TWI339160B - Method of manufacturing light guide plate with micro-concave lens and micro-convex lens - Google Patents

Description

1339160 IX. Description of the Invention: TECHNICAL FIELD The present invention relates to a method of manufacturing a light guide plate, and more particularly to a method of manufacturing a light guide plate having a micro concave-convex lens. [Prior Art]

The lens microstructure of the light guide plate is formed on the surface of the light guide plate in the form of a v_cut, such as the Republic of China Patent No. M3丨丨〇48, which is constructed with a continuous serrated groove on the lower surface of the light guide plate. Mirror microstructure (V-cut) 'The process of v_cut is complicated and the production time is long and the tolerance of the prism angle is easy, which makes the manufacturing cost increase and the difficulty increases. 'More' V_cut form of light guide plate It is easy to produce an optical interference pattern (Moire) phenomenon, resulting in poor uniformity of the light guide plate. It is necessary to additionally provide a layer diffusion film, which increases the production cost. S [Summary of the Invention] The main purpose of the present invention is to provide a method for manufacturing a light guide plate having micro-concave and convexities, comprising the steps of: providing a first substrate having a first surface and a first lower surface; a first photoresist layer: the first upper surface of the meta-substrate; the first photoresist layer is patterned to form a plurality of first-column photoresist; and the first fresh (four) is performed to make the shape Light I5 is formed with a plurality of first arcuate surfaces; electroforming a first gold material on the first -Iu# Μ "When the 苐-main ▲ material of the 苐-upper surface" the first metal material has Φ 肖第The second surface is oriented toward the first cylindrical surfaces: a plurality of first curved surfaces to make the second plurality of arcuate recesses of the first metal material; removing the first substrate and The first light 1339160 I' is formed to form a first mold; a second base having a second upper surface and a second lower surface is provided; and a second photoresist layer is formed on the second substrate a first upper surface; patterning the second photoresist layer to form a plurality of second columnar photoresists, performing a second reflow step to make the second pillars The photoresist is formed with a plurality of second arcuate surfaces; the electroforming-second metal material is on the second upper surface of the second substrate, and (4) the two metal layers are covering the second columnar photoresists (four) second An arc-shaped surface to form a second mold having a plurality of arcuate protrusions; providing a transparent substrate; and pressing the first mold to one of the first exposed surface of the transparent substrate and the second mold Pressing on a second exposed surface of the transparent substrate such that the first exposed surface of the transparent substrate is formed with a plurality of micro convex lenses and the second exposed surface is formed with a plurality of concave lenses. The first and second reflowing steps are configured to have the arcuate recesses and the arcuate protrusions respectively on the first and second molds, so that the first exposed surface of the transparent substrate is formed with the micro The convex lens and the second exposed surface are formed with a plurality of micro concave lenses to form a light guide plate having a micro concave-convex lens, which has the advantages of simple process, and the micro convex lens and the micro concave lens of the light guide plate having the micro concave and convex lens can be The light that penetrates the light guide plate having the micro concave-convex lens is uniformly scattered, and the arrangement of the diffusion film is omitted, thereby achieving the effect of reducing cost. [Embodiment] Please refer to Figures 1 and 2A to 20, in accordance with an embodiment of the present invention, a method of manufacturing a light guide plate having a micro concave-convex lens, comprising the following steps: Providing a first substrate 110 having a first upper surface U1 and a first lower 1339160 surface 112. In this embodiment, the first substrate n 〇 is Selecting from the substrate or the glass substrate; referring to steps 12 and 28, forming a first photoresist layer 120 on the first upper surface 丨丨1 of the first substrate 11; refer to steps 3 and 2C The first photoresist layer 121 is patterned to form a plurality of first pillar photoresists 121; referring to steps 14 and 2D, a first reflow step is performed to make the first pillars The photoresist 12 is formed with a plurality of first arc-shaped surfaces CS1. In this embodiment, the first back

The reflow time of the soldering step is between 2 and 6 hours 'the first reflow step

