JPH06297890A - Optical path controller, manufacture thereof, using method, print using the same controller, transfer sheet, manufacture of the print using the controller and forgery identifying method for the print - Google Patents

Abstract

PURPOSE:To obtain an optical path controller which can control transmission of an incident light by a flat platelike piece and set an optical path in a desired direction by orienting many flat platelike pieces having magnetism in a predetermined direction and scattering them in a transparent or translucent base layer. CONSTITUTION:An optical path controller 1 comprises a base layer 2, a protective layer 3 arranged as required on this upper layer, and flat platelike pieces 4 mixed in the layer 2. The layers 2, 3 are formed of transparent or translucent plastic member, etc., which can transmit a light. Further, many pieces 4 are scattered in the layer 2, and oriented in a predetermined direction. Incidentally, in the case of using, the controller 1 is arranged on an upper layer of an information display layer 42 of a print 40 through an adhesive layer 43. When the print 40 is seen from a direction A, an information layer 42a of the layer 42 is readable. On the other hand, when the print 40 is seen from a direction B, the layer 42 is concealed with the pieces 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical path controller for setting an optical path in a desired direction, a method of manufacturing the same and a method of using the same, a printed matter using the optical path controller, a transfer sheet, and a printed matter using the optical path controller. The present invention relates to a method and a method for determining forgery of printed matter.

[0002]

2. Description of the Related Art In recent years, copying performance has been remarkably improved by color copying of copying machines. The copy is of high quality and almost invisible to the naked eye as compared with the original of the copy. Along with this, banknotes, cash vouchers, etc. are being copied and used more fraudulently. In order to prevent such forgery, various anti-counterfeit printed materials have been proposed in the past.

For example, as a first example, Japanese Patent Application Laid-Open No. 56-10
There is one disclosed by Japanese Patent No. 493. This is one in which a glass bead layer is formed on the display layer recorded on the base material, and only the light passing through the central portion of each glass bead of the glass bead layer is allowed to go straight and passes through other peripheral portions. By refracting light, the display layer can be read by the naked eye, but cannot be copied by a copying machine.

As a second example, Japanese Utility Model Laid-Open No. 58-13867.
There is one in which a half-vapor-deposited seal is stuck on the information layer of a document, such as the one disclosed in Japanese Patent No. 0. A third example is one in which an iris layer is provided on the information layer, such as the one disclosed in JP-A-60-13598. Further, as a fourth example, there is one in which a hologram image is formed on a base material, which is widely applied to credit cards and cash cards.

Further, as a fifth example, Japanese Patent Laid-Open No. 53-53
There is one disclosed in Japanese Patent Publication No. 142237 and Japanese Patent Publication No. 55-45400. These print latent images so that they cannot be distinguished from the outside,
This latent image (warning text such as "VOID" or "fake") is displayed.

[0006]

However, in the first example, since only the light passing through the central portion of each glass bead is allowed to go straight, it is possible to read the characters of the display layer located below it. Even if it is possible, there is a problem in that it becomes difficult to read characters and the like on the display layer located below the peripheral portion of the glass beads.

In the second example, since half vapor deposition is performed, the surface has a metallic color, which makes it difficult to read characters and the like on the information layer. Further, in the third example, since the reflected light of the information layer is weakened by the iris layer and the characters and the like of the copy are blurred, there is a problem that the copy cannot be clearly determined. .

In the fourth example, the technical level of a counterfeiter today is improved, and a counterfeit product of an elaborate hologram is manufactured, and it is difficult to visually judge whether the hologram is true or false. Has become.

In the fifth example, it is possible to determine whether the copy is forged or not, but even if the latent image is displayed on the copy, the characters of the copy can be read. Therefore, it has no effect on a medium that is inconvenient to be copied.

The present invention has been made to solve the above-mentioned problems, and firstly, it can be surely determined that the image is forgery, and further, an image of information is copied. An object of the present invention is to provide a printed matter that cannot be printed, a method for manufacturing the printed matter, and a method for determining forgery of the printed matter. Secondly, in order to provide the above-mentioned printed matter, it is an object of the present invention to provide an optical path control body which can set an optical path in a desired direction and a manufacturing method thereof, and further to provide another method of using the optical path control body. . Thirdly, it is an object to provide a transfer sheet for efficiently producing a printed matter using the optical path control body.

