201204539 六、發明說明: 【發明所屬之技術領域】 本發明關於一種軟性薄膜轉貼裝置及方法’尤指一種以滾輪吸 附軟性薄膜之軟性薄膜轉貼裝置及方法。 【先前技術】 目前許多貼附薄膜的製程中,因其膜厚較薄、剛性較差,無法 直接運用現有的板材貼附的方法,例如:偏光板的貼附方法,故多 先以撕膜的工具將形成於一載板上之薄膜自該載板上撕起,再移至 另一載板上,進行貼附。然而,當該薄膜被剝離並懸置時,該薄膜 容易產生捲曲或翹曲的現象,不利後續的貼附作業。又,若以拉扯 的方式剝離薄膜,被剝離的薄膜將引入殘留應力,此將使捲曲或魅 曲的現象更形嚴重。若殘留應力之值及分佈過大時,該薄膜的功能 性將會有程度上不同的破壞。 因此’目前已有利用剝離裝置及貼附裝置以分別剝離載板及貼 附薄膜於另一載板之薄膜轉貼設備。請參閱第丨圖,其為根據先前 技術之-實施例之-_轉貼設備i之示意圖。薄膜轉岭備^ 要包含-貼附滾輪12及-剝離滚輪14。離顧22與_其上的薄 膜24係沿-方向輸送移動,固定的剝離滚輪14先將離型❾ 剝離後,設置於離_ 22上的薄膜24 _維持原移動方向° 接著’貼附滾輪12將已脫離離型膜a之薄骐μ吸附於其表面上, 201204539 貼附滾輪12接續旋轉並將吸附於其表面上之薄膜%貼附於另 板26上,以完成轉貼作業。 於此實施财,_獅設備1峨爾12 __的薄胰 24以避免_24捲曲_曲,惟薄㈣在離開剝離滚輪“處到 被貼附滾輪i2吸附之前,薄膜24未有其他構件切,故必 身的剛性轉持原飾方向鷄,進耐能被_滾輪η正確吸 附。進一步來說,薄膜24不能太軟 :^ ^ 致使_ 2w㈣厚不足或本身材質 使4膜呈現柔軟的特性,使得薄膜24之邊緣部分,即一開 分,一離開剝離滾輪14處”曲,或者因輸送所產生的拉力或張^ 而破裂損壞’以致於無法如麵地被_滾輪12正確_ 說’薄膜轉貼設備1所提出之轉闕構絲法有效咖於較錄的 溥膜的轉貼製程中,例如:彳/' 、 膠軟膜等。 ]如财膜、膠膜、離型膜或其他型式之塑 以 解決=有需要提出—種能有效處理軟性薄膜之轉貼機制, 【發明内容】 本發明的目的之—在於提出—種軟性薄職貼裝置,利用兩個 ^輪以能分別剝離薄默邊緣部分及主要部分,避免_,尤 、彖。’被剝離時’產生捲曲或翹曲的問題。 201204539 一本發明之軟性軸轉貼裝置包含—第—雜、一連接構件及一 第滾輪。s亥第一滚輪包含一第一周面。該第二滾輪包含一第二周 面〜°亥連接構件樞接至該第二滾輪並可伸縮地連接至該第一滾輪, 使得义第―’袞輪⑨突出於該第—周面。其中,該第—周面與該第二 周面上77财有-可控咖吸附手段。此可㈣的酬手段可為在 ^周面或料—周面上塗佈、設置—雛層,以使薄膜能黏附 一。/,周面或料二周面上;該可控制的吸附手段亦可為在該第 ^周面或該第二周面切成複數個抽排氣孔,對該些抽排氣孔抽氣 以吸附_ ’及對雜難氣孔減以釋放驗。該 手段亦可同時包含前麵者,本刺从此驗。 …本發明之軟性薄膜轉職置能利用滚輪滚動以剝離薄膜,避免 對薄膜過餘扯而殘留應力於_中。又該第二滾輪可相對該第一 滾輪移動’故薄膜能在不殘留或僅殘留極少應力的條件下,同時吸 附在該第—周面及該第二周面上。此些效用有助於接續的貼膜作業 及轉貼的薄膜的品質。 本發明之另一目的在於提出一種軟性薄膜轉貼方法,利用本發 明之軟性薄膜轉貼裝置實施軟性薄膜之轉貼作業。 本發明之軟性薄膜轉貼方法包含下列步驟:首先,提供一第一 載板、-軟性_與-第二載板,該軟性__於該p載板, 且該軟性薄膜具有一邊緣部分與一主要部分;藉由該第二滚輪,將 201204539 該邊緣部分自該第-載板上剝離;接著,藉由該第一滾輪,將該主 要部分自該第—載板上剝離;额,藉由該第二滾輪,將該邊緣部 分貼附於該第二載板上;再接著,藉由該第—滾輪,將該主要部分 貼附於該第二載板上。 ” ^相較於先前技術,本發明之軟性薄膜轉财法利用該第一滾輪 及該第二_分職附補_她_之該親部分 : 分,有效解決該邊緣部分可能捲曲或__題;又本發明之= 薄膜轉貼方法該第-滾輪及卿二滾輪之_可伸縮特性,使 得該薄膜雖同時吸附於該第-滾輪及該第二滾輪上,仍能避免被拉 扯而產生殘留應力_題。因此,本發明讀性_娜裝置及軟 性薄膜轉貼方法不僅可適麟祕曲或㈣的軟性薄膜,亦可適用 於具有-定剛性之_材料’亦即適用遠較先前技術之薄膜轉貼設 • 本發明之優點與精神可以藉由以下的發明詳述及所附圖式 得到進一步的瞭解。 【實施方式】 請參閱第2A圖’其為根據本發明之一較佳實施例之一軟性薄 膜轉貼敦置3之不意圖。軟性薄膜轉貼裝置3包含一第一滾輪η、 -連接構件34及-第二滾輪36。第一滾輪&包含兩半徑邊側從 •與一第一周面324,並具有一扇形戴面,該扇形截面具有一圓心角 • [ S3 7 201204539 326及-半徑328。連接構件34可伸縮地連接至該些半徑邊側奶 之-上。第二滾輪36樞接至連接構件34,並包含一第二周面脱。 於第2圖中,以虛線緣示第二滾輪36因連接構件34縮向第一滾輪 32而產生的位置變化。 此外,第-周面324與第二周面362上分別具有一可控制的吸 附手段。於本實施別中,此可控制的吸附手段得以在第一周面似 或第二周面362上塗佈 '設置一黏性層來實現,黏性層可使用一般 市售的黏性勝帶,_即能經由此黏性層_在第—周面Μ 二周面尬上;又或該可控制的吸附手段得以在第一周面324或第 二周面362上形成複數個抽排氣孔來實現,抽排氣孔之孔捏可 求設計,例如:4、5、6、9、13毫米㈣料,對該些抽排氣孔抽 乱以實現吸附薄膜的功能,其正常覆膜真空或者所操作負壓可為⑽ 了8〇悉’操作負壓若低於此範圍易增加吸附系統負擔,若高於此 範圍則吸财果差,及賴些㈣纽魏以實聊放薄膜的功 能,亦即將前述負壓解除或施以正壓。該可控制的吸附手段亦可同 時包含前述兩種實現方式,並且於第一周面324上之可控制的吸附 手段與於第二周面362上之可控制的吸附手段亦可不同。 進一步來說,前述黏性層可藉由於第一周面324或第二周面城 上貼雙面膠或塗佈黏膠等來實現,但本發明不以此為限。例如,第 一滾輪32主要以具黏性之材料製成,或以具黏性之材料製成的套筒 套於第-雜32上,亦能實現前述可控獅魏手段;前述說明亦 201204539 適用於第二滾輪36, 為形成於第-輪32=l於實作上’細罐氣孔可 周面324或第:周面袞輪36之通孔,該些通錄於第-些通孔進行抽、排氣。,並另以-通氣孔連通該些通孔以對該 請參閱第沈圖,其為根據本發明之另-較佳實施例之㈣ 薄膜轉貼裝置4 力雜⑽例之-軟性 貼裝置3社構及作 軟性薄膜轉貼裝置4與前述軟性薄膜轉 容置空間以及圍2大致相同’不同之處主要在於第一滚輪32具有 ^ 、’“置空_獅截面,容置空_以收納容 接^ 34與第二滚輪36,因此第一周面324對應之圓心角32 較軟性_轉貼裳置3之圓心角汹再大些, 長度較大的概_。 、讎面積或 原則上,圓心角326所產生第一周面324之缺口僅需容 滾輪36通浙可。倾_獅裝置4之其餘元叙說_軟性= 膜轉貼裝置3相同元件之說明相同,不另複述。然而,在其广 例中’第-滾輪32的圓心角326亦可設計為·。,以適用於轉: 各種面積或長度的軟性薄膜,第二滾輪36與連接構件%則在 第-滾輪32的側面上,以利第二滚輪36能對應於第—周面汹 由地伸縮。 曰 清參閱第3圓,其為根據本發明之一較佳實施例之一軟性薄膜 轉貼方法之流程圖。該軟性_轉貼方法係彻本發明之軟性薄膜 201204539 轉貼裝置’將-軟性_自—載板轉貼至另—載板。併請參閱第4 至第10(A)®,其根據該軟性_無方法之糊前錄性薄膜 貼裝置3之作動分解圖。 ’ 根據該軟性薄膜轉貼方法,首先提供一第一載板5、一軟 膜6與了第二載板7,如步驟議所示;其中,第—載板$係為承 載軟性薄膜6之載板,其可以為離型膜或_,軟性薄膜6可二 保護膜,制是紐電子書所義的保制或tft軟性基板,其黏 附於第m板5上,並具有互相連接的一邊緣部分與—主要部八 ’侧是軟性電子書 二 但本發明並不以此為限。 叩顿 搔者,錯由第二滾輪36,將邊緣部分62 如步驟S120所示。請併參閱第11A圖,其為步驟$⑽反 圖。如第4A圖及第5A圖所示,將連接構件3 ^田 收縮,如步驟S122所示。由於連 ,袞輪32方 :Γ::之第二滾輪36朝第-滾輪32方向滚 62 ’如步驟S124所示;並且於签一 ^ 第二周面362吸附邊緣部分62 ;=6接觸邊緣部分62後, 分62自第-載板5上_,如步^^持續滾動以將邊緣. 補充說明的是,於第4A圖中,以♦祕仏 滚輪36於一開始的位置,以實線表接構件㈣ 一滾輪36開始接觸邊緣 201204539 刀 '⑽時之位置。此時第二滾輪36的中心位置與對應的第一滾輪32 的半徑邊側322間之距離364可依實際產品設定,距離⑽的長度 相當於邊緣部分62的長度,原則上此距離Μ#或邊緣部分泣的長 度需小於第二滚輪36的第二周面362之周長。藉此,第二滾㈣ 可吸附-定長度的邊緣部分62,例如:1/2長度的邊緣部分幻以上, 以增加轉貼的穩定性。於第5A圖中,第二滚輪兄近乎靠著第一滾 輪32 ’此時第二滾輪36的中心位置與對應的第一滾輪η的半徑邊 φ側322間之距離366約為第二滾輪36之半徑。但於實作上,第二滾 輪1非必需靠著第一滾輪32,僅需第二滾輪%吸附邊緣部分 的缺性足夠,故距離366亦可大於第二滾輪36之半徑。 根據該軟性薄膜轉貼方法,接著藉由第一滾輪32,將主要部分 64自第一載板5上剝離’如第3圖中步驟sl4〇所示。請併參閱第 12圖’其為步驟S140之細部流程圖。如第6A®及第7A圖所示, 接續地旋轉第一滚輪32,如步驟S142所示;並且令第一周面324 ♦吸附主要部分64 ’並將主要部分&自第一載板5上剝離,如步驟 S144所示。 