The reflow temperature is between 175 and 300. (:; see steps 15 and 2E, the first seed layer 130 (firstseed丨ayer) is formed on the first arcuate surfaces CS1 of the first columnar photoresists 121, the first seed The material of the layer 130 may be selected from the group consisting of gold, silver, copper and conductive materials; please refer to step 16 & 2F, electroforming a first metal material 14 to the first of the first substrate 110 The upper surface m, the first metal material 14 has a ---Table 141 and a second surface 丨42, the second surface 142 is oriented toward the first-columnar light a 121 < the first arc a surface (3) such that the second surface 142 of the first metal material M0 is formed with a plurality of arcuate recesses (4), preferably 'because the first metal #14 is electroformed on the first substrate 110 The step of the first upper surface 111 is performed by first sputtering, and the first seed layer 130 is formed on the first arcuate surfaces CS1 of the first columnar photoresists i2i. The first metal #14 is adhered to the first surface of the first substrate 110 (1); please refer to steps 17 and 2C to remove the first substrate uo and the first photoresist layer 12 Oh, Forming a first mold Mi' having the arc-shaped recesses 14: 10 1339160 or the first metal material 140; see steps 18 and 2H, providing a second substrate 150' The second substrate 150 has a second upper surface 151 and a first lower surface 152. In this embodiment, the material of the second substrate 15 can be selected from a stone substrate or a glass substrate; Steps 19 and 21, forming a second photoresist layer 160 on the second upper surface 151 of the second substrate 150; referring to steps 2A and 2J, patterning the second photoresist layer 16 to form a plurality of second columnar photoresists 丨6丨; please refer to step 2 1 and 2κ, φ for a second reflow step, so that the second ridge resistors 16 1 are formed with a plurality of second arcs The surface CS2, in the second reflow step, the reflow time of the second reflow step is between 2 and 6 hours, and the reflow temperature of the second reflow step is between 175 and 3 Torr. 〇; Referring to steps 22 and 2L, the sputtering forms a second seed layer 17 seed seed seed Uyer to the second arc sheets of the first columnar photoresist 161 The material of the second seed layer 170 may be selected from electrically conductive metal materials such as gold, silver, copper, and aluminum. For the rent, refer to steps 23 and 2M, and electroform a second metal material. The second upper surface 151 of the first substrate I50, the second metal material 18 is covered by the second arcuate surfaces cs2 of the second columnar photoresist 161 to form a first mold M2 ' The second mold M2 has a plurality of arcuate protrusions 181, wherein the thickness of the first metal material 14 is greater than the second metal material 180. In the embodiment, the second mold M2 has the same The second metal material 18〇 of the arcuate convex portion 181 is preferably, before the step of electroforming the second metal material 180 on the second upper surface 151 of the second substrate 丨5〇 The first seed layer 17 is sputtered to form the second arcuate surface CS2 of the second columnar photoresist 161, and the second gold 1339160 genus 180 is added to the second substrate 15δ. The adhesion of the second upper surface 151; please refer to steps 24 and 2 to provide a transparent substrate 210 having a first exposed surface 211 and The second exposed surface 2 12 , in this embodiment, the material of the transparent substrate 2 10 can be selected from glass or high light transmissive polymer material; please refer to steps 25 and 20, the first mold Ml is pressed against the first exposed surface 211 of the transparent substrate and the second mold M2 is pressed against the second exposed surface 2 12 of the transparent substrate 210. In this embodiment, due to the second mold The M2 is disposed on the second upper surface 151 of the second substrate 150. Therefore, when the second mold M2 is pressed against the second exposed surface 2 1 2 of the transparent substrate 2 10 , the The second substrate 150 is disposed on the second exposed surface 212 of the transparent substrate 210 to press the second mold M2 to the second exposed surface 2 1 2 of the transparent substrate 210; see FIG. 3, A plurality of micro convex lenses 2 1 3 are formed on the first exposed surface 2 1 1 of the transparent substrate 2 1 0 , and a plurality of micro concave lenses 214 are formed on the second exposed surface 212 to form a guide having a micro concave and convex lens. In the present embodiment, the diameters of the micro concave lenses 214 and the micro convex lenses 213 are between 1.8402 and 22.613 micrometers (μπι ). The center thickness of the micro concave lens 214 and the micro convex lens 213 is between 1 _2 and 34 μm, and the distance between the micro concave lens 214 and the micro convex lens 213 is between 〇1 and 1 mm. . The first reflow step and the second reflow step are used to make the first mold M1 and the second mold M2 respectively have the arcuate concave portions 143 and the arcuate convex portions i 8丨, Forming the micro-convex lens 2 丨 3 and the second exposing 12 1339160 surface 212 to form the micro-wright lens 214 to form the micro-convex lens The light guide plate 200 has the effect of making a good process, and the micro convex 213 of the light guide plate 200 having the micro concave and convexity and the micro concave lens 214 can penetrate the guide having the micro concave lens The light of the light plate 200 is evenly scattered, and the arrangement of the diffusion film is omitted, thereby achieving the effect of reducing the cost. The scope of the present invention is defined by the scope of the appended claims. Any changes and modifications made without departing from the spirit and scope of the invention belong to the scope of the present invention. . BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a flow chart showing a method of manufacturing a light guide plate having a micro concave-convex lens according to an embodiment of the present invention. 2A to 20: FIG. 3 is a schematic diagram of a method for manufacturing a light guide plate having a micro concave-convex lens according to an embodiment of the present invention. FIG. 3 is a view showing a guide having a micro-tetragonal lens according to an embodiment of the present invention. Schematic diagram of the light board. [Description of main component symbols] 11 providing a first substrate 12 to form a first photoresist layer, patterning the first photoresist layer on the first substrate 13 to form a plurality of first columnar photoresists 14 a reflowing step 15 is performed by sputtering to form a first seed layer on the first arcuate surfaces of the first tens of tens of L ^ 枉 photoresist to electrically bond a first metal material to the first Substrate removing the first substrate and the first photoresist layer ′ to form a first mold, providing a second substrate to form a second photoresist layer, and patterning the second photoresist layer on the second substrate Forming a plurality of second columnar photoresists to perform a second reflow process, forming a second seed layer, and electroforming a second metal material on the second arcuate surfaces of the second columnar photoresists Providing a transparent substrate on the second substrate, the transparent substrate having a first exposed surface and a second exposed surface for pressing the first mold to the second mold and pressing the transparent mold The second exposed surface of the first substrate, the first photoresist layer, the first metal material, the arcuate recess, the first lower surface, the second Sublayer Π first upper surface 112 first lower surface first columnar photoresist 13 〇 first seed layer! 41 first surface 142 second surface 1 5 〇 second substrate 1 60 second photoresist layer 1 80 The second metal material has a micro concave-convex lens light guide plate 151 second upper surface 1 6 1 second dome-shaped photoresist 1 8 1 arc-shaped convex portion transparent substrate micro convex lens diameter second mold 211 first exposed surface 212 second revealed Face 2 1 4 micro concave lens Η center thickness M 丨 first mold CS1 first curved surface CS2 first curved surface

