TW201037225A - Layout structure of light-transmissive micropore, and fabrication method thereof - Google Patents

Abstract

The present invention relates to a layout structure of light-transmissive micropore, and fabrication method thereof, which is mainly to use a laser perforation processing technology to arrange plural laser perforation micropores to form a micropore text-pattern layout structure, in which the aperture of each pore is 0.01mm to 0.25mm. These micropores are densely arranged to form a pattern or text or other layouts of the micropore display area, thereby forming a micropore light-transmissive structure which is light-transmissive and is almost not exposing the micropores on the surface of substrate.

Description

201037225 VI. Description of the invention: [Technical field to which the invention pertains] _ The present invention relates to a light-transmitting micropore arrangement structure and a manufacturing method thereof, which are particularly high in addition, high in product quality, and can be formed on a substrate. It can transmit light and is close to no (four) _ effect (four) through the hole arrangement structure and manufacturing method.

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[0002] 〇❹ [0003] Press, currently on the outer casing of the general electronic product, in addition to using the brightness of different traditional indicators, it can be displayed separately that the electronic product is in some kind of underarm or in the execution part Lai, because the indicator structure is exposed outside the electronic product (four), but it is easy to see at any time for the user. Therefore, the user of the money sees the angle deviation, and the environment is high brightness. Extremely "light refraction or reflection caused by misjudgment (when the secret is not illuminating but due to external light refracting or reflecting, causing the manufacturer to misunderstand «Yu Ming (4)), forming a serious lack of application, and the exposed indicator light also affects The overall texture of the electronic product. For this reason, there is a structure in which different parts of the electronic product are disposed on different surfaces of the electronic product. The graphic display portion is composed of a light source vessel disposed inside the outer casing and covering the outer casing. The surface of the transparent surface coating (plastic material) is composed of, and can be sprayed or laminated (adhesively bonded) to the phase of the transparent surface layer, and the image is provided on the light transmissive layer. Wenzhi The hollowed out part is such that the hollow part is located on the transparent surface and can be naturally formed into a transparent-texture area. When used, the light-transmissive area can be used to form a preset graphic 099111191 when the light source body is turned on. No. A0101, page 3 of 31, 0992019673-0 201037225, the light-emitting display effect, and when the light source body is extinguished, the light-emitting image also disappears, thereby achieving the function display or state indication effect of the above electronic product; Because the image area has no light refraction or reflection characteristics, it can effectively improve the lack of the above misidentification. At the same time, the image is integrally disposed on the surface of the casing, which also contributes to the texture improvement of the product; however, this Because the transparent graphic area and the covered opaque layer still have obvious separation and contrast, the transparent surface coating (plastic) material itself has poor durability, and is prone to wear after long-term use. The situation of stripping, which in turn affects the quality and texture of the overall product. [0004] Prior to this, another practitioner tried to use etching to metal objects. Forming a dense micro-hole on the surface or the casing (or the outer casing or the button of the electronic product, etc.), and arranging the micro-holes into a predetermined graphic shape, and matching the characteristics of the micro-holes for light to pass through, it is desired to make It can produce a bright graphic display effect when the internal illuminator is energized, thereby further improving the overall texture of the product under the same basic graphic display effect, for example, Taiwan Patent Application No. 972001 1 3, 971 01063 No. 97200636, etc.; however, due to the manner of such etching, it mainly prints an insulating layer on the surface of one of the articles or the sheet, and the insulating layer is provided with a preset image. Intensive small hollow holes, and then the metal plate is immersed in a corrosive liquid, and the corrosive liquid is gradually invaded through the small hollow holes to penetrate the metal clam in order to be on the metal coffin Forming a densely arranged and penetrating microscopic hole (ie, a graphic area); however, due to the surface tension and permeability of the corrosive liquid itself, the insulating layer The inner diameter of each small hollow hole should not be too small (in terms of material thickness and 099111191 Form No. A0101 Page 4 / Total 31 Page 0992019673-0 201037225 〇 Corrosive liquid characteristics, generally more than at least 0.30mm, and In the process of eroding metal coffin, it is not easy to control the diffusion of the corrosive liquid (the side will gradually diffuse), causing the other end of each tiny hole (the opposite side of the insulation layer) to form a horn with an enlarged inner diameter. The shape of the mouth, in this way, the hole with a larger inner diameter can not only form a non-visible hiding effect on the surface of the other parts of the metal coffin when the above-mentioned illuminant is extinguished, but also has a significantly reduced hole due to its boring hole. The structural strength of the image area (insufficient structural strength is prone to collapse deformation), and it is more difficult to achieve the image layout of the fineness of the contour; in addition, since the etching degree of each hole is difficult to accurately control to be completely consistent, the hole size will be caused. Cannot be uniform, therefore, the silver material or substrate processed by this etching method is not only effective for each micro