TWM334344U - Manufacturing apparatus of light-guiding plate - Google Patents

Manufacturing apparatus of light-guiding plate Download PDF

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Publication number
TWM334344U
TWM334344U TW96221204U TW96221204U TWM334344U TW M334344 U TWM334344 U TW M334344U TW 96221204 U TW96221204 U TW 96221204U TW 96221204 U TW96221204 U TW 96221204U TW M334344 U TWM334344 U TW M334344U
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TW
Taiwan
Prior art keywords
micro
light guide
guide plate
film
roller
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TW96221204U
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Chinese (zh)
Inventor
Wen-Hsiu Hong
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Wen-Hsiu Hong
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Priority to TW96221204U priority Critical patent/TWM334344U/en
Publication of TWM334344U publication Critical patent/TWM334344U/en

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M334344 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種「導光板之製造裝置」,尤指一種在塑膠材質薄膜 上熱滾壓有微孔槽,讓單位時間内的產量能大幅提昇的製造裝置者。 【先前技術】 由於LCD不是自發光性的顯示裝置,因此需要利用一外部光源來達到 _顯示之效果,如背光模組(Backlight M〇dule)就是LCD中所廣泛應用的技 術,而導光板又是背光模組中一個重要的元件,其主要是用來引導發出光 束的傳輸方向,以將線光源或點光源轉換成面光源再射出。 而目前習知薄型化導光板的製作生產方式,主要是利用射出成型機先 將塑料溶化成近似液態狀後’再注人模具内成型,使導光板能被製作成戶斤 需之形狀,及其表面上將能佈滿有多數之微結構(微孔槽),以利用這些微 結構來達到擴散光線之目的;但要完成該過程,需要先製造一模具(M〇id), 參同時進行模擬光學元件所需之微結構(Pattern)製造於模仁(c〇re 〇r Stamper)上後,再鑲入(insert)模具(M〇ld)組裝,並將模具安裝(8的Μ〇ι幻 在射出機台上,安裝前還須要先將塑料進行除濕、烘乾、軟化(過程6〜8 小時)等處理,才能送人㈣機台之生趙料桶,進而開触高溫融溶娜 顆粒,再以高壓注入模具内,待其定型、打開模具取出塑件,並修剪其注 料口後,才能完成產品,故製程係相當的繁瑣、冗長,而無法提昇在單位 時間内的產量,使生產成本會相對較高,再者,若要射出大規格尺寸的導 光板時,係會因為熔化的塑料難以被平均的注滿在模穴中,而將會增加製 M334344 作之難度,及當熔化的塑料被射出成型並冷卻時,將會有薄型導光板往上 大幅度捲曲變形之顧慮者。 是以’如何針對上述習知導光嫌作生產方式所存在之缺點進行研發 改良’實為相關業界所需努力研發之目標,本創作人即有鑑於此,乃思及 創作的意念,遂以多年的經驗加以設計,經多方探討並試作樣品試驗及 .多次修正改良,乃推出本創作。 【新型内容】 * 欲解決之技術問題點: 習知導光板係以射出之方式製成,故不僅製程繁瑣'冗長,無法提昇 •在單位時間_產量’更因為歸難以被平_注滿在模穴中,而將會增 1 口製作大規格尺寸導光板之難度,此乃欲解決之技術問題點者。 解決問題之技術特點·· 本創作提供-種導紐之製紗置,鄕錢行前絲雛光學元件 着所需之微結構製作光罩,光罩並配合侧之方式,而製作出微結構之凹版 母模,再將凹版母模電戦成有-金屬_,使金舰配合凹版 母拉’而在其外周面上形成有錄之微凸點,如此,就能將金屬薄膜包覆 在滾輪組外,以完成熱顏塑膠材質薄膜之製程,再利用裁(衝)剪取下所 需之尺寸,就能製造出表面佈滿有微孔槽之導光板,其中,金屬薄膜係包 覆在滾輪組之滾料,翻整峨輪聰無紐,再置人娜材質薄膜, 讓塑膠材質綱_贿輪崎赵之鏡,來軟化其表面,且當該歸 材質薄膜通過二滾輪間時,係能金屬薄膜上之微凸點而順勢在塑膠材 M334344 質薄膜表面Ji滾壓its有微孔槽,待其完全通猶,則又會因為塑膠材質薄 膜僅表面加熱’而能令其迅速冷卻硬化,據以防止發生熱變形之現象,及 因為塑膠材負薄膜表面被滾壓、佈滿有多數之微孔槽,故當將塑膠材質薄 膜利用裁(衝)剪取下所需之尺寸,並應用在背光模組上,以成將光板時, 就能利用這些微孔槽來制擴散絲之目的,藉此,俾以得麟光板之製 .造裝置者。 對照先前技術之功效: •㈠本_提供縣板之製造裝置,其顧熱滾壓之方式 ,來製造出 導光板’係具有製程簡易、迅速之優勢,故將能大幅提昇在單位時間内之 產量’使生產成本相對降低者。 (一)本創作提供導光板之製造裝置,其利用熱滚壓之方式,將較不受 到導光板規格尺寸之限制,而能減少許多不必要之困擾者。 (三)本創作提供導光板之製造裝置,由於塑膠材質薄膜僅表面受熱、 _軟化’故當其滾壓出後’即能迅速冷卻硬化,相對能防止發生熱變形之現 象者。 【實施方式】 為使貴審查委員對本創作之目的、特徵及功效能夠有更進一步之瞭 解與認識,以下茲請配合【圖式簡單說明】列舉實施例,詳述說明如后: 首先,先請由第-圖、第二圖及第三圖所示觀之,其製程進行前係先 模擬光學元件所需之微結構製作光罩(Ph〇t〇mask),光罩並配合蝕刻之方 式,而製作出微結構之凹版母模,再將凹版母模利用電鑄製成有一金屬薄 7 M334344 膜α〇),使金屬薄膜(ίο)能配合凹版母模,而在其外周面上形成有多數之 微凸點(11),如此,就能將金屬薄膜(10)包覆在滾輪組(2〇)外,以完成熱 滾壓塑膠材質薄膜(Light Guide Film)(30)之製程,再利用裁(衝)剪取下 所需之尺寸,就能製造出表面佈滿有微孔槽(31)之導光板者。 其中’金屬薄膜(10)係包覆在滾輪組(20)之第一滚輪(21)外,並調整 兩滾輪間隙與溫度後,再置入塑膠材質薄膜(3〇),讓塑膠材質薄膜(3〇)能 _利用第一滾輪(21)内所產生之熱源,來軟化與第一滾輪⑵)相對之表面, 且當該塑膠材質薄膜(30)通過二滚輪間時,係能利用金屬薄膜(1〇)上之微 凸點(11)而順勢在塑膠材質薄膜(3〇)表面上滾壓出有微孔槽(31),待其完 全通過後,則又會因為塑膠材質薄膜(30)僅表面加熱,而能令其迅速冷卻 硬化,據以防止發生熱變形之現象,及因為塑膠材質薄膜(30)表面被滚壓、 佈滿有多數之微孔槽(31),故當將塑膠材質薄膜(30)利用裁(衝)剪取下所 需之尺寸,並應用在背光模組上,以成為導光板時,就能利用一側表面之 鲁微孔槽(31)來達到擴散光線之目的者。 