201239419 六、發明說明: 【發明所屬之技術領域】 本申請案係請求在2010年8月5日對韓國智慧財產局 所k出的韓國專利申請案第】〇_2〇丨〇_〇〇75590號之優先 權,其全部内容在此併入做為參考。 本發明係關於一種圖案化遲滯片及其製造方法,且更 具《a而σ,係關於一種包括由其中所容納的液晶材料所形 成的液晶材料圖案層之遲滯片,及其製造方法。 【先前技術】 現在預期從僅交談服務(如目前所使用的電話)發展 至基於超高速資訊通訊網路所建置的高速資訊流服務,而 成為使用者可看可聽(包括高速處理文字、聲音及影像之 數位終端)的多媒體服務。最終預期將該服務發展成為使 用者可超越時空而彈性地及三維地看見、感覺且享受的超 越空間之彈性三維資訊通訊服務。 通常三維地呈現之三維影像係由兩眼之立體視覺原理 所形成。立體效果之主要因素為由基於兩眼通常彼此相距 約65毫米之兩眼視差所造成的雙眼像差。具體而言,左眼 及右眼係看見不同之二維影像,且兩個影像係經由視網膜 傳送至腦部。接者码部精確地組合影像而再現三維影像的 深度及真實性,其係稱為立體圖像術。 上述表現二維影像之技術主要分類成立體技術及自動 立體技術。其中立體技術係使用具有高立體效果之兩眼視 差影像,且係包括鏡片型方法及無鏡片型方法。使用分隔 左右眼影像之原理的鏡片型方法係分類成空間分隔法(或 201239419 偏光法)及時間分隔法。空間分隔法係使用圖案化遲 且時間分隔法係使用快門鏡片。 ' 空間分隔法(或偏光法)係使用偏光現象以將圖案化 遲滯片附著在顯示幕的全部表面上’而立體地分隔左右眼 影像。現在廣泛地使用以圖案化遲滯片線排列左眼影像^ 右眼影像之方法。例如基於垂直方向將左眼影像排列在單 數線且將右眼影像排列在偶數線。在此情形,觀看者戴上 偏光眼鏡且分別地接收被顯示幕分隔之左眼影像與右眼影 像而觀看3-D影像。 ” 圖1顯示製造依照相關技術的圖案化遲滯片之方法。 如圖1所示,依照相關技術製造圖案化遲滞片之方法係包 括對基底構件〗〇塗布光硬化性液晶材料20 (S10),對所塗 布的光硬化性液晶材料照射光且將該材料硬化而形成第— 液晶材料層30 (S20),對第一液晶材料層塗布光硬化性液晶 材料40 (S30),對該光硬化性液晶材料經圖案化光罩照射 光’且將未遮敝之光硬化性液晶材料硬化(S40),及使用有 機溶劑钱刻具有預定圖案之未硬化液晶材料而形成第二液 曰曰材料層5〇(S5〇)。在此情形’第一液晶材料層係具有可將 光相位遲滯λ/4的厚度’且第二液晶材料層係具有可將光相 位遲;V λ/2的厚度。因而僅通過第一液晶材料層之光相位被 遲滞λ/4 ’且循序通過第一液晶材料層與第二液晶材料層之 光相位被遲滯3λ/4。 然而依照相關技術,由於製造圖案化遲滯片之方法係 使用光罩形成液晶材料的圖案,故為了精確地形成圖案而 應以高尺寸準確性實行光罩對準。在此情形,對準程序期 間的調校時間變長”且需要如光罩對準曝光機之昂貴設 5/61 201239419 備此外,依照相關技術製造圖案化遲滯片之方法需要分 別之蝕刻程序以控制相位遲滯差,其造成複雜之程 得低產率及生產力。 又 【發明内容】 θ本發明已致力於提供一種圖案化遲滞片而完成,其儘 畺減 > 使用光罩同時不必使用分別之餘刻程序即可製造。 此外,本發明已致力於提供一種製造圖案化遲滯片之 方法而凡成,其以不必使用分別之蝕刻程序的簡單方法 可製造大量圖案化遲滯片。 本^明之-個例示具體實施例提供—種圖案化遲滞 ’其係包括:基底構件;硬化性細㈣層,t係 深二 硬化性樹脂所形成’且係具有其中二 13第槽與第二槽交錯地排列之圖案;及液曰材 =層样其f包括由容納於該硬化性樹脂圖案層的二 液曰声。』ΐ硬化性液晶材料所形成的第一液晶層與第二 滞曰。曰a }夜晶層與第二液晶層係將光相位有差異地遲 件。Μ"!明構件’且具體而言為透明玻璃構 滞片可可為彈性相,且在此情形,該圖案化遲 片了孝曰連輥法(Ro丨丨to Ro丨丨meth〇d)製造。 較佳====嶋臟咖樹脂,且 硬化=^純跑旨可為級化性義,且更佳為紫外線 第 液晶層可將光相位遲滯(η-3/4)λ,且第 液晶層可 6/61 201239419 遲滯…正整數。在此情形,通過第 攻:日日與第二液晶層的光分量之—係具有左圓偏光特 #,另—光分量係具有右圓偏光特徵。 ^發明之另—個例示具體實關提供-_案化遲滞 变二係匕括.基底構件;硬化性樹脂圖案層,其係由% Ϊ右:!ί底構件上之硬化性樹脂所形成,且係具有其中將 空ΐ深度的複數槽按預定_排狀®案;及浪晶讨 圖:層’其係包括由塗布在該硬化性樹脂圖案廣上之浪 :材,形成的厚度不同之第一液晶層與第二液晶層。第 層之—部分係相當於該槽,第二液晶層係相當於該 隔上之區域,且第一液晶層與第 光相位 有差異地遲滞。 、*本發明之另一個例示具體實施例提供一種製造_案化 遲滯片之方法,其係包括:對基底構件塗布硬化性樹脂; 使=在ί—個表面上形成其中將高度不同的第—突出與第 ,突出交錯地排列之圖案的刻印母模,將所塗布的硤化性 祕脂加f且硬化’而形成具有其中將深度不同的第,槽與 第二,交錯地排列之圖案的硬化性樹脂圖案層;及將硬化 ―夜BB材料填充且硬化至該硬化性樹脂圖案層的第/槽與 第一槽中,而形成包括第—液晶層與第二液晶層之液晶材 料圖案層。第-液晶層與第二液晶層係將光相位有差異地 士果4基底構件可傳送從顯示幕發射之光,則其材料 或形狀不限於所指定者。該基底構件可為透明構件’,、且具 體而言為透明玻璃。該基底構件可為彈性_。在此情形, 該圖案化遲滯片可藉連觀法製造。 7/61 201239419 £:=::==:= 性樹基底構件為撓性_,則可藉連輥法設計硬化 _月曰之塗布及硬化性樹脂職層之形成,且可具有以下 =不具體實施例。塗布硬化性義及軸硬化性樹脂圖 案層之第-例示具體實_係包括:(_基底構件輪送 f在其表面上形成其中將高度不同的第一突出與第二突出 又錯地排列之圖案的刻£卩母_ ; (a2)將硬化性樹脂注射 至4基底構件之-個表面係靠近地接觸在該刻印母模親之 表面上所形成關案之區域中’以將該硬化性樹脂填充於 该基底構件的一個表面與該刻印母模輥的圖案之間;(幻) 將該基底構狀-個表面靠近地接觸其上形朗案之該刻 印母板輥表面,及將該硬化性樹脂硬化而形成具有其中將 ^度不同的第-槽與第二槽交錯地排列之圖案的硬化性樹 月曰圖案層,且將5亥硬化性樹脂圖案層附著於該基底構件之 一個表面;及(a4)將其上附著該硬化性樹脂圖案層之該基 底構件從該刻印母模輥分離。在此情形,該刻印二模 具有在圓筒形金屬表面上所形成的其中將高度不同的第一 突出與第二突出交錯地排列之圖案。 塗布硬化性樹脂及形成硬化性樹脂圖案層之第二例示 具體實施例係包括:(bl)將基底構件輸送至在其表面上形 成其中將高度不同的第一突出與第二突出交錯地排列之圖 案的刻印壓模親;(b2)將硬化性樹脂注射至其中該基底構 件之一個表面係靠近地接觸在該刻印壓模輥之表面上所形 成的圖案之區域中,以將該硬化性樹脂填充於該基底構件 8/61 201239419 的一個表面與該刻印壓模輥的圖案之間;(b3)將該基底構 件之一個表面靠近地接觸其上形成圖案之刻印壓模觀表 面’及將該硬化性樹脂硬化而形成具有其中將深度不同的 第一槽與第二槽交錯地排列之圖案的硬化性樹脂圖案層, 且將該硬化性樹脂圖案層附著於該基底構件之一個表面; 及(b4)將其上附著該硬化性樹脂圖案層之該基底構件從該 刻印壓模輥分離。在此情形,該刻印壓模輥係具有靠近地 固定於圓筒形撐體表面,具有其中將高度不同的第—突出 與第二突出交錯地排列之圖案的壓模。 塗布硬化性樹脂及形成硬化性樹脂圖案層之本發明的 第三例示具體實施例係包括:(cl)使用導輥將基底構件輪 送至圖案輞i,(c2)使用圖案導觀將在其一個.表面上形成其 中將高度不同的第一突出與第二突出交錯地排列之圖案的 膜型成形模具輸送至圖案輥;(c3)將硬化性樹脂注射至其 中該基底構件之一個表面係靠近地附著在成形模具之—個 表面上所形成的圖案之區域中,以將該硬化性樹脂填充於 該基底構件的一個表面與該成形模具的圖案之間;(c4)將 s亥基底構件之一個表面靠近地附著於其上形成圖案之該成 形模具表面’及將該硬化性樹脂硬化而形成具有其中將浑 度不同的第一槽與第二槽交錯地排列之圖案的硬化性樹月旨 圖案層’且將該硬化性樹脂圖案層附著於該基底構件之二 個表面;及(c5)將其上附著該硬化性樹脂圖案層之該基底 構件從邊成形模具分離。在此情形’該膜型成形模具係包 括:膜型基底構件層;及在該基底構件層之一個表面上所 形成,且具有其中將高度不同的第一突出與第二突出交錯 地排列之圖案的圖案.層。該膜型成形模具可,進一步包括. 9/61 201239419201239419 VI. Description of the invention: [Technical field to which the invention pertains] This application is a Korean patent application filed on August 5, 2010 for the Korea Intellectual Property Office. 〇_2〇丨〇_〇〇75590 Priority is hereby incorporated by reference in its entirety. The present invention relates to a patterned retardation sheet and a method of manufacturing the same, and further to "a and σ" relating to a retardation sheet comprising a liquid crystal material pattern layer formed of a liquid crystal material accommodated therein, and a method of manufacturing the same. [Prior Art] It is now expected that from the conversation-only service (such as the currently used telephone) to the high-speed information streaming service built on the ultra-high-speed information communication network, the user can see and hear (including high-speed processing of text and sound). And multimedia services for digital terminals of images. It is expected that the service will be developed into an elastic three-dimensional information communication service that allows users to see, feel and enjoy beyond the space and time and flexibly and three-dimensionally. The three-dimensional image usually presented in three dimensions is formed by the stereoscopic principle of both eyes. The main factor of the stereoscopic effect is the binocular aberration caused by the parallax of the two eyes which are usually spaced apart from each other by about 65 mm. Specifically, the left and right eye systems see different two-dimensional images, and the two images are transmitted to the brain via the retina. The receiver code portion accurately combines the images to reproduce the depth and authenticity of the three-dimensional image, which is called stereo image processing. The above-mentioned techniques for expressing two-dimensional images are mainly classified into body technology and automatic three-dimensional technology. Among them, the stereoscopic technique uses a two-eye parallax image having a high stereoscopic effect, and includes a lens type method and a lensless type method. The lens type method using the principle of separating the left and right eye images is classified into a space separation method (or 201239419 polarizing method) and a time division method. The spatial separation method uses a patterning delay and a time separation method using a shutter lens. The 'space separation method (or polarization method) uses a polarizing phenomenon to attach the patterned retardation film to the entire surface of the display screen' to stereoscopically separate the left and right eye images. A method of arranging a left eye image ^ a right eye image by patterning a delayed slice line is now widely used. For example, the left eye image is arranged on the odd line and the right eye image is arranged on the even line based on the vertical direction. In this case, the viewer wears polarized glasses and separately receives the left-eye image and the right-eye image separated by the display screen to view the 3-D image. 1 shows a method of manufacturing a patterned retardation film according to the related art. As shown in FIG. 1, a method of manufacturing a patterned retardation film according to the related art includes coating a base member with a photocurable liquid crystal material 20 (S10). The applied photocurable liquid crystal material is irradiated with light and the material is cured to form a first liquid crystal material layer 30 (S20), and the first liquid crystal material layer is coated with a photocurable liquid crystal material 40 (S30) to harden the light. The liquid crystal material is irradiated with light by the patterned mask and hardens the unmasked photocurable liquid crystal material (S40), and the second liquid helium material layer is formed by using an organic solvent to engrave the uncured liquid crystal material having a predetermined pattern. 5〇(S5〇). In this case, 'the first liquid crystal material layer has a thickness λ/4 which can retard the optical phase' and the second liquid crystal material layer has a thickness which can delay the light phase; V λ/2. Therefore, only the phase of the light passing through the first liquid crystal material layer is retarded by λ/4' and the phase of the light passing through the first liquid crystal material layer and the second liquid crystal material layer is retarded by 3λ/4. However, according to the related art, the pattern is manufactured. Delayed piece The reticle is used to form the pattern of the liquid crystal material, so the reticle alignment should be performed with high dimensional accuracy in order to accurately form the pattern. In this case, the adjustment time during the alignment process becomes long" and requires a mask pair Explosives for Pre-exposure Machines 5/61 201239419 In addition, the method of fabricating patterned hysteresis chips according to the related art requires separate etching procedures to control the phase lag, which results in a complicated process with low yield and productivity. Further, the present invention has been made in an effort to provide a patterned retardation sheet which is reduced by > and can be manufactured without using a separate residual program. Furthermore, the present invention has been made in an effort to provide a method of fabricating a patterned retardation sheet which can produce a large number of patterned retardation sheets in a simple manner which does not require the use of separate etching procedures. A specific embodiment provides a patterning hysteresis, which includes: a base member; a hardened fine (four) layer, a t-deep deep curable resin is formed, and has two 13th slots and a pattern in which two grooves are alternately arranged; and a liquid coffin = a layer f which includes a two-liquid click sound accommodated in the curable resin pattern layer. The first liquid crystal layer formed by the hardenable liquid crystal material and the second hysteresis.曰a } The night crystal layer and the second liquid crystal layer have different optical phases. Μ"!明部件' and in particular the transparent glass stagfoil may be an elastic phase, and in this case, the patterned late film is manufactured by the Rosto Ro丨丨meth〇d method. . Preferably, the ==== 嶋 咖 咖 树脂 , , 且 且 且 且 且 且 且 且 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋 嶋Layer 6/61 201239419 Hysteresis... Positive integer. In this case, by the first attack: the light component of the day and the second liquid crystal layer has a left circular polarization characteristic, and the other light component has a right circular polarization characteristic. ^Inventive another - an example of concrete implementation - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ And having a plurality of grooves in which the depth of the void is in a predetermined pattern; and a layer of the layer: the layer includes a wave which is coated on the curable resin pattern and has a different thickness The first liquid crystal layer and the second liquid crystal layer. The portion of the first layer corresponds to the groove, and the second liquid crystal layer corresponds to the region on the partition, and the first liquid crystal layer is retarded differently from the first optical phase. Another exemplary embodiment of the present invention provides a method of manufacturing a delayed retardation sheet comprising: applying a curable resin to a base member; and forming a first portion having a different height on a surface. An imprinting master that protrudes from the pattern, which is arranged in a staggered arrangement, adds the applied deuterated secret grease and hardens it to form a pattern having a groove having a different depth and a second, staggered pattern. a curable resin pattern layer; and a hardened-night BB material filled and hardened into the first groove and the first groove of the curable resin pattern layer to form a liquid crystal material pattern layer including the first liquid crystal layer and the second liquid crystal layer . The first liquid crystal layer and the second liquid crystal layer have different optical phases. The base member 4 can transmit light emitted from the display screen, and the material or shape thereof is not limited to the designated one. The base member may be a transparent member ', and in particular is a transparent glass. The base member can be elastic. In this case, the patterned retardation sheet can be manufactured by a connection method. 7/61 201239419 £:=::==:= The base member of the sex tree is flexible _, then the hardening _ 曰 曰 coating and the formation of the hardenable resin layer can be designed by the roll method, and can have the following = no Specific embodiment. The first embodiment of the coating hardenability and the axially curable resin pattern layer includes: (the base member wheel f is formed on the surface thereof in which the first protrusion and the second protrusion having different heights are arranged in error again (a2) injecting a curable resin into the surface of the 4 base member, the surface is in close contact with the area formed on the surface of the imprinted mold mold to 'suppress the hardenability Resin is filled between a surface of the base member and a pattern of the imprinted master roll; (phantom) the substrate is configured to be in close contact with the surface of the engraved master roll on which the upper surface is shaped, and The curable resin is cured to form a curable tree-shaped enamel pattern layer having a pattern in which the first groove and the second groove having different degrees are alternately arranged, and the lacquering resin pattern layer is attached to one of the base members. And (a4) separating the base member to which the curable resin pattern layer is attached from the imprinting master roll. In this case, the imprinting mold has a height formed on the cylindrical metal surface. Different first highlights A second exemplary embodiment in which the curable resin and the curable resin pattern layer are formed include: (bl) transporting the base member to a first protrusion having a height different therein formed on the surface thereof (b2) injecting a curable resin into an area in which one surface of the base member closely contacts a pattern formed on a surface of the imprinting stamper roll; Filling the surface of the base member 8/61 201239419 with the pattern of the imprinting stamper; (b3) imprinting a surface of the base member in close contact with the pattern formed thereon The surface of the stamper is cured and the curable resin is cured to form a curable resin pattern layer having a pattern in which first grooves and second grooves having different depths are alternately arranged, and the curable resin pattern layer is attached thereto. a surface of the base member; and (b4) separating the base member to which the curable resin pattern layer is attached from the imprinting stamper roll. In this case, the moment The stamper roll has a stamper that is fixed to the surface of the cylindrical support body and has a pattern in which the first protrusion and the second protrusion are alternately arranged in a height. The curable resin is coated and the curable resin pattern layer is formed. A third exemplary embodiment of the present invention includes: (cl) using a guide roller to transfer a base member to a pattern 辋i, (c2) using a pattern guide to form a surface having a different height on one surface thereof a film-forming mold protruding from the pattern in which the second protrusions are alternately arranged is conveyed to the pattern roll; (c3) injecting the curable resin into a surface in which one surface of the base member is closely attached to the surface of the forming mold In the region of the formed pattern, the curable resin is filled between one surface of the base member and the pattern of the forming mold; (c4) a surface of the base member is closely attached thereto to form a pattern. The surface of the molding die ′ and the curable resin are cured to form a hardening tree having a pattern in which the first grooves and the second grooves having different twistities are alternately arranged. Layer 'and the curable resin pattern layer is attached to two of the surface of the substrate member; and (C5) is attached to the base member on which the patterned cured resin layer from the side of the mold separation. In this case, the film-forming mold includes: a film-type base member layer; and a surface formed on one surface of the base member layer, and having a pattern in which first and second protrusions having different heights are alternately arranged Pattern. Layer. The film forming mold can further include. 9/61 201239419