hole size. Small, and the distance between the edges of the two holes is also difficult to shorten, so that the holes in the holes and holes can be used to achieve the effect of light transmission but in the state where the illuminants are extinguished. It is still very obvious, and it can't reach the effect of QV [0005]. The overall visual image area will have a lack of sensitivity and poor texture. β;·" ΐ V In view of the micro-holes The graphic display structure has the above-mentioned shortcomings, and the inventors have researched and improved the shortcomings for these shortcomings, and finally the present invention produces 0 [0006] [Summary of the Invention] The main object of the present invention is to provide a transparent light-transmitting substrate The hole arrangement structure can make the arrangement of the micro holes on the coffin or the substrate have a finer and more dense arrangement effect, thereby improving the sensitivity and hidden difficulty of the graphic display, and the competitiveness of the money product. . 099111191 Form No. A0101 Page 5 of 31 0992019673-0 201037225 [0007] Another object of the present invention is to provide a method for manufacturing a light-transmitting microporous structure of a substrate, which can effectively improve processing efficiency and reduce production cost. Another object of the present invention is to provide a method for manufacturing a substrate transparent microporous arrangement structure, which has a wide application range and can be applied to processing requirements of various industries and applications. [0009] In order to achieve the above object and effect, the technical means adopted by the present invention include: a light-transmitting micro-hole arrangement structure of a substrate, which is mainly provided on a substrate and provided with at least one plurality of dense laser penetrating through a display area in which the holes are arranged; the feature is that the plurality of holes are formed by laser perforation processing and the internal control of the holes is between 0, 〇1. to 〇'..25111111, and the holes are The id of the hole is between 0. 12 π and above, and the inner diameter of the hole is between 0.1 ππη and 0. Between 25mm, it is suitable to enlarge the distance between the edges of the holes to more than 5mm, so that the light-transmissive images densely formed by the micro-holes, in the state where no backlight is provided, each of the holes utilizes human vision for small and small The neglecting property of the object produces a near-hidden, non-transparent effect, and the state of the backlight is provided to provide a clear transparent spot area display; thereby enhancing the overall visual quality between the display area and its surrounding surface. [0010] According to the above structure, the transparent material may be re-coated inside or in the vicinity of each hole to prevent the micropores after processing from being blocked by other impurities or dust, thereby affecting the effect of light transmission. [0011] According to the above structure, wherein at least one front side of the substrate can be provided with a protrusion 099111191 Form No. A0101 Page 6 / Total 31 Page 201037225 [0012] [0014] [0016] [0016] [0017] a display surface, and the display area is disposed on the display surface to highlight a graphic on the display area. According to the above structure, at least one of the front sides of the substrate may be provided with a concave display surface, and the display area is disposed on the display surface to thereby highlight the graphic on the display area. The invention further provides a manufacturing method of the light-transmitting micro-hole arrangement structure, which uses a laser perforation processing method to form a plurality of micro-holes on a substrate, and the holes are densely arranged to be close to the effect of not revealing the holes. A light pattern or text or other arranged display area to provide a backlit display. The substrate formed by the above method can be filled in each hole by using a transparent transparent material to prevent other impurities or dust from filling the holes, thereby affecting the overall light display effect. According to the above method, before the substrate passes through the plurality of holes, the display area can be formed on a convex or concave display surface to highlight the image on the display area. According to the above method, the surface of the protrusion can be reused by surface treatment such as polishing, sand blasting, drilling, laser engraving or hair pulling to improve the display area of the display area. Degree and provide another meticulous processing. In order to achieve a more specific understanding of the above objects, functions and features of the present invention, the following figures are described as follows: [Embodiment] \ Referring to Figures 1 to 4, it is apparent that the first aspect of the present invention Real 099111191 Form No. 1010101 Page 7 / Total 31 Page 0992019673-0 [0018] 201037225 The structure of the example mainly includes: a substrate l (which can be metal or non-metal) and a fine hole 2 formed by laser perforation a portion in which the substrate 1 is a surface material or an article, and the fine holes 2 are formed by a laser perforation processing technique to form a plurality of fine penetration holes 2 in a certain arrangement area on the substrate 1, each of the holes 2 01毫米至0. The inner diameter of the hole is 0. 01 mm to 0. The inner diameter of the hole is controlled to be 0. 01 mm to 0. Between 12mm, the distance between the edges of the holes is between 0.03 and 8mm, and the inner diameter of the other holes is between 0. 12mm and 0. 2 5mm. The distance between the edges of each hole is enlarged to more than 5mm. The fine holes 2 are densely arranged to be in need of a pattern or text or other arrangement. The surface 20; and then the surface of the substrate 1 which is finished by perforation is subjected to surface anodizing (or painting, electroplating, printing) and the like to have a surface layer 12 which is resistant to oxidation, increased in surface hardness and beautiful in appearance. The permeable material 2 1 can be further used by printing, spraying, coating, dipping or other processing methods (