續請由第四圖搭配第五圖所示觀之,其金屬薄膜(1〇)亦能包覆在滚輪 組(20)之第一、二滚輪(21)(22)上,以利用第一、二滾輪(21)(22)内部所 產生之熱源,來同時軟化塑膠材質薄膜(30)之兩表面,令塑膠材質薄膜⑽) 在通過第一、二滾輪(21)(22)間時,可在其兩表面均滚壓、佈滿有多數之 微孔槽(31),故當該塑膠材質薄膜(3〇)被應用在背光模組上,以成為導光 板時,就能雙面透光者。 另,其微孔槽(31)之密度與排列之順序係能隨著光罩暨蝕刻時之圖案 M334344 設計不同,而呈相對之變化,及其第一、二滾輪(21)(22)與金屬薄膜(1〇) 能隨著塑膠材質薄膜(30)做正比縮放,據此,就能直接熱滚壓成型出適當 尺寸之導光板者。 藉上述具體實施例之結構,可得到下述之效益:(一)其利用熱滾壓之 方式,來製造出導光板,係具有製賴易、迅速之優勢,故將能大幅提昇 •在單位時間内之產篁,使生產縣械士降低者;(二)其利用熱滚壓之方式, •將較不受到縣板規格尺寸之限制,而能減少許多不必要之困擾者;(三) 由於塑膠材質薄膜⑽僅表面受熱 '軟化,故當其滚壓出後,即能迅速冷 卻硬化,相對能防止發生熱變形之現象者。 〜综上所述,本創作確實已達突破性之結構設計,而具有改良之創作内 谷’同時又能夠達到產業上之利用性與進步性,且本創作未見於任何刊物, 亦具新穎性,當符合專利法相關法條之規定,爱依法提出新型專利申請, 懇請釣局審查委員授予合法專利權,至為感禱。 ·:唯以上所述者’僅為本創作之一較佳實施例而已,當不能以之限定本 創作實把之粑圍,即大凡依本創作申請專利範圍所作之均等變化與修飾, 皆應仍屬本創作專利涵蓋之範圍内。 9 M334344 【圖式簡單說明】 第一圖:係本創作在塑膠材質薄膜一側表面上熱滾壓有微孔槽之動作 不意圖。 第二圖:係本創作第一圖之局部放大圖。 第三圖:係本創作之成品圖。 第四圖··係本創作在塑膠材質薄膜二侧表面上均熱滾壓有微孔槽之動 作示意圖。 第五圖:係本創作第四圖之局部放大示意圖。 【主要元件符號說明】 本創作部份: 微凸點----(11) 第一滾輪---(21) 金屬薄膜---(10) 滚輪組----(20) 第二滾輪---(22) 微孔槽----(31) 塑膠材質薄膜一(30)M334344 VIII. New Description: [New Technology Field] This creation is about a "manufacturing device for light guide plates", especially a kind of micro-hole groove hot-rolled on a plastic film to allow the output per unit time. A greatly improved manufacturing device. [Prior Art] Since the LCD is not a self-luminous display device, it is necessary to use an external light source to achieve the effect of display, such as a backlight module (Backlight Mule) is a widely used technology in the LCD, and the light guide plate It is an important component in the backlight module, which is mainly used to guide the transmission direction of the emitted light beam to convert the line light source or the point light source into a surface light source and then emit it. At present, the conventional production method of thin-type light guide plate is mainly to use the injection molding machine to melt the plastic into a liquid state, and then re-inject the mold into the mold, so that the light guide plate can be made into a shape required by the household, and The surface will be covered with a large number of microstructures (micropore grooves) to use these microstructures to achieve the purpose of diffusing light; however, to complete the process, a mold (M〇id) needs to be fabricated first. The microstructure required for the analog optics is fabricated on a mold (c〇re 〇r Stamper), then assembled into an insert mold (M〇ld), and the mold is mounted (8 Μ〇ι) On the shooting machine, before the installation, the plastic must be dehumidified, dried, softened (process 6~8 hours), etc., in order to give people (four) the machine's raw Zhao barrel, and then open the high temperature melted Na The granules are injected into the mold at a high pressure. After the mold is set, the mold is opened, the plastic parts are removed, and the injection port is trimmed, the product can be completed, so the process system is rather cumbersome and lengthy, and the production in a unit time cannot be improved. Making production costs relatively high, and then If a large-size light guide plate is to be shot, it will be difficult