518447 A7 _ B7_ 五、發明說明(I ) 【技術領域】 本發明,係關於將一連串之長條薄膜(例如絕緣性接著 薄膜或異向導電性接著薄膜)捲繞的技術。 【習知技術】 一般,例如,將電子零件(如液晶面板或1C晶片)彼此 作電氣連接時,使用絕緣性接著薄膜或異向導電性接著薄 膜。 這樣之接著薄膜,係以圓筒狀捲繞於捲軸構件(經過既 定之製造步驟所完成)之形態出貨至顧客。 可是,近年,顧客需求要使接著薄膜更長條化。 然而,若使接著薄膜長條化,因輥狀之直徑增加而造 成接著薄膜之應力增大,故有擠出接著薄膜內之接著劑之 虞。 本發明,係有鑒於要解決如上之技術課題,其目的在 於提供一種對應於接著薄膜之長條化,以不會擠出接著劑 之直徑來捲繞接著薄膜爲多段狀的方法及能適用於該方法 之捲軸構件。 【發明之揭示】 本發明之捲軸構件,具有:捲繞軸部,能捲繞既定之 薄膜;以及,凸緣部,以複數排列於該捲繞軸部之狀態所 設置;在該凸緣部係設有導引槽部,用以使薄膜通過互相 鄰接之捲繞軸部。依據本發明之捲軸構件,能在一側之捲 3 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) - 訂---------線」 518447 A7 _______B7____ 五、發明說明(少) 繞軸部完成薄膜之捲繞之階段,藉由使薄膜通過導引槽, 平順地移動薄膜至另一側之捲繞軸部。 本發明之捲軸構件,在前述導引槽部形成能與薄膜卡 合之卡合部,亦爲有效。 藉此,使薄膜通過導引槽時,藉由導引槽部內之卡合 部勾住薄膜,能捲繞薄膜於另一側之捲繞軸部。 本發明之捲軸構件,在前述導引槽部,形成能卡止薄 膜之卡止部,亦爲有效。 - 藉此,使薄膜通過導引槽時,藉由以導引槽部內之卡 止部卡止薄膜,能在不致鬆張的情形下捲繞薄膜於另一側 之捲繞軸部。 本發明之捲軸構件中,各導引槽部配置於與其他導引 槽部相互對向之位置,亦爲有效。 藉此,將薄膜移動於軸方向時或勾掛薄膜時,能在各 凸緣部之間以相同之時機進行。 本發明之捲軸構件中,該凸緣部之外徑根據:捲繞薄 膜於該捲繞軸部時於該薄膜所產生之應力之値來設定,亦 爲有效。 藉此,若確保薄膜以不會超出凸緣部之外周部分之方 式捲繞,則能確保接著劑不從薄膜內擠出。 本發明之捲軸構件,構成爲前述捲繞軸部能互相結合 於軸方向,亦爲有效。 藉此,因應薄膜之長條化之程度,能藉由變更捲軸構 件之組合數量來適宜對應。 4 ί紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ' -- (請先閱讀背面之注意事項再填寫本頁) 訂--------- 518447 A7 _--- —___B7______ 五、發明說明(> ) 又,本發明之捲軸構件,具備:捲繞軸部,能捲繞既 定之薄膜;以及,凸緣部,係以複數排列於該捲繞軸部之 狀態所設置,且在外周部分具有能與薄膜卡合之卡合突部 〇 根據本發明之捲軸構件,有下列優點:能將薄膜從一 側之捲繞軸部平順移動至另一側之捲繞軸部、能以卡合突 部勾掛薄膜;再者,能將進行上述動作之時機做更彈性的 設定。 本發明之捲軸構件,各卡合突部,係配置於與其他卡 合突部相互對向之位置,亦爲有效。 藉此’移動薄膜於軸方向時或勾掛薄膜時,能在各凸 緣部之間以相同之進行。 又’本發明之捲軸構件’具備:捲繞軸部,能捲繞既 定之薄膜;以及,設在該捲繞軸部之一凸緣部,其在外周 部分具有能與薄膜卡合之卡合突部;該捲繞軸部構成爲能 相互結合於軸方向。 再者,本發明之捲軸構件,具備:捲繞軸部,能捲繞 既定之薄膜;以及,凸緣部,在該捲繞軸部設置一個,且 具有讓該薄膜通過之導引槽部;該捲繞軸部構成爲能相互 結合於軸方向。 本發明之捲軸構件結合體,係結合複數個捲軸構件(具 備:捲繞軸部,能捲繞既定之薄膜;以及,凸緣部,在該 捲繞軸部設置一個,且具有讓該薄膜通過之導引槽部;且 該捲繞軸部構成爲能相互結合於軸方向)所構成者。 