JP3392500B2 - Display with diffraction grating pattern - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display having a diffraction grating pattern formed by arranging a plurality of minute cells having a diffraction grating formed on the surface of a flat substrate, and more particularly to a decorative effect. And a display having a diffraction grating pattern adapted to enhance the anti-counterfeiting effect.

[0002]

2. Description of the Related Art Conventionally, by arranging a plurality of minute cells made of a diffraction grating on the surface of a flat substrate,
A display having a diffraction grating pattern has been widely used. As a method for producing a display having a diffraction grating pattern of this kind, for example, "Japanese Patent Laid-Open No. 6-68242"
No. 0-156004 ”. This method changes minute interference fringes (hereinafter referred to as a diffraction grating) due to two-beam interference in its pitch, direction, and light intensity. Then, the photosensitive film is exposed one after another.

On the other hand, recently, for example, an electron beam exposure apparatus is used and a computer control is used to move an XY stage on which a flat substrate is placed, and a plurality of minute gratings made up of diffraction gratings are formed on the surface of the substrate. The present inventors have proposed a method for producing a display in which a diffraction grating pattern of a certain pattern is formed by arranging different cells. The method is described in US Patent Application Serial No. 276,46, filed November 25, 1988.
No. 9 ”.

By the way, a display having such a diffraction grating pattern is one in which cells made of a diffraction grating are arranged as pixels on a flat substrate. Then, this type of display can be easily manufactured by optically utilizing the coherence of laser light or by utilizing the fine processing capability of an electron beam or the like.

However, although such displays are more difficult to forge than ordinary rainbow holograms and have a high decorative effect (visibility), a recent trend is that, for example, an exposure method using a laser beam becomes common. As a result, forgery is likely to occur, that is, the forgery prevention effect (security) is becoming lower.

[0006]

As described above, the conventional display having the diffraction grating pattern has a problem that the forgery preventing effect is low.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a display having a diffraction grating pattern having a high decorative effect and a high anti-counterfeit effect.

[0008]

In order to achieve the above object, the present invention is formed by arranging a plurality of minute cells, each having a diffraction grating, as pixels on a surface of a flat substrate. In a display having a diffraction grating pattern, the diffraction grating pattern is arranged so as to include minute cells having a diffraction grating formed on an inclined surface.

In this case, the direction of inclination of the surface on which the diffraction grating of each cell is formed is one direction or two directions.

[0010]

Therefore, in the display having the diffraction grating pattern of the present invention, the minute cells in which the diffraction grating is formed are used as the pixels, and the minute cells in which the diffraction grating is formed on the inclined surface are included in the diffraction grating pattern. By arranging the cells, by setting the tilt angle of the diffraction grating forming surface independently of the angle of the diffraction grating and the grating spacing, the cells on the inclined surface can display images by diffracted light and images by reflected light. And can be changed appropriately.

In particular, by using the + 1st order diffracted light as the diffracted light, the efficiency of displaying an image by the diffracted light can be improved.

As a result, the decorative effect of the display is enhanced.

The cell formed on the inclined surface is extremely difficult to imitate because it has a micro-diffraction grating and a relatively macro-inclined structure. It is impossible to duplicate the structure of. Moreover, with the image displayed by the diffraction grating,
By including the cells formed on the inclined surface as the cells forming the diffraction grating pattern, the image displayed by the inclined surface can correspond to both visual confirmation and machine reading. False determination can be easily and accurately performed.

As a result, the forgery prevention effect of the display is enhanced.

Further, by forming the diffraction grating and the inclination on the same surface, it is possible to cope with a simple production by using a replication technique such as embossing.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the present invention, in a display having a diffraction grating pattern formed by arranging a plurality of minute cells having a diffraction grating formed as pixels on a surface of a flat substrate, the diffraction grating pattern is The present invention realizes a display having a diffraction grating pattern having a high decorative effect and a high anti-counterfeiting effect by arranging so as to include minute cells having a diffraction grating formed on an inclined surface.

An embodiment of the present invention based on the above concept will be described below in detail with reference to the drawings.

FIG. 1 is a perspective view showing a structural example of a display having a diffraction grating pattern according to the present invention.