補充說明的是’由於軟性薄膜6幾乎完全被吸附在第一周面324 及第一周面362上,亦即第二滾輪36的半徑愈小或第二周面362 的長度愈短,軟性薄膜6被第一周面324及第二周面362吸附的範 圍就愈大、愈接近被完全吸附,並且大部分的軟性薄膜6,即主要 '部分64,係被吸附在第一周面324上,因此第一滾輪32之第一周 201204539 面324之周長% 圓心角32M Γ 要料M之長度。關聽_卿截面之 圓心角326 + 328決定(請參照第2A圖)。於一較佳實施例中, " 於等於180度且小於等於340度,以作為預留第一滾 輪36的機構空間,盅"… 弟一展 古, 上間,+徑328可依所需尺寸設計,例如:大於等於 ^笔求且小於等於5G絲,或者根據成品之對角線轉4”、5”、 6一 9^ 13等等進行設計。此外,於實作上,圓心角326及半 仏328且併考量連接構件34及第二滚輪36與第-滚輪32連接之 ^間幾何關係。另外,第一滾輪32及第二滚輪36之半徑之設計亦 且考慮軟性薄膜6可容許的彎曲半徑。 軟性薄膜6於被剝離後,可連同第-滾輪32及第二滾輪36 一 同移至第二载板7之上方或下方,或是將第二載板7移至軟性薄膜 (及第;袞輪32、第二滾輪36)之下或下方。根據該軟性薄膜轉貼 方法,接著藉由第二滾輪36,將邊緣部分62貼附於第二載板7上, 如第3圖+步驟Sl60所示。請併參閱第13圖,其為步驟816〇之 細部流程圖。如第8A圖及第9A圖所示,先以第二周面362上之邊修 緣部分62接觸第二載板7,接著將連接構件34往遠離第一滾輪36 方向伸展,使得邊緣部分62貼附於第二載板7上,如步驟S162所 示;使得第二滾輪36朝遠離第一滾輪32方向滾動或移動,如步驟 S164所示;並且令第二周面362解除吸附邊緣部分62,並將邊緣部 分62貼附於第二載板7上,如步驟S166所示。 補充說明的疋,當軟性薄膜轉貼裝置3使用之可控制的吸附手 12 201204539 段為利用抽排氣機制者,第二周面362即可直接利用對該些抽排氣 孔進行排氣’即可制解除吸_緣部分a的效果,·錄性薄膜轉 貝占裝置3使用之可控制的吸附手段為利用黏著機制者,該黏性層之 黏性則需小於軟性薄膜6與第二載板7間之附著力,例如·第二载 板7可以為-黏性戴板,且其黏性大於黏性層,以達到解除吸: 緣部分62的效果。 根據該軟性_轉貼方法’接著藉由第-滾輪32,將主要部分 64貼附於第二載板7上,如第3圖中步驟幻切所示。請併參閱第 14圖,其為步驟遞之細部流程圖。如第猶圖所示,接續地旋 轉第-滚輪32,如步驟S182所示;並且令第一周面324解除吸附 主要部分64 ’並將主要部分64貼附於第二載板7上,如步驟隨 所示。至此即完成軟性薄膜6的轉貼作業。 根據本發明所提供的另-軟性薄難财法,亦可先藉由第一 ⑩滾輪32 ’將主要部分64貼附於第二載板7上,接著再以第二周面 362上之邊緣部分62接觸第二載板7,接著將連接構件34往遠離第 -滚輪36方向伸展’使得邊緣部分62蘭於第二載板7上。也就 疋6兒步驟S160與步驟S180的順序是可以互相調換的。 同樣地,前述軟性薄臈轉貼裴置4亦得根據第3圖所示之流程 圖實施軟性薄膜6之轉貼操作。請參閱第3圖及第4至第1〇⑼圖, •第4至第10⑼圖係減練性薄膜轉貼方法之利用前述軟性薄膜 - [S3 13 201204539 圖 轉貼裝置4之作動分解 如^據:性薄轉貼妓,魏倾挪SHX),其相關說明已 一=5 :再複述。接著’藉由第二滾輪36,將邊緣部分62自第 驟S120之/離’如步驟Sl2〇所示。請併參閱第UB圖,其為步 。如第4B圖及第5B圖所示,將第二_ ^邊方^㈣步驟Sl23所示;接著將連接構件%往第一滚 二縮#如步驟叱5所示;以及令第二周面362吸附邊緣 “㈣將親部分62自第—雜5上_,如步驟助所示。 根據該軟㈣_財法,接絲的-雜%,社要部分 64*自第一載板5上剝離,士笛3同由丰里取c 1 . 如第3圖中步驟SM0所示。請併參閱第 θ "為步驟S140之細部流程圖。如第6B圖及第圖所示, 接續地旋轉第-滾輪32,如步驟Sl42所示;並且令第一周面似 吸附主要部分64 ’並將主要部分64自第—載板5上_,如步驟 SM4所示1於軟性薄轉蹄置4之第—滾輪%之其餘說明可 參閱前述關於軟性薄膜轉貼裝置3之第—滾輪%之說明,不另複述。 軟性薄膜6於被剝離後,可連同第―滚輪32及第二滾輪% 一 同移至第二載板7之上方或下方,或是將第二載板7移至軟性薄膜 6(及第-滾輪32、第二滾輪36)之下或下方。根據該軟性薄膜轉貼 方法’接著藉由第二滾輪36,將邊緣部分62貼附於第二載板7上, 如第3圖中步驟S160所示。請併參閱第13圖,其為步驟遍之 201204539 細部流程圖。如第8B鼠第9B圖所示,㈣軟性薄膜6接觸第二 載板7 ’接著將連接構件μ往遠離第一滾輪%方向伸展,使得邊 緣部分62貼附於第二載板7上,如步驟S162所示;使得第二评 則月遠離第-滾輪32方向滾域飾,如步驟S1M所示;並且^ 第二周面362解除吸附邊緣部分62,並將邊緣部分62貼附於第二 載板7上,如步驟S166所示。關於軟性薄膜轉貼裝置4使用之可: 制的吸附手段之說明可參閱前述·紐_轉貼裝置3使用^ 控制的吸附手段之說明,不另複述。 根據該軟性_轉貼方法’接著藉由第—滾輪32,將主要部分 64貼附於第二載板7上’如第3圖中步驟議所示。請併參^ 14圖,其為步驟漏之細部流賴。㈣騎示,接續地旋 轉第-滾輪32 ’如步驟S182所示;並且令第一周面似解除吸附 主要部分64,並將主要部分64貼附於第二載板7上,如步驟簡 戶二示。至此即完成軟性_ 6的轉貼作業。同樣地,根據本發明所 提供的另-軟性_轉貼方法,亦可先藉由第—滾輪%,將主要部 ,64貼附於第二載板7上’接著再藉由第二滾輪%,將邊緣部分 2接觸貼附於第二載板7 h也就是說軟性軸轉貼裝置4之 步驟S160與步驟S180的順序是可以互相調換的。 相較於先前賊’本發明之紐_獅村_ 第二滾輪分別_並讎軟性_之邊緣部分與主要部分,=直 接接觸、控制整個軟性薄膜,可有效避免邊緣部分捲曲或翹曲;並 15 201204539 ^雜=第4輪均位於軟㈣膜之同1,可保持軟性薄 膜之另-側、__料,以提供難的躺妓。此外,本發 明之軟性義轉貼方法_第__滾輪及第二滾輪之_可伸縮特只 性’可避免被拉扯而產生殘留應力的問題。因此,本發明之軟性薄 膜轉貼t置及祕_轉财糾僅可適·易細或_的軟性 薄膜’亦能賴於較厚或具紐爛性之麟,即可細於多種製 程,節省建置製程設備的費用。 以上所述僅為本發明之較佳實施例,凡依本㈣申請專利範圍 所做之均等變化與修飾,皆應屬本發明之涵蓋範圍。 【圖式簡單說明】 第1圖為根據先前技術之一實施例之一薄膜轉貼設備之示意圖。 第2A圖為根據本發明之一較佳實施例之一軟性薄膜轉貼裝置之示 意圖。 笫2B圖為根據本發明之另一較佳實施例之一軟性薄骐轉貼裝置之 米意圖。 第3圖為根據本發明之一較佳實施例之一軟性薄膜轉貼方法之流程 圖。 第4至第10(A)圖為根據第3圖之軟性薄膜轉貼方法之利用第2A圖 之軟性薄膜轉貼裝置之作動分解圖。 第4至第10(B)圖為根據第3圖之軟性薄膜轉貼方法之利用第2B圖 之軟性薄膜轉貼裝置之作動分解圖。 201204539 • 第11A圖及第11B圖為根據不同的軟性薄膜轉貼裝置之第3圖之步 驟S120之細部流程圖。 第12圖為第3圖之步驟S140之細部流程圖。 第13圖為第3圖之步驟S160之細部流程圖。 第14圖為第3圖之步驟S180之細部流程圖。201204539 VI. Description of the Invention: [Technical Field] The present invention relates to a flexible film transfer device and method, and more particularly to a soft film transfer device and method for adsorbing a soft film by a roller. [Prior Art] At present, in many processes for attaching a film, because of its thin film thickness and poor rigidity, it is not possible to directly apply the existing method of attaching a plate, for example, a method of attaching a polarizing plate, so The tool tears the film formed on one carrier from the carrier and then moves it to the other carrier for attachment. However, when the film is peeled off and suspended, the film is liable to cause curling or warping, which is disadvantageous for subsequent attachment work. Further, if the film is peeled off by pulling, the peeled film will introduce residual stress, which will make the phenomenon of curling or enchanting more