面 PET 在絲底構件層之另—個表面上所 的摩擦力之摩捧單元。戍且增加對輥表 膜所❹ 成松具之基底構件層可由 心以外,該圖案層可由高分子樹脂所形成另外, t早TL可由複數細微凸面、 另卜 曝所形成。 X由姑材枓所形成的薄 本發明之另—侧轉體實_提供 =1ΓΓ其離對基底構件塗布硬 按預定面上形成其巾將具有預定厚度的複數突出 鳴非列之圖案的刻印母模,將所塗布的^ 按箱i 而形成具有其t將具有預定深度的複數槽 '疋間隔排列之圖案的硬化性樹脂圖案層;及對該硬化 /月旨SI f層塗布硬化性液晶材料且硬化,而形成包括厚 不同的第液晶層與第一液晶層之液晶材料圖案層。第 :液晶層係相當於該槽,第二液晶層係相當於該4之間 k,且第一液晶層與第二液晶層係將光相位有差異地遲滯。 相較於依照相關技術之圖案化遲滞片(具有使用在液 曰8層之一個表面上所形成的圖案將光相位有差異地遲滯之 、、'構)’依Μ本發明之例不具體實施例’該圖案化遲滞片係 具有使用由容納於該硬化性樹脂圖案層之液晶材料所形成 的/夜晶材料圖案層將光相位有差異地遲滯之結構。因此儘 量減少使用光罩且無需分離的蝕刻程序即可製造圖案化遲 /Τ|Γ片。此外’依照本發明例示具體實施例之圖案化遲滯片 可藉連輥法製造,其可使用簡單的方法大量生產。另外, 如果依照本發明例示具體實施例之圖案化遲滯片係附著於 顯示幕的正面,則可對使用者提供高品質3-D影像。 以上之概要僅為例證性且絕不意圖為限制性。除了上 10/61 201239419 述之例證性態樣、具體實施例及特點,參考圖式及以下之 洋細σ兒明則其他之態樣、具體實施例及特點變成顯而易知。 【實施方式] 以下參考附圖而詳述本發明之例示具體實施例。首先 應注意各圖式之元件的參考號碼,類似之參考號碼係指示 類似之7L件,即使是類似之元件係在不同的圖式中出現。 在β兒月本设明時,已知功能或構造不加詳述,以免不必要 地妨礙對本發明之理解。應了解,雖然以下說明本發明之 例不具體實施例,但本發明之精神不受其限制,熟悉此技 術者可在各方面予以改變及修改。 參考圖1至12而說明依照本發明之—個例示具體實施 例的圖案化遲滯片及製造圖案化遲滯片之方法'、 敖明之一個例示具體實施例係關於一種圖案化遲滯 =圖2為依照本發明之一個例示具體實施例的圖案化遲 滞片之正視圖’圖3為依照本發明之—個例示具體實施例 的圖案化遲滞片之分解切韻,及圖4為依照本發明之一 個例示具體實施例賴案化遲滯>;之組合切面圖。 介二L2 ί 4所示’依照本發明例示具體實施例之圖案 基底構件η〇、硬化性樹脂圖案層120、及 液晶材料圖案層]3〇。 所二:基f構件110可傳送光,則其材料或形狀不限於 曰:者。為了順利地傳送光’該基底構件可 = 透明玻璃構件及透明塑膠構件。此 一卜〜基底構件可為彈㈣膜。在此情形,依照本發明之 -個例不具體實施例的圖案化遲滞片可藉連觀法製造。 ,1:1 /61 201239419 硬化性樹脂圖案層120係由塗覆在基底構件上之硬化 性樹脂所形成。此外,該硬化性樹脂圖案層係在其表面上 具有其中將深度不同的第一槽121與第二槽122交錯地排 列之一系列圖案。例如在第一槽之深度為1微米時,第二 槽之珠度為3微米。在此情形’後述第一液晶層之厚度為1 微米’且第二液晶層之厚度為3微米。 如果該硬化性樹脂可傳送光,則其材料或形狀不限於 所指定者。例如可使用如熱固性樹脂或光硬化性樹脂之已 知硬化性樹脂’且較佳為使用光硬化性樹脂。商業目的更 佳為UV硬化性樹脂。在該硬化性樹脂圖案層之一個表面 上,按相對該基底構件之垂直方向或水平方向形成其中將 深度不同的第一槽121與第二槽丨22交錯地排列之一系列 圖案。在此情形,該圖案係藉後述之刻印法形成。在依照 本發明例示具體實施例之圖案化遲滯片丨〇〇中,形成後述 液晶材料圖案層之第一液晶層與第二液晶層的厚度係由該 硬化性樹脂圖案層之第一槽與第二槽的深度所控制。 液晶材料圖衆層 ' ,,4' ^ ^ 欣日丨與第二浴 層132所形成,其係以不同的厚度交錯地排列。此外, 一液晶層係由容納於該硬化性樹脂圖案層之第—槽的巧 性液晶材料所形成’及第二液晶層係由容納於該硬化扣 脂圖案層之第二槽的硬化性液晶材料所形成。第一液曰 與第二液晶層係將光相位有差異地遲滯。該硬化性^ 枓係依預定厚度而將光相位有差異地遲滞。如果該硬^ 液晶材料可改變光之偏光特徵,則其材料或形狀不限灰 指定者。例如該硬化性液晶材料可選自由向列相、盤升 與膽固醇相(亦稱為對掌向列相)所組成的群組。此列 '2/61 201239419 液晶材财為光硬化性液晶材料。對於商業用 料更佳為uv硬化性液晶材料。該光 而硬化的射如紫外光之光,則因光交聯反應 ,4如果將依照該例示具體實施例之圖幸 化遲W附著在顯示幕(如LCD、pDp、el、或咖案 的表面上’則可形成3①影像顯示裝置。更具體而言 從顯不幕發射之光通過以不同的厚度交錯地湖之-系列 第-液晶層131與第二液晶層丨32時,該光被遲滯 相位因而通過第—液晶層⑶與第二液晶層132之光於 具有不同的偏域徵。觀看者可❹包括兩片對應不同^ 偏光特徵之偏光透鏡的偏光眼鏡而以兩眼觸特徵不 光且感又3 D衫像。在此情形,通過液晶層之光的 调變特徵係依液晶層厚度及液晶材料之光學各向異性而 變,且以下之方程式丨顯示該關係。 [方程式1] 光相位遲滞值=η X t 及t表示液晶 在此,丨1指液晶材料之光學各向異性, 層厚度。 形成依照該具體實施例之圖案化遲滯片】00的液晶 料圖案層之第一液晶層可將光相位遲滯(η_3/4)λ (n為:敕 數),及第二液晶層可將光相位遲滯(η_1/4)λ(n為正整數)= 在此情形,通過第一液晶層與第二液晶層的光分量1一^° 具有左圓偏光特徵,且另一光分量係具有右圓偏光特徵二 使用包括選擇性地通過左圓偏光的左眼鏡片、及選擇性地 通過右圓偏光的右眼|見片之偏光眼鏡,則使用者可觀看古 品質3-D影像。更具體而言,如果所使用液晶材料之光g s·, - 13 / 61 201239419 各向異性η為〇.丨7’則為了以第一液晶層將光相位遲滯λ/4 (入在此為光之波長,例如λ/4為137.5毫米),且以第二液 曰曰層將光相位遲滯3λ/4 (λ在此為光之波長,例如3λ/4為 412J宅米),第—液晶層與第二液晶層的厚度各應為〇.8〇8 微米與2.426微米。形成依照該具體實施例之圖案化遲滯片 丨〇〇的液晶材料圖案層之第一液晶層與第二液晶層的厚度 必須精密地控制至㈣或奈米程度。精密地控制液晶層厚 度可藉刻印法以具有細微之微米絲米圖案的硬化性樹脂 圖案層達成。 /在以上說明中,雖然依照該具體實施例之圖案化遲滞 ^包括在賴在基底構件上之硬化性躺層上所形成的 ,枱〃、第—槽、及在其上所形成的第一液晶層與第二液 晶層:但本發明不受其限制。此外,其可允許各種實例而 不偏j本㈣之要點’使得依照本發明具體實施例之圖案 二可具有在基底構件之-個表面上所形成的第-槽 '/•了^及在基底構件之第—槽與第二槽中所形成的第 一液晶層與第二液晶層。 滞片=二、=之另一個例示具'體實施例係關於製造圖案化遲 化if ^ 不依照本發明之—侧示具體實施例的圖案 化遲坪片之製造方法的圖表。 如圖5所示,制、Α -u 表坆依照該例示具體實施例的圖案化遲 樹料siom.係包括以下步驟:對基底構件湖塗布硬化性 第二突出1’使·用在其—個表面上形成其中將高度不 同的 乐大比丨】丨6盥第二空山, 模115,將所计沾―& 17交錯地排列之圖案的刻印母 ^布的硬化性樹脂硬化且加壓,而形成具有其 '4/61 201239419 同的第1121與第二槽122交錯地排列之圖 案的硬化性樹脂圖宰 液晶材料 ^案層⑽(S200及S300) L更化性 更化性樹脂酸層的第—槽與第二槽中 圖案層液晶詹與第二液晶層之液晶材料 ^ ,. H7J ^ '、也遲滯。此外,雖然圖5中未示,但該製 本發明㈣具體實施例的随化遲㈣之方法可進 括使用CMP (化學機械研磨)裝置將液晶材料圖案 二Γ二,?密地控制第一液晶層與第二液晶層之厚度 ^ 、5亥以造依照本發明例示具體實施例的圖案化遲 I、土之方法中、’液晶材料可使用旋塗法、親塗法、分配塗 =或凹版塗覆法填充。在此情形可將液晶材料在聚合 〜彳巾稀釋。錢液晶㈣之方法通常依溶劑種類或稀 女产夕卜η决=此外,液晶層係對所填充的液晶材料照射 如备、外光之光’及進行光交聯反應而形成。因而液晶層之 光相位調變特㈣錢晶層厚度及液晶㈣之光學各向異 ==改變。液晶層厚度縣特職限制,但是較佳為數微 同時,製造依照本發明例示具體實施例的圖案化遲滯 片之方法的塗布硬化性樹脂的步驟及形成硬化性樹脂圖案 層的步驟储刻印法實行。其可使时板壓縮成型法,其 係使用與基底構件之材料或形狀相合的平板刻印母模。亦 可使用連輥法,其係使用輥型刻印母模。在使用連輥法之 !月形可以簡化之製造方法及改良之生產力形成大規模的細 裰硬化性樹脂圖案層。更具體而言,如果基底構件為撓性 薄月吳,則依照本發明例示具體實施例之圖案化遲滯片可藉 15/61 201239419 連秦t法製造。在此情形,刻印母模可包括母輥、壓模輥或 膜型成形模具,如以下所詳述。 圖6為顯示在製造依照本發明之一個例示具體實施例 的圖案化遲滯片之方法中,塗布硬化性樹脂的步驟及形成 硬化性樹脂圖案層的步驟之第一例示具體實施例的圖表。 如圖6所示,塗布硬化性樹脂的步驟及形成硬化性樹脂圖 案層的步驟之第一例示具體實施例係使用刻印母模輥240 做為刻印母模。該刻印母模輥係設計成在圓筒形金屬表面 上屯成其中將高度不同的第一突出24丨與第二突出242交 錯地排列之圖案,且係直接裝設於欲使用之製造設備。 使用刻印母模觀240做為刻印母模之硬化性樹脂圖案 曰^成裝置,係包括在兩側支撐且驅動基底構件2丨〇的第 輪220與第二輥25〇。膜型基底構件2丨〇係捲繞第一輥 20且其上形成硬化性樹脂圖案層之基底構件2丨2係捲繞 觀25〇。其在第—魅n間提供輸送基底構件之 =23〇a至23〇d、及在基底構件上形成硬化性樹脂圖案層 2:,240。其在將基底構件210插入刻印母模輥 具26〇t ^具有提供硬化性樹脂262之硬化輯脂注射工 構係沿導_a至· 從硬化性樹月匕、、 幻匕清形,將硬化性樹脂262 其上形成圖案之刻印母土龍籌/的—個表面係靠近地附著於 其上將深度不同的第一槽:第二對基底構件2]〇以 z、 一钇父錯地排列之圖案塗布 16/61 201239419 所庄射的硬化性細旨。將對基底構件所塗布的硬化性樹脂 以從在刻印母模輥240附近所提供的硬化工具27〇發射之 熱或紫外光硬化。在此情形,將基底構件2】〇嵌在刻印母 模泰t 240上之導|tt 230b係用於控制在基底構件上所形成的 硬化性樹脂圖案層之間隙。即,如果將導輥23〇b靠近地附 著於刻印母模輥2 4 〇,則基底構件因而靠近地附著於刻印母 模輥240。因此所形成硬化性樹脂圖案層之厚度變小。相反 地’如果將導觀230與刻印母模親240分開,則基底構件 與刻印母模輥240之間的間隙變大。因此較大量之硬化性 樹脂流入間隙中而造成硬化性樹脂圖案層之厚度增加。將 其上形成具有圖案(將深度不同的第一槽2丨3與第二槽2】4 交錯地排列)之硬化性樹脂圖案層的基底構件2丨2在通過 刻印母模輥240時以導輥230c引導而從刻印母模輥240分 離,然後被輸送而捲繞第二親250。 在灰依,¾本發明例不具體實施例的圖案化遲滞片之 方法中,塗布硬化性樹脂的步驟及形成硬化性樹脂圖案層 的步驟之弟一例示具體實施例係使用刻印壓模報代替刻印 母模親。 圖7為在製造依照本發明之一個例示具體實施例的圖 案化遲滯片之方法中,用於塗布硬化性樹脂的步驟及形成 硬化性樹脂圖案層的步驟之第二例示具體實施例的刻印壓 模輥之橫切面圖。如圖7所示’其提供刻印壓模輥340而 將具有其中將高度不同的第一突出342與第二突出343交 錯地排列之圖案的壓模34〗靠近地固定於圓筒形撐體344 之一個表面。塗布硬化性樹脂的步驟及形成硬化性樹脂圖 案層的步驟之第二例示具體實施例係包括q下步驟··(bl) 17/61 201239419 將基底構件輸送至在其表面上形成其中將高度不同的第一 突出與第二突出交錯地排列之圖案的刻印壓模觀;㈣將 硬化性樹脂注射至其中該基底構件之一個表面係靠近地接 觸在α亥刻印壓模秦^之表面上所形成的圖案之區域中,以將 該硬化性樹脂填充於該基底構件的一録面與該刻印壓模 親的圖案之間;(b3)將該基底構件之一個表面靠近地接觸 其上形成圖案之刻印壓模輥表面,及將該硬化性樹脂硬化 而形成具有其中將深度不同的第—槽與第二槽交錯地排列 =圖案的硬化性樹脂圖案層,且將該硬化性樹脂圖案層附 =該基底構件之—絲面;及㈣將其上崎該硬化性 樹脂圖案層之該基底構件從該刻印壓模輥分離。 在依照該例示具體實施例的圖案化遲滞片之製造方法 之塗布硬化性樹脂的步驟及形成硬化性樹脂圖案層的步驟 中使用刻印母模親做為刻印母模之第一例示具體實施例 係有產品品質相當優良的優點。然而考量生產力,圖案之 處理區域應為至少500毫米或以上,其造成處理圖案的成 本劇增。此外’由於其重量及體積亦增加而難以處理。另 外’由於製造產品期間所造成的作業錯誤而可能有部分污 染,或者由於刮痕修護及磨耗之平均壽命顧慮而造成製造 成本增加。同時,使用刻印壓模輥做為刻印母模之第二具 體實施例因製造壓模之方法複雜,製造壓模係隨壓模尺寸 增加而耗時,難以製造厚度均勻之壓模,及處理期間在壓 模被折#或變形時無法使壓模回復而有一些問題。通常壓 杈係用於小平板型壓縮成型。依照連輥法,如果將壓模附 著在撐體上,則會在雨端形成接面346a。其在接面處可能 有不規則圖案,且由於不規則位置之間隔短而可能造成產 18/61 201239419 圖案化遲滯片之方法的塗布硬化性樹 脂及形成硬化性樹脂圖案層 刻印壓模輥做為列印母握Β主中’使用刻印母模幸昆或 、為d ρ母&時可能產生的問題,可使用後述 在-個表面上形成其中將高度不同的第 = 交錯=排列之圖案的膜型成形模具做ϋ出 ⑺Γ為齡在製造_、树日仅―_轉體實L列 的圖片之方法中,塗布硬化性樹脂的步驟及形成 :化例树Ϊ二ΐ層的步驟之第三例示具體實施例的圖表。 層!成裝置係使用在—個表面上形成Ϊ中 1卞大出443與第二突出444交錯地排狀圖案的膜型 置係t側包括被基底構件_捲繞之第1420、及被其 上形成硬化性樹脂圖案層的基底構件412捲繞之第二輕 I:: ’在第一輥420與第二輕450之間提供輸送基底 硬化性樹脂騎層之基底構件的導輕働 爲卜」將在基底構件410上形成硬化性樹脂圖案 二# :塑早:440靠近地配置在導輥430C與導輥430d 曰。圖案板塑單S 44G係包括具有圖案之膜型成形模具 ’將所續的硬化㈣祕迫成_具以賴成形模具 硬化性樹脂„,且將_化硬化,_旨塗布在 i ϋ 賴fb 445,及輸送成频具之®案導輥他 ’丨、。上述成形模具442係將具有圖案之圖案層塗布在 =基底構件層上而形成,且為長帶形。雖然圖8僅顯示 在成形換具之圖案層上所形成的圖案之—部分,但實際上 ^在王稍形模具上形成圖案。成形模具M2係形成使得 19/61 201239419 該成形模具覆蓋連接圖案觀445及圖案導輥偏與 之延伸線,而將成形模具兩端連接。在此情形由於圖案 模具442兩端連接所造成的接面係具有比壓模輥接面明顯 較長之間隔,故在接面處所產生的不良圖案之間隔增加, 其可大為改良其上形成完整硬化性樹脂圖案層之基底構件 412的產率。& 了增加該接面之間隔’其可形成較長之成形 模具442 ’且圖案輥445與圖案導輥44知及44讣之間的距 離可較大。其在將基底構件4丨0插入圖案模塑單元44〇中 之部分提供注射硬化性樹脂之硬化性樹脂注射工具楊。此 外’在基底構件與成形模具442係靠近地移動之部分提供 照射熱或紫外光而將硬化性樹脂硬化之硬化工具獨。然而 ㈣8中,導親桃至條及圖案導觀446a與446b之數 量及其位置可依照具體化態樣而改變。首切 稱之基底構件㈣以導棍彻至條輸送。在此情形, 模1單元440之成形模具φ42係捲繞圖案輥445及圖 二,446a與446b而移動且轉動。在此情形,由於圖案 ,445係與導链43〇c及侧互鎖,故基底構件4川被導 =30c引導而與成形模具442互鎖。導親働在此實行 2、控,功能而控制在基底構件上所形成的硬化性樹脂圖 圖;ΐΐί。更具體而言’如果將導輥43〇c靠近地附著於 圖= 445 ’則會形成較薄之硬化性樹脂圖案層。相反地, 430c係離開圖案輥’則會形成較厚之硬化性樹脂 =_43Ge與__之間的距離,硬化性 产曰二V之厚度可關於硬化性樹脂的黏度、圖案化速 ^ 土底構件的張力而調整。同時,在導親4 3 〇 c與圖案 ^互鎖之部分’將硬化性樹脂藉硬化性樹脂注射工具 20/61 201239419 460注射而在基底構件4丨〇與成形模具442的圖荦之門軋厣 及填充,且因導輥430c與圖案輥445之間的壓力'而二勻ς 分散形成圖案。將分散於基底構件彻與成形模见442的 圖案之間的硬化性樹脂以從硬化卫具發射之熱或紫外 光硬化。將其上形成硬化性獅圖案層之基底構件以導親 430d帶出而從成形模具442分開,且將其上形成完整硬化 性樹脂圖案層之基底構件412以導報·輸送而捲二第二 輥450。導摩昆430d在此實行分離功能而將其上形成硬化性 樹脂圖案層之基底構件412從成形模具442分開。此外, 雖然圖8僅顯示其上形成硬化性樹脂圖案層之基底構件*丨2 的一部分,但貫際上其上形成硬化性樹脂圖案層之基底構 件412亦捲繞第二親450。 圖9為顯示在製造依照本發明之一個例示具體實施例 的圖案化遲滞片之方法中,塗布硬化性樹脂的步鄉及形成 硬化性樹脂_層的步驟之另—個第三例示具體實施例的 圖表。 圖9所不之另一個第三例示具體實施例為圖8所示圖 案模塑單元41G的修改具體實施例。具體而言,將在一個 表面上形成其中將第一突出543與第二突出544交錯地排 列之圖案的膜型成形模具542形成長輥形,其長度係對應 基底構件510之長度。因此其上形成完整硬化性樹脂圖案 層之基底構件512不具有接面。參考圖9,用於實行另一個 第二例不具體實施例之硬化性樹脂圖案層形成裝置係在兩 側包括被基底構件5〗〇捲繞之第一輥5 2 〇、及被其上形成硬 化性樹脂圖案層的基底構件512捲繞之第二輥550。此外, 在第一輥520與第二輳:550之間提供輸送基底構件及其上 21 /61 201239419 形成硬化性樹脂圖案層之基底構件的導輥53〇a至53〇f。另 外’將在基底構件yio上形成硬化性樹脂圖案層之圖案模 塑單元540的圖案輥546靠近地配置在導輥53〇c與導輥 530d =間。導輥53〇a至53〇f之數量及位置在此可依照具 體化態樣而修改。圖賴塑單元540係包括具有圖案之膜 型成形模具542 ’被成形模具捲繞之第三概545,將所注射 的,化性樹脂壓迫成職具以依照成賴具圖案形成硬化 性樹脂圖案,且將®案化硬化性觸塗布在基底構件51〇 上之圖案幸晃546 ’輸送成形模具之圖案導親547a至547d, 及被所輸达的成形模具捲繞之第四輥548。圖案導輥54乃 至547d之數量及位置可依照具體化態樣而修改。與圖8所 不具體實施例不同之處在於,成形模具542係藉圖案輕546 及圖案導親547a至547d輸送而捲繞第三棍545,且在基底 ,件510上形成由硬化性樹脂所形成的圖案層’然後捲繞 =四觀548。在此情形可將成频具542形成為具有與基底 件5丨0相同之長度。因而可在其上形成硬化性樹脂圖案 $全部基底構件5丨2上均勻地形成圖案,而無由於接面 ^成的不良®案或不連續圖案。賴圖9鶴示在成形 邱”之圖案層上所形成的圖案之一部分,但實際上係在全 2形模具上形成圖案。其在將基底構件5丨〇插入圖案模 j70 540巾(即導輕53〇c係靠近地附著於圖案輥5私) 部分提供注射硬化性樹脂的硬化性樹脂注射X具560。此 昭a在基底構件與成形模具542係靠近地移動之部分提供 Μ 2熱或表外光而將硬化性樹脂硬化之硬化工具570。首先 、芙;”堯第^ 520之基底構件5丨0以導親530a至530c輸 、而插入導輪挪與圖案概Μ6交鎖的部分中。在此情 22/61 201239419 形,圖案模塑單元540之成形模具542亦從第三輥M5解 開,然後以圖案導親547a輸送插入圖案親546與導親530c 之間而靠近地附著於基底構件51〇。導輥53〇c在此實行間 隙控制功能而控制在基底構件之一個表面上所形成的硬化 ,¼脂圖案層之厚度。同時,由於硬化性樹脂係藉硬化性 樹脂注射工具560注射至導輥53〇c與圖案輥546之間(插 入基底構件510)的部分,故將硬化性樹脂在基底構件的一 個表面與成形模具542的圖案之間軋壓及填充,且因導輥 530c與圖案輥546之間的壓力而均勻地分散,然後以從硬 化工具570發射之熱或紫外光硬化。因此對基底構件5】〇 玉布有圖案之硬化性樹脂。將其上形成硬化性樹脂圖案層 之基底構件以導輕53Gd與導輥53Ge輸送,亦將成形模具 542以導輥530d與圖案導輥547b輸送。因此其上形成硬化 14¼知圖案層之基底構件及成形模具542係在導|昆53〇d與 導輥530e之間,或在導輥53〇d與圖案導輥547(?之間靠近 地附著且輸送。然後將其上形成硬化性樹脂圖案層之基底 構件512以導輥530f引導及輸送而捲繞第二輥55〇。此外, 將成形模具542以圖案導輥547c與547d引導及輸送而捲 繞第四輥548。導輥530e與圖案導輥547b在此各實行分離 功能而將其上形成硬化性樹脂圖案層之基底構件512從成 形模具542分開。同時如上所述,如果成形模具5幻之長 度係等於基底構件510之長度,則可在全部基底構件上形 成硬化性樹脂圖案層直到將成形模具從第三輥545解開, 然後再度捲繞第_ 548。結果在其上形成硬化性樹脂圖案 層之基底構件上不產生因接面所造成的不良圖案。此外, 雖然圖9僅顯示其上形成硬化性樹脂圖案層之基底構件5】2 23/61 201239419 的一部分’但實際上其上形成硬化性樹脂圖案層之基底構 件5】2亦捲繞第二輥550。 0 10為在灰ie依照本發明之一個例示具體實施例的圖 案化遲滯片之方法中,用於塗布硬化性樹脂的步驟及形成 硬化性樹脂圖案層的步驟之第三例示具體實施例的成形模 具之橫切面圖,圖Π為另一個成形模具之橫切面圖,及圖 12為又一個成形模具之橫切面圖。用於圖8及9之膜型成 形模具係在硬化性樹脂注射工具所注射的硬化性樹脂上形 成圖案,且係形成其中在高分子樹脂上形成圖案之撓性薄 膜形狀。具體而言,如圖丨〇至丨2所示,成形模具442、6犯 或742係具有雙層結構,其包括具有厚度相當均勻之連續 平坦表面的基底構件層442a、642a或742a,及在基底構件 層之一個表面上所形成,且具有其中將高度不同的第—突 出與第二突出交錯地排列之圖案的圖案層442b、642b或 74—b此外,成形板具可在基底構件層之另一個表面上形 成三如圖丨丨及12所示’且可進—步包括增加對輥表面的 摩擦力之摩擦單元642e或742e。成形模具之基底構件層用 材料可為透明,撓性’且具有預定張力強度及耐久性的薄 1具體^自’較佳為PET膜。此外,形成®案層之樹脂 料可為高分子㈣(如寡聚物或硬化性祕)的混合 二敘述製迢成形模具之方法的一個實例。首先將金 =膜製母模固定,然後㈣母模塗布模塑高分子樹 切成频具縣底構件職蓋在其上塗布高分 母模上之後’圓筒形輥移動通過基底構件膜而均 世二二Ϊ定壓力。在此情形’所塗布的高分子樹脂係在 #畜Ί軋壓及填充,然後因導輥的壓力而按預定 24/61 201239419 厚度均勻地分散。接著在依關祕f而贿脂填充 杈與基底構件膜之間的接觸狀態,該樹脂因照射熱或紫外 光而硬化,然後將基底構件膜從母模分開。至於^底構 膜’如果需要’則在此可使用經表面修整而對模^高分= 樹脂有黏附性之基底構件膜。成形模具可藉以上掣=二 以外之各種方法製造。同時如圖8及9所示,在將細T 具農設在圖案親與圖案導親上時,將成形模具靠近地固^ _案輥與圖案導輥而在圖餘或圖案導親的表面與成形 模具之間無氣泡或累積外來物質為重要的。在此情形,為 了改良加X H ’氣泡可藉由在圖案輥或圖案導輥的表面丄 按規則間隔形成小孔而隨_';肖散。此外,在驅動硬化性 樹脂圖㈣形絲置時,為了減少其巾形成完整硬化性樹 脂圖案層之基底構件的不良圖案且改良其品質,其必須防 止圖案輥或圖案導輥的表面與成形模具之間的滑動。因此 如圖】1及丨2所示,較佳為在成形模具之基底構件層的另 個表面上形成摩擦單元。圖u所示之成形模具⑷係包 括在基底構件層642a之底部上所形成的複數之數微米厚凸 面642cj因而圖練或圖案導輥的表面與成職具的凸面 門的同磨擦力防止成形模具滑動。在此情形,凸面6伙 可由彈性㈣製成’如橡膠或聚石夕氧 。此外,圖12所示之 j =核具742 ίτ、包括在基底構件層742a之底部上所形成的 ^膜斯’以增加對圖魏或®案導躺表面之磨擦力。 ^ If形’ 4膜742c亦由彈性材料製成,如橡膠或聚砂氧。 ^除了上述實例’亦可有防止成形模具滑動之各種修改/ 具體實施例。 在以上製造依照該例示具體實施例的圖案化遲滯片之 25/61 201239419 方法的說明中,對基底構件所塗布的硬化性樹脂係被在一 個表面上形成其中將尚度不同的第一突出與第二突出交夢 地排列之圖案的刻印母模加壓及硬化,而形成具有其中將 深度不同的第一槽與第二槽交錯地排列之圖案的硬化性樹 脂圖案層,然而本發明不受其限制。製造依照該例示具體 實施例的圖案化遲滯片之方法可包括以下步驟:在對基底 構件施加熱之後,使用在一個表面上形成其中將高度不同 的第一突出與第一突出父錯地排列之圖案的模具將該基底 構件加壓,而在該基底構件上形成其中將深度不同的第一 槽與第二槽交錯地排列之圖案,或者在對在一個表面上形 成其中將咼度不同的第一突出與第二突出交錯地排列之圖 案的模具施加熱之後,以該模具將基底構件加壓,而在該 基底構件上形成其中將味度不同的第一槽與第二槽交錯地 排列之圖案。因此該例示具體實施例可多方修改而不偏離 本發明之要點。 以下參考圖13至23而說明依照本發明之另一個例示 具體實施例的圖案化遲滯片及製造圖案化遲滯片之方法。 首先έ兒明依照本發明之另一個例示具體實施例的圖案 化遲滯片。 、 圖13為依照本發明之另—個例示具體實施例的圖案化 遲滯片之正視圖,圖14為依照本發明之一個例示具體實施 例的圖案化遲滯片之分解橫切面圖,及gjb》依照本發明 之一個例示具體實施例的圖案化遲滞片之組合橫切面圖。 如圖13至15所示,依照本發明例示具體實施例之圖 案化遲滯片800係包括基底構件81〇'硬化性樹脂圖案層 820、及液晶材料圖案層83〇。 26/61 201239419 如果基底構件810可傳 所指定者。為了順利 # =、材料或形狀不限於 透明構件之實例係包括亥基底構件可為透明構件。 外,該基底構件可為彈二=透明塑膠㈣ -個例示具體實施例二===明之 硬化性樹脂圖案声 法表以。 性樹脂卿&。9 '、讀在基底構件上之硬化 々頂疋冰二的银數槽822按 之-糸列圖案。如果該硬化性樹脂可傳送务=3 形狀不限於所指定者。偏叮姑曰了傳运先’則其材料或 性樹脂之已知二熱™ 芮紫曰㈣」 較佳為使用光硬化性樹脂。 二、個# & μ UV硬化性樹脂。在硬化性樹脂圖案層820 ==右按相對該基底構件之垂直方向或水平方向 具有預定深度的複數槽822按預定間隔排列之 糸歹!H此情形’該圖料顧述騎法形成。 一液晶材料圖案層㈣係由—系列第—液晶層832與第 ^液^層831所形成’其係以不同的厚度交錯地排列。此 外,弟一液晶層832係由塗布在硬化性樹脂 〇之 槽㈣的内部區域中及内部區域上之硬化性液晶材料所形 成及苐一液μ層83〗係由塗布在硬化性樹脂圖案層mo ,奶㈣隙區域上之硬化性液晶材料所形成^一液 曰曰層832與第二液晶層83丨係將光相位有差異地遲滯。該 更化性液日日材料係依預疋厚度而將光相位有差異地遲滯。 女果省硬化性液晶材料可改變光之偏光特徵,則其材料或 形狀不限於所指定者。例如該硬化性液晶材料可選自由向 列相、盤形相與膽固醇相(亦稱為對掌向列相)所組成的 27/61 201239419 晶材料可為光硬化性液晶材料。 -性液晶材料為如、射如紫外光之光,則因光 更化的液晶材料。如果依照該例示具體實施例 之圖木化遲冰片議係附著在顯示幕(如LCD、PDP、EL、 或FED^表面上’啊形成如影像顯示裝置。更具體 而::在::顯不幕發射之光通過以不同的厚度交錯地排列 之一糸列弟—液晶層832與第二液晶層83|時,該光被遲 滞不同的相位。因而通過第一液晶層咖與第二液晶層83ι 之光係具有不_偏光特徵。觀看者可使用包括兩片對應 不同的偏光特徵之偏光透鏡的偏純鏡而以兩眼辨識特徵 不同之光’且感文3-D影像。在此情形,通過液晶層之光 的相位調_徵係依液晶層厚度及液晶材料之光學各向異 性而改變,且以上之方程式丨顯示該關係。 、 形成依照該具體實施例之圖案化遲滯片8〇〇的液晶材 料圖案層830之第-液晶層832可將光相位遲滞(η_3/4)λ(η 為正整數)’及第二液晶層83丨可將光相位遲滞(η_1/4)λ (η 為正整數)。在此情形,通過第一液晶層832與第二液晶層 8 3丨的光分量之一係具有左圓偏光特徵,且另一光分量係具 $右圓偏光特徵。使用包括選擇性地通過左圓偏光的左眼 鏡片、及選擇性地通過右圓偏光的右眼鏡片之偏光眼鏡, 則使用者可觀看高品質3_D影像。更具體而言,如果所使 用液晶材料之光學各向異性„為〇丨7,則為了以第一液晶 層832將光相位遲滯λ/4 (λ在此為光之波長,例如為 5毫米)’及以第二液晶層831將光相位遲滞3λ/4 (入 為光之波長,例如3λ/4為4丨2·5毫米),第一液晶層832與 28/61 201239419 第二液晶層831的厚度各應為0.808微米與2.426微米。形 成依照邊具體實補之圖案化遲滯片卿的液晶材料_ 層830之第一液晶層832與第二液晶層83丨的厚度必須精 密地控制至微米或奈米程度。精密地控制液晶層的厚度可 藉刻印法以具有微米或奈米細微圖案之硬化性樹脂圖案層 達成。 〃日 在以上說明中,雖然依照另一個具體實施例之圖案化 遲滯片係包括在基底構件上之硬化性樹脂層上所形成的複 數槽、部分地相當於該槽之第—液晶層、及相當於該槽之 間的間隔上方區域之第二液晶層’但本發明不受其限制。 此外’其可允許各種實例而不偏離本發明之要點,如依照 本發明之另一個具體實施例的圖案化遲滯片可具有在基底 構件1610之-個表面上所形成的複數槽、部分地相當於基 底構件1610之_的第一液晶層1632、及相當於基底構件 1610之該槽之_間隔上方區域之第二液晶層丨63丨,如圖 24所示。 以下說明製造依照本發明之另一個例示具體實施例的 圖案化遲滯片之方法。 圖16顯不製造依照本發明之另一個例示具體實施例的 圖案化遲滯片之方法。 ' 如圖1(3所不,製造依照另一個例示具體實施例的圖案 化遲滯片之方法係包括•步,驟:對基底構件_塗布硬 化性樹郎丨_);㈣在其—個表面上形成其中將具有預 疋厚度的複數k出817按預定間隔排列之圖案的刻印母模 815,將所布的硬化性樹脂硬化且加壓,而形成具有其中 將具有預定深度的複數槽822按預定間隔排列之圖案的硬 29/61 201239419 化性樹脂圖案層820 (S2000及S3000);及將硬化性液晶 材料塗布在該硬化性樹脂圖案層820上且硬化,而形成包 括第一液晶層832與第二液晶層831之液晶材料圖案層830 (S4000)。在此情形,第一液晶層832與第二液晶層831係 將光相位有差異地遲滯。此外,雖然圖〗6中未示,但該製 造依照本發明例示具體實施例的圖案化遲滯片之方法可進 一步包括使用CMP (化學機械研磨)裝置將液晶材料圖案 層平面化,而精密地控制第一液晶層832與第二液晶層83] 之厚度的步驟。在該製造依照本發明例示具體實施例的圖 案化遲、印片之方法中,液晶材料可使用旋塗法、幸昆塗法、 分配塗覆法、或凹版塗覆法填充。在此情形可將液晶材料 在聚合物溶劑中稀釋。塗覆液晶材料之方法通常依溶劑種 類或稀釋比例而決定。此外,液晶層係對所填充的液晶材 料照射如紫外光之光,及進行光交聯反應而形成。因而液 晶層之光相位調變特徵係依液晶層厚度及液晶材料之光學 各向異性而改變。液晶層厚度並未特別地限制,但是較佳 為數微米或以下。 同時,製造依照本發明例示具體實施例的圖案化遲滯 片之方法的塗布硬化性樹脂的步驟及形成硬化性樹脂圖案 層的步驟係藉刻印法實行。其可使用平板壓縮成型法,其 係使用與基底構件之材料或形狀相合的平板刻印母模。亦 可使用連輥法’其係使用輥型刻印母模。在使用連輕法之 情形可以簡化之製造方法及改良之生產力形成大規模的細 微硬化性樹脂圖案層。更具體而言,如果基底構件為撓性 薄膜,則依照本發明例示具體實施例之圖案化遲滯片可藉 連輥法製造。在此情形’刻印母模可包括母輥、壓模觀或 30/61 201239419 膜型成形模具,如以下所詳述。 圖17為顯示在製造依照本發明之一個例示具體實施例 的圖案化遲滯片之方法中,塗布硬化性樹脂的步驟及形成 硬化性樹脂圖案層的步驟之第一例示具體實施例的圖表。 如圖17所不’塗布硬化性樹脂的步驟及形成硬化性樹脂圖 案層的步驟之第一例示具體實施例係使用刻印母模輥94〇 做為刻印母模。刻#母模M 94〇係在圓筒形金屬表面上具 有其中將具有預疋向度的複數突出942按預定間隔排列之 圖案,且係直接裝設於欲使用之製造設備。使用刻印母模 親940做為刻印母模之硬化性樹脂圖案層形成裝置係包括 在兩側支撐且驅動基底構件9〗〇的第一輥920與第二幸昆 950。