JP2010256807A - 3d panel board for use in light emitting panel device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a 3D panel board for use in a light emitting panel device, which clarifies the 3D effect by causing a prescribed pattern comprising an irregular structure to stand out when a panel body is irradiated with light. <P>SOLUTION: The panel board has such a configuration that a prescribed plane pattern comprising the irregular structure formed on the panel body made of a transparent resin stands out by irradiating the panel body with light, and a main pattern part 12 which is expressed by dots 21 using convex structures concave to the panel body 11 and includes a prescribed plane pattern is formed on a rear surface of the panel body, and a transparent auxiliary pattern part 25 which is expressed by dots 26 comprising convex structures protruded from the panel body and has a prescribed plane pattern is formed on a front surface of the panel body, and the plane pattern of the main pattern part on the rear surface of the panel body and the plane pattern of the auxiliary pattern part on the front surface are different by screen line number and are configured at such dot angles that a moire pattern is generated when viewed from the front. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a 3D panel plate used in a light emitting panel device having a configuration in which a light is applied to a panel body made of a transparent resin, and a predetermined plane pattern made of a concavo-convex structure formed on the panel body is raised by the light. It is about.

  A panel commonly referred to as a 3D panel is literally a flat panel, and is characterized by three-dimensional appearance of pictures, designs, characters, etc., and has a strong appeal to viewers. This type of 3D panel is a known technique as shown in, for example, Japanese Examined Patent Publication No. 42-25797 or Japanese Patent Laid-Open No. 9-207254, and includes a lenticular structure composed of a small lens group such as a kamaboko type, It can be said that the original image is grasped as a three-dimensional image by combining two images that generate parallax for the left eye and the right eye.

  In this way, the 3D panel is an arrangement in which the lenticular structure is superimposed on the disassembled original image so that the original image is projected three-dimensionally on the left and right eyes of the person, and the lenticular structure is the surface of the transparent panel. The original image is arranged on the back side, but may be printed on the back side of the lenticular structure. In any case, the image of the 3D panel is always visible, and appeals to human vision. Therefore, the 3D panel image has a property of being viewed stereoscopically regardless of whether it is preferred. The 3D panel has the force to see it three-dimensionally in the eyes of the viewer, so even if it is only for a short time, if you keep watching for a long time, you will hear the complaint that you will feel tired and uncomfortable. is there.

  As described above, if the conventional 3D panel has an unfavorable aspect of tiring eyes by continuing to watch while having advantages such as strong appeal, it becomes a hindrance to popularization. You can see that. In addition, when a 3D panel is used for a decorative panel or a display panel, there is a possibility that an adverse effect may occur due to discomfort in some cases, but due to the nature of the printed matter that the original image is printed using ink, I can't avoid the problem. However, if this problem is not solved, the practicality of the 3D panel will not be improved, and the possibility of spreading will be limited.

Japanese Patent Publication No.42-25797 JP-A-9-207254

  The present invention has been made paying attention to the above-mentioned points, and the problem is that a configuration in which a 3D effect is clarified by raising a predetermined pattern composed of a concavo-convex structure only when a light beam is applied to the panel body. It is to provide a 3D panel version used in a light emitting panel device provided. Another object of the present invention is to display a 3D effect without causing discomfort in human vision and to make full use of the design, expression, or appeal of 3D panels. .

In order to solve the above-described problems, the present invention has a configuration in which a panel body made of a transparent resin is irradiated with a light beam, and a predetermined planar pattern made of a concavo-convex structure formed on the panel body is raised by the light beam. About the panel version used for the light emitting panel device
Using a concave structure that is recessed into the panel body, a transparent mesh is formed of a convex structure that is formed on the back surface of the panel body and has a main pattern part that is represented by a halftone dot and is composed of a predetermined plane pattern. A sub-pattern part represented by a point and having a predetermined plane pattern is formed on the surface of the panel body, and the number of screen lines is different between the plane pattern of the main pattern part on the back side of the panel body and the plane pattern of the sub-pattern part on the surface. In addition, a means is taken that the screen is configured to have a halftone dot angle that produces a moire pattern when viewed from the surface.