serious. If the value and distribution of residual stress are too large, the functionality of the film will be somewhat differently destroyed. Therefore, there has been a film transfer apparatus using a peeling device and an attaching device to peel off the carrier and attach the film to the other carrier, respectively. Please refer to the figure, which is a schematic diagram of the retransfer device i according to the prior art-embodiment. The film is to be provided with a roller 12 and a peeling roller 14. The film 24 and the film 24 are transported in the - direction, and the fixed peeling roller 14 is peeled off from the release ,, and the film 24 is placed on the _ 22 to maintain the original moving direction. 12, the thin 骐μ which has been separated from the release film a is adsorbed on the surface thereof, and 201204539 attaches the roller 12 to rotate and attaches the film % adsorbed on the surface to the other plate 26 to complete the transfer operation. In this implementation, _ lion equipment 1 峨 12 __ thin pancreas 24 to avoid _24 curl _ 曲, but thin (four) before leaving the detaching roller "to the attached roller i2 adsorption, the film 24 has no other components Cut, so the rigidity of the body must be transferred to the original direction of the chicken, the resistance is properly absorbed by the roller η. Further, the film 24 can not be too soft: ^ ^ causes _ 2w (four) thick insufficient or its material makes the film 4 soft So that the edge portion of the film 24, that is, an opening, is smashed away from the peeling roller 14, or broken or damaged due to the pulling force or the tension generated by the conveying, so that it cannot be properly _wheel 12 as _ say ' The transfer structure method proposed by the film transfer device 1 is effective in the transfer process of the recorded film, such as: 彳/', soft film, and the like. ] For example, the film, film, release film or other type of plastic to solve = need to propose - a kind of transfer mechanism that can effectively deal with soft film, [invention] The purpose of the present invention is to propose a kind of soft job The affixing device utilizes two wheels to separate the thin edge portion and the main portion, respectively, to avoid _, especially, 彖. The problem of curling or warping occurs when the film is peeled off. 201204539 A soft shaft transfer device of the present invention comprises - a first, a connecting member and a first roller. The first wheel of the shai includes a first circumferential surface. The second roller comprises a second circumferential surface, and the second connecting member is pivotally connected to the second roller and is telescopically connected to the first roller, so that the first-thick wheel 9 protrudes from the first circumferential surface. Among them, the first-period surface and the second-circumferential surface have a controllable coffee adsorption means. The means of compensation can be to apply or set the layer on the surface or the surface of the material to make the film adhere. /, the circumferential surface or the second surface of the material; the controllable adsorption means may also cut a plurality of suction holes on the second circumferential surface or the second circumferential surface, and pump the exhaust holes The adsorption _ 'and the miscellaneous pores are reduced by the release test. The means can also include the former, and the thorn is tested. ... The flexible film transfer device of the present invention can be rolled by a roller to peel off the film, so as to avoid residual stress on the film and residual stress in the _. Further, the second roller is movable relative to the first roller, so that the film can be adsorbed on the first circumferential surface and the second circumferential surface without remaining or leaving only a small amount of stress. These effects contribute to the quality of the continuous filming operation and the film being transferred. Another object of the present invention is to provide a soft film transfer method for performing a flexible film transfer operation