膜型基底構件9丨〇係捲繞第一輥92〇,且其^形成硬 化性樹脂圖案層之基底構件9】2係捲繞第二輥95〇。其在第 -輥920與第二輥950之間提供輸送基底構件9丨〇 ^導親 930a至930d、及在基底構件9j〇上形成硬化性樹脂圖案層 之刻印母難940。其在將基底構件91()插人刻印母模輕 940中的部分具有提供硬化性樹脂%2之硬化性樹脂注射工 具960。此外,在刻印母模輥94〇附近提供將對基底構件 910所塗布的硬化性樹脂硬化之硬化工具97()。在將基底構 件910從第一輥920解開日夺,將基底構件91〇沿導報93〇a 至930d輸送而接觸刻印母模輕94〇。在此情形,將硬化性 樹脂962從硬化性樹脂注射工具9齡射至將基底構件彻 插入刻印母_ _中的部分。基底構件9ig的一 係靠近_著在其上形顧案之科賴輥9⑽的表面 上’使得將所注射的硬化性樹脂以其上將具 複數槽913按預定間隔排列之圖案塗布在基底構件^ 31 /61 940 940201239419 化。在此具970發射之熱或紫外光硬 脂圖案層之:: 940 ^ 0.ΙΑΛ ^ 如果將導輥930b壓迫刻印母模輥 940則基底構件91〇目而壓迫刻印母模幸昆帽。因此所形 f硬化性樹脂醇層之厚度變小。減地,如果將導親93〇 人刻印母极輥940分開,則基底構件910與刻印母模輥940 之門的間隙文大。因此較大量之硬化性樹脂流人間隙中而 ^硬化性樹脂圖案層之厚度增加。將其上形成硬化性樹 脂圖案層(其上具有將具有預定深度的複數槽913按預定 間1^排列之圖案)的基底構件912在通過刻印母模親940 時以導輥93〇c引導而從刻印母模輕94〇分離,然後被輸送 而捲繞第二輥950。 在製讫依照本發明之另一個例示具體實施例的圖案化 遲滯片之方法中,塗布硬化性樹脂的步驟及形成硬化性樹 脂圖案層的步驟之第二例示具體實施例係使用刻印壓模輥 代替第一例示具體實施例之刻印母模輥做為刻印母模。圖 18為在製造依照本發明例示具體實施例的圖案化遲滯片之 方法中,用於塗布硬化性樹脂的步驟及形成硬化性樹脂圖 案層的步驟之第二例示具體實施例的刻印壓模輥之橫切面 圖。如圖丨8所示,其提供刻印壓模輥丨〇4〇而將具有其中 將具有預定咼度的複數突出丨042按預定間隔排列之圖案的 壓模丨041靠近地固定於圓筒形撐體1044之一個表面。塗 布硬化性樹脂的步驟及形成硬化性樹脂圖案層的步驟之第 二例示具體實施例係包括以下步驟:將基底構件輪送至在 32/61 201239419 其表面上形成其中將具有預定高度的複數突出丨043按預定 間隔排列之圖案的刻印壓模輥】〇44;將硬化性樹脂注射至 其中及基底構件之—個表面係靠近地接觸在關印壓模粮 1044之表面上所形成的圖案之區域巾,以將該硬化性樹脂 填充於該基底構件的一個表面與刻印壓模輥〗〇44的圖案之 間,,该基底構件之一個表面靠近地接觸其上形成圖案之 刻印壓杈輥1044的表面,及將該硬化性樹脂硬化而形成具 有其中將具有預定深度的複數槽按預定間隔排列之圖案的 硬化性樹脂圖案層,且將該硬化性樹脂圖案層附著於該基 底構件之一個表面;及將其上附著該硬化性樹脂圖案層之 δ亥基底構件從該刻印壓模輥1044分離。 在依照另一個例示具體實施例的圖案化遲滯片之製造 方法之塗布硬化性樹脂的步驟及形成硬化性樹脂圖案層的 步驟中,使用刻印壓模輥做為刻印母模之第一例示具體實 施例係有產品品質相當優良的優點。然而考量生產力,圖 案之處理區域應為至少500毫米或以上的大區域,其造成 處理圖案的成本劇增。此外,由於其重量及體積亦增加而 難以處理。另外’由於製造產品期間所造成的作業錯誤而 可有部分污染,或者由於修復刮痕及磨耗之平均壽命顧 慮而造成製造成本增加。同時,使用刻印壓模輥做為刻印 母模之第二例示具體實施例因製造壓模之方法複雜,製造 壓模隨壓模尺寸增加而耗時,難以製造厚度均勻之壓模, 及處理期間在壓模被折疊或變形時無法使壓模回復而有一 些問題。通常壓模係用於小平板型壓縮成型。依照連輥法, 如果將壓模附著在撐體上,則可在兩端形成接面1046a。其 在接面處可能有不規則圖案,或者由於不規則位置之間隔 33/61 201239419 姐印1 lie成產率大幅降低。在製造圖案化遲滯片之方法 的塗布硬化性樹脂及形成硬化性樹脂圖案層之程序中,使 用刻印母模輥或刻印壓模輥做為刻印母模時可能產生的問 題’可使用後述在-個表面上形成其中將具有預定高度的 複數突出按預定間隔排列之圖案的膜型成形模且 母模而克服。 … J ' 圖19為㈣在製造依照本發明之—_轉體實施例 的圖案化遲滯片之方法中,塗布硬化性樹脂的步驟及形成 硬化性樹脂圖案層的步驟之第三例示具體實施例的圖表。 第三例示具體實施例係使用膜型成形模具做為刻印母模。 硬化性樹脂圖案層形成裝置係使用在一個表面上形成其中 將具有預定高度的複數突出n44按預㈣隔排列之圖案 =成形模具1丨42做為刻印母模。該硬化性樹脂圖案層形 成装置係在兩側包括被基底構件·捲繞之第m⑽、 及被其上形成硬化性樹脂圖案層之基底構件丨丨丨2捲第 二輥⑽。此外,在第—辕⑽與第二輥⑽之間= 輸送基底構件及其上形成硬化性樹 ,' 導報】130a至】130e。另外,將為其戍棋;之基底構件的 化性樹脂Μ狀冑單& 丨丨IG上形成硬 1130c 菲近地配置在導輥 。導龢1130d〈間。圖案模塑單 圖案之膜型成形模具m2,龍、“+AA 知包括具有 形模具以健顧彡❹目氣壓迫成 案化硬化輯脂㈣在魏㈣脂且將圖 成形模具之圖案導輥U46a ^ „輥1445,及輸送 一丨丨46b。上述成形模具1142 ::有0案1案層塗布在膜型基底構件上而形成 為長㈣。雖然圖19僅顯示在成形模具之圖案層上所形成 34/61 201239419 的0案之一部分,伯徐帆L〆上 案。成开在全部成形模具上形成圖 i]45t ^ 係形成使得該成形模具覆蓋連接圖荦輥 兩端連接。在此产开《: 延伸線,而將成形模具 的接面係於圖案模具1Ί, 所產生白;:顯較長之間隔’故在接面處 硬化性之Γ增加’其大為改良其上形成完整 更化!·生奶日0案層之基底構件1〗12的產率 面之間隔而可形成較長之成形模具⑽,且圖幸曰口。^ 圖案導輥]146a與U 46b之間的距離在將:: ⑴〇插人圖案模塑單元⑽中之將基底構件 之硬化性樹_工具⑽。==== 石更化性樹脂硬化之硬化工具lm。_在 U3〇af丨场及圖案導報⑽a與l】46b之數量及其位" 可依照具體化態樣而改變。首先將捲繞第—報⑽^ 二以導輥1130,至U3〇c輸送。在此情形,圖;模 f早兀丨4G之成賴具1142亦捲繞圖錄U45及圖案導 輥"版與職而移動且轉動。在此情形,由於圖案 r πΓοΓ,γΓ imc^1130d 5 =1導而與成形模具1142互鎖。導輕職在此實 能而㈣在基底構件上所形成的硬化性樹脂 體而言’如果將導槪113此靠近地附 者於圖案輥⑽,則可形成鋪之硬倾 反地,如果導1丨騰__案輥,則可形成較狀; 化性樹脂圖案層。除了導輥u最與圖案輥"45之間的距 離,硬化性樹脂圖案層之厚度可藉硬化性樹脂的黏度、圖 35/61 201239419 案化速度、及絲構件贿力輕 與圖案親1145互鎖之部分 才在仏1130c 射工具丨_注射而在基底構3性樹脂藉硬化性樹脂注 案之間軋壓及填充,且 的圖 壓力而均句地分散形成圖案。將分分^:^145之間的 形模具丨M2的圖案之間 ;與成 ΠΓ紫外光硬化。將其上二::圖: f構件以導觀軸帶出而從成形模具1M2=^ 其上形成完整硬化性樹脂圖案層之基底構件丨丨丨2以導李曰 丨丨30e輸送而捲繞第二輥_。轉则在此實行分離^ :=2上二Γ化咖^ I 1=2刀開。此外’雖_ 19僅顯示其上形成硬化性 層之基底構件ln2的一部分,但實際 硬化性樹脂圖案層之基底構件丨丨】2亦捲繞第二報ιΐ5〇。 圖20為顯料製造依照本發明之另—侧 例的圖案化遲W之方法中,塗布硬化性樹脂的步驟及形 成硬化性樹脂圖荦屏的t ^ ΑΑΓΊ , 之另—個第三例示具體實施例 的圖表。 圖20所示之另—個第三例示具體實施例 案模塑以_之修改具體實施例。具體而言,將在一^ 表面上形成其中將具有預定高度的複數突出丨244按預定間 隔排列之圖案的膜型成形模具】M2形成長卿,其長度係 對應基底構件]2丨〇之長度。因此其上職完整硬化性樹脂 圖,層之基底構件丨212不具有接面。參考圖2(),依照另一 個第二例不具體實關之硬化性魏圖案層形絲置係在 兩側包括被基底構件12]G捲繞之第―輕㈣、及被其上形 36/61 201239419 成硬化性樹脂_層之基 此外,在第一輥】22〇健^牛】2】2捲繞之第二輕1250。 件及其上形成硬化性樹脂圖 基底構 至1230f。另外,將力其戍操、基底構件的導輥1230a 宰声之圓安㈣:土 1件121G上形成硬化性樹脂圖The frictional force of the PET on the other surface of the wire bottom member layer. Further, the base member layer which is formed by the roll film may be formed by a polymer resin, and the pattern layer may be formed of a polymer resin. Further, the early TL may be formed by a plurality of fine convex surfaces and another exposure. X is formed by the gutta-percha, the other side-turning body of the invention _ provides = ΓΓ 离 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底 基底a master mold, which forms a curable resin pattern layer having a pattern in which a plurality of grooves of a predetermined depth are arranged in a predetermined interval, and a hardenable liquid crystal layer coated on the hardened/monthly SI f layer The material is hardened to form a liquid crystal material pattern layer including a liquid crystal layer having a different thickness and a first liquid crystal layer. The liquid crystal layer corresponds to the groove, and the second liquid crystal layer corresponds to the k between the four, and the first liquid crystal layer and the second liquid crystal layer retard the optical phase differently. Compared with the patterned retardation film according to the related art (having a pattern which is retarded by the pattern formed on one surface of the liquid layer 8 layer, the 'structure' is not specifically determined according to the example of the present invention. In the embodiment, the patterned retardation film has a structure in which the phase of the light is retarded differently by using a pattern of a night crystal material formed of a liquid crystal material accommodated in the curable resin pattern layer. Therefore, patterned late/Τ|Γ can be fabricated by minimizing the use of a mask and without the need for separate etching procedures. Further, the patterned retardation sheet according to the specific embodiment of the present invention can be manufactured by the roll method, which can be mass-produced using a simple method. In addition, if the patterned hysteresis film of the embodiment is attached to the front side of the display screen in accordance with the present invention, a high quality 3-D image can be provided to the user. The above summary is illustrative only and is not intended to be limiting. In addition to the illustrative aspects, specific embodiments and features of the above-mentioned 10/61 201239419, other aspects, specific embodiments and features become apparent from the drawings and the following. [Embodiment] Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. At the very first, attention should be paid to the reference numbers of the elements of the various figures, and similar reference numerals indicate similar 7L pieces, even if similar elements appear in different drawings. Known functions or configurations are not described in detail in order to avoid unnecessarily obscuring the understanding of the present invention. It is to be understood that the spirit and scope of the invention is not to be construed as being limited to the details thereof. Referring to Figures 1 to 12, a patterned retardation film and a method of fabricating a patterned retardation film according to an exemplary embodiment of the present invention will be described with reference to Figs. 1 to 12, and an exemplary embodiment of the present invention relates to a patterning hysteresis = Fig. 2 is in accordance with FIG. 3 is an exploded perspective view of a patterned hysteresis piece according to an exemplary embodiment of the present invention, and FIG. 4 is an exploded perspective view of a patterned hysteresis piece according to the present invention. FIG. A combined cut-away view illustrating a specific embodiment of the hysteresis >; The pattern base member η 〇, the curable resin pattern layer 120, and the liquid crystal material pattern layer 3 例 according to the present invention are exemplified in the second embodiment. Second, the base f member 110 can transmit light, and its material or shape is not limited to 曰:. In order to smoothly transmit light, the base member can be a transparent glass member and a transparent plastic member. The base member can be a bullet (four) film. In this case, the patterned retardation film according to the non-specific embodiment of the present invention can be manufactured by a connection method. , 1:1 /61 201239419 The curable resin pattern layer 120 is formed of a curable resin coated on a base member. Further, the curable resin pattern layer has a series of patterns in which the first grooves 121 and the second grooves 122 having different depths are alternately arranged on the surface thereof. For example, when the depth of the first groove is 1 μm, the pitch of the second groove is 3 μm. In this case, the thickness of the first liquid crystal layer described later is 1 μm and the thickness of the second liquid crystal layer is 3 μm. If the curable resin can transmit light, its material or shape is not limited to those specified. For example, a known curable resin such as a thermosetting resin or a photocurable resin can be used, and a photocurable resin is preferably used. The commercial purpose is preferably a UV curable resin. On one surface of the curable resin pattern layer, a series of patterns in which the first grooves 121 and the second grooves 22 having different depths are alternately arranged are formed in a direction perpendicular to the horizontal direction or the horizontal direction of the base member. In this case, the pattern is formed by the imprinting method described later. In the patterned retardation film according to the embodiment of the present invention, the thickness of the first liquid crystal layer and the second liquid crystal layer forming the liquid crystal material pattern layer described later is the first groove and the first layer of the curable resin pattern layer. The depth of the two slots is controlled. The liquid crystal material layer ' , , 4 ' ^ ^ Xin Ri and the second bath layer 132 are formed, which are alternately arranged with different thicknesses. Further, a liquid crystal layer is formed of a crystalline liquid crystal material accommodated in a first groove of the curable resin pattern layer, and a second liquid crystal layer is formed of a curable liquid crystal contained in a second groove of the hardened grease pattern layer. The material is formed. The first liquid helium layer and the second liquid crystal layer retard the optical phase differently. The hardenability is retarded by a difference in optical phase depending on a predetermined thickness. If the hard liquid crystal material can change the polarizing characteristics of light, the material or shape thereof is not limited to the gray designator. For example, the curable liquid crystal material may be selected from the group consisting of a nematic phase, a disc rising phase and a cholesterol phase (also referred to as a palm nematic phase). This column '2/61 201239419 liquid crystal material is a photocurable liquid crystal material. For commercial use, it is more preferred to be a uv hardenable liquid crystal material. The light and hardened light, such as ultraviolet light, is photo-crosslinked, 4 if it is to be attached to the display screen (such as LCD, pDp, el, or coffee case) according to the illustration of the specific embodiment. On the surface, a 31 image display device can be formed. More specifically, when the light emitted from the display is staggered by the different thicknesses of the lake-series liquid crystal layer 131 and the second liquid crystal layer 32, the light is The hysteresis phase thus passes through the first liquid crystal layer (3) and the second liquid crystal layer 132. The viewer may have two polarizing glasses including two polarizing lenses corresponding to different polarizing characteristics, and the two eye touches are not characteristic. In this case, the modulation characteristics of the light passing through the liquid crystal layer vary depending on the thickness of the liquid crystal layer and the optical anisotropy of the liquid crystal material, and the following equation 丨 shows the relationship. [Equation 1] The optical phase hysteresis value = η X t and t represents liquid crystal here, 丨 1 refers to the optical anisotropy of the liquid crystal material, and the layer thickness. The liquid crystal material pattern layer of the patterned retardation film 00 according to the specific embodiment is formed. A liquid crystal layer can delay the light phase (η_3/4)λ (n is: number of turns), and the second liquid crystal layer can retard the optical phase (η_1/4)λ (n is a positive integer) = in this case, through the first liquid crystal layer and the second liquid crystal The light component of the layer has a left circular polarization characteristic, and the other light component has a right circular polarization characteristic. The second lens includes a left lens that selectively passes the left circular polarization, and a right lens that selectively passes the right circular polarization. Eye|See polarized glasses for the film, the user can view the ancient quality 3-D image. More specifically, if the liquid crystal material used is gs·, - 13 / 61 201239419 anisotropy η is 〇. 丨7' is to retard the optical phase λ/4 with the first liquid crystal layer (in this case, the wavelength of light, for example, λ/4 is 137. 5 mm), and with the second liquid helium layer, the optical phase is retarded by 3λ/4 (λ is here the wavelength of light, for example, 3λ/4 is 412J house size), and the thickness of the first liquid crystal layer and the second liquid crystal layer are respectively Should be 〇. 8〇8 microns and 2. 