to fill the mold cavity because the molten plastic is not evenly filled, which will increase the difficulty of making M334344, and when the molten plastic is shot and cooled. At the time, there will be concerns about the large-scale curling of the thin light guide plate. It is based on the 'how to deal with the shortcomings of the above-mentioned conventional light-guided production methods'. In view of this, the creator is thinking about the idea of creation and creation, and has been designed with many years of experience. After many discussions and trials of sample tests and multiple revisions and improvements, this creation was launched. [New content] * To be solved Technical problems: The conventional light guide plate is made by injection, so not only the process is cumbersome, it is too long, and it cannot be improved. In the unit time, the output is more difficult to be flattened, and it will be filled in the cavity. It is difficult to make a large-size light guide plate by one port. This is the technical problem to be solved. Technical Features for Solving the Problem·············································· The optical element of the silk is made of the required microstructure, the reticle is formed, and the reticle is matched with the side to make the micro-structured concave master mold, and then the concave mother mold is electro-formed into a metal-type _, so that the gold ship is matched with the gravure The mother pulls ', and the recorded micro-bumps are formed on the outer peripheral surface thereof, so that the metal film can be wrapped outside the roller group to complete the process of the hot plastic material film, and then cut and cut by the cutting (punching) The required size can be used to manufacture a light guide plate with a micro-groove on the surface. The metal film is wrapped in the roller of the roller set, and the turn-over wheel is replaced with a button. The plastic material class _ bribe 轮崎赵 mirror, to soften the surface, and when the film of the material passes through the two rollers, the micro-bump on the metal film can be turned on the surface of the plastic film M334344. The hole groove, when it is completely through, will be cooled and hardened by the plastic film only surface heating, so as to prevent thermal deformation, and because the negative film surface of the plastic material is rolled and covered. There are many micro-hole slots, so when plastic The material film is cut and used to cut the required size, and is applied to the backlight module, so that when the light plate is used, the microporous groove can be used to make the diffusion wire, thereby The manufacture of light panels. Compared with the effects of the prior art: • (1) This _ provides the manufacturing equipment of the county board, and the method of manufacturing the light guide plate by means of hot rolling is a simple and rapid process, so it can be greatly improved in unit time. Yield 'is a relatively low cost of production. (1) This creation provides a manufacturing device for a light guide plate, which utilizes hot rolling to be less restricted to the size of the light guide plate, and can reduce many unnecessary