For example, light-transmissive paint or light-transmitting glue is filled or hidden in the holes 2 or its peripheral side surface to prevent impurities or dust from falling into the holes 2 to cause blockage and cloaking. In the actual application, the light source body 6 is provided on the backlight side of the substrate 1 in the device to which the substrate 1 is applied, and the light generated by the light source body 6 penetrates the fine holes 2 The display effect of the pattern or text or other arrangement may be displayed in the form of a porous spot in the display area 20 as a display of a particular state or function of the device, and conversely, when the light source body 6 is de-illuminated, Due to the neglected nature of the fine micro-objects, the micro-holes 2 on the display area of the surface of the substrate 1 can be almost hidden and disappeared without being directly viewed. 099111191 Form No. A0101 Page 8 of 31 0992019673 -0 201037225 'T, the existence of holes (with the feeling of ubiquity), the overall appearance of the product can be minimized, and thus improve the overall surface texture 'and 'on the substrate When the lateral substrate 1 is irradiated with light, then a fine light transmission effect can be produced in the case where the respective holes are fine.

Referring to Figures 5 and 6, it can be seen that the structure of the second embodiment of the present invention is mainly based on the domain of the foregoing first embodiment, and the difference is only that: before the anodizing treatment, the county material 1 can be at least The processing method of the hairline method (or surface treatment such as polishing, sand blasting or glossy surface treatment), by which the burrs of the edge of the hole 2 can be removed, or after the anodizing treatment, the surface of the laser engraving is engraved. The pattern, in order to present, the more prominent lining the image area 'to make at least the surface of the substrate 1 , by forming a texture on the surface of the substrate 1 to form a special fine surface lining pattern ' The rest of the substrate 1 and the structural features of the hole 2 are the same as those of the first embodiment, and will not be further described herein.