426 microns. The thicknesses of the first liquid crystal layer and the second liquid crystal layer which form the liquid crystal material pattern layer of the patterned retardation sheet according to this embodiment must be precisely controlled to the (four) or nanometer extent. The precise control of the thickness of the liquid crystal layer can be achieved by a resistive resin pattern layer having a fine micron wire pattern by engraving. / In the above description, although the patterning hysteresis according to the specific embodiment is formed on the hardenable lying layer on the base member, the platform, the first groove, and the first formed thereon A liquid crystal layer and a second liquid crystal layer: but the invention is not limited thereto. In addition, it may allow various examples without the gist of 'four' such that the pattern 2 according to the embodiment of the present invention may have a first groove formed on a surface of the base member and/or a base member The first liquid crystal layer and the second liquid crystal layer formed in the first groove and the second groove. Another example of a retardation = two, = is a graph of a method for fabricating a patterning delay sheet according to a specific embodiment of the present invention. As shown in FIG. 5, the Α-u surface 坆 is in accordance with the exemplary embodiment of the patterned late tree siom. The method comprises the steps of: coating the base member lake with a hardening second protrusion 1' to use on a surface thereof to form a Leda 其中 其中 6 盥 second empty mountain, the mold 115, which will be counted The curable resin of the imprinted mother cloth of the pattern which is alternately arranged is hardened and pressurized to form a hardenability pattern having a pattern in which the '1/61 201239419 and the same 1121 and the second groove 122 are alternately arranged. Resin pattern liquid crystal material layer (10) (S200 and S300) L is more specific to the resin acid layer of the first groove and the second layer of the pattern layer liquid crystal and the second liquid crystal layer of the liquid crystal material ^,. H7J ^ ', also delayed. Further, although not shown in Fig. 5, the method of the fourth embodiment of the present invention (4) can be carried out by using a CMP (Chemical Mechanical Polishing) device to pattern the liquid crystal material. The method of controlling the thickness of the first liquid crystal layer and the second liquid crystal layer to form a pattern of late I and soil according to an exemplary embodiment of the present invention, 'the liquid crystal material can be spin-coated or coated , dispense coating = or gravure coating method. In this case, the liquid crystal material can be diluted in the polymerization ~ wipes. The method of the liquid crystal liquid (4) is usually formed by the type of the solvent or the rare earth, or the liquid crystal layer is irradiated with the liquid crystal material to be filled, and the photo-crosslinking reaction is carried out. Therefore, the optical phase modulation of the liquid crystal layer is characterized by (4) the thickness of the crystal layer and the optical orientation of the liquid crystal (4) == change. The thickness of the liquid crystal layer is limited by the county, but it is preferably a few microseconds. The step of applying the curable resin according to the method of patterning the retardation sheet of the specific embodiment of the present invention and the step of forming the curable resin pattern layer are carried out. . It allows for time plate compression molding using a flat imprinting master that conforms to the material or shape of the base member. A continuous roll method can also be used, which uses a roll type imprinting master. The use of the continuous roll method can simplify the manufacturing method and improve the productivity to form a large-scale fine-cured resin pattern layer. More specifically, if the base member is a flexible thin film, the patterned retardation film according to the specific embodiment of the present invention can be manufactured by the method of 15/61 201239419. In this case, the imprinting master may include a master roll, a die roll or a film forming die, as described in detail below. Fig. 6 is a graph showing a first exemplary embodiment of a step of applying a curable resin and a step of forming a curable resin pattern layer in the method of manufacturing a patterned retardation sheet according to an exemplary embodiment of the present invention. As shown in Fig. 6, the first exemplary embodiment of the step of applying a curable resin and the step of forming a curable resin pattern layer uses an imprint master roll 240 as an imprint master. The imprinted master roll is designed to be patterned on a cylindrical metal surface in which the first projections 24'' and the second projections 242 having different heights are arranged in a staggered manner, and are directly mounted on the manufacturing apparatus to be used. The curable resin pattern using the imprinting master 240 as the imprinting master is composed of a first wheel 220 and a second roller 25 that are supported on both sides and drive the base member 2''''''' The film-type base member 2 is wound around the first roll 20 and the base member 2丨2 on which the curable resin pattern layer is formed is wound around. It provides a transporting base member = 23〇a to 23〇d between the first and the second, and a curable resin pattern layer 2:, 240 is formed on the base member. It inserts the base member 210 into the engraved master roll 26 〇t ^ and has a hardened resin injection structure that provides a curable resin 262 along the guide _a to · from the hardening tree, the illusion, will The curable resin 262 has a pattern on which the surface of the imprinted soil is attached to the first groove to which the depth is different: the second pair of base members 2] is z, and the father is wrong Arranged pattern coating 16/61 201239419 The hardening effect of the smear. The curable resin applied to the base member is hardened by heat or ultraviolet light emitted from the hardening tool 27 provided near the imprinting master roll 240. In this case, the guide member tt 230b for embedding the base member 2 on the engraved master mold 240 is used for controlling the gap of the curable resin pattern layer formed on the base member. That is, if the guide roller 23〇b is attached to the imprinting master roll 24 4 靠近 close thereto, the base member is thus closely attached to the imprinting master roll 240. Therefore, the thickness of the curable resin pattern layer formed becomes small. Conversely, if the guide 230 is separated from the engraved master mold 240, the gap between the base member and the imprint master roll 240 becomes large. Therefore, a larger amount of the curable resin flows into the gap to cause an increase in the thickness of the curable resin pattern layer. The base member 2 2 on which the curable resin pattern layer having the pattern (the first grooves 2 丨 3 and the second grooves 2 having different depths are alternately arranged) is formed thereon is guided by the imprinting of the master roll 240 The roller 230c is guided to be separated from the imprinting master roll 240 and then conveyed to wind the second pro 250. In the method of patterning a retardation sheet according to a non-specific embodiment of the present invention, the step of applying a curable resin and the step of forming a curable resin pattern layer are exemplified by using an imprinting stamper. Instead of engraving the mother mold pro. Figure 7 is a plan view showing a second exemplary embodiment of a step of coating a curable resin and a step of forming a curable resin pattern layer in a method of fabricating a patterned retardation film according to an exemplary embodiment of the present invention. Cross-sectional view of the die roll. As shown in FIG. 7, 'the stamping roll 340 is provided to fix the stamper 34 having a pattern in which the first protrusions 342 and the second protrusions 343 having different heights are alternately arranged in the cylindrical support 344. One of the surfaces. The step of applying the curable resin and the second exemplary embodiment of the step of forming the curable resin pattern layer include the step of q (b) 17/61 201239419 conveying the base member to the surface thereof to be formed in a different height (1) injecting a curable resin into a surface in which one surface of the base member is in close contact with the surface of the alpha-printing stamp In the region of the pattern, the curable resin is filled between a recording surface of the base member and the pattern of the imprinting mold; (b3) a surface of the base member is brought into close contact with the pattern to form a pattern thereon. The surface of the stamper roll is imprinted, and the curable resin is cured to form a curable resin pattern layer having a pattern in which the first groove and the second groove having different depths are alternately arranged in a pattern, and the curable resin pattern layer is attached = The base member is a silk surface; and (4) the base member of the upper curable resin pattern layer is separated from the imprinting stamper. The first exemplary embodiment in which the imprinting master is used as the imprinting master in the step of applying the curable resin and the step of forming the curable resin pattern layer in the method of manufacturing the patterned retardation sheet according to the exemplary embodiment of the present invention It has the advantage that the product quality is quite excellent. However, considering the productivity, the pattern should be treated at least 500 mm or more, which causes a significant increase in the cost of processing the pattern. In addition, it is difficult to handle due to its increased weight and volume. In addition, there may be partial contamination due to operational errors caused during the manufacture of the product, or manufacturing costs may increase due to the average life expectancy of scratch repair and wear. Meanwhile, the second embodiment using the imprinting stamper as the imprinting master is complicated in manufacturing the stamper, and the manufacturing stamper is time-consuming to increase in size of the stamper, making it difficult to manufacture a stamper having a uniform thickness, and during processing. There is some problem that the stamp cannot be recovered when the stamper is folded or deformed. Usually, the crimping system is used for small flat type compression molding. According to the continuous roll method, if the stamper is attached to the support, a joint 346a is formed at the rain end. It may have an irregular pattern at the joint, and the coating hardening resin which may produce the 18/61 201239419 patterned retardation sheet and the hardening resin pattern layer imprinting stamper may be made due to the short interval of the irregular positions. In order to print the problem that may occur when using the imprinting master mold, or the d ρ mother & the pattern can be formed on the surface to be the same as the interlaced=arranged pattern with different heights. The film-forming mold is used for the method of coating the curable resin in the method of manufacturing the image of the L-column in the manufacturing, and the step of forming the curable resin. The third example shows a chart of a specific embodiment. The layer-forming device is formed on the surface of the film-shaped structure t-stacked on the surface of the first protrusion 444 and the second protrusion 444, and includes a 1420, which is wound by the base member _ The second light I is wound around the base member 412 on which the curable resin pattern layer is formed: 'the guide roller for providing the base member for transporting the base hardenable resin riding layer between the first roller 420 and the second light 450 is A curable resin pattern 2# is formed on the base member 410: the plastic early: 440 is disposed close to the guide roller 430C and the guide roller 430d. The pattern plate plastic single S 44G system includes a film-forming mold having a pattern, and the continuous hardening (four) is formed into a mold-hardening resin, and is applied to i ϋ f fb 445, and a guide roller that is transported into a frequency tool. The forming die 442 is formed by coating a pattern layer having a pattern on the base member layer, and is formed into a long strip shape. Although FIG. 8 is only shown in FIG. Forming a portion of the pattern formed on the pattern layer of the tool, but actually forming a pattern on the king-shaped mold. The forming mold M2 is formed such that the forming mold covers the connection pattern 445 and the pattern guide roller 19/61 201239419 The extension line is biased to connect the two ends of the forming mold. In this case, since the joints formed by the two ends of the pattern mold 442 have a significantly longer interval than the joint surface of the stamper roll, the joint is produced at the joint surface. The interval of the defective pattern is increased, which can greatly improve the yield of the base member 412 on which the integral hardenable resin pattern layer is formed. & increasing the spacing of the joints, which can form the longer forming mold 442' and the pattern Roller 445 and pattern The guide roller 44 knows that the distance between 44 turns can be large. It provides a curable resin injection tool for injecting a curable resin in a portion where the base member 4丨0 is inserted into the pattern molding unit 44. In addition, 'on the substrate The member and the mold 442 are moved close to each other to provide a hardening tool for irradiating heat or ultraviolet light to harden the curable resin. However, in (4) 8, the number of the guide peach to the strip and the pattern guides 446a and 446b and their positions may be According to the specific embodiment, the base member (4) which is first cut is conveyed by the guide stick to the strip. In this case, the forming die φ42 of the die 1 unit 440 is wound by the pattern roll 445 and FIG. 2, 446a and 446b. In this case, due to the pattern, the 445 series is interlocked with the guide chain 43〇c and the side, so that the base member 4 is guided by the guide=30c to interlock with the forming die 442. The guide relatives are implemented here. Functionally controlling the hardenable resin pattern formed on the base member; more specifically, 'if the guide roller 43〇c is closely attached to the figure = 445', a thin, hardened resin pattern layer is formed. Conversely, the 430c is away from the map. The case roll will form a thicker curable resin = the distance between _43Ge and __, and the thickness of the sclerosing yttrium V can be adjusted with respect to the viscosity of the curable resin and the tension of the patterned speed member. At the same time, in the portion where the guide member 4 3 〇c and the pattern are interlocked, the curable resin is injected by the curable resin injection tool 20/61 201239419 460 and the base member 4丨〇 and the forming mold 442 are rolled. The crucible and the filling are dispersed and patterned by the pressure between the guide roller 430c and the pattern roller 445. The hardening resin dispersed between the base member and the pattern of the forming mold 442 is used to harden the sanitary material. The heat of emission or ultraviolet light hardens. The base member on which the hardened lion pattern layer is formed is taken out from the forming mold 442 by the guiding member 430d, and the base member 412 on which the complete curable resin pattern layer is formed is guided and conveyed to roll the second roller. 