[0011]

In order to achieve the above object, the first solution of the optical path control body (1) according to the present invention is a transparent or semitransparent base layer (2), and It is characterized by comprising a large number of flat plate-like pieces (4) having magnetism which are oriented in a predetermined direction and scattered in the base layer.

A second solution of the optical path control body (70, 80) is characterized in that the plurality of flat plate-shaped pieces are partially or stepwise oriented in different directions.

The solution means of the method for manufacturing an optical path control body is the first step of melting the base layer and mixing the flat plate-like piece,
A second step of applying a magnetic force to the mixed plate-shaped piece to orient the plate-shaped piece in a predetermined direction, and a third step of solidifying the base layer while maintaining the oriented state of the plate-shaped piece. And a process.

A solution of the method of using the optical path controller is to dispose the optical path controller on the optical path of illumination light, and direct the illumination light incident on the optical path controller in a direction corresponding to the orientation direction of the flat plate-shaped piece. It is characterized in that the optical path direction of the illumination light transmitted through the optical path control body is set to a desired direction.

First of printed matter (40) using the optical path controller
The means for solving the above is formed in a base material (41), an information display layer (42) formed on the base material and having an information layer (42a) for displaying information, and formed in a predetermined area on the information display layer. The optical path controller according to claim 1 or 2 is provided.

The second of the printed matter (60) using the optical path controller
The solution means of (1) has a base material (61), a coloring part (52) formed on the base material and having a predetermined color, and the flat plate piece having a color different from the predetermined color. Item 1 or 2 is provided with an information layer (62) for displaying information, which is formed on the colored portion.

The means for solving the transfer sheet (50) is a sheet (51), the optical path control body according to claim 1 formed on the sheet, and the optical path control body formed on the optical path control body. And a colored layer (52) having a color.

The first solution to the method for producing a printed matter using the optical path control body is as follows: the first step of forming the information display layer on the base material, and the flat piece is mixed and melted. A second step of forming the base layer on the information display layer,
A third step of causing a magnetic force to act on the plate-shaped piece in the base layer to orient the plate-shaped piece in a predetermined direction; and a step of coagulating the base layer while maintaining the oriented state of the plate-shaped piece. 4 steps are included.

A second solution of the method for producing a printed matter using the optical path control body is to heat and transfer the transfer sheet to the base material to transfer the information layer having the optical path control body onto the base material. It is characterized by including a process.

A first solution of the method for discriminating forgery of printed matter is a method for discriminating forgery of printed matter in which an information display layer having an information layer for displaying information is discriminated. In the area, by providing a forgery discrimination layer in which a large number of flat plate-shaped pieces are oriented in a predetermined direction and scattered in a transparent or semi-transparent base layer, an information visible angle at which the image of the predetermined area of the information display layer is visible And an information invisible angle at which the predetermined area of the information display layer is hidden by the flat piece is set, and the authenticity of the printed matter is determined by the presence or absence of the information visible angle and the information invisible angle. To do.

A second means for solving the forgery discrimination method of the printed matter is a forgery discrimination method for discriminating the forgery of the printed matter in which an information layer for displaying information is formed, and the information layer is formed to have a predetermined color. And, on the information layer, by providing a forgery discrimination layer in which a large number of flat plate-shaped pieces having a color different from the predetermined color are scattered in a predetermined direction in a transparent or translucent base layer, A first visible angle at which the image of the information layer is visible in the predetermined color, and a second visible angle in which the image of the information layer is hidden by the flat piece and the image of the information layer is visible in the color of the flat piece. A visible angle is set, and the authenticity of the printed matter is determined by the presence or absence of the first visible angle and the second visible angle.

[0022]

In the first or second solution means of the optical path control body, the flat plate-like pieces are oriented and scattered in a predetermined direction in the transparent or semitransparent base layer. Light that has entered the optical path control body from a direction substantially the same as this alignment direction is transmitted through the base layer, and light that has entered from a direction other than the alignment direction is reflected by the flat piece. Therefore, only incident light in a desired direction can be transmitted.

In the solution to the method for manufacturing the optical path control body, the flat plate piece is mixed in the base layer melted in the first step, and the flat plate piece is oriented in a predetermined direction by the magnetic force in the second step. In the third step, the oriented state of the flat piece is maintained and the base layer is solidified. Therefore, by these steps, it is possible to manufacture an optical path control body in which the orientation direction of the plate-shaped piece is set to a desired direction.