Referring to FIG. 7, it can be seen that the structure of the third embodiment of the present invention mainly includes: a substrate 1 and a hole 2, etc., wherein the substrate 1 can have the same display area 2 as in the first embodiment. a portion of the convex portion 3 ′ is formed on the top side (outer side) of the convex portion 3 to form a flat display surface 3 1 ′ and the plurality of holes 2 are disposed on the display surface 31 1 and the substrate 1 can be formed on the side surface having one side of the display surface 31 by using an anode treatment (or painting, printing, electric key, etc.) to form a treatment surface layer 1 (ie, an anodized surface layer, a painted surface layer, a printed surface layer or plating). The surface layer, etc., and the transparent light guiding material 2 099111191 in each hole 2, please refer to Figs. 8 and 9, and the structure main form number A0101 of the fourth embodiment of the present invention is 9th page/total 31 page 0992019673- 0 201037225 Based on the structure of the foregoing fourth embodiment, the difference is only that: after the molding surface 31 of the substrate 1 is formed and anodized in each hole 2, the drilling and cutting process (or the hair pulling line) can be utilized as needed. Or other glossy processing such as surface treatment) A special plurality of curved fine lining lines (ie, drill cut lines 13 or hair lines, etc.) are formed on the display surface 31. If the surface of the substrate 1 has been anodized, the surface of the display surface 31 can be cut by the surface. Or surface light treatment to expose and have electrical conductivity, and then transparent ED (electro) surface treatment can be performed on the display surface 31 as needed to form a transparent ED electroless layer with insulation protection function. 1 4, thereby matching the effect of the light-transmissive image of the fine hole 2 in the display area 20, thereby increasing the overall appearance of the texture: the structural features of the remaining parts are the same as those of the foregoing third embodiment. . Referring to FIG. 10, it can be seen that the structure of the fifth embodiment of the present invention mainly includes: a substrate 1 and a hole 2, etc., wherein the substrate 1 can be preliminarily utilized by laser engraving, glossy etching, stamping or other processing. The method generates a recess 4 (with a predetermined pattern and a character shape) which is the same as the display area 20 in the first embodiment, and forms a flat display surface 41 on the inner bottom side of the recess 4 and is perforated by laser. The micro-hole 2 image formed by the technology is disposed on the display surface 41, and can be processed by a similar surface light processing such as a hair-drawing line, polishing, or the like as needed to remove the substrate 1 at the back of the concave portion 4. The burrs on the side of the hole 2 on the side surface are subjected to anodizing (or painting, electroplating) at least on one side of the substrate 1 having a display surface 41 to form a treated surface layer 12, and in each hole 2 A transparent light transmissive material 21 is also housed therein. Referring to Figures 11 and 12, it can be seen that the knot of the sixth embodiment of the present invention 099111191 Form No. A0101 Page 10 / Total 31 Page 0992019673-0 201037225 The structure mainly includes: a substrate 1 and a hole 2, etc., wherein the substrate A recessed hollow portion 4 or a functional through hole (for example, a through hole of the device microphotographic lens 51) can be processed in advance on the crucible, and a bright and smooth beveled surface is processed by high light cutting on the periphery of the recess portion 4 2, or the beveled surface 15 is also cut by high-gloss on the periphery of the substrate 1, and the micro-holes 2 as before, and the anodized surface 1 of the other substrate 1 on the front side of the substrate 1 are disposed on the beveled surfaces 4 2, 1 5 2 and the transparent light-transmitting material 2 1 in each of the holes 2 is the same as the first embodiment described above. In the above structure, the structure of the hollow portion 4 适用 is suitable for the need for wide-angle viewing from the bottom surface, for example, the substrate is placed on the electronic device 5 (eg, line; mobile phone, PDA, etc.) The 1st side of the photographic lens 5 is used as a nameplate, and the beveled surface 4 2 can provide the best external field of view of the miniature photographic lens 51 to avoid any cover or blockage of the photographic lens. The light penetrated by the hole 2 of the portion can form a display for the miniature camera lens ; i; and the light penetrated by the holes 2 in the beveling machine 5 can provide the periphery of the electronic device 5