450. The guide 430d performs a separating function here to separate the base member 412 on which the curable resin pattern layer is formed from the forming die 442. Further, although Fig. 8 shows only a part of the base member *2 on which the curable resin pattern layer is formed, the base member 412 on which the curable resin pattern layer is formed is also wound around the second parent 450. Figure 9 is a view showing another third embodiment of the step of coating the curable resin and the step of forming the curable resin layer in the method of manufacturing the patterned retardation film according to an exemplary embodiment of the present invention. Example chart. Another third exemplary embodiment shown in Fig. 9 is a modified embodiment of the pattern molding unit 41G shown in Fig. 8. Specifically, a film-forming mold 542 in which a pattern in which the first protrusion 543 and the second protrusion 544 are alternately arranged is formed on one surface is formed into a long roll shape having a length corresponding to the length of the base member 510. Therefore, the base member 512 on which the entire hard curable resin pattern layer is formed does not have a joint. Referring to Fig. 9, a curable resin pattern layer forming apparatus for carrying out another second example of the non-specific embodiment includes a first roll 5 2 〇 wound by the base member 5 on both sides, and formed thereon The second roller 550 around which the base member 512 of the curable resin pattern layer is wound. Further, between the first roller 520 and the second weir: 550, guide rollers 53A to 53F for transporting the base member and the base member on which the curable resin pattern layer is formed are provided on 21/61 201239419. Further, the pattern roll 546 of the pattern molding unit 540 which forms the curable resin pattern layer on the base member yio is disposed close to the guide roller 53〇c and the guide roller 530d=. The number and position of the guide rollers 53A to 53〇f can be modified here in accordance with the specific aspect. The drawing plastic unit 540 includes a third film 545 of a patterned film forming mold 542 'wound by a forming mold, and presses the injected chemical resin into a tool to form a curable resin pattern according to the pattern of the sizing. And patterning the sclerosing contact on the base member 51, the pattern guides 547a to 547d of the transfer molding die, and the fourth roller 548 wound by the formed molding die. The number and position of the pattern guide rollers 54 to 547d can be modified in accordance with the specific embodiment. The difference from the embodiment shown in Fig. 8 is that the forming mold 542 is wound by the pattern light 546 and the pattern guides 547a to 547d to wind the third stick 545, and is formed of a curable resin on the substrate 510. The formed pattern layer ' is then wound = four views 548. In this case, the frequency forming device 542 can be formed to have the same length as the substrate member 丨0. Thus, a curable resin pattern can be formed thereon. The pattern is uniformly formed on all of the base members 5?2 without a defective pattern or a discontinuous pattern due to the joint. Lai Figure 9 shows a part of the pattern formed on the patterned layer of the forming Qiu, but actually forms a pattern on the full 2-shaped mold. It inserts the base member 5丨〇 into the pattern mold j70 540 towel (ie, guide The light-curing resin injection X-piece 560 is provided in a portion where the base member and the molding die 542 are moved close to each other in the portion where the base member and the molding die 542 are moved close to each other. The hardening tool 570 which hardens the hardening resin by the surface light. First, the base member 5丨0 of the 尧 520 is transferred to the guide 530a to 530c, and the portion where the guide wheel is shifted and the pattern is interlocked is inserted. in. In this case 22/61 201239419, the forming mold 542 of the pattern molding unit 540 is also unwound from the third roller M5, and then the pattern guide 547a is transported between the insertion pattern pro 546 and the guide 530c to be closely attached to the substrate. Member 51〇. The guide roller 53A performs a gap control function here to control the thickness of the hardened, 1⁄4 grease pattern layer formed on one surface of the base member. Meanwhile, since the curable resin is injected into the portion between the guide roller 53〇c and the pattern roller 546 (inserted into the base member 510) by the curable resin injection tool 560, the curable resin is applied to one surface of the base member and the molding die. The pattern of 542 is rolled and filled, and uniformly dispersed by the pressure between the guide roller 530c and the pattern roller 546, and then hardened by heat or ultraviolet light emitted from the hardening tool 570. Therefore, the base member 5 has a patterned curable resin. The base member on which the curable resin pattern layer is formed is conveyed by the guide light 53Gd and the guide roller 53Ge, and the forming mold 542 is also conveyed by the guide roller 530d and the pattern guide roller 547b. Therefore, the base member and the forming mold 542 on which the hardened layer 141 is formed are between the guide roller 530d and the guide roller 530e, or are closely attached between the guide roller 53〇d and the pattern guide roller 547 (?) Then, the base member 512 on which the curable resin pattern layer is formed is guided and conveyed by the guide roller 530f to wind the second roller 55. Further, the molding die 542 is guided and conveyed by the pattern guide rollers 547c and 547d. The fourth roller 548 is wound. The guide roller 530e and the pattern guide roller 547b each perform a separating function to separate the base member 512 on which the curable resin pattern layer is formed from the forming die 542. Meanwhile, as described above, if the forming die 5 The length of the phantom is equal to the length of the base member 510, and a hardenable resin pattern layer can be formed on all of the base members until the forming mold is unwound from the third roll 545, and then the first 548 is wound again. As a result, hardening is formed thereon. The base member of the resin pattern layer does not have a defective pattern due to the joint surface. Further, although FIG. 9 only shows a part of the base member 5] 2 23/61 201239419 on which the curable resin pattern layer is formed, The base member 5 2 on which the curable resin pattern layer is formed is also wound around the second roller 550. 0 10 is used in the method of patterning the retardation sheet according to an exemplary embodiment of the present invention. A step of coating a curable resin and a step of forming a curable resin pattern layer, a third cross-sectional view showing a molding die of the specific embodiment, a cross-sectional view of another forming die, and FIG. 12 is another forming die The cross-sectional view of the film forming molds of Figs. 8 and 9 is formed by patterning a curable resin injected into a curable resin injection tool, and forming a flexible film shape in which a pattern is formed on the polymer resin. Specifically, as shown in FIGS. 2 to 2, the forming molds 442, 6 or 742 have a two-layer structure including a base member layer 442a, 642a or 742a having a substantially uniform continuous flat surface, and a pattern layer 442b, 642b or 74-b formed on one surface of the base member layer and having a pattern in which the first protrusions and the second protrusions are alternately arranged with different heights A friction unit 642e or 742e may be formed on the other surface of the base member layer as shown in FIGS. 12 and 12 and may include a frictional force on the surface of the roller. The material of the base member layer of the forming mold may be The film which is transparent, flexible and has a predetermined tensile strength and durability is preferably a PET film. Further, the resin material forming the layer can be a polymer (four) (such as an oligomer or a hardening secret) Mixing 2 is an example of a method for forming a mold. First, the gold=film master is fixed, and then (4) the master mold is coated and molded into a polymer tree to form a high denominator on the bottom member of the frequency device. After the mold is applied, the cylindrical roller moves through the base member membrane and the pressure is constant. In this case, the polymer resin applied was rolled and filled in #Ί, and then uniformly dispersed in a predetermined thickness of 24/61 201239419 by the pressure of the guide rolls. Then, the contact state between the crucible and the base member film is filled with brittle fat, and the resin is hardened by irradiation of heat or ultraviolet light, and then the base member film is separated from the master mold. As for the "substrate" if necessary, a base member film which is surface-trimmed to have a high adhesion to a resin can be used. The forming mold can be manufactured by various methods other than the above 掣 = two. At the same time, as shown in FIGS. 8 and 9, when the thin T is placed on the pattern affinity and the pattern guide, the forming mold is placed close to the ground and the pattern guide roller to be on the surface of the pattern or the pattern guide. It is important to have no air bubbles or accumulate foreign matter between the forming molds. In this case, in order to improve the addition of X H 'bubbles, it is possible to form small holes by regular intervals on the surface of the pattern roll or the pattern guide roll. Further, in order to reduce the poor pattern of the base member of the towel forming the entire hardenable resin pattern layer and to improve the quality thereof when driving the curable resin pattern (4), it is necessary to prevent the surface of the pattern roll or the pattern guide roll from forming the mold. Between the slides. Therefore, as shown in Figs. 1 and 2, it is preferable to form a friction unit on the other surface of the base member layer of the forming mold. The forming mold (4) shown in Fig. u includes a plurality of micron-thick convex surfaces 642cj formed on the bottom of the base member layer 642a, thereby preventing the forming of the surface of the guide roller or the surface of the guide roller from the same frictional force of the workpiece. The mold slides. In this case, the convex surface 6 can be made of elastic (four) such as rubber or poly-stone. Further, j = 742 ίτ shown in Fig. 12 includes a film formed on the bottom of the base member layer 742a to increase the friction against the surface of the guide or the guide. ^ If shape ' 4 film 742c is also made of an elastic material such as rubber or polyaluminum. In addition to the above examples, there may be various modifications/embodiments to prevent the sliding of the forming mold. In the above description of the method of manufacturing the patterned retardation sheet according to the exemplary embodiment of 25/61 201239419, the curable resin applied to the base member is formed on one surface in which the first protrusions which are different in degree are The engraved master mold of the second prominently arranged pattern is pressed and hardened to form a curable resin pattern layer having a pattern in which the first grooves and the second grooves having different depths are alternately arranged, but the present invention is not Its limits. The method of manufacturing a patterned retardation sheet according to the exemplary embodiment may include the steps of: forming a first protrusion and a first protrusion in a difference on a surface after applying heat to the base member The patterned mold presses the base member, and a pattern in which the first groove and the second groove having different depths are alternately arranged is formed on the base member, or the first one is formed on one surface After applying heat to the mold protruding from the pattern in which the second protrusions are alternately arranged, the base member is pressurized by the mold, and the first groove and the second groove having different tastes are alternately arranged on the base member. pattern. Therefore, the exemplary embodiments can be modified in various ways without departing from the gist of the invention. A patterned retardation film and a method of manufacturing a patterned retardation film according to another exemplary embodiment of the present invention will now be described with reference to Figs. First, a patterned retardation film according to another exemplary embodiment of the present invention will be described. Figure 13 is a front elevational view of a patterned retardation film in accordance with another embodiment of the present invention, and Figure 14 is an exploded cross-sectional view of a patterned retardation film in accordance with an exemplary embodiment of the present invention, and gjb A combined cross-sectional view of a patterned retardation film in accordance with an exemplary embodiment of the present invention. As shown in Figs. 13 to 15, a patterned retardation film 800 according to an exemplary embodiment of the present invention includes a base member 81' hardenable resin pattern layer 820, and a liquid crystal material pattern layer 83'. 26/61 201239419 If the base member 810 can pass the designation. For smoothness, the material or shape is not limited to an example of a transparent member, and the base member may be a transparent member. Further, the base member may be a bullet 2 = transparent plastic (four) - an exemplary embodiment 2 === Ming's curable resin pattern. Resin Qing & 9 ', the hardening on the base member is read. If the curable resin can be transported, the shape is not limited to the one specified. It is preferable to use a photocurable resin, for example, a known second heat TM (4) of the material or the resin. Second, a # & μ UV curing resin. The plurality of grooves 822 having a predetermined depth with respect to the vertical direction or the horizontal direction of the base member are arranged at predetermined intervals in the curable resin pattern layer 820 ==. This case is formed by the riding method. A liquid crystal material pattern layer (4) is formed by a series of liquid crystal layers 832 and a liquid layer 831 which are alternately arranged with different thicknesses. Further, the liquid crystal layer 832 is formed of a curable liquid crystal material applied to the inner region and the inner region of the groove (4) of the curable resin crucible, and the liquid crystal layer 83 is applied to the curable resin pattern layer. Mo, the liquid layer of the hardened liquid crystal material on the (four) gap region is formed by the liquid layer 832 and the second liquid crystal layer 83, which retard the optical phase. The tempering liquid daily material retards the optical phase differently depending on the pre-twist thickness. The fruit-setting sclerosing liquid crystal material can change the polarization characteristics of light, and the material or shape thereof is not limited to those specified. For example, the curable liquid crystal material may be selected from a nematic phase, a disc phase and a cholesterol phase (also referred to as a palm nematic phase). 27/61 201239419 Crystal material may be a photocurable liquid crystal material. The liquid crystal material is a liquid crystal material which is made of light such as ultraviolet light. If, according to the exemplary embodiment, the figure of the icicles is attached to the display screen (such as the surface of the LCD, PDP, EL, or FED^), it is formed as an image display device. More specifically: in:: When the light emitted by the curtain is arranged in a staggered manner with one of the different thicknesses, the liquid crystal layer 832 and the second liquid crystal layer 83|, the light is retarded by a different phase. Thus, the first liquid crystal layer and the second liquid crystal layer are passed. The 83ι light system has a non-polarization feature. The viewer can use a polarized lens including two polarizing lenses corresponding to different polarizing features to recognize the different light's and the sensed 3-D image with both eyes. The phase modulation of the light passing through the liquid crystal layer changes depending on the thickness of the liquid crystal layer and the optical anisotropy of the liquid crystal material, and the above equation 丨 shows the relationship. The patterned retardation film according to the specific embodiment is formed. The first liquid crystal layer 832 of the liquid crystal material pattern layer 830 can retard the optical phase (η_3/4) λ (η is a positive integer) and the second liquid crystal layer 83 can retard the optical phase (η_1/4) λ (η is a positive integer). In this case, pass the first One of the light components of the crystal layer 832 and the second liquid crystal layer 83 has a left circular polarization characteristic, and the other light component has a right circular polarization characteristic. Using a left lens including selective left circular polarization, And selectively passing the polarized glasses of the right-eye polarized right-eye lens, the user can view the high-quality 3_D image. More specifically, if the optical anisotropy of the liquid crystal material used is 〇丨7, The first liquid crystal layer 832 has a light phase retardation λ/4 (λ is here a wavelength of light, for example, 5 mm) and a second liquid crystal layer 831 retards the optical phase by 3λ/4 (into the wavelength of light, for example 3λ/4 is 4丨2·5 mm), and the thickness of the first liquid crystal layer 832 and 28/61 201239419 second liquid crystal layer 831 should each be 0. 