5 本紙張尺度朝中關家標準(CNS)A4規格(210 X 297公爱) ' -- (請先閱讀背面之注意事項再填寫本頁) ^ ________I 1AW------------------- A7 518447 ______B7_____ 五、發明說明(4·) 根據本發明,這些捲繞軸部構成爲能互相結合於軸方 向,因應薄膜之長條化之程度,能藉由變更捲軸構件之組 合數量來適宜對應。 本發明之薄膜收容體,其具備由複數個捲軸構件(具備 :捲繞軸部,能捲繞既定之薄膜;以及,凸緣部,在該捲 繞軸部設置一個,且具有讓該薄膜通過之導引槽部;且該 捲繞軸部構成爲能相互結合於軸方向)結合所構成之捲軸構 件結合體;係於該捲軸構件結合體之該捲繞軸部捲繞一連 串之薄膜所構成者。 根據本發明之薄膜收容體,在上市時能使長條化之薄 且旲之處理爲谷易。 本發明之薄膜收容體,在捲繞有該薄膜之捲繞軸部之 間夾設未捲繞薄膜之捲繞軸部,亦爲有效。 又,本發明之捲軸構件,具有:捲繞軸部,於同一軸 上以既定間隔配置複數個;以及,凸緣部,設置於各捲繞 軸部之兩端部;於各凸緣部以既定中心角形成缺口而成之 導引槽部,係以讓各中心角做相位錯開的方式所配置者。 根據本發明之捲軸構件,因能將捲軸構件全體之重心 放在捲繞軸線上,一方面能始終以均勻之轉矩來捲繞長條 之薄膜,另一方面可在以導引緣部(在互相鄰接之導引槽部 對向)挾住薄膜之狀態下誘導至下一個捲繞軸部。 本發明之捲軸構件,在各捲繞軸部之間設置間隔軸部 來誘導薄膜,亦爲有效。 藉此,能以間隔軸部之側面誘導薄膜至下一個捲繞軸 6 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) — II «111!111! —^^^1 — — — — —— — — — — — — —---—II--- A7 518447 ___________B7_____ 五、發明說明(< ) 部’並且藉由設定間隔軸部之長度,使薄膜之拉繞緩和。 本發明之捲軸構件,在相互鄰接之導引槽部所對向之 導引緣部係被施以既定角度之去角以誘導薄膜,亦爲有效 0 藉此’在施行過去角之凸緣部之斜面,能平順地誘導 薄膜至下一個捲繞軸部。 本發明之薄膜收容體,其具備捲軸構件(具有:捲繞軸 部,於同一軸上以既定間隔配置複數個;以及,凸緣部,_ g受置於各捲繞軸部之兩端部;且於各凸緣部以既定中心角 形成缺口而成之導引槽部,係以讓各中心角做相位錯開的 方式所配置者);係於該捲軸構件捲繞一連串之薄膜所構成 者。 本發明之薄膜收容體所使用之薄膜,較佳者爲絕緣性 接著薄膜或異向導電性接著薄膜。 於本發明之薄膜收容體中,該薄膜係將接著劑積層於 剝離薄I吴者,在對該凸緣部從一側拉繞至另一側之必要部 分讓該剝離薄膜露出,亦爲有效。 藉此,有下列優點:不必浪費絕緣性接著薄膜或異向 導電性'接著薄膜;以及,顧客不會使用到因拉繞所扭歪之 絕緣性接著薄膜或異向導電性接著薄膜,而能保證其品質 0 本發明之薄膜捲繞方法,係將從送出側拉出之一連串 之薄膜,以多段狀捲繞於捲繞軸;藉由以既定之速度旋轉 該捲繞軸,將該薄膜之既定部分捲繞於該捲繞軸之一部分 ___ 7 本紙張尺度iiTi _鮮(⑽)A4規格⑽χ 297 --~ (請先閱讀背面之注意事項再填寫本頁) . — — — — — — — — — — — — — —— — — — — — — — — — — — — —--- A7 518447 ____B7 _ 五、發明說明(& ) 後,讓該捲繞軸之旋轉停止或減速,並且使該捲繞軸相對 送出側移動於軸方向,來捲繞該薄膜之既定部分於該捲繞 軸之其他部分。 根據本發明之薄膜捲繞方法,對長條之薄膜,能邊抑 制薄膜之捲繞直徑成爲所需之値、邊捲繞爲多段狀;尤其 ,若薄膜係接著劑薄膜或異向導電性接著薄膜時,就能以 該等薄膜不會擠出接著劑程度之捲繞直徑捲繞爲多段狀, 而不變成大徑化。 