using the flexible film transfer device of the present invention. The soft film transfer method of the present invention comprises the following steps: First, a first carrier, a soft _ and a second carrier are provided, the soft _ is on the p carrier, and the flexible film has an edge portion and a a main portion; by the second roller, the edge portion of 201204539 is peeled off from the first carrier; and then, by the first roller, the main portion is peeled off from the first carrier; The second roller attaches the edge portion to the second carrier; and then, the main portion is attached to the second carrier by the first roller. ^ Compared with the prior art, the soft film transfer method of the present invention utilizes the first scroll wheel and the second _ sub-branch _ her _ the parent part: points, effectively solving the edge portion may be curled or __ The invention also has the retractable property of the first roller and the second roller, so that the film can be prevented from being pulled and remains after being simultaneously adsorbed on the first roller and the second roller. Stress_question. Therefore, the method of reading the invention and the method of soft film transfer of the present invention can be applied not only to the soft film of the lyrics or the soft film of (4), but also to the material with a certain rigidity, that is, it is far more suitable than the prior art. The advantages and spirit of the present invention can be further understood from the following detailed description of the invention and the accompanying drawings. [Embodiment] Please refer to FIG. 2A, which is a preferred embodiment of the present invention. A soft film transfer device is not intended. The flexible film transfer device 3 includes a first roller η, a connecting member 34 and a second roller 36. The first roller & includes two radii sides from the first and the first 324, and has a A fan-shaped wearing surface having a central angle • [S3 7 201204539 326 and a radius 328. The connecting member 34 is telescopically coupled to the side of the radial side. The second roller 36 is pivotally connected to the connecting member 34. And including a second circumferential surface. In FIG. 2, the positional change of the second roller 36 due to the contraction of the connecting member 34 to the first roller 32 is indicated by a broken line. Further, the first circumferential surface 324 and the second surface Each of the circumferential surfaces 362 has a controllable adsorption means. In this embodiment, the controllable adsorption means can be applied to the first circumferential surface or the second circumferential surface 362 by applying a viscous layer. For the viscous layer, a commercially available viscous belt can be used, ie, through the viscous layer _ on the first-week surface Μ two-week surface 又; or the controllable adsorption means can be used in the first circumferential surface 324 Or a plurality of venting holes are formed on the second circumferential surface 362, and the holes of the venting holes can be designed, for example, 4, 5, 6, 9, and 13 mm (four) materials, and the venting holes are Scrambled to achieve the function of the adsorption film, its normal film vacuum or the operating negative pressure can be (10) If it is lower than this range, it will increase the burden of the adsorption system. If it is higher than this range, the difference will be poor, and depending on the function of the film, the above-mentioned negative pressure will be released or positive pressure will be applied. The adsorption means may also comprise the two implementations described above, and the controllable adsorption means on the first circumferential surface 324 may be different from the controllable adsorption means on the second circumferential surface 362. Further, the aforementioned viscosity The first layer 32 is mainly viscous, for example, because the first circumferential surface 324 or the second circumferential surface is coated with double-sided tape or coated adhesive, etc., but the invention is not limited