troubles. (3) This creation provides a manufacturing device for a light guide plate. Since the surface of the plastic material film is only heated, _softened, it can be rapidly cooled and hardened when it is rolled out, and the phenomenon of thermal deformation can be prevented relatively. [Embodiment] In order to enable your review committee to have a better understanding and understanding of the purpose, characteristics and efficacy of this creation, please refer to the following [Examples of the drawings] for detailed explanations. As shown in the first, second, and third figures, the process is performed before the micro-structure required to simulate the optical component is made into a photomask (Ph〇t〇mask), and the photomask is etched. The micro-structured gravure master is fabricated, and the gravure master is electroformed to have a thin metal film (M334344 film α〇), so that the metal film can be matched with the gravure master mold, and the outer peripheral surface thereof is formed. Most of the micro-bumps (11), so that the metal film (10) can be wrapped outside the roller set (2〇) to complete the process of hot-rolling the Light Guide Film (30), and then By cutting (punching) the required size, a light guide plate having a surface covered with a microgroove (31) can be manufactured. The 'metal film (10) is wrapped around the first roller (21) of the roller set (20), and after adjusting the gap between the two rollers and the temperature, the plastic film (3〇) is placed, and the plastic film is used. 3〇) can use the heat source generated in the first roller (21) to soften the surface opposite to the first roller (2), and when the plastic film (30) passes between the two rollers, the metal film can be utilized. (1〇) on the micro-bump (11) and the micro-hole (31) is rolled on the surface of the plastic film (3〇). After it is completely passed, it will be due to the plastic film (30). ) only the surface is heated, and it can be cooled and hardened rapidly, so as to prevent thermal deformation, and because the surface of the plastic film (30) is rolled and covered with a large number of micro-holes (31), The plastic film (30) is cut and removed by the cutting and punching, and applied to the backlight module to become a light guide plate, and the micro-hole groove (31) on one side surface can be used for diffusion. The purpose of the light. Continued from the fourth picture with the fifth picture, the metal film (1〇) can also be wrapped on the first and second rollers (21) (22) of the roller set (20) to take advantage of the first And a heat source generated inside the two rollers (21) (22) to simultaneously soften the two surfaces of the plastic film (30) so that the plastic film (10)) passes between the first and second rollers (21) (22). It can be rolled on both surfaces and covered with a large number of micro-holes (31). Therefore, when the plastic film (3〇) is applied to the backlight module to become a light guide plate, it can be double-sided. Light. In addition, the order of the density and arrangement of the micro-holes (31) can be changed according to the design of the pattern M334344 during the mask and etching, and the first and