In the solution of the method of using the optical path control member, the optical path control member is arranged on the optical path of the illumination light so that only the direction substantially the same as the orientation direction of the flat plate-shaped piece of the incident illumination light. Transmits light. Therefore, the illumination direction of light can be set to a desired direction by setting the orientation direction of the flat piece.

In the first means for solving a printed matter using the optical path control body, the optical path control body is formed in a predetermined region on the information display layer. Thereby, in the predetermined region, the image of the information display layer can be seen only from the orientation direction of the flat piece, and the information display layer is hidden by the flat piece from other directions to see the image of the information display layer. It is possible to form printed matter that cannot be printed.

In the second means for solving the printed matter using the optical path controller, the information layer is a colored portion having a predetermined color,
And an optical path control body having a flat plate-shaped piece having a color different from the predetermined color. This allows the information layer to be seen in the color of the colored portion when the information layer is viewed from the direction substantially the same as the orientation direction of the flat piece, and when the information layer is viewed from another direction, It is possible to form a printed material in which the colored portion is hidden by the strips and the information layer can be seen in the color of the flat sheet, that is, the printed material in which the color of the information layer changes depending on the viewing angle.

In the transfer sheet solving means, an optical path control body and a coloring layer are laminated on the sheet. Therefore, it is possible to provide a transfer sheet capable of transferring the optical path controller as an information layer.

In the first solution to the method for producing a printed matter using the optical path controller, the information display layer is formed on the base material in the first step, and the flat piece is mixed and melted in the second step. The base layer is formed on the information display layer, the flat piece is oriented in the third step, and the flat layer is held in the fourth step to solidify the base layer. Therefore, the orientation and holding of the flat piece can be performed after the base layer is formed on the information display layer, and the efficiency of the production of the printed matter using the optical path controller according to the fifth aspect can be improved.

In the second solution of the method for producing a printed matter using the optical path controller, the information layer is transferred onto the base material by the transfer sheet having the optical path controller. Therefore, it is possible to improve the efficiency of manufacturing a printed matter using the optical path control body according to the sixth aspect.

In the first solution to the method for discriminating forgery of printed matter, the forgery discrimination layer by the optical path controller is formed on the printed matter, and the authenticity of the printed matter is verified by the presence or absence of the visible angle and the invisible angle of the information display layer. To be determined. Further, in the second solution of the forgery discrimination method for printed matter, the forgery discrimination layer by the optical path controller is formed on the printed matter, and the first visible angle and the second visible angle in which the colors of the information layer are different from each other. The authenticity of the printed matter is determined depending on the presence / absence. Therefore, the authenticity of the printed matter can be surely discriminated visually.

[0031]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, with reference to the drawings, etc., an optical path control body according to the present invention, a method of manufacturing the same and a method of using the same, a printed matter using the optical path control body, a transfer sheet, a printed matter using the optical path control body, An example of a method for determining forgery of printed matter will be described. FIG. 1 is a sectional view showing the configuration of an embodiment of an optical path control body according to the present invention. As shown in FIG. 1, the optical path control body 1 includes a base layer 2, a protective layer 3 formed on the base layer 2, and a flat plate-shaped piece 4 mixed in the base layer 2.

The base layer 2 and the protective layer 3 are formed of a transparent or semitransparent plastic member or the like so that light can pass therethrough. Here, the protective layer 3 is provided in order to protect the base layer 2 from damage due to an external force, and is not necessary when the base layer 2 itself has sufficient strength.

A large number of flat plate-like pieces 4 are scattered in the base layer 2,
And it is oriented in a fixed direction. 2A and 2B are a plan view and a side view showing a detailed configuration of an example of the flat plate-shaped piece 4. As shown in FIG. 2, the flat plate-shaped piece 4 is formed in a substantially disc shape. The flat plate-shaped piece 4 has a diameter of about several μm and a thickness of about 1/100 of the diameter. Also,
The plate-like piece 4 has magnetism, and examples of the material thereof include an iron plate material and a ferrite material.
Amorphous metals excellent in corrosion resistance and the like are preferable.

Next, a method of manufacturing the optical path control body 1 will be described. FIG. 3 is a diagram for explaining the steps of one embodiment of the method for manufacturing the optical path control body 1. First, the first shown in FIG.
In the step of (1), a large number of flat plate-shaped pieces 4 are mixed in the base layer 2. At this time, the base layer 2 is in a melted state.
Here, it is preferable that the flat plate-shaped pieces 4 are uniformly dispersed in the base layer 2.

