JPH09120102A - Formation of light shielding pattern to lenticular sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To form light shielding patterns (black stripes) with sure positional accuracy on the flat surface of a lenticular sheet. SOLUTION: An ionization radiation curing type resin layer 2 is formed on the flat surface of the lenticular sheet. While a light source 11 and the lenticular sheet are relatively moved in the juxtaposition direction of cylindrical lenses, the lenticular sheet is irradiated with the band-shaped rays (slit light) extending in the longitudinal direction of the cylindrical lenses perpendicularly to its flat surface from the cylindrical lens side, by which the resins 2 in the uncured state of the parts condensed in light by the respective cylindrical lenses are cured. The surfaces of the resin 2 (non-light condensing parts where viscosity remains) exclusive the cured parts are colored black, by which light shielding stripe patterns are formed on the flat surface.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for forming a light shielding pattern on one surface (flat surface) of a lenticular sheet. The lenticular sheet is used as an optical component such as a projection type television screen.

[0002]

2. Description of the Related Art The following various methods are known as a method for molding a lens sheet represented by a lenticular sheet.

Pressing method A thermoplastic resin is pressed using a heated stamper.
A method of molding the lens surface.

Casting method A method in which a melt-softened thermoplastic resin is applied to the surface of the stamper where irregularities are formed, injected and solidified to form a lens surface.

In recent years, instead of such a thermoplastic resin, ionizing radiation (UV = UV, electron beam = EB) has been used.
As a method of forming a lens sheet using a curable resin, the following method has been developed.

JP, 61-177215, A It is defined by a transparent resin plate which transmits ionizing radiation (ultraviolet rays), and a concave and convex forming surface of a stamper on which concaves and convexes (Fresnel lens surfaces) of a predetermined shape constituting a lens are formed. After filling the gap with an ultraviolet curable resin, the resin is irradiated with ultraviolet light from the transparent resin plate side to cure the resin, and polymerized and adhered to the transparent resin plate to produce a Fresnel lens having a laminated structure. how to.

When applying a lenticular sheet formed by various methods to a projection screen, it has been conventionally practiced to form a light-shielding pattern (a black stripe in a lenticular plate) in order to improve contrast. ing. Various printing methods such as offset, gravure, and screen are commonly used as a method for forming a light-shielding pattern. However, in the printing method, a printing plate with high positional accuracy such that an image area becomes a light absorbing area is used. If the lens array of the lens sheet is miniaturized or the lens sheet becomes large in size, it becomes more difficult to manufacture and register (position) the printing plate. As a method of forming a light-shielding pattern other than the usual printing method, the following methods are known.

JP, 56-38035, A The light absorption layer is formed on the "surface of the concave portion or the convex portion" other than the region including the condensing portion of the lenticular plate.

[Patent Document 2] Japanese Patent Publication No. 2-16497 SUMMARY OF THE INVENTION At the same time when a lenticular surface is extruded and formed, a light absorbing layer is formed on a portion other than a lenticular condensing portion by thermally laminating ink using an ink coating roll. The ink application roll is installed immediately after the molding die roll on the lenticular surface, and the protrusion is provided at a position corresponding to a portion other than the lenticular light collecting portion. The light absorbing layer is formed while supplying ink to the ridges, which contains a light absorbing agent and uses as a binder a resin that can be thermally laminated on a transparent substrate (lenticular plate). In order to form a light absorbing layer in a desired portion, registration of an ink application roll is performed with respect to a lenticular mold roll.

In the above-mentioned one, since the portion forming the light absorption layer requires the "surface of the concave portion or the convex portion" formed on the flat surface of the lenticular plate, the shape of the lens sheet becomes complicated and the molding is difficult. Not only becomes difficult, but there is a problem that the strength of the lens sheet (the deeper the concave portion, the thinner the portion corresponding to the valley portion of the lenticular surface becomes) becomes.

The above is similar to the ordinary printing method,
It is necessary to manufacture a printing plate (ink coating roll) with high positional accuracy. The light-shielding pattern depends on the image area of the printing plate (the ridges of the ink application roll), and whether or not the light-shielding pattern is formed at a desired portion of the lens sheet (a portion other than the lenticular condensing portion). Depends on the accuracy of the printing plate and the alignment during printing (printing plate and lens sheet).

Further, as a method for forming a light-shielding pattern on the back surface of the lens sheet with reliable positional accuracy without using a printing plate even for a lens sheet that does not require an uneven portion on which a light-shielding pattern is formed, The method is known.

JP-A-59-121033 DISCLOSURE OF THE INVENTION A positive photosensitive adhesive (adhesive whose adhesiveness disappears when exposed to light) is arranged on the observation surface side of a transmission screen (lens sheet). After exposing the adhesive with a light beam projected from a projection light source (projector) or a light source having an aperture equivalent to this from the surface opposite to the surface, after losing the adhesiveness of the condensing part of each unit lens of the lens sheet, Wet process is carried out by spraying light-shielding toner from the observation surface, adhering it to the unexposed area where the adhesiveness remains, and removing the toner and excess toner that have just adhered to the area where the adhesiveness has disappeared. A method for obtaining a transmissive projection screen on which a pattern having excellent light-shielding properties is formed easily and inexpensively without the need.