14

Claims (1)

X. Patent application scope: 1. A method for manufacturing a light guide plate having a micro concave-convex lens, comprising: providing a first substrate, the first substrate having a first upper surface and a first lower surface Forming a first photoresist layer on the first upper surface of the first photo substrate; patterning the first photoresist layer to form a plurality of first columnar photoresists; performing a first And a step of welding (refl〇, ) to form the plurality of first arcuate surfaces of the first columnar photoresist. The electroforming a first metal material has a first (four) one of the first metal layer The upper surface, the surface, and the second surface, the second surface is oriented toward the first arc-shaped surface of the first, for example, the first metal material The first surface is formed with a plurality of arcs to remove the first substrate and the first first resist layer to form a first mold, and the second substrate has a second upper surface and a younger a second photoresist layer is formed on the second upper surface of the Wth portion; the first-first resist layer is formed to form a complex a plurality of second columnar photoresists; performing a second reflow (reflo) w) step such that the second columnar lights are also formed with m number of second arcuate surfaces; The second upper surface of the second substrate has a shape: the metal material covers the second curved surfaces of the second columnar photoresists to form a second mold having a plurality of 1339160 Providing a transparent substrate, the transparent substrate having a first exposed surface and a second exposed surface; and pressing the first mold to the first exposed surface of the transparent substrate and the The second mold is pressed against the second exposed surface of the transparent substrate. The first exposed surface of the transparent substrate is formed with a plurality of micro convex lenses, and the second exposed surface is formed with a plurality of micro concave lenses. 2. The method of manufacturing a light guide plate having a micro concave-convex lens according to the invention of claim 1, wherein the step of electrically praying the first metal material on the first surface of the first substrate further comprises There is: a machine money formation: a first seed layer Uirst Seed Uyer) on the first arcuate surfaces of the first columnar photoresist. 3. The method of manufacturing a guide plate having a micro meniscus lens according to the invention, wherein the second metal material is in the second material. The first upper surface of the spleen A jp A Also included is: sputtering forming a second seed layer on the second, second arcuate surfaces of the second. 4. The manufacturing method of the first panel of the patent application, wherein the micro concave-convex lens is a second metal material. The thickness of the middle 4th metal material is greater than the manufacturing method of the micro concave-convex lens 4 plate described in the above description, wherein the diameter of the micro-concave lens and the micro-convex diameter are between 1.8402 to, the main 22.613 micron () 6, as described in the patent application 丨a1 ° 呗 has a micro-concave and translucent 16 1339160. The method 1] the micro-omega lens and the thickness of the micro-convex lens (center thickness The method of manufacturing a light guide plate having a micro meniscus lens according to claim 1, wherein the first lightening step and the second method are in the range of 1.2 to 34 μm. In the regrind step, the reflow time is between 2 and 6 hours. The method of manufacturing a light guide lens having a micro meniscus according to the first aspect of the patent application, wherein the first reflow step and the In the second reflow ν, the reflow temperature is between 1 7 5 and 30 〇. 9 9 The manufacturing method of the light guide plate having the micro meniscus lens as described in the ninth application of the patent application, wherein The material of the light substrate is a polymer material. Shu the range of the item of a method for manufacturing a light guide plate of the convex dimples, wherein the first substrate and the silicon substrate or a glass substrate-based material may be selected from the second substrate.