In the second step shown in (b) in the next figure, the magnetic force is applied to the flat piece 4 by the magnet 10. When a magnetic force acts on the flat plate-shaped piece 4, the flat plate-shaped piece 4 having magnetism is
It is oriented in a certain direction.

In the third step shown in FIG. 3C, the melted base layer 2 is solidified. The solidification of the base layer 2 is performed by the solidification device 20. The coagulation device 20 is a device for drying or cooling by heat. The base layer 2 is coagulated by the coagulation device 20 while maintaining the oriented state of the flat plate-shaped piece 4. After that, the protective layer 3 (FIG. 1) is provided as needed.

FIG. 4 is a side view showing the construction of an embodiment of how to use the optical path control body 1. FIG. 4 shows a state in which the optical path control body 1 is attached to the front surface of the headlight 30 of the vehicle. As shown in FIG. 4, the headlight 30
The illumination light emitted from the headlamp 31 enters the optical path control body 1. When the illumination light enters the optical path control body 1,
Of this incident light, only the illumination light in the substantially same direction as the orientation direction of the flat plate-shaped piece 4 passes through the optical path control body 1, and the other illumination light is reflected by the flat plate-shaped piece 4. As a result, the optical path of the light transmitted through the optical path control body 1 is set in the B direction in the figure. In this way, the illumination angle or the illumination distance of the headlight 30 can be controlled by variously setting the orientation angle of the flat plate-shaped piece 4.

The optical path control body 1 is not limited to being attached to an illuminating body such as the headlight 31 or the vicinity thereof, but can be attached to a light transmitting body to control incident light. For example, by attaching the optical path control body 1 to a window, the optical path control body 1 plays the same role as a blind.

FIG. 5 is a sectional view showing the construction of an embodiment of a printed matter using the optical path controller. As shown in FIG. 5, the printed matter 40 includes a base material 41, an information display layer 42, the optical path control body 1, and an adhesive layer 43. Base material 41
Is formed of a paper material, a plastic member, or the like. The information display layer 42 is formed on the base material 41 by printing, handwriting, printing by a printer or the like, and the information layer 42a of characters or the like.
Is a layer formed. In the present invention, the information display layer 42 does not indicate only the information layer 42a but includes the peripheral layers thereof.

On the upper layer of the information display layer 42, the above-mentioned optical path control body 1 is provided. In the embodiment, a transparent or semitransparent adhesive layer 43 is provided in the lower layer of the optical path control body 1, and the optical path control body 1 is attached to the information display layer 42 by the adhesive layer 43. Has been done.

The printed matter 40 in FIG. 5 is formed by adhering the optical path control body 1 to the base material 41 provided with the information display layer 42. But without forming like this,
The printed matter 40 can be manufactured as follows.

The information display layer 42 is formed on the base material 41 (first step), and the base layer 2 in which the flat plate-like piece 4 is mixed and melted is applied to the upper layer thereof (second step). After that, as shown in FIG. 3, the flat plate-shaped piece 4 is oriented (third step) and the base layer 2 is solidified (fourth step), whereby the printed matter 40 can be manufactured.

Next, the appearance of the information recorded on the printed matter 40 will be described. FIG. 6 is a perspective view showing an embodiment of the appearance of the printed matter 40. 6A is a view of the printed matter 40 in FIG. 5 viewed from the direction A, and FIG.
It is the figure which looked at the inside printed matter 40 from the B direction.

When the printed matter 40 is viewed in the direction A in FIG. 5, that is, in the direction substantially the same as the orientation direction of the flat plate-shaped piece 4, the side surface (thickness) of the flat plate-shaped piece 4 can be seen. However, since the flat plate-shaped piece 4 is formed to be extremely thin as described above, the flat plate-shaped piece 4 is practically invisible. Therefore, the information display layer 42, which is the lower layer of the optical path control body 1, is substantially visible without being blocked by the flat piece 4. Therefore, when the printed matter 40 is viewed from the direction A in the figure, the information layer 42a of the information display layer 42 can be read (FIG. 6A).

Further, in the direction B in FIG. 5, that is, the flat plate-shaped piece 4
When the printed matter 40 is viewed from a direction substantially perpendicular to the orientation direction of, the surface of the flat piece 4 is visible. Therefore, the flat information piece 42 hides the lower information display layer 42, the information display layer 42 cannot be seen, only the flat piece 4 can be seen, and the information layer 42a of the information display layer 42 can be read. No (Fig. 6 (b)).

