at the interface of the support substrate is also recorded. Therefore, the hologram dry plate is stuck to the AR-coated glass for photographing. In FIG. 2, reference numeral 11 denotes an Ar laser,
12 is a half mirror, 13 is a mirror, 14 is a spatial filter, 15 is a concave mirror, 16 is an object, 17 is object light, 18 is reference light, and 19 is a hologram dry plate.

After recording interference fringes with an Ar laser, ultraviolet irradiation was performed using an ultraviolet irradiator using a high-pressure mercury lamp or a metal halide lamp, and a hologram was formed by fixing by this ultraviolet irradiation. The photosensitive agent (photopolymer) is cured from the adhesive state by the irradiation of ultraviolet rays, and forms a flexible resin film without adhesiveness.
When peeling the AR coated film with adhesive attached at the time of making the hologram dry plate from the end of the hologram dry plate,
The photosensitive agent (photopolymer) adheres to the transparent film and peels off from the glass substrate.

Thus, a hologram having no noise is formed on the AR coat film. The formed film hologram can be used by attaching it to another base material such as wood, paper, plastic, ceramic, metal, etc., which also becomes an optical element with an antireflection film. For example, HU
When used for D, there are merits such as elimination of reflection of extraneous light.

Embodiment 2 Referring to FIG. 3, when a photosensitive agent (photopolymer) 2 is not coated on the entire surface of a supporting substrate 1 such as a glass substrate (the photosensitive agent is not coated on the outer peripheral portion of the supporting substrate). Then, when the transparent film 4 with the adhesive is attached, the adhesive 3 comes into contact with the portion of the support substrate on which the photosensitive agent (photopolymer) is not applied, and the adhesive 3 There is a problem that peeling of the film 4 becomes difficult because of strong adhesion to the support substrate 1.

Therefore, a release agent 5 is applied to a portion of the support substrate on which the photosensitive agent (photopolymer) is not applied, and then a photosensitive agent (photopolymer) 2 is applied, and the photosensitive agent (photopolymer) 2 is heated and dried. Is dried and then a film 4 with an adhesive 3 is attached to form a hologram dry plate.
In this hologram dry plate structure, since the adhesive and the support substrate are in contact with each other via the release layer at the outer peripheral portion of the support substrate on which the photosensitive agent is not applied, when the film is peeled after the hologram is formed, The film can be easily peeled off from the supporting substrate.

Embodiment 3 Referring to FIG. 4, when a photosensitive agent (photopolymer) 2 is not entirely coated on a supporting substrate 1 such as a glass substrate, a film 8 having no adhesive layer or pressure-sensitive adhesive layer is used. Then
After the curing of the photosensitive agent (photopolymer) by the irradiation of ultraviolet rays, the adhesion between the transparent film 8 and the photosensitive agent (photopolymer) 2 is weak at the outer peripheral portion of the photosensitive agent (photopolymer) 2, so that when the film is peeled off, only the film 8 is removed. There is a problem that the photosensitive agent (photopolymer) 2 does not peel off from the support substrate 1 due to peeling.

In such a hologram dry plate structure, when the glass substrate 1 at the portion coated with the photosensitive agent (photopolymer) is cut without peeling the film 8 from the outer peripheral portion,
Since the photosensitive agent (photopolymer) 2 comes into close contact with the film 8, if the film 8 is peeled off from that location, the photosensitive agent (photopolymer) 2 comes into close contact with the film 8 and peels off from the support substrate 1.

Embodiment 4 Referring to FIG. 5, the hologram dry plate structure of Embodiment 3
The adhesive force between the film 8 and the photosensitive agent (photopolymer) 2 is weak at the outer peripheral portion of the photosensitive agent (photopolymer) 2 applied to the support substrate 1, and when the film 8 is peeled, the photosensitive agent (photopolymer) is removed.
2 has a problem that it does not adhere to the film 8 and does not peel off from the support substrate 1.

This is because the film generated in the portion of the support substrate 1 on which the photosensitive agent (photopolymer) 2 is not applied is deformed by the heat generated when the ultraviolet light is irradiated, and the film 8 is moved from the outer peripheral portion of the photosensitive agent (photopolymer) 2 to the film 8. Floats, and the film 8 and the photosensitive agent (photopolymer) 2 are separated at the outer peripheral portion. When the film 8 is peeled from that portion, the photosensitive agent 2 does not peel from the support substrate 1 because the film 8 and the photosensitive agent 2 have already been peeled.