The display of the outline can increase the discrimination effect of the electronic device 5 in a low light environment. In summary, the transparent microporous arrangement structure and the manufacturing method thereof of the present invention can achieve the effect of improving the detail of the graphic display, reducing the production cost and enhancing the competitiveness of the product, and is a novel and progressive invention. The invention is filed in accordance with the law; however, the above description is only for the preferred embodiment of the present invention, and any changes, modifications, alterations or equivalent replacements in accordance with the technical means and scope of the present invention should also fall. It is within the scope of the patent application of the present invention. 099111191 [Simple description of the drawing] Form No. A0101 Page 11 of 31 0992019673-0 201037225 [0019] Fig. 1 is a perspective view showing the structure of the first embodiment of the present invention. 2 is a plan sectional view showing a first embodiment of the present invention. 3 is a schematic view showing the aperture diameter and the pitch of each hole in the first embodiment of the present invention. [0022] Fig. 4 is a view showing a display area ray guide of the first embodiment of the present invention. [0023] The fifth circle is a front perspective view of the second embodiment of the present invention.

6 is a rear perspective view showing a second embodiment of the present invention. 7 is a perspective view showing a three-dimensional structure of a third embodiment of the present invention. 8 is a schematic perspective view showing a fourth embodiment of the present invention. Figure 9 is a plan sectional view showing a fourth embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS [0028] FIG. 1 is a plan sectional view showing a fifth embodiment of the present invention. 1 is a schematic perspective view showing a sixth embodiment of the present invention.

[0030] FIG. 2 is a schematic diagram of an application scenario of a sixth embodiment of the present invention. [Main component symbol description] [0031] 1.....Substrate 11...Drilling and cutting 12... Processing surface layer 1. 3.... Hairline pattern 14____E DElectrical layer 15, 42____ Oblique facet 2... hole 099111191 Form No. A0101 Page 12 of 31 0992019673-0 2 201037225 2 0....Display area 21——Light-transmitting material 3 ..... convex part 31, 41 .... display surface 4 ..... recess 4 0.... hollow portion 5 ..... electronic device 51.. photo lens 〇❹ 099111191 Form No. A0101 Page 13 of 31 0992019673-0

Claims (1)