FIG. 7 is a sectional view showing the construction of an embodiment in which the optical path control body 1 is applied to a transfer sheet. As shown in FIG. 7, the transfer sheet 50 includes a film 51, an optical path control body 1, a coloring layer 52, and an adhesive layer 53.

The film 51 is made of polyethylene retephthalate or the like having releasability, stability, heat resistance and toughness. The film 51 has a thickness of about several μm to several tens of μm. Protective layer 3
Is for protecting the optical path control body 1 described above from being damaged by an external force and for peeling the optical path control body 1 from the film 51. The colored layer 52 formed in the lower layer of the optical path control body 1 is formed of a dye or pigment having a predetermined color. The adhesive layer 53 below the colored layer 52 is for adhering the optical path control body 1 to the base material, and unlike the adhesive layer 43 in FIG. 5, it is not necessarily required to be transparent or semitransparent.

Next, a method of transferring information (forming an information layer) using the transfer sheet 50 of FIG. 7 will be described. The information layer is formed using the transfer sheet 50 by a hot stamp device, a thermal transfer printer, or the like. Figure 8
FIG. 8 is a side view showing a state where an information layer is formed on the base material 61 using the transfer sheet 50 of FIG. 7. As shown in FIG. 8, the transfer sheet 50 is disposed between the base material 61 and the print head 70 for transferring the information layer to the base material 61. First, the base material 61 is set at a predetermined position on the lower side of the transfer sheet 50 in the drawing by a transporting unit (not shown). When this setting is completed, the print head 70 moves in the direction A in the figure,
The transfer sheet 50 is sandwiched and pressed against the base material 61. At this time, a mold for desired characters or the like to be printed is formed at the tip of the print head 70. When heat is further applied, the contact surface between the film 51 of the transfer sheet 50 and the protective layer 3 is peeled off, and the optical path control body 1, the coloring layer 52, and the adhesive layer 53 which are shaped like letters at the tip of the print head 70 are formed. Are separated and adhered to the base material 61 by the adhesive layer 53. As a result, the information layer is formed on the base material 61.

FIG. 9 is a sectional view showing the construction of an embodiment of the printed matter formed as described above. As shown in FIG. 9, the information layer 62 of the printed matter 60 includes an optical path control body 1, a coloring layer 52, and an adhesive layer 53. The information layer 62 is shaped in a predetermined shape such as characters, and an image of information such as characters is displayed on the upper surface of the information layer 62.

Next, the appearance of the printed matter 60 as viewed from the A direction and the B direction in FIG. 9 will be described with reference to FIGS. 9 and 10. FIG. 10 is a perspective view showing an embodiment of the appearance of the printed matter 60. 10, (a) is a view of the printed matter 60 viewed from the A direction in FIG. 9, and (b) is a view of the printed matter 60 viewed from the B direction in FIG. 9.

When the information layer 62 is viewed from the direction A in FIG. 9, that is, the direction substantially the same as the orientation direction of the plate-shaped piece 4, the information layer 62 is shown.
The plate-shaped piece 4 is virtually invisible and is visible in the color of the colored layer 52 below the optical path control body 1 (FIG. 10A). Further, when the information layer 62 is viewed from the direction B in FIG. 9, that is, the direction substantially perpendicular to the orientation direction of the flat plate-shaped piece 4, the colored layer 52 is hidden by the flat plate-shaped piece 4 in the information layer 62. It is visible in color (Fig. 10 (b)).

Next, how the printed matter 40 of FIG. 5 and the printed matter 60 of FIG. 9 are copied will be described. First, a case where the printed matter 40 is copied will be described. When the printed matter 40 is irradiated with the illumination light emitted from the light emitting portion of the copying apparatus, (1) the illumination light is emitted from the substantially same direction as the orientation direction of the flat plate-like piece 4 (direction A in FIG. 5). And when
(2) There are times when illumination light is emitted from directions other than the above. In the case of (1), the illumination light passes through the optical path control body 1, enters the information display layer 42 below it, and is reflected by the information display layer 42. The optical path of most of the reflected light reflected by the information display layer 42 at this time is not in the same direction as the optical path of the incident light. Therefore, since the optical path of the reflected light is blocked by the flat piece 4, the reflected light cannot pass through the optical path control body 1 as it is and is hardly received by the light receiving portion of the copying apparatus.