second rollers (21) (22) and The metal film (1〇) can be scaled with the plastic film (30), so that the light guide plate of the appropriate size can be directly hot rolled. By the structure of the above specific embodiment, the following benefits can be obtained: (1) The method of manufacturing the light guide plate by means of hot rolling is advantageous in that it is easy to manufacture and quick, so it can be greatly improved. The production time in the production period will reduce the number of people in the production county; (2) the method of using hot rolling, • will be less restricted by the size of the county board, and can reduce many unnecessary troubles; Since the surface of the plastic material film (10) is only softened by heat, when it is rolled out, it can be rapidly cooled and hardened, and the phenomenon of thermal deformation can be prevented relatively. ~ In summary, this creation has indeed achieved a breakthrough structural design, and the improved creation of the inner valley 'at the same time can achieve industrial use and progress, and this creation is not seen in any publication, but also novelty When complying with the provisions of the relevant laws and regulations of the Patent Law, Ai loves to file a new type of patent application in accordance with the law, and asks the fishing bureau review committee to grant legal patent rights. ·: Only the above-mentioned ones are only a preferred embodiment of this creation. When it is not possible to limit the scope of this creation, that is, the equal changes and modifications made by Dafan according to the scope of patent application for this creation should be It is still covered by this creation patent. 9 M334344 [Simple description of the diagram] The first picture: This is the action of hot-rolling micro-grooves on one side of the plastic film. The second picture: a partial enlarged view of the first picture of this creation. The third picture: the finished product map of this creation. The fourth figure is a schematic diagram of the action of uniformly rolling micro-grooves on the two side surfaces of the plastic film. The fifth picture: a partial enlarged view of the fourth picture of this creation. [Main component symbol description] This part of the creation: Micro-bump----(11) First roller---(21) Metal film---(10) Roller set----(20) Second wheel ---(22) Micro-hole groove----(31) Plastic film one (30)

Claims (1)

M334344 九、申請專利範園: 、1、—轉光板之製造裝置,《金屬薄顧包覆在雜組之雜外, 並肩整兩;袞輪哪與溫度後,再置人轉材質_,讓娜材質薄膜能利 用滚輪内所產生之熱源,來軟化其表面,且當該瓣材質細通過二滚輪 門夺係月匕利用金屬細上之微凸點而順勢在娜材質薄膜表面上滚壓出 .有微孔槽; 馨 藉此’將因為娜材質薄膜僅表面加熱,而能令其迅速冷卻硬化,以 防止發生熱變形之現象,同咖為歸材質細表面被滚壓、佈滿有多數 ^微孔槽,故當將娜材f_細㈣光做上,以絲導光板時,就 月b利用這些微孔槽來達到擴散光線之目的者。 2、 根據申請專利範圍第i項所述之導光板之製造裝置,其中,製程 進行前係細擬光學元件所需之微結難作光罩,鮮並配合侧之方 式,而製作出微結構之凹版母模,再將凹版母模利用電鑄製成有一金屬薄 _膜,使金屬薄膜能配合凹版母模,而在其外周面上形成有多數之微凸點, 如此,就能將金屬薄膜包覆在滚輪組外,以完成熱滾壓娜材質薄膜之製 程者。 3、 根據申請專利範圍第1項所述之導光板之製造裝置,其中,金屬 薄膜係包覆在滾輪組之第一滚輪外者。 4 '根據申請專利範圍第1項所述之導光板之製造裝置,其中,金屬 薄膜係包覆在滾輪組之第一、二滚輪外者。 5、根據申請專利範圍第1項所述之導光板之製造裝置,其中,塑谬 11 M334344 材質薄廳熱顧_出後,係再利用裁(衝)剪取下所需之尺寸者。 6、根據暢侧第1項所述之導光板之製造裝置,斗滾輪 組之滚輪與金難罐著_材質綱做正轉放,據此亩 熱滚壓成型出適當尺寸之導光板者。 ’y %直接 之製造裝置,其中, 圖案設計不同, 微孔 而呈相對 7、根據申請專利範圍第1項所述之導光板 槽之密度與排列之順序係能隨著光罩暨蝕刻時之 之變化者。