  The 3D panel plate of the present invention is used for a light-emitting panel device, and the light-emitting panel device has a configuration for irradiating light to the 3D panel plate. The 3D panel version targeted by the present invention is a large one, for example, an indoor or outdoor display panel, a decorative panel for building materials, a decorative panel for a game machine, a decorative panel for a vending machine, or a decoration for home appliances. Panels. Moreover, in the case of a small thing, a frame or a photo frame is also an object of the present invention. The printing pattern of the 3D panel plate of the present invention refers to a decoration including characters and designs formed by printing on the surface of the panel body, or a decorative pattern. However, it is natural that even if it is not decorative, it can be formed on the surface of the panel body.

  The 3D panel version used in the light emitting panel device having such a configuration has a configuration common to that disclosed in Japanese Patent Application Laid-Open No. 2008-55761 related to the applicant's prior application, and uses a molding die. The planar pattern transferred to the back side of the panel body formed in this way is viewed from the front side, and the panel body has a lenticular structure. In addition, the 3D panel version of the present invention has the same configuration as that disclosed in Japanese Patent Application Laid-Open No. 2009-25666, which is also related to the applicant's prior application, and this is a panel body formed by using a hot press method. The flat pattern transferred to the back side is also viewed from the front side. These panel versions are commonly referred to as PM vans and are highly regarded in the industry.

  In order to form a panel body using the above molding die, it is desirable to use an injection molding method. In the injection molding method, a transfer original plate having a planar pattern composed of an uneven structure that is complementary to the concavo-convex structure of the planar pattern is placed in the molding die, and a transparent plastic is injected into the molding die. Do. There are various types of molding methods that can be applied as described below, but the advantages of injection molding methods are that the dimensional accuracy of the molded product is good, fine patterns by printing, and excellent pattern expression. It is. After forming, the unevenness structure is transferred to the surface of the panel body made of a transparent plastic sheet as the concavo-convex structure by peeling off the transfer original plate from the panel body. Therefore, it can be said that the transferred concavo-convex structure has a complementary relationship with the uneven structure of the transfer original plate.

  The uneven structure raised on the surface of the transfer original plate is formed by printing means. Since a planar pattern can be formed by printing, the range of characters, designs, etc. that can be formed is extremely wide and has a high degree of freedom. There are various printing methods that can be applied, and it can be considered that, as the amount of ink applied is larger, in general, a variety of expressions are possible, which is also suitable for the present invention. For example, screen printing is suitable as a printing method applied to the present invention because the amount of ink applied is large. Other applicable printing methods include offset printing, gravure printing, seal printing, and flexographic printing. Furthermore, any known printing method including stencil printing can be applied to print on the surface of the transfer original plate in the present invention.

  In the case of forming the panel body using another hot press method, the concave structure is formed by pressing a convex pattern complementary to the planar pattern consisting of a concave structure as a whole against the back surface of the transparent panel main body. For this purpose, a press plate having a convex pattern on the front surface is arranged on the back side of the panel body, and a complementary pattern is formed so that a fine concave / convex structure is formed into a planar pattern consisting of a concave structure that receives irradiated light. A transfer original plate having a fine uneven structure on the surface is placed between the back surface of the transparent panel main body and the press plate. Then, the concavo-convex structure is formed by pressing the press plate together with the transfer original plate onto the transparent panel body under heating conditions, and transferring a pattern having a fine uneven structure on the surface to the surface of the transparent panel body. . The transfer original plate used in the hot press method is the same as the transfer original plate in the method using a molding die in the sense that the uneven structure is transferred to the panel body. Therefore, various printing methods below the screen printing are applied. Can be formed.

  Here, the description of the printing of the transfer original plate used in the 3D panel plate of the present invention is captured. As described above, the transfer original plate can be formed by screen printing or any other printing method, and is used for printing using a printing machine, and printing is performed using ink having specific properties. In other words, the ink has a specific property that it can withstand molding pressure and hot press pressure, does not crack or crush, has heat resistance that does not substantially change quality, does not flow, and maintains a certain shape as a flat pattern. A recess forming ink is used.

  When a concave pattern forming ink having specific properties is used to form a flat pattern on the back surface of the panel body made of transparent plastic, the recess forming ink is heated similarly to the panel body made of plastic. Then, the transfer original plate and the panel main body are bonded to each other, and it becomes difficult to separate the transfer original plate and the concave portion forming ink on the surface from the panel main body formed by the injection molding method or the hot press method. Therefore, in such a case, it is desirable to apply a release material to the surface including irregularities due to the ink printed on the surface of the transfer original plate. By applying the release material, the transfer original plate is easily peeled from the panel body together with the concave / convex structure of the recess forming ink, and the uneven structure printed in a predetermined pattern on the surface of the transfer original plate is transferred to the panel main body as an uneven structure. In addition, the transparency of the transparent portion other than the transfer portion is maintained. Examples of the release material include silicon and stearate, and any of them can be used.