808 microns and 2. 426 microns. The thickness of the first liquid crystal layer 832 and the second liquid crystal layer 83 of the liquid crystal material _ layer 830 of the patterning retardation film formed according to the side compensation must be precisely controlled to the micron or nanometer level. The thickness of the liquid crystal layer can be precisely controlled by a patterning method using a hardened resin pattern layer having a fine pattern of micrometers or nanometers. In the above description, in accordance with another embodiment, the patterned retardation film comprises a plurality of grooves formed on the curable resin layer on the base member, a liquid crystal layer partially corresponding to the groove, and The second liquid crystal layer corresponding to the region above the interval between the grooves 'but the invention is not limited thereto. In addition, it may allow various examples without departing from the gist of the present invention, such as a patterned retarder in accordance with another embodiment of the present invention may have a plurality of grooves formed on one surface of the base member 1610, partially equivalent The first liquid crystal layer 1632 of the base member 1610 and the second liquid crystal layer 63B corresponding to the upper portion of the groove of the base member 1610 are as shown in FIG. A method of fabricating a patterned retardation film in accordance with another exemplary embodiment of the present invention is described below. Figure 16 shows a method of fabricating a patterned hysteresis in accordance with another illustrative embodiment of the present invention. As shown in FIG. 1 (3), the method of fabricating a patterned retardation film according to another exemplary embodiment includes the steps of: stepping on the base member _coating hardening tree 丨 ); (4) on its surface An imprint master 815 in which a pattern of a plurality of k-outs 817 having a pre-twist thickness is arranged at predetermined intervals is formed thereon, and the cured resin is hardened and pressurized to form a plurality of grooves 822 having a predetermined depth therein. A hard 29/61 201239419 chemical resin pattern layer 820 (S2000 and S3000) of a pattern arranged at intervals; and a hardenable liquid crystal material is coated on the curable resin pattern layer 820 and hardened to form a first liquid crystal layer 832. And a liquid crystal material pattern layer 830 of the second liquid crystal layer 831 (S4000). In this case, the first liquid crystal layer 832 and the second liquid crystal layer 831 retard the optical phase differently. In addition, although not shown in FIG. 6, the method of fabricating the patterned retardation film according to the specific embodiment of the present invention may further include planarizing the liquid crystal material pattern layer using a CMP (Chemical Mechanical Polishing) device, and precisely controlling The step of thickness of the first liquid crystal layer 832 and the second liquid crystal layer 83]. In the method of fabricating the patterning and printing according to the exemplified embodiments of the present invention, the liquid crystal material may be filled using a spin coating method, a coating method, a dispensing coating method, or a gravure coating method. In this case, the liquid crystal material can be diluted in a polymer solvent. The method of coating the liquid crystal material is usually determined by the solvent type or the dilution ratio. Further, the liquid crystal layer is formed by irradiating the liquid crystal material to be filled with light such as ultraviolet light and performing a photocrosslinking reaction. Therefore, the optical phase modulation characteristic of the liquid crystal layer changes depending on the thickness of the liquid crystal layer and the optical anisotropy of the liquid crystal material. The thickness of the liquid crystal layer is not particularly limited, but is preferably several micrometers or less. Meanwhile, the step of producing a curable resin and the step of forming a curable resin pattern layer in the method of patterning the retardation sheet according to the specific embodiment of the present invention are carried out by imprinting. It is possible to use a flat plate compression molding method which uses a flat plate imprinting master which conforms to the material or shape of the base member. It is also possible to use a continuous roll method, which uses a roll type imprinting master. In the case where the light method is used, the manufacturing method and the improved productivity can be simplified to form a large-scale fine-curing resin pattern layer. More specifically, if the base member is a flexible film, the patterned retardation sheet according to the specific embodiment of the present invention can be manufactured by the roll method. In this case, the imprinting master may include a master roll, a stamper or a 30/61 201239419 film forming die, as described in detail below. Fig. 17 is a graph showing a first exemplary embodiment of a step of coating a curable resin and a step of forming a curable resin pattern layer in the method of manufacturing a patterned retardation sheet according to an exemplary embodiment of the present invention. The first exemplary embodiment in which the step of applying the curable resin and the step of forming the curable resin pattern layer are as shown in Fig. 17 is to use the imprinting master roll 94 as the imprinting master. The mastering mold M 94 has a pattern in which the plurality of projections 942 having the pre-twisting degree are arranged at predetermined intervals on the cylindrical metal surface, and is directly mounted on the manufacturing apparatus to be used. The curable resin pattern layer forming apparatus using the imprinting master mold 940 as the imprinting master mold includes a first roll 920 and a second Xingkun 950 which are supported on both sides and drive the base member. The film-type base member 9 is wound around the first roll 92, and the base member 9 which forms the hard resin pattern layer is wound around the second roll 95. It is provided between the first roller 920 and the second roller 950 to transport the base member 9 导 guides 930a to 930d, and to form a hardened resin pattern layer on the base member 9j. The portion in which the base member 91 () is inserted into the imprinted master mold light 940 has a curable resin injection tool 960 which provides a curable resin %2. Further, a hardening tool 97 () which hardens the curable resin applied to the base member 910 is provided in the vicinity of the imprinting master roll 94'. When the base member 910 is unwound from the first roller 920, the base member 91 is conveyed along the guides 93a to 930d to contact the imprinting master 94 〇. In this case, the curable resin 962 is irradiated from the curable resin injection tool 9 to the portion where the base member is completely inserted into the imprinting mother. A series of the base member 9ig is placed close to the surface of the Koran roll 9 (10) on which it is applied, so that the injected curable resin is coated on the base member with a pattern on which the plurality of grooves 913 are arranged at predetermined intervals. ^ 31 /61 940 940201239419. Here, the layer of heat or ultraviolet light patterned by 970 is: 940 ^ 0. ΙΑΛ ^ If the guide roller 930b is pressed against the imprinting master roll 940, the base member 91 is intruding and pressing the engraved master mold. Therefore, the thickness of the shaped f-curable resin alcohol layer becomes small. In the case of subtraction, if the guide member 93 is separated from the engraved parent roller 940, the gap between the base member 910 and the gate of the imprinted master roll 940 is large. Therefore, a larger amount of the curable resin flows into the gap and the thickness of the curable resin pattern layer increases. The base member 912 on which the hardenable resin pattern layer (having a pattern in which the plurality of grooves 913 having a predetermined depth are arranged in a predetermined interval) is guided by the guide roller 93〇c while being imprinted by the master mold 940 It is separated from the engraved master mold by 94 , and then conveyed to wind the second roll 950. In the method of preparing a patterned retardation sheet according to another exemplary embodiment of the present invention, the step of applying a curable resin and the second exemplary embodiment of the step of forming a curable resin pattern layer are performed using an imprinting stamper roll. Instead of the engraved master roll of the first exemplary embodiment, it is used as an imprint master. 18 is a second exemplary embodiment of an imprinting stamper roll for a step of coating a curable resin and a step of forming a curable resin pattern layer in a method of manufacturing a patterned retardation sheet according to an exemplary embodiment of the present invention. Cross section view. As shown in FIG. 8, it is provided with an imprinting stamper 〇4〇 and a stamper 041 having a pattern in which a plurality of projections 042 having a predetermined twist are arranged at predetermined intervals is closely fixed to the cylindrical stay. One surface of the body 1044. The second exemplary embodiment of the step of applying the curable resin and the step of forming the curable resin pattern layer includes the steps of: transferring the base member to a surface on which 32/61 201239419 is formed to have a predetermined height丨 043 engraved stamper rolls of a pattern arranged at predetermined intervals 〇 44; the curable resin is injected therein and the surface of the base member is in close contact with the pattern formed on the surface of the stamping die pad 1044 a zone towel filled with a curable resin between a surface of the base member and a pattern of the imprinting stamper 44, one surface of the base member closely contacting the imprinting roller 1044 on which the pattern is formed Surface, and hardening the curable resin to form a curable resin pattern layer having a pattern in which a plurality of grooves having a predetermined depth are arranged at predetermined intervals, and attaching the curable resin pattern layer to one surface of the base member And separating the ?-base member from which the curable resin pattern layer is attached from the imprinting stamper 1044. In the step of coating a curable resin and the step of forming a curable resin pattern layer in the method of manufacturing a patterned retardation sheet according to another embodiment, the first exemplary embodiment using an imprinting stamper as an imprinting master is used. The example has the advantage that the product quality is quite excellent. However, considering the productivity, the processing area of the pattern should be a large area of at least 500 mm or more, which causes a dramatic increase in the cost of processing the pattern. In addition, it is difficult to handle due to its increased weight and volume. In addition, there may be partial contamination due to work errors caused during the manufacture of the product, or an increase in manufacturing cost due to the average life expectancy of repairing scratches and abrasion. Meanwhile, the second exemplary embodiment using the imprinting stamper as the imprinting master is complicated in manufacturing the stamper, and the manufacturing stamper is time-consuming to increase in size of the stamper, making it difficult to manufacture a stamper having a uniform thickness, and during processing. There is some problem in that the stamp cannot be recovered when the stamp is folded or deformed. Usually, the stamper is used for small flat type compression molding. According to the continuous roll method, if the stamper is attached to the support, the joint 1046a can be formed at both ends. It may have an irregular pattern at the junction, or due to the irregular position of the interval 33/61 201239419 Sister India 1 lie into a greatly reduced yield. In the procedure of applying a curable resin for forming a patterned retardation sheet and forming a curable resin pattern layer, a problem may occur when an imprinting master roll or an imprinting stamper is used as an imprinting master mold, which can be used later - A film-forming mold in which a pattern of a plurality of protrusions having a predetermined height is arranged at a predetermined interval is formed on the surface and the master mold is overcome. (J) FIG. 19 is a fourth exemplary embodiment of the step of coating the curable resin and the step of forming the curable resin pattern layer in the method of manufacturing the patterned retardation sheet according to the embodiment of the present invention. Chart. The third exemplary embodiment shows the use of a film forming mold as an imprinting master. The curable resin pattern layer forming apparatus uses a pattern in which a plurality of protrusions n44 having a predetermined height are arranged in a pre-fourth interval on one surface = a forming mold 1 丨 42 as an imprinting master. The curable resin pattern layer forming apparatus includes a second member (10) which is wound on the both sides by the base member, the mth (10), and the base member 2 on which the curable resin pattern layer is formed. Further, between the first - (10) and the second roller (10) = the transporting base member and the hardening tree are formed thereon, and the reports 130a to 130e. In addition, a hard resin is formed on the base member of the base member of the base member, and a hard 1130c phenanthrene is disposed on the guide roller. Guide and 1130d <between. Pattern-molded single-pattern film-forming mold m2, Long, "+AA knows that it has a shape-shaped mold to take care of the gas pressure to form a hardened grease (4) in Wei (four) grease and the pattern forming mold of the mold guide roller U46a ^ „Roller 1445, and a conveyor 46b. The above-mentioned forming mold 1142: has a case 1 layer coated on the film type base member to be formed into a long (four). Although Fig. 19 only shows a part of the case of Form 34/61 201239419 formed on the pattern layer of the forming mold, Bo Xufan L〆 is on the case. The opening is formed on all the forming molds. i] 45t ^ is formed such that the forming mold covers the connection of the connecting rolls at both ends. Here, the ": extension line is produced, and the joint of the forming mold is attached to the pattern mold 1 Ί, and the white is produced; the longer interval is formed, so the hardening property is increased at the joint surface." Forming a complete and normalized! The interval between the yield faces of the base member 1 of the raw milk day 0 layer can form a long forming die (10), and the figure is fortunate. The distance between the pattern guide rollers 146a and U 46b is: (1) the hardenability tree of the base member _tool (10) inserted into the pattern molding unit (10). ==== Hardening tool lm for hardening resin. _ The number of U3〇af field and pattern guides (10)a and l]46b and its position" can be changed according to the specific situation. First, the winding first (10)^2 is conveyed by the guide rolls 1130 to U3〇c. In this case, the figure; the mold f is as early as 4G, and the slinger 1142 is also wound and the U45 and the pattern guide roller are moved and rotated. In this case, since the pattern r π Γ ο Γ, γ Γ imc ^ 1130d 5 =1 leads to interlock with the forming mold 1142. In the case of a hardening resin body formed on the base member, if the guide 113 is attached to the pattern roll (10), the hard surface can be formed. 