1 又,本發明之薄膜捲繞方法,係將從送出側拉出之一 連串之薄膜捲繞於捲繞軸中以凸緣所分隔之該捲繞軸之各 部分;藉由以既定之速度旋轉該捲繞軸,將該薄膜之既定 部分捲繞於該捲繞軸之一部分後,讓該捲繞軸之旋轉停止 或減速,並且使該捲繞軸相對送出側移動於軸方向,使得 該薄膜之既定部分通過該凸緣後之捲繞於該捲繞軸之其他 邰分。 根據本發明之薄膜捲繞方法,即使使用在捲繞軸上具 有複數個凸緣之捲軸構件,長條化之薄膜仍能捲繞爲多段 狀,而不變成大徑化。 又,本發明之薄膜捲繞方法,係使用捲軸構件[具備: 捲繞軸部;以及,凸緣部(以複數排列於該捲繞軸部之狀態 所設者,且具有使薄膜通過相互鄰接之捲繞軸部的導引槽 部)]來捲繞一連串之薄膜;捲繞薄膜於一個捲繞軸部後’ 隔至少一個未使用之捲繞軸部而在下一個捲繞軸部捲繞薄 膜。 8 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) • ! I 1 I I ! 1 · I I I I ----IIIIIIII1 —----I I I I----- A7 518447 _ B7_ 五、發明說明(γ ) 根據本發明之薄膜捲繞方法,能以不折曲薄膜之方式 邊拉繞於凸緣部上邊捲繞爲多段狀。 再者,本發明之薄膜捲繞方法,係使用捲軸構件(具有 :捲繞軸部,於同一軸上以既定間隔配置複數個;以及, 凸緣部,設置於各捲繞軸部之兩端部,且於各凸緣部以既 定中心角形成缺口而成之導引槽部,係以讓各中心角做相 位錯開的方式所配置者)來捲繞一連串之薄膜;該捲繞軸部 於軸方向移動之時機,係依該導引槽部之中心角而個別錯 開。 根據本發明之薄膜捲繞方法,能圖謀重量分布之均勻 化,並且能邊將薄膜誘導爲螺旋曲線狀邊平順地進行拉繞。 【圖式之簡單說明】 第1圖(a),係表示本發明第1實施形態之捲軸構件之 槪略構成的前視圖,第1圖(b),係表示該捲軸構件之槪略 構成的右側面。 第2圖(a),係表示本發明第2實施形態之捲軸構件之 槪略構成的左側視圖,第2圖(b),係表示該捲軸構件之槪 略構成的前視圖,第2圖(c),係表示該捲軸構件之槪略構 成的右側視圖,第3圖,係表示該捲軸構件之槪略構成的 前視圖。 第4圖(a),係表示本發明第3實施形態之捲軸構件之 槪略構成的前視圖,第4圖(b),係表示該捲軸構件之槪略 構成的右側視圖。 9 本紙張尺度適用中國國家標準(CNS)A4規格(210 x 297公釐) (請先閱讀背面之注意事項再填寫本頁) β ί I n I -I n n n n n n n n n 518447 A7 ------- B7__ 五、發明說明(g ) 第5圖(a),係表示本發明第4實施形態之捲軸構件之 槪略構成的前視圖’第5圖(b),係表示該捲軸構件之槪略 構成的右側視圖。 第6圖(a),係表示本發明第5實施形態之捲軸構件之 槪略構成的前視圖’第6圖(b),係表示該捲軸構件之槪略 構成的右側視圖’第7圖,係表示在該捲軸構件之軸上結 合之狀態的前視圖。 第8圖(a),係表示本發明第6實施形態之捲軸構件之 槪略構成的前視圖’第8圖(b),係表示該捲軸構件之槪略 構成的俯視圖’第8(c)圖,係放大顯示該捲軸構件之卡止 槽的圖。 第9圖(a),係表示本發明第7實施形態之捲軸構件之 槪略構成的前視圖,第9(b)圖,係放大顯示該捲軸構件之 卡止槽的圖。 第10圖’係表示本發明第8實施形態之捲軸構件之槪 略構成的前視圖。 第11圖(a),係表示本發明第9實施形態之捲軸構件 之槪略構成的前視圖,第11 (b)圖,係放大顯示該捲軸構 件之卡止槽之一部分的圖。 第12圖(a),係表示本發明第1〇實施形態之捲軸構件 之槪略構成的前視圖,第12 (b)圖,係表示該捲軸構件之 凸緣部之導引槽之位置關係的圖。 