  In order to form a planar pattern on the back surface of the panel body, a known molding method such as vacuum molding or pressure molding can be applied in addition to the above-described molding method using a mold such as injection molding or hot press molding. The molding method in which the transfer master is placed in a molding die is similar to the insert molding method in a sense, and in the sense that injection molding is performed using a printed plastic film, a painting molding method (so-called in-mold method). The molding method is also similar. However, the above-described insert molding method or so-called in-mold molding method is not for transferring the printed pattern to the panel body as in the present invention, but should be similar in shaping form, but applied to the present invention. It is possible to do.

  As the material for the transfer original plate, a sheet-like or film-like material made of plastic can be used. Examples of the plastic used for the transfer original plate include polyethylene terephthalate (PET) and polycarbonate (PC). When a thickness is required, a sheet is used, and when it is thin, a film is used. Use one. As the printing ink, UV curable resin ink, two-component curable resin ink, evaporation-drying resin ink, and other mixed resin inks can be used. Therefore, a suitable ink is selected from these inks in consideration of the tree type of the panel body, the molding method, the expression method, and the like. In addition, powdered materials such as UV matting agents, matting agents, urethane beads, glass beads, gold powder, silver powder, and pearl powder can be added to the above inks to exhibit special effects.

  As a third means for forming a flat pattern on the back surface of the panel main body, there is an engraving means such as a laser engraving method that is also known for enabling high-precision flexographic printing. In the laser engraving method, a flat pattern is formed on the back side of the panel plate by directly engraving the concave structure that is recessed in the panel body, and there is a tendency to become cloudy on the processed part, but the light is irradiated by the cloudiness. This is advantageous in the case of the present invention because it leads to the fact that the predetermined planar pattern can be clearly grasped although it is a light color without it.

  Using the concave structure that is recessed into the panel body that can be formed as described above, a main pattern portion that is represented by a halftone dot and is formed of a predetermined plane pattern is formed on the back surface of the panel body. The concavo-convex structure formed on the panel body is mainly a concave structure because it is a pattern transfer due to the concavo-convex structure of the concave forming ink that is complementary to it, but a convex part is also formed in the concave part. Concavities and convexities can be mixed. In addition, when a light beam is irradiated from the side surface or the back surface of the panel body made of transparent plastic, the light beam is reflected on the interface of the recessed structure that is recessed, thereby forming a panel plate that appears to emit light.

  In order to make a predetermined plane pattern made up of a concavo-convex structure rise by irradiation of light guided to the side surface or the back surface of the panel body, the panel body is made of a highly transparent plastic such as acrylic resin or polycarbonate (PC), for example. Is good. Acrylic resin is suitable because it is relatively inexpensive despite its high transparency, and polycarbonate is the best in transparency, but may be expensive depending on the application. For objects requiring higher added value, there is no economic problem with using a highly transparent material such as polycarbonate.

  The main pattern portion composed of a predetermined plane pattern is expressed by halftone dots. The main pattern part means a part that should contain the main pattern of the intended display effect of the 3D panel version. Elements constituting the pattern include figures, photographs, pattern patterns, letters, and other shapes. And both are expressed as halftone dots. A halftone dot is composed of a single color (including gray scale) or a set of colors of cyan (C), magenta (M), yellow (Y), and black (K). A halftone dot pattern is generated for each color ink and used in an overlapping manner, thereby forming a main pattern portion having a predetermined color tone. A halftone screen indicates resolution by the number of lines (screen lines: lpi) drawn in halftone dots per inch, and the angle of the screen is also given. In normal printing, when screens with different numbers of lines and different halftone dot angles are overlapped, moire may occur. Therefore, in order to prevent the occurrence of moire, the screens are overlapped while changing the above halftone dot angles. The 3D panel version which produces a 3D effect by producing a moiré pattern by using the reverse is formed.