In the above description, "it is important to provide a light condensing section at a position equivalent to the case where an actual screen is used, and an exposure light source is provided at the same position as the projection light source or at an optically equivalent position. It is necessary to provide it.
9th line) ", but does not disclose any specific relationship between the form of the lens sheet and the projection light source and the optical system for exposure.

FIG. 2 is an explanatory view conceptually showing how the transmissive screen is used. A transmissive screen is a combination of a Fresnel lens and a lenticular sheet. The projection light from the light source (projector) (similar to the divergent light from a point light source) is collimated by the Fresnel lens, and the lenticular sheet is used. It functions to expand in the horizontal direction (the direction in which the cylindrical lenses are arranged side by side) and project it to the viewer side. The light shielding pattern (black stripe) is formed on the flat surface of the lenticular sheet on the viewer side.

That is, assuming that "the light collecting portion is provided on the flat surface of the lenticular sheet at the same position as when the screen is actually used", when the Fresnel lens is not used, The entire surface must be exposed by parallel light from the side of the cylindrical lens.

As shown in FIG. 3, when divergent light is applied instead of parallel light, the central portion (front of the light source) and the end portion of the lenticular sheet have different incident angles of light rays with respect to the cylindrical lens. The light position is different,
As a result, the black stripe formation position also differs for each cylindrical lens. For this reason, when using a lenticular sheet having a black stripe as described above as a transmission screen, there is a Fresnel lens on the projection side, so that projection light impinges on the black stripe at the end of the screen, and the projected projection is observed. The disadvantage that the image is lost will occur.

In order to form a light-shielding pattern at the same position for each cylindrical lens (the same non-light-collecting portion in all the cylindrical lenses), it is necessary to expose the entire surface with parallel light, which is necessary for the transmission screen. In consideration of usage conditions, it is necessary to combine a Fresnel lens and provide a light source for exposure at the same position as the light source (projector) or at an optically equivalent position.

[0019]

SUMMARY OF THE INVENTION According to the present invention, a light shielding pattern can be formed at the same position for all cylindrical lenses without the need for Fresnel lenses.
The aim is to improve the exposure process.

[0020]

A method of forming a light-shielding pattern on a lens sheet according to the present invention is characterized by including the following steps. (A) A step of forming an ionizing radiation curable resin layer on a flat surface of a lenticular sheet in which a cylindrical lens is arranged in parallel on one surface and the other surface is a flat surface. (B) While moving the light source and the lenticular sheet relative to each other in the direction in which the cylindrical lenses are juxtaposed, a strip-shaped light beam extending in the longitudinal direction of the cylindrical lenses is irradiated perpendicularly to the flat surface of the lenticular sheet from the cylindrical lens side. Then, the step of curing the uncured resin in the portion condensed by each cylindrical lens. (C) A step of coloring the surface of the resin other than the cured portion in black to form a light-shielding stripe pattern on the flat surface.

According to the exposure process of the above step (b),
For each cylindrical lens, the same function is achieved as if the entire surface of the lenticular sheet is collectively irradiated with parallel light from the cylindrical lens side. The light-shielding pattern (black stripe) that is formed is for the non-light-concentrating portion due to the actual irradiation of the lenticular sheet with ionizing radiation. Formation takes place.

In the coloring method according to the second and third aspects, the light-shielding pattern is selectively formed depending on the viscosity of the resin of the light collecting portion / non-light collecting portion (cured portion / non-cured portion). Are suitable.

[0023]

Embodiments of the present invention will be described below with reference to the drawings. 1A to 1C are explanatory views showing a method of forming a light shielding pattern according to the present invention in the order of steps.

FIG. 1- (a) ... Formation of ionizing radiation curable resin layer on flat surface of lenticular sheet A cylindrical lens is provided on one side of the lenticular sheet, and the other surface of the lenticular sheet 1 is flat. A photopolymer (ionizing radiation curable resin) layer 2 having adhesiveness in a cured state is formed, and a protective layer 3 is formed thereon. As the lenticular sheet 1, acrylic, vinyl chloride,
A transparent thermoplastic resin such as a carbonate may be molded by any method, or a UV curable resin or E
It may be made of a cured product of the above resin using an ionizing radiation curable resin such as a B curable resin.

In the present description, the following will be used. <Lenticular sheet> A cylindrical lens group made of a cured product of a UV curable resin (material: epoxy acrylate) formed on a transparent base material (material: acrylic) having a thickness of 1.0 mm. Pitch 0.4mm, spherical radius 0.35
mm, lens thickness 0.063 mm, size 120 cm x 90
cm <Photopolymer> Cromaline film (trade name of DuPont) <Protective layer> Mylar film

1- (b) ... Exposure of lenticular sheet to ionizing radiation The uncured resin layer (photopolymer) 2 is exposed to ionizing radiation (ultraviolet rays) from the cylindrical lens side. At this time, while moving the lenticular sheet 1 in the direction in which the cylindrical lenses are arranged, a strip-shaped light beam (hereinafter referred to as slit light) extending in the longitudinal direction of the cylindrical lenses (the direction perpendicular to the paper surface in the figure) is Irradiate vertically from the lens side to the flat surface of the lenticular sheet. The light emitted from the light source 11 of the ionizing radiation (ultraviolet ray) is vertically incident on the lenticular sheet 1 as slit light 13 that has passed through the opening of the mask 12.