M334344 Nine, apply for patent Fanyuan: 1, 1, the manufacturing device of the light-conducting plate, "the metal thin-covering is wrapped in the miscellaneous group, and the shoulders are two; the wheel and the temperature, then the material is turned _, let The material film can use the heat source generated in the roller to soften the surface, and when the material of the valve is finely passed through the two-roller door, the micro-bump on the metal is used to roll out the surface of the film. There is a micro-hole groove; Xin will use this to heat the surface of the film, so that it can be cooled and hardened to prevent the phenomenon of thermal deformation. The fine surface of the material is rolled and covered with a majority. ^Micro-hole groove, so when the Na-f f fine (four) light is made, with the wire light guide plate, the moon b uses these micro-hole grooves to achieve the purpose of diffusing light. 2. The device for manufacturing a light guide plate according to the invention of claim i, wherein the micro-junction required for the micro-emission before the process is performed is difficult to be used as a photomask, and the micro-structure is produced by the side and the side. The gravure master mold, and then the gravure master mold is electroformed to form a thin metal film, so that the metal film can match the gravure master mold, and a plurality of micro-bumps are formed on the outer peripheral surface thereof, so that the metal can be formed. The film is coated on the outside of the roller set to complete the process of hot rolling the film. 3. The apparatus for manufacturing a light guide plate according to claim 1, wherein the metal film is coated on the outside of the first roller of the roller set. The manufacturing apparatus of the light guide plate according to the first aspect of the invention, wherein the metal film is coated on the first and second rollers of the roller set. 5. The manufacturing device of the light guide plate according to the first application of the patent application scope, wherein the plastic 谬 11 M334344 material thin room is used after the _ out, and the cut size is used to cut the required size. 6. According to the manufacturing device of the light guide plate according to the first item of the first side, the roller of the bucket roller group and the gold hard can are _ material grade to be transferred, and the light guide plate of the appropriate size is formed according to the hot rolling. 'y % direct manufacturing device, wherein the pattern design is different, and the micropores are in a relative phase. 7. The order of the density and arrangement of the light guide plate grooves according to the first claim of the patent application range can be followed by the mask and etching. The change.
TW96221204U 2007-12-13 2007-12-13 Manufacturing apparatus of light-guiding plate TWM334344U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI463188B (en) * 2009-06-07 2014-12-01 Sony Corp Backlight and liquid crystal display device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI463188B (en) * 2009-06-07 2014-12-01 Sony Corp Backlight and liquid crystal display device

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