  In the present invention, in order to generate a moire pattern in relation to the concave structure on the back surface of the panel body, a convex structure protruding from the front surface of the panel body is used to express a sub-surface consisting of a predetermined plane pattern expressed by a transparent halftone dot. A pattern portion is formed on the panel body. A transparent halftone dot is formed on the surface of the panel body by a printing means using a transparent ink. The sub-pattern part is a part that has a front / back relationship and produces a moiré pattern when viewed from the front of the panel body, and exhibits a 3D effect. The elements constituting the moiré pattern are the same elements as those of the sub-pattern part Chosen from. Therefore, it is natural that the sub-pattern portion is expressed as a halftone dot. The matter required for the sub-pattern part is that the surface of the panel main body is printed using the transparent ink and has a convex structure composed of the bulge of the transparent ink. Adjust the screen line number and halftone angle setting for the transparent halftone dots of the convex structure of the sub-pattern part, and the screen line number and halftone angle setting for the halftone dot of the concave structure of the main pattern part. As a result, a moire pattern is produced when viewed from the front, and the desired 3D effect is produced.

Furthermore, the thing of this invention shall have a non-structure part which has not formed the main pattern part and the sub-pattern part in a part of panel main body, and has arrange | positioned another display body on the back surface of a panel main body by it, thereby overlapping Sometimes, it is possible to adopt a configuration in which another display body can be seen through the main pattern portion and the sub-pattern portion from the front. In other words, the non-structure part is a name based on not having one or both of a concave structure and a convex structure, and is a part set like a transparent window at an arbitrary part of the panel body. Then, another display body is arranged in such a window-like part. For example, if the main pattern part and the sub-pattern part are provided in the peripheral part of the panel body and the non-structure part is provided in the center part, it becomes a frame shape, so by placing photos, cards, posters etc. in the window-like part A display device using the 3D effect for frame-like decoration can be formed. In this case, another display body may be attached to the back surface of the panel body corresponding to the window-shaped part, but a holding portion for attaching another display body may be provided at a corresponding position on the back surface of the panel body. . In addition to the non-patterned part, even if another display body is placed on the back side of the place where the main pattern part and the sub-pattern part are provided, the panel body is transparent, so another display is made from the front of the panel body. You can see through your body.

  In order to irradiate the concave structure that is recessed inside the panel main body with a light beam, a light introducing portion for introducing the light beam into the main body is provided in the panel main body. That is, highly transparent acrylic resin, polycarbonate resin, or the like is also used as a mediating means for transmitting the light beam introduced into the panel body to the concave structure. The light introduction part can be provided on the side surface (end face) of the panel body which is not impaired in transparency such as acrylic resin or polycarbonate resin, or the concave structure itself appearing on the back surface of the panel body is also the light introduction part. Therefore, the light beam may be irradiated from behind. If the end surface of the panel body is optically clean enough, it can be used as a light introduction part even if it is removed from the molding die, but if not, it can be processed by methods such as cutting and polishing. I need it. When the front shape of the panel body is, for example, a quadrangular shape, the required number of light introducing portions can be provided on the plurality of side portions. The light source to be introduced into the panel body is an LED that emits red, green, blue, white, or colorless light, and is placed close to the light introduction part of the body, especially for side illumination. Is desirable.

  Since the present invention is configured and operates as described above, the 3D effect can be clarified by raising a predetermined pattern made up of a concavo-convex structure only when a light beam is applied to the panel body. It is possible to provide a 3D panel version for use in a light emitting panel device having a configuration in which the 3D effect generated in a state where light is not irradiated is not conspicuous. Therefore, according to the present invention, the 3D effect is displayed without causing visual discomfort to a person, and the 3D effect is clarified in a state where it is actually required. There is an effect that it is possible to make full use of the design, expression and appeal of the panel.

  Hereinafter, the present invention will be described in more detail with reference to the illustrated embodiments. FIG. 1 shows a 3D panel plate 10 used in the light-emitting panel device of the present invention. Reference numeral 11 denotes a panel body made of a transparent resin and irradiated with light rays. The resin forming the panel body 11 is an acrylic resin having high transparency in this example, and a main pattern portion 12 having a concavo-convex structure is formed on the back side thereof. The main pattern portion 12 shown in the figure has only the numeral “1” as a predetermined pattern, and the main pattern portion 12 “1” shown in FIG. 2 has a concave structure (21) on the back surface side and a front surface side. It has a convex structure (26) and exhibits a 3D effect.