<Exposure conditions> Light source used: near-ultraviolet mercury lamp (output 13 kW, 120 W /
cm) Moving speed: 2 cm / sec

The portion of the resin layer 2 focused by the lens function of the cylindrical lens is cured to make the portion (hatched portion) non-adhesive. The resin layer 2 in the portion (white portion) which is not condensed by the lens function is
It remains sticky.

1- (c) ... Step of forming light-shielding pattern The protective layer 3 on the resin layer 2 is peeled off, and the resin layer 2 (white portion) in the adhesive state is colored black by a desired method. As a coloring method, a method of spraying a black toner of carbon black on the entire flat surface and removing the black toner sprayed on the non-adhesive resin layer 2 (hatched portion) may be adopted. Alternatively, the transfer ink layer (black) of the transfer sheet is overlaid on the resin layer 2 and the adhesive resin layer 2
Transfer formation of the ink layer only to (hatched portion),
A method in which the ink layer is not transferred to the non-adhesive resin layer 2 may be used. In the case of the above method, it is also effective to use the transfer sheet instead of the protective layer 3.

Then, the entire surface of the resin layer 2 is irradiated with ionizing radiation to completely cure the resin layer 2. (Not shown) Alternatively, a photosensitive film may be laminated on the light-shielding pattern so that the formed light-shielding pattern (ink layer) is not peeled off, and the film is cured by irradiation with ionizing radiation to form a protective layer. good.

As the protective layer of the light-shielding pattern, a protective layer having a diffusive property may be formed in order to diffuse light and expand the visual field area (observed from the flat surface side of the lens sheet). (Not shown) As an example of the protective layer having diffusivity, silicon oxide
A type in which a dispersant such as titanium oxide is mixed is exemplified.

[0032]

The effects of the present invention are listed below. (1) According to the exposure process of the present invention, all the cylindrical lenses function without any Fresnel lens, and are equivalent to collectively irradiating the entire surface of the lenticular sheet with parallel light from the cylindrical lens side. Therefore, the light shielding pattern can be formed at the same position for each cylindrical lens. Therefore, when the lenticular sheet is used in combination with a Fresnel lens as a transmissive screen, the position where the light shielding pattern is formed is preferable. (2) The light-shielding pattern can be formed on the flat surface of the lenticular sheet without requiring a printing plate. (3) Since the light-shielding pattern that is formed is for the non-light-concentrating portion that is caused by the actual irradiation of ionizing radiation on the lenticular sheet, the pattern must be formed with certain positional accuracy at the location where the light-shielding pattern needs to be formed. Formation takes place.

[0033]

[Brief description of the drawings]

FIG. 1 is an explanatory view showing a method of forming a light shielding pattern according to the present invention in the order of steps.

FIG. 2 is an explanatory view conceptually showing a use state of a transmission screen.

FIG. 3 is an explanatory view conceptually showing that a formation position of a light-shielding pattern differs depending on exposure conditions.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Lens sheet 2 ... Ionizing radiation curable resin layer 3 ... Protective layer 11 ... Ionizing radiation (ultraviolet) light source 12 ... Mask 13 ... Slit light

Claims (3)

[Claims] 1. A method of forming a light-shielding pattern on a lenticular sheet, which comprises the following steps. (A) A step of forming an ionizing radiation curable resin layer on a flat surface of a lenticular sheet in which a cylindrical lens is arranged in parallel on one surface and the other surface is a flat surface. (B) While moving the light source and the lenticular sheet relative to each other in the direction in which the cylindrical lenses are juxtaposed, a strip-shaped light beam extending in the longitudinal direction of the cylindrical lenses is irradiated perpendicularly to the flat surface of the lenticular sheet from the cylindrical lens side. Then, the step of curing the uncured resin in the portion condensed by each cylindrical lens. (C) A step of coloring the surface of the resin other than the cured portion in black to form a light-shielding stripe pattern on the flat surface. 2. After the step (a), a transfer sheet having a black colored layer formed on the entire surface of the lens sheet having the ionizing radiation-curable resin layer formed thereon is superposed on the colored layer side. After performing (b), the coloring layer is adhered only to the uncured portion by utilizing the viscosity of the resin in the uncured portion, and the colored layer in the cured portion is peeled off from the lens sheet. Item 2. A method for forming a light-shielding pattern on a lenticular sheet according to item 1. 3. The light shielding to the lenticular sheet according to claim 1, wherein, in the step (c), the viscosity of the resin in the uncured portion is utilized to adhere the black powder to the portion. Pattern formation method.