thereto. For example, the first roller 32 is mainly viscous. The above-mentioned controllable lion can also be realized by the material made of the material or the sleeve made of the viscous material, and the above description can also be applied to the second roller 36, which is formed in the first - Wheel 32 = 1 in the implementation of the 'fine can venting surface 324 or the: the circumferential surface of the wheel 36 through holes, these are recorded in the first through holes for pumping and venting. And the vent hole is connected to the through holes to refer to the first sinking diagram, which is a fourth embodiment of the present invention. (4) The film transfer device 4 is a hybrid device (10) The difference between the soft film transfer device 4 and the soft film transfer space and the circumference 2 is mainly that the first roller 32 has a ^, '"empty_lion cross section, and the space is accommodated to accommodate ^34 and the second roller 36, so the central angle 32 corresponding to the first circumferential surface 324 is softer than the central angle of the soft-spotted skirt 3, and the larger the length of the _., the 雠 area or, in principle, the central angle The gap of the first circumferential surface 324 generated by 326 only needs to accommodate the roller 36. The remaining elements of the tilting lion device 4 are the same as the description of the same components of the film transfer device 3, but are not repeated. In the wide example, the central angle 326 of the first roller 32 can also be designed to be suitable for turning: a soft film of various areas or lengths, and the second roller 36 and the connecting member % are on the side of the first roller 32, In order to facilitate the second roller 36, the second roller 36 can be extended and contracted corresponding to the first circumferential surface. 3 circle, which is a flow chart of a soft film transfer method according to a preferred embodiment of the present invention. The soft_transfer method is a soft film 201204539 transfer device of the present invention. In addition, the carrier plate, and please refer to the 4th to 10th (A)®, according to the soft _ no method of the pre-recording film sticking device 3, the action decomposition view. 'According to the soft film transfer method, first provide a The first carrier 5, a soft film 6 and the second carrier 7, as shown in the steps; wherein the first carrier is a carrier carrying the flexible film 6, which may be a release film or _, soft The film 6 can be a two-protective film, which is a protective or tft soft substrate as claimed in the New Zealand electronic book, which adheres to the m-th board 5 and has an edge portion connected to each other and the main part of the eight-side is a soft electronic book. However, the present invention is not limited thereto. The second roller 36 is wrong, and the edge portion 62 is as shown in step S120. Please refer to FIG. 11A, which is the inverse of the step $(10). As shown in FIG. 4A and FIG. 5A, the connecting member 3 is contracted as shown in step S122. , the wheel 32 side: Γ:: the second roller 36 is rolled toward the first roller 32 direction 62' as shown in step S124; and the edge portion 62 is adsorbed on the second circumferential surface 362 of the signature; =6 contact edge portion 62 After that, the minute 62 is from the first-carrier board 5, and the step is continuously scrolled to bring the edge. In addition, in the 4A figure, the position of the roller 36 is at the beginning position, and the solid line table is used. The connecting member (4) a roller 36 starts to contact the edge of the 201204539 knife '(10). At this time, the distance between the center position of the second roller 36 and the radius side 322 of the corresponding first roller 32 can be set according to the actual product, the distance (10) The length corresponds to the length of the edge portion 62. In principle, the distance 或# or the length of the edge portion must be smaller than the circumference of the second circumferential surface 362 of the second roller 36. Thereby, the