  The panel body 11 is formed on the back surface of an acrylic resin that is molded into a sheet having a thickness of several millimeters by injection molding means. FIG. 3 shows an injection molding process. 13 is a fixed mold for injection molding, 14 is a movable mold for injection molding, and 15 is a flat pattern master made of swelled ink for forming recesses. The planar pattern master 15 is set in the mold apparatus so as to be positioned on the side facing the cavity 17. FIG. 3A shows a clamped state in which the transparent acrylic resin is injected into the cavity 17 and molding is performed. FIG. 3b shows the panel main body 11 which is a molded product taken out from the molding machine after injection molding, and a transfer master plate 16 having a predetermined pattern printed thereon is bonded to the surface with a release material. attached. FIG. 3 c shows the peeling process, in which the transfer master 16 is removed from the molded panel body 11. The peeling operation of the transfer original plate 16 may be performed based on common knowledge of resin molding, and is usually an operation before the plastic of the panel body 11 is cooled to a room temperature or lower by natural cooling. When the transfer original plate 16 is peeled from the panel body 11 together with a predetermined pattern, the uneven structure 18 ′ of the planar pattern master 15 using the recess forming ink is transferred to the surface of the panel body 11, so that the uneven structure 18 having a complementary relationship is obtained. A concave structure of the main pattern portion 12 is formed.

  As described above, the 3D panel plate of the present invention can take a system in which a main pattern portion having a predetermined planar shape is formed on a panel body using a hot press system. FIG. 4 is an example of this. The press plate 20 on which the surface of the transfer original plate 19 on which a predetermined pattern consisting of an arbitrary design, pattern, etc. is printed is arranged is placed on the upper side, and the panel body 11 is placed on the lower side. The halftone dot sheet 22 having fine halftone dots 21 on the surface is arranged between them, and the halftone dot sheet 22 is arranged in contact with the panel main body 11, and with respect to the halftone dot sheet 22, The pressing plate 20 is pressed under the required heating and pressurizing conditions (FIG. 4a). A hot platen 23 is disposed at the upper level, and is provided so as to be close to and away from the base 24 by an elevating mechanism (not shown). In this example, a thick plate (0.5 mm to 30 mm) made of acrylic resin is used as the transparent panel body 11, and the halftone dot sheet 22 is a sheet (12 to 12) made of polyethylene terephthalate (PET or polycarbonate PC is also acceptable). 200 μm) and the hot platen 23 is set to a temperature of 100 to 180 ° C.

  In the next step, the press plate 20 is lowered, and a predetermined pattern of the transfer original plate 19 is pressed against the halftone dot sheet 22 with a required pressure for a required time (0.5 to 5 seconds), thereby forming a concave structure. The main pattern portion 12 of the predetermined pattern 19 having fine halftone dots 21 is transferred to the surface of the transparent panel body 11. That is, the press plate 20 is pulled away from the halftone dot sheet 22 (FIG. 4b), and the halftone dot sheet 22 is peeled off from the panel body 11 after the required time has elapsed in anticipation of cooling and hardening (FIG. 4c). Thus, the transfer original plate 19 is transferred to the surface of the transparent panel main body 11, and the concave structure of the main pattern portion 12 for the uneven structure 18 expressed by the fine halftone dots 21 is formed. On the surface of the panel body 11, as shown in FIG. 4d, the back side of the main pattern portion 12 consisting of the numeral “1” as a predetermined pattern made of a concave structure is formed as an aggregate made up of fine halftone dots. I understand that. The main pattern portion 12 shown in FIG. 2 is formed not only on the back surface but also on the front surface of the panel body 11 in order to exhibit the 3D effect. For the convex structure of the panel body surface, a separate printing means is applied to the panel body surface.

  Although the manufacturing method has been described by the injection molding method and the hot press method, the panel main body 11 still has a concave structure that is recessed in the panel main body 11 on the back surface, and a main pattern composed of a predetermined plane pattern expressed by halftone dots. The part 12 is formed (see the concave structure on the right side of FIG. 2 and FIG. 5). A convex structure on the surface side of the main pattern portion 12 which is expressed by a transparent halftone dot and has a predetermined plane pattern as a convex structure (left side in FIG. 2) protruding from the panel main body 11 with respect to the panel main body 11. The structure and the convex structure of the sub-pattern part 25 are formed on the surface. FIG. 6 shows a state in which the panel main body 11 is viewed from the back side, as is understood from the fact that the main pattern portion 12 consisting of the number “1” is shown in an inverted (inverted) state. The sub-pattern portion 25 is provided in a frame shape on the panel body 11, so that the lead line indicating the sub-pattern portion 25 is a broken line and is distinguished from the solid line indicating the main pattern portion 12. Reference numeral 26 denotes a halftone dot of a convex structure constituting the main pattern portion 12 and the sub-pattern portion 25.