201037225 VII. Patent application scope: 1. A light-transmitting micro-hole arrangement structure, which is mainly provided on a substrate with at least one display area of a pattern, a character, a symbol or other arrangement densely arranged by a plurality of micro-holes. The plurality of holes are formed by a laser through hole having an inner diameter of between 0.01 mm and 0.25 mm. 2. The light-transmitting micro-hole arrangement structure according to the first aspect of the patent application, wherein the inner diameter of the hole may be between 0.01 mm and 0.12 mm, and the distance between the edges of the holes may be between 0.03 and 8111111. between. The light-transmitting micro-hole arrangement structure according to the first aspect of the invention, wherein the inner diameter of the hole is between 0.12 mm and 0.25 mm, and the distance between the edges of the holes is 5 mm or more. 4. The light-transmitting microporous arrangement according to claim 1, wherein the metal substrate is provided with a hairline, a polishing pattern, a sandblasting pattern, and a laser engraving on at least one side surface of the display area. a surface formed by at least one of the lining lines. 5. The light-transmitting microporous arrangement according to claim 1, wherein the substrate is provided with an anodized surface layer, a painted surface layer, a printed surface layer or a plated surface layer on at least one side surface having a display area. A light transmissive microporous arrangement according to claim 4, wherein the substrate is provided with an anodized surface, a painted surface, a printed surface or a plating on at least one side surface having a display area. One of the surface treatment surface layer 〇7. The light-transmitting micropore arrangement structure as described in claim 5, wherein 099111191 Form No. A0101 Page 14 of 31 0992019673-0 201037225 The substrate is at least different A surface formed by high-light cutting is provided on one side surface of the region. 8. The transparent microporous arrangement according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 wherein the at least one side of the substrate is provided with a recessed surface. And the display area is disposed on the display surface. 9. The transparent microporous arrangement of the crucible according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 wherein at least one of the sides of the substrate is provided with a convex surface 'And the display area is set on the display surface. 10. The light-transmitting microporous arrangement according to claim 8, wherein the substrate is provided with at least a diamond cut, a hairline, a polished grain, a sandblast and a thunder. a surface of at least one of the lining lines formed by the engraving and the like. 11. The transparent microporous arrangement according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7 wherein each hole is inside Filled with a light transmissive material. 12 ♦ The transparent microporous arrangement according to claim 8 of the patent application, wherein each of the holes is filled with a light transmissive material. ❹ 14 . 15 . 16 . 17 . 099111191 13. The light-transmitting microporous arrangement according to claim 9, wherein each of the holes is filled with a light-transmitting material. The light-transmitting microporous arrangement according to claim 10, wherein each of the holes is filled with a light-transmitting material. The light-transmitting microporous arrangement according to claim 11, wherein the light-transmitting material is one selected from the group consisting of a light-transmitting paint or a light-transmitting glue. The light transmissive microporous arrangement according to claim 12, wherein the light transmissive material is one selected from the group consisting of a light transmissive paint or a light transmissive adhesive. The light-transmitting microporous arrangement according to claim 13, wherein the light-transmitting material is one selected from the group consisting of a light-transmitting paint or a light-transmitting glue. Form No. 1010101 Page 15 of 31 099201^73-0 201037225 18. The light-transmissive microporous arrangement according to claim 14, wherein the light-transmitting material is selected from a light-transmitting paint or a transparent one. One of the light glues. 19. The light transmissive microporous arrangement of claim 1 or 2 or 3 or 4 or 5 or 6 or 7, wherein the hole is a laser through hole. 20. The transparent microporous arrangement of claim 8, wherein the hole is a hole through which a laser penetrates. The light-transmitting micropore arrangement according to claim 9, wherein the hole is a hole through which a laser penetrates. 22. The light-transmitting microporous arrangement of claim 10, wherein the hole is a hole through which a laser penetrates. The light-transmitting micropore arrangement according to claim 11, wherein the hole is a hole through which a laser penetrates. The light-transmitting micropore arrangement according to claim 12, wherein the hole is a hole through which a laser penetrates. The light-transmitting micropore arrangement according to claim 13, wherein the hole is a hole through which a laser penetrates. The light-transmitting micropore arrangement according to claim 14, wherein the hole is a hole through which a laser penetrates. 27. A light transmissive microporous arrangement as described in claim 1/5, wherein the hole is a hole through which a laser penetrates. 28. The light-transmissive micropore arrangement of claim 16, wherein the hole is a hole through which a laser penetrates. The light-transmitting micropore arrangement according to claim 17, wherein the hole is a hole through which a laser penetrates. 30. The transparent microporous arrangement of claim 18, wherein the hole is a hole through which a laser penetrates. 