That is, in the display having the diffraction grating pattern of this embodiment, as shown in FIG. 1, a plurality of minute cells 2 having a diffraction grating formed thereon are arranged as pixels on the surface of a flat substrate 1. In the display having the diffraction grating pattern formed by the above, the reflection type display is configured by arranging the diffraction grating pattern so as to include the minute cells having the diffraction grating formed on the inclined surface.

In this case, according to the original data to be displayed, that is, the original data for producing the display main body, the grating interval of the diffraction grating of the cell 2 which is a pixel, the direction of the grating, and the inclination angle of the inclined surface forming the diffraction grating are set. An image is recorded by setting it appropriately.

Next, in the display having the diffraction grating pattern of the present embodiment configured as described above, when attention is focused on the vertical direction (y direction), the cell composed of the diffraction grating which is a pixel is It functions as shown in 2. Figure 2
Then, an example in which a surface relief type diffraction grating is used as the diffraction grating is shown. 1 and 2, the inclination of the surface where the diffraction grating is formed on the inclined surface is illustrated when the angle of inclination of the diffraction grating with respect to the y-axis is only θ.

That is, in the case of a display, the inclination of the inclined surface on which the diffraction grating is formed corresponds to controlling the emission direction of the reflected light, and the image reproduced by the reflected light is changed from the direction depending on the inclination angle. Only this can be observed (observer B). Therefore, prepare multiple types of tilt angles,
A plurality of types of images in which the cells 2 having respective inclination angles are expressed as pixels can be observed only from respective directions depending on the inclination angle.

On the other hand, the grating spacing of the diffraction grating and the direction of the grating correspond to controlling the outgoing direction of the diffracted light, and the image reproduced by the diffraction grating can be observed only from the direction depending on these ( Observer A). In the case of a diffraction grating, the observed color (wavelength of light) can also be controlled by the grating spacing and the grating direction.

In the above, when the diffraction grating is formed in the direction perpendicular to the y-axis, the relation of diffraction by the diffraction grating can be expressed by the following equation.

Mλ = d _y (sin α _y −sin β _y ) where m is the order of diffracted light (usually +1), λ is the wavelength of light, d _y is the y component of the grating spacing of the diffraction grating, and α _y is The angle (y component) of the incident light with respect to the diffraction grating, β _y is the angle (y component) of the diffracted light. In this case, the clockwise angle from the normal line of the diffraction grating (broken line in FIG. 2) is +, and the counterclockwise angle is −.

Then, based on the above equation, when the incident light of wavelength λ is incident on the cell 2 having the angle θ of the diffraction grating at the incident angle α _y , the diffraction angle β _y changes depending on the grating interval d _y , and the diffraction angle The position from which observation is possible is determined by β _y , the angle, and θ.

Regarding the reflected light, the reflection angle γ (γ =
-Α) and the tilt angle θ of the diffraction grating formation surface determine the observable direction.

As described above, in the display having the diffraction grating pattern of this embodiment, the minute cells 2 having the diffraction grating formed thereon are used as pixels, and the inclination angle of the surface having the diffraction grating formed thereon is set for each cell 2. This is set.

Therefore, the following various effects can be obtained.

(A) Since the tilt angle of the tilted surface forming the diffraction grating can be set independently of the angle of the diffraction grating and the grating spacing for each cell 2, the display of the image by the diffracted light and the reflected light or the transmitted light. It is possible to independently display the image by.

In particular, by using the + 1st order diffracted light as the diffracted light, it is possible to improve the efficiency of displaying an image by the diffracted light.

As a result, the decorative effect of the display can be enhanced.

(B) Since it has a micro-diffraction grating and a structure with a relatively macro inclination, it is extremely difficult to imitate, and both structures can be duplicated even by using an optical duplication method. Is impossible. Moreover, the image displayed by the diffraction grating and the image displayed by the inclination of each cell 2 can correspond to both visual confirmation and machine reading, and the authenticity can be easily and accurately determined. be able to.

As a result, the forgery prevention effect of the display is enhanced.

(C) Since the diffraction grating and the slope are formed on the same surface, it is possible to cope with a simple production by using a replication technique such as embossing.