  The front and back sub-pattern portions 25 are also related to the main pattern portion 12 and generate a moire pattern when viewed from the front of the panel main body 11. It is formed using printing technology. When the sub-pattern part 25 is formed by printing, the matter required for the sub-pattern part 25 is that it is printed on the surface of the panel body 11 using transparent ink and has a convex structure composed of the swell of the transparent ink. It is. Accordingly, the number of screen lines and halftone angle constituting the halftone dots 21 of the concave structure of the main pattern portion 12, and the number of screen lines and halftone dots constituting the transparent halftone dots 26 of the convex structure of the sub-pattern portion 25 are set. By adjusting the setting of the angle, a moire pattern can be generated when viewed from the front, and the desired 3D effect can be exhibited.

  Referring to the setting example of the halftone dots in FIG. 6, the main pattern portion 12 consisting of the numeral “1” on the back side of the panel main body has, as an example, the area of the halftone dots 21 on the back side of 40% and the number of lines of 58 lpi. The surface side of the main pattern portion 12 is similarly given a dot area of 40% and a line number of 55 lpi. Similarly, as an example, the area of the halftone dot 21 is the area other than the main pattern portion. A numerical value of 75% and a line number of 58 lpi is given. On the other hand, the sub-pattern portion 25 on the surface of the panel body is given an area of the halftone dots 26 of 40% and a line number of 60 lpi as an example. Since it is a single color of black (K) only, the halftone angles are all set to 45 degrees. Based on such a setting, a moire effect is generated by the illusion of a square, and the main pattern portion 12 composed of the number “1” is seen in the foreground, and the frame-like portion other than “1” is seen in the back. The effect will be expressed.

  Next, application examples of the 3D panel plate are shown in FIGS. FIG. 7 shows a state in which the 3D panel plate 10 ′ of the present invention is applied to a light emitting panel device 30 of a game machine, and the light emitting panel device 30 is cyan in a groove portion 28 in which the 3D panel plate 10 ′ of the base 27 is fitted. (C), magenta (M), yellow (Y), and black (K) LEDs are incorporated, and the lighting controller 29 controls the lighting of the LEDs. However, since the 3D panel plate 10 in this case is different from the above-described single color of black (K), for example, cyan (C) 15 degrees, black (K) 45 degrees, magenta (M) 75 degrees, yellow (Y ) Set the halftone angle such as 90 degrees. By incorporating the LED into the bottom of the groove portion 28, the front and rear walls constituting the base 27 serve as a hood, and the LED light beam repeats total reflection without leaking to the outside, so that the main pattern portion 12 and the sub-wall 12 The effect of irradiating the pattern portion 25 is achieved.

  The 3D panel plate 10 shown in FIG. 7 also needs to be made of a transparent resin because of the construction of the present invention, and neither the main pattern portion 31 nor the sub-pattern portion 32 can be printed on the transparent panel body 11 without using colored ink. Therefore, the cloudiness due to heat and the cloudiness due to laser processing are clearly visible as the main pattern portion 31 and the sub-pattern portion 32. Therefore, although the main pattern portion 31 and the sub-pattern portion 32 also appear three-dimensionally, the transparent panel body 11 is colored to the extent that it is clouded, so it is not conspicuous and does not cause eyestrain. FIG. 8A shows this low contrast state.

  Now, when the electric cord 31 of the game machine is connected to the power source, and the operation unit 33 is operated and the power source is turned on, the light emitting panel device 30 is activated, and the built-in LED emits light to the panel body 11 made of transparent resin. It will be in the state of irradiation. As a result, the four CMYK colors of the LED or some of the light rays irradiate the plane pattern of the main pattern portion 31 on the back surface of the panel body 11 and the plane pattern of the sub-pattern portion 32 on the surface. As a result, the main pattern portion 31 and the sub-pattern portion 32 are clearly illuminated, so that the main pattern portion 31 on the back surface and the sub-pattern portion 32 on the front surface are raised to obtain a moire effect, and the 3D effect becomes clear. is there. FIG. 8B shows this high contrast state. Thus, when the light emitting panel device 30 is turned on in a necessary state, a clear 3D effect is exhibited, and a display effect that is inconspicuous when light is not irradiated is produced, so that eyes are not tired unnecessarily.