Further, in the case of (2), the illumination light is reflected by the flat plate-like piece 4 and hardly enters the information display layer 42. Therefore, it goes without saying that the image on the information display layer 42 is not copied, but since the flat plate-shaped piece 4 has a predetermined orientation angle, the direction of the reflected light reflected by the flat plate-shaped piece 4 is predetermined. It is a direction different from the direction. Therefore,
The reflected light reflected by the flat piece 4 is hardly received by the light receiving portion of the copying machine. Therefore, the copying apparatus cannot copy the image of the information display layer 42 of the printed matter 40 as it is. A copy obtained by copying the printed matter 40 with a copying machine becomes an unclear image in which the whole is blackened,
The image of the information layer 42a cannot be read. Also,
It is possible to determine at a glance that it is a copy.

Even if the printed matter 40 is forged by a method other than copying by the copying apparatus, the forged article is as shown in FIG.
Even when viewed from the B direction, the image on the information display layer 42 is not hidden. Therefore, in FIG. 5, when the printed matter 40 is viewed from the A direction and the B direction, the angle at which the image of the information display layer 42 can be read and the image of the information display layer 42 are hidden and the image can be read. The authenticity of the printed matter 40 can be reliably determined by visually determining whether or not the angle is not possible.

Next, a case where the printed matter 60 of FIG. 9 is copied will be described. When the peripheral portion of the information layer 62 is irradiated with the illumination light emitted from the light emitting portion of the copying apparatus, the light enters the base material 61 and is reflected by the base material 61. The reflected light is received by the light receiving portion of the copying apparatus. It Therefore, the image of the base material 61 in the peripheral portion of the information layer 62 is copied as it is. Similarly to the printed matter 40 described above, when the illumination light is incident on the information layer 62, the illumination light is transmitted through the optical path control body 1, is incident on the colored layer 52, and is reflected by the colored layer 52. Sometimes it is reflected by the strip 4 (not incident on the colored layer 52). Even if the illuminating light is reflected by the colored layer 52, most of the optical path of the reflected light is blocked by the flat plate-like piece 4, so that it is hardly received by the light receiving portion of the copying apparatus. Further, even if the illumination light is reflected by the flat plate-shaped piece 4, it is reflected by the flat plate-shaped piece 4 in a direction different from a predetermined direction, and therefore is hardly received by the light receiving portion of the copying apparatus. Therefore, the image of the information layer 62 of the printed matter 60 is not copied in the color of the colored layer 52 or the color of the flat plate 4, but is copied in black. It goes without saying that the color of the image on the information layer 62 does not change even when this copy is viewed from the directions A and B in FIG. Therefore, by observing the printed matter 60 in FIG. 9 from the A direction and the B direction, and visually judging whether or not the color of the image of the information layer 62 changes to a predetermined color, the authenticity of the printed matter 60 is surely confirmed. Can be determined.

FIG. 11 is a sectional view showing the structure of another embodiment of the optical path controller. In the optical path control body 1 of FIG. 1, the flat plate-shaped pieces 4 are oriented in a fixed direction, but like the optical path control body 70 shown in FIG. It is also possible to set a plurality of directions, or to change the orientation direction of the flat plate-like piece 4 stepwise according to a predetermined rule, as in the optical path controller 80 shown in FIG.

By using this optical path controller 70 or 80 instead of the optical path controller 1 of the printed matter 40 of FIG.
Even if the illumination light of the copying apparatus is emitted from any direction, the illumination light emitted to at least a part of the area is the information layer 42.
Since the light is not incident on a and is reflected by the flat piece 4, the image of the information layer 42a in this partial area is hidden by the flat piece 4 and is copied so that it cannot be read. Therefore, it is possible to provide a printed matter that can surely prevent copying.

As described above, one embodiment of the optical path control body according to the present invention, its manufacturing method and use method, printed matter using the optical path control body, transfer sheet, manufacturing method of printed matter using the optical path control body, and forgery discrimination method of printed matter I explained an example,
The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention. In the embodiment, the flat piece 4 is shown to have a diameter of several μm and a thickness of about 1/100 of the diameter. However, the size of the flat piece 4 depends on the use of the optical path control body 1 and the like. However, the size of the flat plate-like piece 4 is not limited in the present invention. The plate-shaped piece 4 does not necessarily have to be substantially circular and may have any shape such as polygonal as long as it is substantially plate-shaped (thin-walled). Further, the material of the flat plate-shaped piece 4 is preferably amorphous metal, but is not limited to this, and any material may be used as long as it is a magnetic body.
Furthermore, the flat plate-shaped pieces 4 scattered in large numbers may not all have the same shape.