1 丨 _ _ case roller, can form a relatively thin; chemical resin pattern layer. In addition to the distance between the guide roller u and the pattern roller "45, the thickness of the curable resin pattern layer can be determined by the viscosity of the curable resin, the speed of the case of Figure 35/61 201239419, and the brisk force of the silk member and the pattern pro 1145 The interlocking portion is rolled and filled between the base resin and the curable resin by the injection of the tool 丨1130c, and the pattern pressure is uniformly dispersed to form a pattern. It will be divided between the patterns of the molds 丨M2 between ^:^145; and hardened by ultraviolet light. The upper part::Fig.: The f-member is taken out by the guide shaft, and the base member 丨丨丨2 which forms the complete hardenable resin pattern layer from the forming mold 1M2=^ is conveyed by the guide 曰丨丨30e. Second roll _. The transfer is carried out here to separate ^ :=2 on the two Γ Γ ^ ^ ^ 1 = 2 knife open. Further, although only a part of the base member ln2 on which the curable layer is formed is shown, the base member 2 of the actual curable resin pattern layer is also wound around the second sheet. Fig. 20 is a view showing the step of coating a curable resin and the step of forming a curable resin pattern in the method of manufacturing a patterning late W according to another embodiment of the present invention, and another third example specific. A chart of an embodiment. Another third embodiment of the embodiment shown in Fig. 20 is molded to modify the specific embodiment. Specifically, a film-shaped forming mold in which a pattern in which a plurality of protruding protrusions 244 having a predetermined height are arranged at predetermined intervals is formed on a surface thereof, M2 is formed into a long length, and the length thereof corresponds to the length of the base member] . Therefore, the upper base member 丨212 of the layer does not have a joint. Referring to FIG. 2(), the hardenable Wei pattern layered wire according to another second example is not specifically closed, and includes a first light (four) wound by the base member 12]G on both sides, and a shape 36 thereon. /61 201239419 The hardening resin _ layer base In addition, in the first roll] 22 〇 健 ^ 2] 2] 2 winding the second light 1250. The member and the hardened resin pattern formed thereon are structured to 1230f. In addition, it will force the virginity, the base member's guide roller 1230a to kill the sound of the round (4): soil 1 121G on the formation of a hardening resin
It丨·的圖賴丨246靠近地配置在導 位晋i ^123Gd之間。導輕】2施至123Gf之數量及 包具體化態樣而修改。圖案模塑單元】㈣係 =5 : 形模具1242,被成形模具捲繞之第 开::注射的硬化性樹脂壓迫成形模具™ 塗硬化性樹脂圖案,且將圖案化硬化性樹脂 案導mo上之圖案槪】246’輸送成形模具之圖 幸:mV nl /期’及被所輸送的成形模具捲繞之第四 ^",247a ^,247d =化恶樣而修改。與圖19所示具體實施例㈣之處在於, 成她具係藉11案報丨246及圖案導輕丨勘至〗期輸送 =卷繞第三棍⑽,且在基底構件⑽上形成由硬化性樹 曰所形成的圖案層,然後捲繞第四幸昆⑽。在此情形可將 成她具1242形成為具有與基底構件121〇相同之長度。 因而可在其上形成硬化性樹脂圖案層之全部基底構件^丨2 上均勻地形成圖案,但不產生由於接面所造成的不良圖案 或不連續圖案。雖然圖2〇僅顯示在成形模具之圖案層上所 形成的圖案之-部分’但實際上係在全部成形模具上形成 圖案。其在將基底構件1210插入圖案模塑單元丨24〇中(即 導輥1230c係靠近地附著於圖案輥丨246)之部分提供注射 硬化性樹脂的硬化性樹脂注射工具丨26〇。此外,在基底構 件與成形模具1242係靠近地移動之部分提供照射熱或紫外 Μ 1(\\ 201239419 光而將硬化性樹脂硬化之硬化工具咖 輥〗220之基底構件丨2】〇以導 光降拔、.元第 人導親1230c與圖案親i246 : : =〇C,而插 案模塑單元】240之細纽:";卩分中。在此情形,圖 然後以圖案導觀m7a輸送插人圖t第三報1245解開’ 1210; 間隙控制魏响财基底構件之—個表面上所== 丁 :=圖ft厚度。同時由於硬化性樹脂係藉硬化性 =曰/射工八1260注射至導輕123〇c與圖案親】撕之間 ^基底構件⑵0)的部分,故將硬化性樹脂在基底構 卜個表面與成形模具1242的圖案之間札壓及填充:且 :導輥m〇c與圖案親⑽之間的壓力而均勻地分散,然 發射之熱或紫外光硬化。因此對基底 ’主P有圖案之硬化性樹脂。將其上形成硬化性樹 月曰圖案層之基底構件以導棍123〇d與導親123〇e輪送,亦 將成形模具丨242以導觀丨2·與圖案導親彳勘輸送。因 此其上形成硬化性樹脂圖案層之基底構件及成形模具⑽ 係在導幸昆U30d與導粮1230e之間,或在導輥123〇d與圖 案導親12杨之間靠近地崎且輪送。織將其上形成硬 化性樹脂圖案層之基底構件⑵以導…篇引導及輪送 而捲繞第二親丨250。此外,將成形模具丨242以圖案導概 1247c與丨247d引導及輸送而捲繞第四輥1248。導輥123如 與圖案導輥纽各實行絲魏祕其上形成硬化 性樹脂圖案層之基底構件1212從成形模具丨242分開。同 時如上所述’如果絲模具丨242之長度係料基底構件 121〇之長度,則可在全部基底構件㈣上形成硬化性樹月旨 38/6! 201239419 =案1直到將成形模具從第三親⑽解開,,然後再度捲繞 二比J248。結果在其上形成硬化性樹脂圖案層之基底構 不生因接面所造成的不良圖案。此外雖然圖如僅 顯不其士形成硬化性樹脂圖案層之基底構件⑵2的一部 刀仁貫/V、上其上形成硬化性樹脂圖案層之 亦捲繞第二輥1250。 — 圖21為在製造依照本剌之—_轉體實施例的圖 案化遲滞片之方法中’用於塗布硬化性樹脂的步驟及形成 敎性樹脂_層的步驟之第三例轉體實關的模具之 t、刀面® 1J 22為另一個成形模具之橫切面圖,及圖幻 為又-個成形模具之橫切面圖。用於圖】9及2〇之膜型成 形模具係在硬化性樹脂注射工具所注射的硬化性樹脂上形 成圖案’且係形成其中在高分子樹脂上形成圖案之挽性薄 版形狀。具體而言,如圖21至23所示,成形模具1342、 M42或1542係具有雙層結構,其包括具有厚度相當均勾之 連續平坦表面的基底構件層1342a、1442a或】542a,及在 基底齡層之-個表面上所形成,且具有其中將具有預定 南度的複數突出按預定間隔排狀圖案的圖_ 1342b、 1442b或1542b。此外,成形模具可在基底構件層之另一個 表面上如圖22及23所示,且可進一步包括增加對 親表面的摩擦力之摩擦單元⑷2。或1M2c。成形模具之基 底構件層用材料可為透明,撓性,且具有預定張力強度及 敎性的_。具體而言,較佳為PET膜。此外,形成圖 案層之樹脂用材料可為高分子材料(如寡聚物或硬化性底 漆)的混合物。以下敘述製造成形模具之方法的一個實例。 首先將金屬或薄膜製母模固定,然後對該母模塗布模塑高 39/61 201239419 分子樹脂。,其次在將成频具錄底構件顧蓋在農上冷 布高分子樹闕母模上之後,圓㈣輥移動通過基底ς 膜而均勻地施加預定墨力。在此情形,所塗布的高分 脂係在母模_案之間軋壓及填充,然後因導輥的二 按預定厚度均勻地分散。接著在舰樹脂性㈣將樹 充於母模與基底構件膜之_接觸狀態,該樹翻昭射妖 或紫外光而硬化1後將基底構伽從母模分開。= 底構件膜,如果需要,則在此可使用經表面修整而對模: 兩分子樹脂有騎性之基底構件膜。成形模具可藉以上^ 造方法以外之各種方法製造。同時如圖19及2〇所示、 將成形模具裝設在騎輕朗m時,將成形模且土 近地固定於圖案輥與圖轉輥而在圖_或圖案導觀= 面與成純具之間無氣泡或累積外來物質為重要的^ 情形,為了改良加讀,氣泡可藉由在圖案輥或圖 的表面上按規則間隔形成小孔而_間消散。 動形成硬化性齡«層料n為了減料 = ,硬,性樹脂圖案層之基底構件的不良圖案且改 貝、其必須防止圖案輥及圖案導親的 二; 的滑動。因此如圖22*23所示,較佳為在成形料= 底構件層的另-個表面上形成摩擦單^。圖2二 ==^丨!^她442叫部上所形二 ^ e _ ®縣域目料親的表面盥 =形杈』凸面之間的高磨擦力防止成形 =’ri442e可由彈性材料製成,如橡勝或聚石夕氧。 =,圖23所不之成形模具1542係包括在基底構件層 之底部上所形成的_丨地,以增加對圖案觀或圖 牝/61 201239419 案導輥的表面之磨擦力。在此情形,薄膜1542c亦可由彈 性材料製成,如橡膠或聚矽氧。同時除了上述實例,亦可 有防止成形模具滑動之各種修改/具體實施例。 在以上製造依照該例示具體實施例的圖案化遲滯片之 方法的說明中,對基底構件所塗布的硬化性樹脂係被在一 個表面上形成其中將具有預定厚度的複數突出按預定間隔 排列之圖案的刻印母模加壓及硬化,而形成具有其中將具 有預定深度的複數槽按預定間隔排列之圖案的硬化性樹脂 圖案層,然而本發明不受其限制。製造依照該例示具體實 施例的圖案化遲滯片之方法可包括以下步驟:在對基底構 件施加熱之後,使用在一個表面上形成其中將具有預定厚 度的複數突ώ㈣定間隔㈣之圖案賴具_基底構件 加壓,而在s亥基底構件上形成其中將具有預定深度的複數 槽按預定間隔排列之圖案,或者在對在一個表面上形成其 中將具有預定高度的複數突出按預定間隔排列之圖案的模 具施加熱之後,以該模具將基底構件加壓,*在該基底構 件上形成其帽具有預定深度的複數槽按就間隔排列之 圖案。因此棚7F具體貫施例可多方修改而不偏離本發明 之要點。 如上所述,在圖式及說明書中已說明及例證例示具體 實施例。該例不具體實施例係為了 _某些本發明原理及 其實務剌_擇及綱,_使熟悉此技術者可利用本 發明之各種例示具體實施例、以及其各種#代方案及修 改。由以上之綱賴得知,某财發㈣财受在此所 例證的實施例之特定細節限制,因此認為熟悉此技術者可 產生其他之修改及應用鱗致物。絲在考量說明書及附 201239419 圖之後’本發明之許多種改變 途及應用對熟悉此技術者為顯而易 神及範圍的所有此種改變、修改、變化^ ^月之精 =係視為被本發明所涵蓋,其僅受以下之申請= 【圖式簡單說明】 圖】為描述依照相關技術的圖案化遲滯片之 的圖。 σ / 圖2為依照本發明之一個例示具體實施例的圖案化遲 滯片之正視圖。 圖3為依照本發明之一個例示具體實施例的圖案化遲 滯片之分解切面圖。 圖4為依照本發明之一個例示具體實施例的圖案化遲 滯片之組合切面圖。 圖5為顯示依照本發明之一個例示具體實施例的圖案 化遲滯片之製造方法的圖。 圖6為顯示在製造依照本發明之一個例示具體實施例 的圖案化遲滯片之方法中’塗布硬化性樹脂的步驟及形成 硬化性樹脂圖案層的步驟之第一例示具體實施例的圖。 圖7為在製造依照本發明之一個例示具體實施例的圖 案化遲滯片之方法中,用於塗布硬化性樹脂的步驟及形成 硬化性樹脂圖案層的步驟之第二例示具體實施例的刻印壓 模輥之橫切面圖。 圖8為顯示在製造依照本發明之一個例示具體實施例 的圖案化遲滯片之方法中,塗布硬化性樹脂的步驟及形成 42/61 201239419 硬化性樹脂圖案層的步驟之第三例示具體實施例的圖。 圖9為顯示在製造依照本發明之一個例示具體實施例 的圖案化遲滯片之方法中,塗布硬化性樹脂的步驟及形成 硬化性樹脂圖案層的步驟之另一個第三例示具體實施例的 圖。 圖10為在製造依照本發明之一個例示具體實施例的圖 案化遲滯片之方法中,用於塗布硬化性樹脂的步驟及形成 硬化性樹脂圖案層的步驟之第三例示具體實施例的成形模 具之橫切面圖。 圖11為另一個成形模具之橫切面圖。 圖12 f又—個成形模具之橫切面圖。 圖13為依照本路 u 滯片之正視圖。^之—個例示具體實施例的圖案化遲 圖14為依照本取 滯片之分解橫切面_/之—個例示具體實施例的圖案化遲 圖15為依照本袼 一 滯片之組合橫切面_之—個辦具體實施綱圖案化遲 圖16顯示製造仿 圖案化遲滯片之方法Γ 之另一個例示具體實施例的 圖17為顯示在制 衣造依照本發明之另一個例示具體實施 例的圖案化遲滞片之士 汽他 成硬化性職法巾’塗布硬化性職的步驟及形 圖18為在製造^驟之第一例示具體實施例的圖。 圖案化遲滯片之方、、=本發明之另—個例示具體實施例的 成硬化性樹脂_= ’驗塗布硬化性旨的步驟及形 壓模親之独_第二麻具體實補的刻印 43/61 201239419 圖〗9為顯示在製造依照本發明之另一個例示具體實施 例的圖案化遲滯片之万法中’塗布硬化性樹脂的步驟及形 成硬化性樹脂圖案層的少驟之第三例示具體實施例的圖。 圖20為在製造依照本發明之另一個例示具體實施例的 圖案化遲滯片之方法中,用於塗布硬化性樹脂的步驟及形 成硬化性樹脂圖案層的步驟之另一個第三例示具體實施例 的圖。 圖21為在製造依照本發明之另一個例示具體實施例的 圖案化遲滯片之方法中,用於塗布硬化性樹脂的步驟及形 成硬化性樹脂圖案層的步驟之第三例示具體實施例的另一 個模具之橫切面圖。 圖22為另一個成形模具之橫切面圖。 圖23為又一個成形模具之橫切面圖。 圖2 4為依照本發明之另一個例示具體實施例的圖案化 遲滯片之組合橫切面圖。 應了解,所附之圖式未必按比例,其為例證本發明基 本原理之各種特點的稍微簡化表示法。以下所揭示的本發 明之指定設計特點,包括例如指定尺寸、定向、位置、與 形狀’係部分地由特定意圖應用及使用環境所決定。此外, 如果相關技術之組態或功能的詳細說明未必偏離本發明之 要點’則在本發明之說明中省略該相關技術的詳細說明。 以上係說明本發明之較佳具體實施例。然而技術概念不受 其限制’而是可由熟悉此技術者修改或實行。 圖中相關號碼係在圖式之數個圖中指示本發明之相同 或等效部分。 44 / 61 201239419 【主要元件符號說明】 10 基底構件 20 光硬化性液晶材料 30 第一液晶材料圖案層 40 光硬化性液晶材料 50 第二液晶材料層 100 圖案化遲滯片 110 基底構件 115 刻印母模 116 第一突出 117 第二突出 120 硬化性樹脂圖案層 121 第一槽 122 第二槽 130 液晶材料圖案層 131 第一液晶層 132 第二液晶層 210 基底構件 212 其上形成硬化性樹脂圖案層之基底構件 213 第一槽 214 第二槽 220 第一輥 230a 導輥 230b 導輥 230c 導輥 230d 導輥 45/61 201239419 240 241 242 250 260 262 270 340 341 342 343 344 346a 410 412 420 430a 430b 430c 430d 430e 440 442 442a 442b 443 刻印母模棍 第一突出 第二突出 第二輥 硬化性樹脂注射工具 硬化性樹脂 硬化工具 刻印壓模輥 壓模 第一突出 第二突出 圓筒形撐體 接面 基底構件 其上形成硬化性樹脂圖案層之基底構件 第一輥 導輥 導輥 導輥 導輥 導輥 圖案模塑單元 成形模具 基底構件層 圖案層 第一突出 46/61 201239419 444 445 446a 446b 450 460 470 510 512 520 530a 530b 530c 530d 530e 530f 540 542 543 544 545 546 547a 547b 547c 547d 第二突出 圖案輥 圖案導輥 圖案導輥 第二輥 硬化性樹脂注射工具 硬化工具 基底構件 其上形成硬化性樹脂圖案層之基底構件 第一輥 導輥 導輥 導輥 導輥 導輥 導輥 圖案模塑單元 膜型成形模具 第一突出 第二突出 第三輥 圖案輥 圖案導棍 圖案導輥 圖案導輥 圖案導輥 47/61 201239419 548 550 560 570 642 642a 642b 642c 742 742a 742b 742c 800 810 815 817 820 822 830 831 832 910 912 913 920 930a 第四輥 第二輥 硬化性樹脂注射工具 硬化工具 成形模具 基底構件層 圖案層 摩擦單元 成形模具 基底構件層 圖案層 摩擦單元 圖案化遲滯片 基底構件 刻印母模 突出 - 硬化性樹脂圖案層 槽 液晶材料圖案層 第二液晶層 第一液晶層 基底構件 其上形成硬化性樹脂圖案層之基底構件 槽 第一輥 導輥 48/61 201239419 930b 導輥 930c 導輥 930d 導輥 940 刻印母模親 942 突出 950 第二輥 960 硬化性樹脂注射工具 962 硬化性樹脂 970 硬化工具 1040 刻印壓模輥 1041 壓模 1042 突出 1043 突出 1044 刻印壓模輥 1046a 接面 1110 基底構件 1112 其上形成硬化性樹脂圖案層之基底構件 1120 第一輥 1130a 導輥 1130b 導輥 1130c 導輥 1130d 導輥 1130e 導輥 1140 圖案模塑單元 1142 膜型成形模具 1144 突出 49/61 201239419 1145 圖案輥 1146a 圖案導輥 1146b 圖案導輥 U46c 圖案導輥 1146d 圖案導輥 1150 第二輥 1160 硬化性樹脂注射工具 1170 硬化工具 1210 基底構件 1212 其上形成硬化性樹脂圖案層之基底構件 1220 第一輥 1230a 導輥 1230b 導輥 1230c 導輥 1230d 導輥 1230e 導輥 1230f 導輥 1240 圖案模塑單元 1242 膜型成形模具 1244 突出 1245 第三輥 1246 圖案輥 1247a 圖案導輥 1247b 圖案導輥 1247c 圖案導輥 1247d 圖案導輥 50/61 201239419 1248 第四輥 1250 第二輥 1260 硬化性樹脂注射工具 1270 硬化工具 1342 成形模具 1342a 基底構件層 1342b 圖案層 1442 成形模具 1442a 基底構件層 1442b 圖案層 1442c 摩擦單元 1542 成形模具 1542a 基底構件層 1542b 圖案層 1542c 摩擦單元 1610 基底構件 1631 第二液晶層 1632 第一液晶層 51 /61It 丨 的 丨 丨 246 is placed close to the position between the guides i ^ 123Gd. Guide light] 2 to 123Gf number and package specific aspects and modified. Pattern Molding Unit] (4) System = 5: Shaped Die 1242, the first opening of the formed mold:: The injected curable resin compression molding die TM is coated with a curable resin pattern, and the patterned hardening resin case is guided on the mo The pattern 槪] 246' conveyance forming die diagram: mV nl / period 'and the fourth ^", 247a ^, 247d of the formed mold winding is modified. The specific embodiment (4) shown in Fig. 19 is that she has to use the 11 case report 246 and the pattern guide light guide to the stage delivery = winding the third stick (10), and the hardening is formed on the base member (10). The patterned layer formed by the sex tree is then wound up by the fourth lucky Kun (10). In this case, the member 1242 can be formed to have the same length as the base member 121. Therefore, the pattern can be uniformly formed on all of the base members 2 on which the curable resin pattern layer is formed, but the defective pattern or the discontinuous pattern due to the joint is not generated. Although Fig. 2 shows only the portion-of-pattern of the pattern formed on the pattern layer of the forming mold, it is actually formed on the entire forming mold. It is provided with a curable resin injection tool 26 of an injection-curable resin in a portion where the base member 1210 is inserted into the pattern molding unit 24 (i.e., the guide roller 1230c is closely attached to the pattern roll 246). Further, a portion of the base member and the forming mold 1242 are moved close to each other to provide heat or ultraviolet ray 1 (\\201239419 light and the hardening resin hardened hardening tool roll 205) The drawing, the first person guide 1230c and the pattern pro i246 : : = 〇 C, and insert molding unit] 240 fine new: "; 卩 in. In this case, the figure then guides m7a The transport insert map t third report 1245 unravel '1210; gap control Wei Xiangcai base member - a surface == D: = ft thickness. At the same time because the hardening resin is hardened = 曰 / shot八1260 is injected to the portion of the base member (2)0) between the guide light 123〇c and the pattern kiss, so that the curable resin is pressed and filled between the surface of the substrate and the pattern of the forming mold 1242: and: The pressure between the guide roller m〇c and the pattern parent (10) is uniformly dispersed, and the emitted heat or ultraviolet light is hardened. Therefore, the substrate 'main P has a patterned curable resin. The base member on which the hardenable tree eucalyptus pattern layer is formed is rotated by the guide wand 123〇d and the guide member 123〇e, and the forming mold 242 is also guided to the guide 丨2·. Therefore, the base member on which the curable resin pattern layer is formed and the molding die (10) are placed between the guide Ukrainian U30d and the guide grain 1230e, or between the guide roller 123〇d and the pattern guide parent 12 Yang. The base member (2) on which the hard resin pattern layer is formed is woven and wound to guide the second relative 250. Further, the forming die 242 is guided and conveyed by the pattern guides 1247c and 247d to wind the fourth roller 1248. The guide roller 123 is separated from the forming die 242 by, for example, a base member 1212 which is formed with a patterned conductive roller and has a curable resin pattern layer formed thereon. At the same time, as described above, if the length of the wire mold 242 is the length of the base member 121, the hardening tree can be formed on all the base members (4) 38/6! 