  The 3D panel plate of the present invention has a non-structured part in which a main pattern part and a sub-pattern part are not formed on a part of the panel body 11, thereby overlapping another display body on the back surface of the panel body 11. Can be arranged. Therefore, to supplement the explanation about this point, in FIG. 6, the frame-shaped portion is applied not only to the sub-pattern portion 25 but also to the main pattern portion, and the inner side surrounded by the frame 34 is not structured. The embodiment can be described by using a part. In this case, the panel body inside the frame 34 is merely a transparent plate surface. Therefore, when another display body 35 such as a photograph is attached to the back surface and fixed, the other display body 35 sees through the panel body from the front. The 3D pattern formed by the frame-shaped main pattern portion and the sub-pattern portion is decorated so as to surround another display body 35.

  The present invention is configured as described above and can be used for decoration in various amusement devices such as game machines. For example, it can be used as a part of an interior decoration of an automobile or a part of an exterior decoration of a home appliance. It is also useful as a means for calling attention especially on a bulletin board, a display board, and the like.

It is a perspective view which shows an example of the 3D panel version used for the light emission panel apparatus which concerns on this invention. It is sectional drawing of the II-II line same as the above, and its partial enlarged view. It is explanatory drawing which shows process abc explaining production of the panel board in this invention. It is explanatory drawing which shows process abcd similarly explaining production of a panel version. It is the front view which shows the panel board similarly, and its partial enlarged view. It is the front view which shows the other example of a panel board similarly, and the elements on larger scale of the front and back. It is a perspective view which similarly shows the example of application of the light emission panel apparatus which concerns on this invention. 7 shows the 3D panel version in the example of FIG. 7, and A is an explanatory diagram showing a state where the contrast before lighting is weak and a state where the contrast after lighting B is increased.

10, 10 minutes 3D panel plate 11 Panel body 12 Main pattern part 13 Fixed mold 14 Moving mold 15 Planar pattern master 16 Transfer master 17 Cavity 18, 18 'Concavities and convexities and irregularities complementary to them 19 Transfer master 20 Press plate 21 halftone dot 22 halftone dot sheet 23 heating plate 24 base 25 sub-pattern part 26 halftone dot 27 base 28 groove part 29 lighting control device 30 light emitting panel device 31 main pattern part 32 sub-pattern part 33 operation part 34 frame 35 another display body

Claims (5)

A panel plate used in a light-emitting panel device having a configuration in which a light beam is applied to a panel body made of a transparent resin, and a predetermined plane pattern made of a concavo-convex structure formed on the panel body is raised by the light beam,
Using a concave structure that is recessed into the panel body, a main pattern portion that is represented by a halftone dot and has a predetermined plane pattern is formed on the back surface of the panel body, and is composed of a convex structure that protrudes from the panel body. A transparent sub-pattern portion that is expressed and has a predetermined plane pattern is formed on the surface of the panel body, and the plane pattern of the main pattern portion on the back surface of the panel body and the plane pattern of the sub-pattern portion on the surface have different screen line numbers, And the 3D panel version used for the light emission panel apparatus characterized by being comprised by the halftone dot angle which produces a moire pattern seeing from the surface. The main pattern portion on the back side of the panel body is formed by injection molding means using a transfer original plate having a flat pattern formed on the surface, or a hot press method, the concave structure of which is a complementary structure with the concave-convex structure of the flat pattern. A 3D panel plate used in the light emitting panel device according to claim 1. The 3D panel version used for the light emission panel apparatus of Claim 1 in which the concave structure is formed in the main pattern part of the back surface of a panel main body by the engraving means. The 3D panel version used for the light emission panel apparatus of Claim 2 or 3 in which the main pattern part of the back surface of a panel main body has produced the cloudiness in the concave structure part. The main panel and sub-pattern are part of the panel body so that when another display body is placed on the back of the panel body, another display body can be seen through the panel body from the front. The 3D panel plate used for the light-emitting panel device according to claim 1, wherein the 3D panel plate has a non-structural part in which no part is formed.

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