The present invention is not limited to the above embodiment, but can be implemented in the same manner as described below.

(A) In the above embodiment, the case where the diffraction grating is formed mainly in the direction perpendicular to the y-axis has been described, but the present invention is not limited to this, and the direction of the grating is the original data for displaying an image. Can be arbitrarily set according to.

(B) In the above embodiment, the case where the inclined surface forming the diffraction grating is inclined with respect to the y-axis has been described. However, the present invention is not limited to this. You may make it set the angle which a surface inclines.

(C) In the above embodiment, the grating intervals of the diffraction gratings of each cell, which is a pixel, the direction of the gratings, and the inclination angle of the inclined surface forming the diffraction gratings are appropriate according to the original data for producing the display body. However, in this case, in order to compensate the angle of inclination of the inclined surface forming the diffraction grating of each cell, diffraction between the gratings of the diffraction grating and / or diffraction within the inclined surface forming the diffraction grating is performed. The direction of the grid may be set.

This makes it possible to further enhance the decorative effect and the anti-counterfeiting effect.

(D) In the above embodiment, the grating spacing of the diffraction grating of each cell, which is a pixel, the direction of the grating, and the inclination angle of the inclined surface forming the diffraction grating are appropriate according to the original data for manufacturing the display body. However, the present invention is not limited to this, and based on the original data for recording information, the angle of inclination of the inclined surface that forms the diffraction grating of each cell is set to produce the display body. The grating spacing of the diffraction grating and / or the direction of the diffraction grating within the inclined plane forming the diffraction grating may be set based on the original data of 1.

This makes it possible to further enhance the forgery prevention effect.

(E) In the above-described embodiment, the lattice spacing of the diffraction grating of each cell, which is a pixel, the direction of the grating, and the inclination angle of the inclined surface forming the diffraction grating are appropriate according to the original data for manufacturing the display body. However, the present invention is not limited to this, but based on the original data for manufacturing the display main body, the angle of inclination of the inclined surface forming the diffraction grating of each cell is set to record information. The grating spacing of the diffraction grating and / or the direction of the diffraction grating within the inclined plane forming the diffraction grating may be set based on the original data of 1.

This makes it possible to further enhance the forgery prevention effect.

(F) In the above embodiment, the case where the inclined surface forming the diffraction grating of each cell has one direction of inclination has been described, but the present invention is not limited to this, and the inclination forming the diffraction grating of each cell is not limited to this. The plane may be tilted in two directions.

This makes it possible to further enhance the decorative effect and the forgery prevention effect.

(G) In the above embodiment, the case where the surface relief type diffraction grating is used as the diffraction grating has been described, but the present invention is not limited to this, and any type of diffraction grating regardless of phase type or amplitude type is used. May be used.

[0048]

As described above, according to the present invention, a diffraction grating pattern is formed by arranging a plurality of minute cells each having a diffraction grating formed thereon as pixels on the surface of a flat substrate. In the display, since the minute cells having the diffraction grating formed on the inclined surface are arranged so as to be included in the diffraction grating pattern, a display having a diffraction grating pattern with a high decorative effect and a high anti-counterfeit effect is provided. it can.

[Brief description of drawings]

FIG. 1 is a perspective view showing an embodiment of a display having a diffraction grating pattern according to the present invention.

FIG. 2 is a schematic diagram for explaining how to set an inclination angle of a diffraction grating formation surface in the display having the diffraction grating pattern of the same embodiment.

[Explanation of symbols]

1 ... Substrate, 2 ... Cell.

Claims (3)

(57) [Claims] 1. A small diffraction grating is provided on the surface of a flat substrate .
In Lud Isupurei formed by a plurality disposed a Ranaru cell as a pixel, the for each cell, or the forming surface of the diffraction grating surface of the substrate
A display having a diffraction grating pattern, wherein the display is tilted at an arbitrary angle . 2. A display having a diffraction grating pattern according to claim 1 , wherein the direction of inclination of the surface on which the diffraction grating of each cell is formed is one direction. 3. A display having a diffraction grating pattern according to claim 1 , wherein the diffraction grating formation surface of each cell has two directions of inclination.