Therefore, at the time of ultraviolet irradiation, the photosensitive agent (photopolymer) 2 is cured while the film 8 on the outer peripheral portion of the hologram dry plate 1 is held down with a glass substrate 7 using a dry plate fixing jig 6 so as not to float. By fixing the photosensitive agent (photopolymer) 2 so as not to cause peeling from the photosensitive agent (photopolymer) 2, the photosensitive agent (photopolymer) 2
Can be easily separated from the support substrate 1 in a state of being in close contact with the substrate.

Example 5 A hologram was photographed using a hologram dry plate (structure; three-layer structure of a base film, a photosensitizer, and a cover film) in which a photosensitizer was already coated on a support substrate such as a film. Method of forming a hologram on the surface. In this hologram dry plate, there is a problem that noise due to reflection at an interface is generated during hologram imaging and noise due to thermal deformation due to vibration is easily recorded because the hologram dry plate is thin in a film shape.

Accordingly, a thick supporting substrate 1 made of glass or the like is used.
(The thickness differs depending on the size of the hologram dry plate; the larger the hologram dry plate, the thicker the plate thickness to suppress vibration.)
Use R-coated glass or AR-coated film to eliminate noise due to reflection at the interface. Referring to FIG. 6, the cover film of the hologram dry plate is peeled off, and an AR coat film 4 with an adhesive 3 is stuck on the photosensitive agent 2 using a rubber roller, and then the adhesive 3 is applied to the base film 9. Affix to AR coated glass 1. With this structure, interference fringes are recorded and fixed to form a hologram.

Thereafter, the adhesion between the AR coat film 4 and the photosensitive agent 2 via the adhesive 3 is stronger than the adhesion between the photosensitive agent 2 and the base film 9. The hologram was peeled off from the material film 9 to form a hologram having no noise on the AR coat film 4. Embodiment 6 A method for forming a hologram on a film by eliminating noise due to interfacial reflection and vibration during recording of interference fringes using the hologram dry plate of Embodiment 4.

Referring to FIG. 7, the cover film of the hologram dry plate is peeled off, the AR coat film 4 with the adhesive 3 is adhered on the surface of the photosensitive agent 2 with a rubber roller, and then the base film 9 is peeled off from the photosensitive agent. Since one side of the photosensitive agent 2 is in close contact with the AR coat film 4 via the adhesive 3, the adhesive force between the opposite side of the photosensitive agent 2 and the base film 9 is weakened, and the base film 9 can be peeled. is there.

Since the photosensitive agent before forming the hologram is a resin having adhesiveness (adhesion), the photosensitive agent surface obtained by peeling the base film is adhered to the AR coated glass using a rubber roller. A hologram was created by recording interference fringes with this structure. After the hologram recording, the photosensitive agent was peeled off from the supporting substrate (AR coated glass) together with the AR coated film to form a hologram having no noise on the AR coated film.

[0035]

According to the present invention, a hologram can be formed on a film, and the hologram can be attached to various substrates, so that the hologram can be used in a wide variety of applications.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating the principle of the present invention.

FIG. 2 shows an optical system for producing a hologram.

FIG. 3 shows another embodiment.

FIG. 4 shows another embodiment.

FIG. 5 shows another embodiment.

FIG. 6 shows another embodiment.

FIG. 7 shows another embodiment.

[Explanation of symbols]

 Reference Signs List 1 AR coated glass 2 Photosensitive agent layer 3 Adhesive layer 4 AR coated film 5 Release agent 7 Glass substrate 9 Base film

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Tomoyuki Kanda 1-1-1, Showa-cho, Kariya-shi, Aichi Prefecture Inside Nippon Denso Co., Ltd. (72) Inventor Katsumasa 1-1-1, Showa-cho, Kariya-shi, Aichi Prefecture Nippon Denso Inside the corporation

Claims (1)

[Claims] 1. A hologram dry plate having a photosensitive agent layer on a supporting substrate and a film thereon, and having a stronger adhesive force between the film and the photosensitive agent layer than the adhesive force between the supporting substrate and the photosensitive agent layer, to form a desired image. A method for producing a film-shaped hologram, comprising forming a hologram on a film by recording and forming a hologram, and then peeling the film together with a photosensitive agent layer from a support substrate.