second roll (four) can adsorb the edge portion 62 of a predetermined length, for example, the edge portion of the 1/2 length is more than illusive to increase the stability of the transfer. In FIG. 5A, the second roller brother is nearly against the first roller 32'. At this time, the distance between the center position of the second roller 36 and the radius side φ side 322 of the corresponding first roller n is about the second roller 36. The radius. However, in practice, the second roller 1 does not have to be against the first roller 32, and only the second roller % adsorbing edge portion is sufficiently lacking, so the distance 366 can also be larger than the radius of the second roller 36. According to the flexible film transfer method, the main portion 64 is then peeled off from the first carrier 5 by the first roller 32 as shown in step s14 of Fig. 3. Please also refer to Fig. 12, which is a detailed flowchart of step S140. As shown in FIGS. 6A® and 7A, the first roller 32 is successively rotated as shown in step S142; and the first circumferential surface 324 ♦ adsorbs the main portion 64 ′ and the main portion & from the first carrier 5 The upper peeling is as shown in step S144. It is added that 'the soft film 6 is almost completely adsorbed on the first circumferential surface 324 and the first circumferential surface 362, that is, the smaller the radius of the second roller 36 or the shorter the length of the second circumferential surface 362, the soft film The larger the range of adsorption by the first circumferential surface 324 and the second circumferential surface 362, the closer it is to being completely adsorbed, and most of the soft film 6, that is, the main 'portion 64, is adsorbed on the first circumferential surface 324. Therefore, the first circumference of the first roller 32 201204539 The circumference of the surface 324% The central angle 32M Γ The length of the material M. It is determined by the angle 326 + 328 of the section of the Qing section (please refer to Figure 2A). In a preferred embodiment, " is equal to 180 degrees and less than or equal to 340 degrees, as the institutional space for the reserved first wheel 36, 盅"... The younger one, the upper, the + 328 can be Dimensional design is required, for example, greater than or equal to 2 strokes and less than or equal to 5G filaments, or according to the diagonal of the finished product, 4", 5", 6-9, 13 and so on. In addition, in practice, the central angle 326 and the half 仏 328 are considered and the geometric relationship between the connecting member 34 and the second roller 36 and the first roller 32 is considered. Further, the design of the radius of the first roller 32 and the second roller 36 also takes into consideration the allowable bending radius of the flexible film 6. After being peeled off, the flexible film 6 can be moved to the upper or lower side of the second carrier 7 together with the first roller 32 and the second roller 36, or the second carrier 7 can be moved to the flexible film (and the first wheel) 32. Below or below the second roller 36). According to the flexible film transfer method, the edge portion 62 is then attached to the second carrier 7 by the second roller 36, as shown in Fig. 3 + step S160. Please also refer to Fig. 13, which is a detailed flow chart of step 816. As shown in FIGS. 8A and 9A, the edge portion 62 on the second circumferential surface 362 first contacts the second carrier 7, and then the connecting member 34 is extended away from the first roller 36 so that the edge portion 62 Attached to the second carrier 7, as shown in step S162; causing the second roller 36 to roll or move away from the first roller 32, as shown in step S164; and having the second circumferential surface 362 desorb the edge portion 62 And the edge portion 62 is attached to the second carrier 7, as shown in step S166. In addition, when the soft film transfer device 3 uses the controllable adsorption hand 12 201204539 to use the pumping and exhaust mechanism, the second circumferential surface 362 can directly use