099111191 Form No. A0101 Page 16 of 31 0992019673-0 201037225 31 . 32 . 33 . 〇 34 . 35 . 36 . Ο 37 . 38 . 099111191 : A method for manufacturing a transparent microporous arrangement using laser processing In a manner, the plurality of holes are formed through the laser beam, and the holes are densely arranged in a pattern or a display area of characters or other arrangements. For example, in the patent application, the substrate is manufactured by at least one of the side surfaces of the display area, such as a hair extension line, a polishing, a mouth sand, and a laser engraving. ^ Patent application _ 31 赖 状 透 透 透 之 之 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X ^ Patent Application _ No. 3 2 The manufacturer of the light-transmissive cloth i. The "Hei substrate" is processed at least in one of the side surfaces of the display area by anodizing, painting, printing or electric money. The manufacturing method of the light-transmitting micropore arrangement according to Item 3 of the patent of claim 4, wherein the "Hei substrate is processed by high-light cutting at least one surface of the display area. For example, claim 31 or 32 or 33 or The manufacturing method of the light-transmitting micropore arrangement according to Item 34 or claim 35, wherein the substrate is formed on a concave display surface before the plurality of holes are penetrated. The manufacturing method of the light-transmitting micropore arrangement, wherein the display surface of the recess is formed by laser engraving or etching or stamping, etc., as described in claim 31 or 32 or 33 or 34 or 35 The manufacturing method of the light-transmitting micropore arrangement, wherein the substrate is formed on a convex display surface before penetrating the plurality of holes. The light transmission micro as described in claim 38 The manufacturing method of the hole arrangement, wherein the display surface of the protrusion is at least one of stamping or molding, etc., and the form number is A0101, page 17 / total 31 page 0992019673-0 39 . 201037225 processing and forming. 40 . 3 8 items The manufacturing method of the transparent micropore arrangement, wherein the surface of the display surface can be processed by one of drilling, drawing, polishing, sand blasting, etc. 41. As described in claim 39 The manufacturing method of the transparent micropore arrangement, wherein the surface of the display surface can be processed by one of drilling, drawing, polishing, laser engraving and sand blasting. 42. Patent application No. 31 or 32 Or the manufacturing method of the light-transmitting micropore arrangement according to Item 33 or 34 or 35, wherein the hole is filled with a light-transmitting material. 43. Manufacturing of the light-transmitting micropore arrangement according to claim 36 The method, wherein the hole is filled with a light-transmitting material, 44. The method for manufacturing a light-transmitting microhole arrangement according to claim 37, wherein the hole is filled with a light-transmitting material. The method for manufacturing a light-transmitting micropore arrangement according to the invention of claim 38, wherein the hole is filled with a light-transmitting material. 46. A method for manufacturing a light-transmitting micropore arrangement according to claim 39 Where the hole is a light transmissive material 47. A method of manufacturing a light-transmissive micropore arrangement as described in claim 40, wherein the hole is filled with a light-transmitting material. 48. As described in claim 41 The manufacturing method of the light-transmitting micropore arrangement, wherein the hole is filled with a light-transmitting material. The manufacturing method of the light-transmitting micropore arrangement according to claim 4, wherein the light-transmitting material is printed At least one of the methods of spraying, dipping, coating, etc., is bonded to the surface of the display area and the inside of each hole. 50. Manufacturer of the light-transmitting microhole arrangement as described in claim 4, item 399111191 Form number A0101, page 18 of 31, 0992019673-0 201037225, wherein the light-transmitting material is bonded to the surface of the display area and the inside of each hole by at least one of printing, spraying, dipping, coating, and the like. The method for manufacturing a light-transmitting micropore arrangement according to claim 4, wherein the light-transmitting material is bonded to the display area in at least one of printing, spraying, dipping, coating, and the like. The surface and the inside of each hole. The method for manufacturing a light-transmitting micropore arrangement according to claim 45, wherein the light-transmitting material is bonded to the display area by at least one of printing, spraying, dipping, coating, and the like. The surface and the inside of each hole. 53. The method of manufacturing a light-transmitting micropore arrangement according to claim 46, wherein the light-transmitting material is bonded to the display by at least one of printing, spraying, dipping, coating, and the like. The surface of the area and the inside of each hole. 54. The method of manufacturing a light-transmitting micropore arrangement according to claim 47, wherein the light-transmitting material is bonded to the display area by at least one of printing, spraying, dipping, coating, and the like. The surface and the inside of each hole. 55. The method of manufacturing a light-transmitting micropore arrangement according to claim 48, wherein the light-transmitting material is bonded to the display area by at least one of printing, spraying, dipping, coating, and the like. The surface and the inside of each hole. 〇 099111191 Form No. A0101 Page 19 of 31 0992019673-0