The printed matter 40 and the printed matter 60 are the same as the base material 4.
1 and the information display layer 42 on one surface of the base material 61,
(Adhesive layer 43,) The optical path control body 1 and the information layer 62 are formed, but they may be formed on both surfaces of the base material 41 and the base material 61.

The transfer sheet 50 is provided with the adhesive layer 53. If the transfer sheet 50 is heated and pressed, the optical path controller 1 and the coloring layer 52 are transferred to the base material. The layer 53 does not necessarily have to be provided.

[0061]

As described above, claim 1 or 2
According to the optical path control body described in (1), since the transmission of the incident light is controlled by the flat piece, the optical path of the light can be set in a desired direction by setting the orientation direction of the flat piece.

According to the method of manufacturing the optical path controller of the third aspect, the flat plate pieces are mixed, oriented and held in the first to third steps. The optical path control body according to claim 1 set in a desired direction can be efficiently manufactured.

According to the method of using the optical path controller of the fourth aspect, the optical path controller is arranged on the optical path of the illumination light so that the light is transmitted only in the direction substantially the same as the orientation direction of the flat plate-shaped piece. Therefore, it is possible to set the illumination direction of the light from the light emitting body or the illuminating body to a desired direction.

According to the printed matter using the optical path controller according to the fifth aspect, the optical path controller is formed in a predetermined area on the information display layer so that the image of the information of the printed matter can be viewed only from a specific direction. According to the printed matter using the optical path controller according to claim 6, since the colored portion and the flat plate-shaped piece form a printed matter in which the color of the information layer changes depending on the viewing angle, forgery is difficult. A high printed matter can be provided. Furthermore, in the printed matter using the optical path control body according to claim 5 using the optical path control body according to claim 2, no matter which direction the illumination light of the copying apparatus is applied, a plurality of orientation angles are set. Since the image of the information layer in at least a part of the area is hidden by the plate-shaped piece having,
It is possible to provide a printed matter in which the image of the information in the above range cannot be read by preventing copying by the copying apparatus.

According to the transfer sheet of the seventh aspect, since the transfer sheet is formed from the optical path controller and the coloring layer,
It is possible to transfer an information layer having an optical path controller and having high security which is difficult to forge.

According to the method for producing a printed matter using the optical path controller of the eighth aspect, the information display layer is formed, the base layer having the flat piece is formed, and the flat piece is formed by the first to fourth steps. Since the orientation of the sheet and the holding of the plate-shaped piece are performed, the optical path control body can be efficiently formed on the printed matter, and the production of the printed matter according to claim 5 is made efficient, and the productivity of the printed matter is improved. Can be improved.

According to the method for producing a printed matter using the optical path controller of the ninth aspect, the printed sheet of the sixth aspect is produced by using the transfer sheet of the seventh aspect. Information having a control body can be efficiently formed, and the printed matter according to claim 6 can be produced efficiently,
The productivity of printed matter can be improved.

According to the forgery discrimination method of the printed matter according to the tenth aspect, the authenticity of the printed matter is discriminated by setting the visible angle and the invisible angle of the information display layer. According to the forgery discrimination method, since the authenticity of the printed matter is determined by setting the first visible angle and the second visible angle having different colors of the information layer, the authenticity of the printed matter can be surely confirmed by visual inspection. It becomes possible to make a distinction, and it is not possible to produce a printed matter in which different images can be seen due to a plurality of different angles depending on the copying apparatus, so that it is possible to provide a highly reliable forgery discrimination method. .

[Brief description of drawings]

FIG. 1 is a sectional view showing a configuration of an embodiment of an optical path control body according to the present invention.

2A and 2B are a plan view and a side view showing a detailed configuration of an example of the flat plate-like piece 4 of FIG.

FIG. 3 is a diagram illustrating a process of an example of a method of manufacturing the optical path control body 1.

FIG. 4 is a side view showing a configuration of an embodiment of a method of using the optical path control body 1.

FIG. 5 is a cross-sectional view showing a configuration of an example of a printed matter using an optical path control body.

6 is a perspective view showing an embodiment of the appearance of the printed matter 40 of FIG.

FIG. 7 is a cross-sectional view showing a configuration of an example in which the optical path control body 1 is applied to a transfer sheet.