the exhaust holes to exhaust the air. The effect of releasing the suction edge portion a can be achieved, and the controllable adsorption means used by the recording film transfer device 3 is to use the adhesive mechanism, and the adhesiveness of the adhesive layer needs to be smaller than that of the flexible film 6 and the second load. The adhesion between the plates 7, for example, the second carrier 7 may be a viscous plate, and its viscosity is greater than that of the viscous layer to achieve the effect of releasing the rim portion 62. According to the soft_reposting method, the main portion 64 is attached to the second carrier 7 by the first roller 32, as shown by the step in Fig. 3. Please also refer to Figure 14, which is a detailed flow chart of the steps. As shown in FIG. 17, the first roller 32 is successively rotated, as shown in step S182; and the first circumferential surface 324 is desorbed from the main portion 64' and the main portion 64 is attached to the second carrier 7, such as The steps are as shown. This completes the transfer operation of the flexible film 6. According to the additional soft and difficult method provided by the present invention, the main portion 64 can be attached to the second carrier 7 by the first 10 roller 32', and then the edge on the second circumferential surface 362. The portion 62 contacts the second carrier 7, and then extends the connecting member 34 away from the first roller 36 such that the edge portion 62 is projected on the second carrier 7. In other words, the order of step S160 and step S180 can be interchanged. Similarly, the flexible thin film transfer device 4 also performs the transfer operation of the flexible film 6 in accordance with the flow chart shown in Fig. 3. Please refer to Fig. 3 and Fig. 4 to Fig. 1(9). • Figs. 4 to 10(9) are the use of the aforementioned soft film for the method of refining film transfer. [S3 13 201204539 Figure 4: Decomposition of the device 4: Sexual thin reposting, Wei diverted SHX), the relevant description has been repeat. Then, by the second roller 36, the edge portion 62 is separated from the second step S120 as shown in step S12. Please also refer to the UB diagram, which is step. As shown in FIG. 4B and FIG. 5B, the second _ ^ edge side (four) step S23 is shown; then the connecting member % is rolled toward the first roll as shown in step ; 5; and the second circumferential surface is made 362 adsorption edge "(4) will be pro-part 62 from the first - mixed 5 _, as shown in the step help. According to the soft (four) _ financial method, the wire - heterozygous, the social part 64 * from the first carrier 5 Stripping, Shidi 3 and Fengli take c 1 . As shown in step SM0 in Figure 3. Please refer to the θ " for the detailed flow chart of step S140. As shown in Figure 6B and Figure, continue Rotating the first roller 32 as shown in step S42; and making the first circumferential surface adsorb the main portion 64' and the main portion 64 from the first carrier plate 5, as shown in step SM4, is placed on the soft thin handle 4 - The remaining description of the roller % can be referred to the above description of the first roller % of the flexible film transfer device 3, and will not be repeated. The flexible film 6 can be peeled off together with the first roller 32 and the second roller %. Move to the top or bottom of the second carrier 7, or move the second carrier 7 below or below the flexible film 6 (and the first roller 32, the second roller 36). According to the flexible film transfer method, the edge portion 62 is attached to the second carrier 7 by the second roller 36, as shown in step S160 in Fig. 3. Please refer to Fig. 13, which is a step. 201204539 Detailed flow chart. As shown in Fig. 9B of the 8B mouse, (4) the flexible film 6 contacts the second carrier 7' and then extends the connecting member μ away from the first roller %, so that the edge portion 62 is attached to the second The carrier board 7 is as shown in step S162; the second evaluation month is away from the first roller 32 direction, as shown in step S1M; and the second circumferential surface 362 is desorbed from the edge portion 62, and the edge portion is removed. 