201239419 = Case 1 until the forming mold is from the third Pro (10) untied, and then re-wound two than J248. As a result, the base structure on which the curable resin pattern layer was formed did not cause a defective pattern due to the joint. Further, although the figure is such that only one portion of the base member (2) 2 which forms the curable resin pattern layer is formed, and the curable resin pattern layer is formed thereon, the second roll 1250 is wound. - Figure 21 is a third example of a step of coating a curable resin and a step of forming an inert resin layer in the method of manufacturing a patterned retardation sheet according to the embodiment of the present invention. The closed mold t, the knife surface ® 1J 22 is the cross-sectional view of the other forming mold, and the cross-sectional view of the forming mold. The film-forming molds of Figs. 9 and 2 are formed into a pattern on the curable resin injected by the curable resin injection tool, and are formed into a shape of a thin film in which a pattern is formed on the polymer resin. Specifically, as shown in FIGS. 21 to 23, the forming mold 1342, M42 or 1542 has a two-layer structure including a base member layer 1342a, 1442a or 542a having a continuous flat surface having a relatively uniform thickness, and a base. The surface layer is formed on a surface, and has a pattern _ 1342b, 1442b or 1542b in which a plurality of protrusions having a predetermined south degree are arranged in a predetermined interval. Further, the forming die may be as shown in Figs. 22 and 23 on the other surface of the base member layer, and may further include a rubbing unit (4) 2 which increases the friction against the pro-surface. Or 1M2c. The material for the base member layer of the forming mold may be transparent, flexible, and have a predetermined tensile strength and enthalpy. Specifically, a PET film is preferred. Further, the resin material forming the pattern layer may be a mixture of a polymer material such as an oligomer or a curable primer. An example of a method of manufacturing a forming mold will be described below. The metal or film master is first fixed, and then the master is coated with a high molecular weight 39/61 201239419 resin. Then, after the member having the bottom member is placed on the chilled polymer tree, the circular (four) roller moves through the substrate lining to uniformly apply the predetermined ink force. In this case, the coated high-density grease is rolled and filled between the master molds, and then uniformly dispersed by the second thickness of the guide rolls. Then, in the resin (4), the tree is filled with the contact state of the mother mold and the base member film, and the tree is hardened by ultraviolet light or ultraviolet light to separate the base structure from the master mold. = Bottom member film, if necessary, can be surface-trimmed to the mold: a two-molecular resin with a riding base member film. The forming mold can be produced by various methods other than the above methods. At the same time, as shown in Figs. 19 and 2, when the forming mold is mounted on the riding light m, the forming mold and the soil are fixed to the pattern roll and the drawing roll in the vicinity of the pattern or the pattern. In the case where there is no bubble or accumulation of foreign matter between the two, in order to improve the reading, the bubbles can be dissipated by forming small holes at regular intervals on the surface of the pattern roll or the figure. The formation of the hardening age «layer n is a reduction in the negative pattern of the base member of the hard resin pattern layer, and it is necessary to prevent the sliding of the pattern roll and the pattern guide. Therefore, as shown in Fig. 22*23, it is preferable to form a rubbing sheet on the other surface of the forming material = bottom member layer. Figure 2 II ==^丨!^ Her 442 is called the shape of the second ^ e _ ® county area material pro-surface 杈 = shape 杈 high friction between the convex surface to prevent forming = 'ri442e can be made of elastic material, Such as rubber wins or poly stone oxygen. =, the forming mold 1542 shown in Fig. 23 includes a crucible formed on the bottom of the base member layer to increase the friction against the surface of the pattern or the surface of the guide roller of Fig. 61/2012394. In this case, the film 1542c may also be made of an elastic material such as rubber or polyfluorene. Meanwhile, in addition to the above examples, various modifications/embodiments to prevent the sliding of the forming mold may be employed. In the above description of the method of manufacturing the patterned retardation sheet according to the exemplary embodiment, the curable resin applied to the base member is formed on one surface in a pattern in which a plurality of protrusions having a predetermined thickness are arranged at predetermined intervals The imprinting master mold is pressed and hardened to form a curable resin pattern layer having a pattern in which a plurality of grooves having a predetermined depth are arranged at predetermined intervals, but the invention is not limited thereto. The method of manufacturing a patterned retardation sheet according to this exemplary embodiment may include the steps of: forming a pattern on a surface on which a plurality of protrusions (four) having a predetermined thickness are to be spaced (4) after applying heat to the base member _ The base member is pressurized, and a pattern in which a plurality of grooves having a predetermined depth are arranged at predetermined intervals is formed on the base member, or a pattern in which a plurality of protrusions having a predetermined height are arranged at a predetermined interval on one surface is formed. After the mold is applied with heat, the base member is pressurized with the mold, and a pattern in which the plurality of grooves of the cap having a predetermined depth are arranged at intervals is formed on the base member. Therefore, the specific embodiment of the shed 7F can be modified in many ways without departing from the gist of the present invention. As described above, specific embodiments have been illustrated and exemplified in the drawings and the specification. This non-embodiment is intended to be used in connection with the various embodiments of the invention and the various embodiments and modifications thereof. It is to be understood from the above that a certain financial (4) financial limit is limited by the specific details of the embodiments illustrated herein, and it is believed that those skilled in the art may produce other modifications and application scales. After the consideration of the specification and the attached 201239419 diagram, the many variations and applications of the present invention are all obvious to the person skilled in the art, and all such changes, modifications, and changes are considered to be The present invention is covered by the following application only: [Simplified Description of the Drawing] FIG. 1 is a diagram for describing a patterned hysteresis piece according to the related art. σ / Figure 2 is a front elevational view of a patterned retarder in accordance with an exemplary embodiment of the present invention. Figure 3 is an exploded cross-sectional view of a patterned retarder in accordance with an exemplary embodiment of the present invention. 4 is a combined cutaway view of a patterned retarder in accordance with an exemplary embodiment of the present invention. Fig. 5 is a view showing a method of manufacturing a patterned retardation film according to an exemplary embodiment of the present invention. Fig. 6 is a view showing a first exemplary embodiment of a step of coating a curable resin and a step of forming a curable resin pattern layer in the method of manufacturing a patterned retardation sheet according to an exemplary embodiment of the present invention. Figure 7 is a plan view showing a second exemplary embodiment of a step of coating a curable resin and a step of forming a curable resin pattern layer in a method of fabricating a patterned retardation film according to an exemplary embodiment of the present invention. Cross-sectional view of the die roll. 8 is a view showing a third exemplary embodiment of a step of coating a curable resin and a step of forming a 42/61 201239419 curable resin pattern layer in a method of manufacturing a patterned retardation sheet according to an exemplary embodiment of the present invention. Figure. Figure 9 is a view showing another third exemplary embodiment of the step of applying a curable resin and the step of forming a curable resin pattern layer in the method of manufacturing a patterned retardation sheet according to an exemplary embodiment of the present invention. . Figure 10 is a view showing a third exemplary embodiment of a step of coating a curable resin and a step of forming a curable resin pattern layer in a method of manufacturing a patterned retardation sheet according to an exemplary embodiment of the present invention. Cross section view. Figure 11 is a cross-sectional view of another forming mold. Figure 12 f is a cross-sectional view of a forming mold. Figure 13 is a front elevational view of the hysteresis according to the present invention. The patterning delay diagram 14 of the specific embodiment is an exemplary cross-section of the exemplary embodiment according to the decomposition cross-section of the reticle. FIG. 17 is a view showing another embodiment of the garment according to another exemplary embodiment of the present invention. FIG. 17 is a view showing another embodiment of the present invention. The step of patterning the retardation film and the step of forming the hardening job is the first exemplary embodiment of the manufacturing process. The pattern of the retardation sheet, the other embodiment of the present invention, the curable resin of the specific example _= 'the step of the coating hardening property and the shape stamping mold 43/61 201239419 FIG. 9 is a view showing a step of coating a curable resin and a third step of forming a curable resin pattern layer in the method of manufacturing a patterned retardation sheet according to another exemplary embodiment of the present invention. A diagram of a specific embodiment is illustrated. 20 is another third exemplary embodiment of a step for coating a curable resin and a step of forming a curable resin pattern layer in a method of manufacturing a patterned retardation sheet according to another exemplary embodiment of the present invention. Figure. Figure 21 is a view showing a third exemplary embodiment of a step of coating a curable resin and a step of forming a curable resin pattern layer in a method of manufacturing a patterned retardation sheet according to another exemplary embodiment of the present invention. A cross-sectional view of a mold. Figure 22 is a cross-sectional view of another forming mold. Figure 23 is a cross-sectional view of still another forming die. Figure 24 is a combined cross-sectional view of a patterned retardation film in accordance with another exemplary embodiment of the present invention. It is understood that the appended drawings are not necessarily to scale, The design features of the invention disclosed below, including, for example, the specified dimensions, orientations, positions, and shapes are determined in part by the specific intended application and the use environment. Further, a detailed description of the related art is omitted in the description of the present invention if the detailed description of the configuration or function of the related art does not necessarily deviate from the gist of the present invention. The above is a description of preferred embodiments of the invention. However, the technical concept is not limited thereto, but may be modified or implemented by those skilled in the art. The number in the figures indicates the same or equivalent parts of the invention in the figures. 44 / 61 201239419 [Major component symbol description] 10 Base member 20 Photocurable liquid crystal material 30 First liquid crystal material pattern layer 40 Photocurable liquid crystal material 50 Second liquid crystal material layer 100 Patterned retardation sheet 110 Base member 115 Imprinted master mold 116 first protrusion 117 second protrusion 120 curable resin pattern layer 121 first groove 122 second groove 130 liquid crystal material pattern layer 131 first liquid crystal layer 132 second liquid crystal layer 210 base member 212 on which a curable resin pattern layer is formed Base member 213 first groove 214 second groove 220 first roller 230a guide roller 230b guide roller 230c guide roller 230d guide roller 45/61 201239419 240 241 242 250 260 262 270 340 341 342 343 344 346a 410 412 420 430a 430b 430c 430d 430e 440 442 442a 442b 443 imprinted female mold stick first protruding second protruding second roll curable resin injection tool hardening resin hardening tool imprinting stamping roll stamping die first protruding second protruding cylindrical support joint base member Base member on which a curable resin pattern layer is formed, first roller guide roller, guide roller, guide roller, guide roller pattern, molding unit molding Base member layer pattern layer first protrusion 46/61 201239419 444 445 446a 446b 450 460 470 510 512 520 530a 530b 530c 530d 530e 530f 540 542 543 544 545 546 547a 547b 547c 547d second protruding pattern roll pattern guide roll pattern guide roll Second roll curable resin injection tool hardening tool base member base member on which a curable resin pattern layer is formed. First roller guide roller guide roller guide roller guide roller guide roller guide roller pattern molding unit film type molding die first protruding Second protruding third roll pattern roll pattern guide bar pattern guide roll pattern guide roll pattern guide roll 47/61 201239419 548 550 560 570 642 642a 642b 642c 742 742a 742b 742c 800 810 815 817 820 822 830 831 832 910 912 913 920 930a Four-roll second roll curable resin injection tool hardening tool forming mold base member layer pattern layer friction unit forming mold base member layer pattern layer friction unit patterning retardation sheet base member engraving master mold protrusion - hardenable resin pattern layer groove liquid crystal material pattern Layer second liquid crystal layer first liquid crystal layer base member on which a curable resin is formed Base member groove of the sample layer First roller guide roller 48/61 201239419 930b Guide roller 930c Guide roller 930d Guide roller 940 Engraved master mold pro 942 Projection 950 Second roller 960 Curable resin injection tool 962 Curable resin 970 Hardening tool 1040 Engraving Molding roll 1041 Stamper 1042 Projection 1043 Projection 1044 Imprinting stamper roll 1046a Joint 1110 Base member 1112 Base member 1120 on which a hardenable resin pattern layer is formed First roll 1130a Guide roll 1130b Guide roll 1130c Guide roll 1130d Guide roll 1130e Guide roller 1140 Pattern molding unit 1142 Film molding die 1144 Projection 49/61 201239419 1145 Pattern roller 1146a Pattern guide roller 1146b Pattern guide roller U46c Pattern guide roller 1146d Pattern guide roller 1150 Second roller 1160 Curable resin injection tool 1170 Hardening tool 1210 Base member 1212 Base member 1220 on which a hardenable resin pattern layer is formed First roll 1230a Guide roll 1230b Guide roll 1230c Guide roll 1230d Guide roll 1230e Guide roll 1230f Guide roll 1240 Pattern molding unit 1242 Film type forming die 1244 Projection 1245 Third roll 1246 pattern roll 1247a pattern guide roll 1247b Guide roller 1247c Pattern guide roller 1247d Pattern guide roller 50/61 201239419 1248 Fourth roller 1250 Second roller 1260 Curable resin injection tool 1270 Hardening tool 1342 Forming die 1342a Base member layer 1342b Pattern layer 1442 Forming die 1442a Base member layer 1442b Pattern Layer 1442c Friction unit 1542 Forming die 1542a Base member layer 1542b Pattern layer 1542c Friction unit 1610 Base member 1631 Second liquid crystal layer 1632 First liquid crystal layer 51 / 61