8 is a side view showing a state in which an information layer is formed on a base material 61 using the transfer sheet 50 of FIG.

FIG. 9 is a cross-sectional view showing the configuration of an example of a printed material using an optical path control body.

FIG. 10 is a perspective view showing an embodiment of the appearance of the printed matter 60 of FIG.

FIG. 11 is a cross-sectional view showing the configuration of another embodiment of the optical path control body.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Optical path control body 2 Base layer 3 Protective layer 4 Flat piece 40 Printed material 41 Base material 42 Information display layer 42a Information layer 43 Adhesive layer 50 Transfer sheet 51 Film 52 Colored layer 53 Adhesive layer 60 Printed material 61 Base material 62 Information layer

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location G03G 21/00

Claims (11)

[Claims] 1. An optical path control body comprising: a transparent or semi-transparent base layer; and a plurality of magnetic flat plate-like pieces that are oriented in a predetermined direction and scattered in the base layer. 2. The optical path control body according to claim 1, wherein the plurality of flat plate-shaped pieces are partially or stepwise oriented in different directions. 3. The method for manufacturing an optical path control body according to claim 1, wherein the first step of melting the base layer to mix the flat plate pieces, and the magnetic force applied to the mixed flat plate pieces. And a third step of orienting the plate-shaped piece in a predetermined direction, and a third step of holding the oriented state of the plate-shaped piece to solidify the base layer. Optical path control body manufacturing method. 4. The method of using the optical path controller according to claim 1, wherein the optical path controller is disposed on an optical path of illumination light, and the illumination light incident on the optical path controller is the flat plate. A method of using an optical path controller, wherein the optical path direction of the illumination light transmitted through the optical path controller is set to a desired direction by reflecting the strip in a direction corresponding to the orientation direction. 5. The base material, the information display layer having an information layer formed on the base material and displaying information, and the information display layer formed in a predetermined region on the information display layer. A printed matter using an optical path control body, comprising: an optical path control body. 6. The substrate according to claim 1, further comprising a base material, a colored portion formed on the base material, the colored portion having a predetermined color, and the flat plate piece having a color different from the predetermined color. And an information layer for displaying information, wherein the optical path control body is formed on the colored portion, and a printed matter using the optical path control body. 7. A sheet, an optical path control body according to claim 1 formed on the sheet, and a colored layer formed on the optical path control body and having a predetermined color. And transfer sheet. 8. A method of manufacturing a printed matter using the optical path control body according to claim 5, wherein the first step of forming the information display layer on the base material, and mixing the flat plate-shaped piece And a second step of forming the melted base layer on the information display layer, and a third step of applying a magnetic force to the flat plate piece in the base layer to orient the flat plate piece in a predetermined direction. And a fourth step of solidifying the base layer while holding the oriented state of the flat piece, the method for producing a printed matter using an optical path controller. 9. A method for producing a printed matter using the optical path control body according to claim 6, wherein the transfer sheet according to claim 7 is brought into contact with the base material by heating and pressure, and the optical path control body is provided. A method of manufacturing a printed matter using an optical path control body, comprising the step of transferring an information layer onto the base material. 10. A forgery discrimination method for discriminating forgery of a printed matter having an information display layer having an information layer for displaying information, the method comprising a transparent or semitransparent base layer in a predetermined region on the information display layer. By providing forgery discrimination layers in which a large number of flat pieces are oriented and scattered in a predetermined direction, an information visible angle at which an image of the predetermined area of the information display layer is visible, and the information display layer by the flat pieces. The information invisible angle at which the predetermined area is hidden is set, and the authenticity of the printed matter is determined by the presence or absence of the information visible angle and the information invisible angle. 11. A forgery discrimination method for discriminating forgery of a printed matter on which an information layer for displaying information is formed, wherein the information layer is formed to have a predetermined color, and the information layer is transparent or transparent. By providing a forgery discrimination layer in which a number of flat plate-shaped pieces having a color different from the predetermined color are scattered in a semitransparent base layer in a predetermined direction, the image of the information layer is visually confirmed in the predetermined color. By setting a possible first visible angle and a second visible angle at which the information layer is hidden by the flat piece and the image of the information layer is visible in the color of the flat piece, the first visible angle is set. A method for discriminating forgery of a printed matter, wherein the authenticity of the printed matter is discriminated by the presence or absence of a visible angle and the second visible angle.