62 is attached to the second carrier 7, as shown in step S166. The flexible film transfer device 4 can be used: the description of the adsorption means can be referred to the description of the adsorption means used by the above-mentioned According to the soft_reposting method, the main portion 64 is attached to the second carrier 7 by the first roller 32 as shown in the step of FIG. 3. Please refer to Fig. 14 , which is the part of the step leakage. (4) riding, then rotate the first - The roller 32' is as shown in step S182; and the first peripheral surface is like the desorption main portion 64, and the main portion 64 is attached to the second carrier 7, as shown in the step of the second embodiment. In the same manner, according to the additional soft-reposting method provided by the present invention, the main portion 64 can be attached to the second carrier 7 by the first roller %. The second roller %, the step of attaching the edge portion 2 to the second carrier 7 h, that is, the steps S160 and S180 of the flexible shaft transfer device 4, can be mutually interchangeable. Compared with the previous thief's invention _Shicun _ The second roller is _ 雠 雠 soft _ the edge part and the main part, = direct contact, control the entire soft film, can effectively avoid the edge part curl or warp; and 15 201204539 ^ miscellaneous = the fourth round are located The soft (four) film is the same as 1, which can keep the other side of the soft film, __ material, to provide a difficult lying. In addition, the soft transfer method of the present invention ___the scroll wheel and the second wheel _ retractable feature can avoid the problem of residual stress being pulled. Therefore, the flexible film of the present invention can be placed in a flexible film or can be used in a variety of processes, and can be used in a variety of processes. The cost of building process equipment. The above is only the preferred embodiment of the present invention, and all changes and modifications made to the scope of the patent application of the present invention are intended to be within the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a film transfer apparatus according to an embodiment of the prior art. Fig. 2A is a schematic illustration of a flexible film transfer device in accordance with a preferred embodiment of the present invention. Figure 2B is a view of a soft tissue transfer device according to another preferred embodiment of the present invention. Fig. 3 is a flow chart showing a method of soft film transfer according to a preferred embodiment of the present invention. Figs. 4 to 10(A) are exploded views of the flexible film transfer device of Fig. 2A according to the soft film transfer method of Fig. 3. Figs. 4 to 10(B) are exploded views of the flexible film transfer device of Fig. 2B according to the soft film transfer method of Fig. 3. 201204539 • Fig. 11A and Fig. 11B are detailed flowcharts of step S120 of Fig. 3 according to different flexible film transfer devices. Fig. 12 is a detailed flow chart of step S140 of Fig. 3. Figure 13 is a detailed flow chart of step S160 of Figure 3. Fig. 14 is a detailed flow chart of step S180 of Fig. 3.
【主要元件符號說明】 1 薄膜轉貼設備 3、4 軟性薄膜轉貼裝置 5 第一載板 6 軟性薄膜 7 第二載板 12 貼附滾輪 14 剝離滾輪 22 載板 24 薄膜 26 載板 32 第一滾輪 34 連接構件 36 弟二滾輪 62 邊緣部分 64 主要部分 322 半徑邊側 324 第一周面 326 圓心角 328 半徑 362 第二周面 364 距離 366 距離 S100、S120〜S127、S140〜S144、S160〜S166、S180〜S184 實施步驟[Description of main component symbols] 1 Film transfer device 3, 4 Flexible film transfer device 5 First carrier 6 Soft film 7 Second carrier 12 Attachment roller 14 Peeling roller 22 Carrier 24 Film 26 Carrier 32 First roller 34 Connecting member 36 second roller 62 edge portion 64 main portion 322 radius side 324 first circumferential surface 326 central angle 328 radius 362 second circumferential surface 364 distance 366 distance S100, S120~S127, S140~S144, S160~S166, S180 ~S184 Implementation steps
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