第13圖(a),係順沿該捲軸構件之截線S1_S1截開的 右側視圖’第13圖(b),係順沿該捲軸構件之截線S2_S2 10 I紙張尺度適用中國國家標準(CNS)A4規格(21Q X 297公爱) " (請先閱讀背面之注意事項再填寫本頁) 一OJe I— n n is n an n I flal 1_1 ϋ n ϋ n -ϋ l n In n n A7 518447 ^___ B7_____ 五、發明說明(f ) 截開的右側視圖,第Η圖,係用以說明該捲軸構件之去角 角度的圖,第15圖,係表示薄膜捲繞於該捲軸構件之薄膜 收容體的前視圖,第16圖,係表示將該捲軸構件分割爲零 件要素之例的圖。 第17圖,係表示用以實施本發明之薄膜捲繞方法的多 段捲繞系統之一例之槪略構成的前視圖,第18圖,係表示 該多段捲繞系統之槪略構成的左側視圖。 第19圖(a) (b)〜第24圖(a) (b),係以本發明之捲軸 構件捲繞薄膜之狀態,來表示本發明之薄膜捲繞方法的圖 〇 第25圖(a),係表示本發明之薄膜收容體之實施形態 的左側視圖,第25圖(b),係表示該薄膜收容體的前視圖 〇 第26圖,係表示本發明其他實施形態之薄膜收容體的 前視圖。 第27圖〜第30圖,係就本發明之薄膜捲繞方法,表 示以本發明之其他捲軸構件捲繞薄膜之狀態的圖。 圖中,50(A〜Η、K、L)係捲軸構件,51(A〜Η、K、L) 係凸緣部,52(Α〜Η、Κ、L)係捲繞軸部,520L係間隔軸部 ,53 (Α〜C、Ε、F、G、H、Κ、L)係導引槽,54 (Α〜Η)係導 引緣,54L係導引緣部,56(D)係卡合突部,57(F、G、Η、 Κ)係卡止槽,60(Β、C、Ε、Κ)係捲軸構件結合體,7〇(Α、 Β、C)係薄膜收容體。 __ 11 本紙張尺度適用中國國家標準(CNS)A4規格(210 x 297公爱) ---- (請先閲讀背面之注意事項再填寫本頁) 訂---------線—· A7 518447 B7 _ 五、發明說明) 【發明之較佳實施形態】 本發明相關之捲軸構件,係用來捲繞一連串之長條薄 膜爲多段狀者。 使用本發明之薄膜,雖沒有特別限定,然而,對絕緣 性接著薄膜、或異向導電性接著薄膜(用以將電路基板之電 極與1C晶片之電極作電氣連接),特別有效。 在此,絕緣性接著薄膜,係在剝離薄膜上以薄膜狀形 成絕緣性之接著劑者。另一方面,異向導電性接著薄膜,> 係在上述接著劑包含導電粒子者。 以下,就能捲繞如上述之絕緣性接著薄膜及異向導 電性接著薄膜(以下,或簡稱爲「薄膜」)的捲軸構件,參 閱圖式說明較佳之實施形態。 又’本實施形態所使用之薄膜,係以既定之間隔去除 接著劑,讓剝離薄膜一部分露出者。 第1圖(a),係表示本發明第1實施形態之捲軸構件之 槪略構成的前視圖,第1圖(b),係表示該捲軸構件之槪略 構成的右側面。 如第1圖(a) (b)所示,本實施形態之捲軸構件50A, 係以例如樹脂所一體構成者,具有捲繞軸部52A,與複數 個凸緣部51A。 凸緣部51A,係形成爲既定之外徑之圓板狀,以既定 之間隔互相平行配置於圓筒狀之捲繞軸52A上。 在此,絕緣性接著薄膜及異向導電性接著薄膜(未圖示 ),基於被捲繞時所產生之應力不會造成接著劑從剝離薄膜 12 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) I --------訂---------線丨▲ A7 518447 ____B7 _ 五、發明說明(Π ) 擠出之觀點,因應薄膜寬度(例如1.9mm),或薄膜厚度(例 如0.1mm)等之數値,將一定長度(例如25m)之接著薄膜, 以既定之間隔反覆形成於剝離薄膜上。 再者,接著薄膜之間隔,即,剝離薄膜之長度,基於 捲繞爲多段狀時不會浪費接著薄膜等之觀點,係設定於在 捲繞軸方向拉繞時所需之最小限度之範圍。 爲使本實施形態之捲軸構件50A對應如上述之薄膜, 凸緣部51A之數量,係因應接著薄膜之反覆數量來設定, 又’各凸緣部51A之間隔,係以比薄膜寬度若干大之方式 設定。再者’凸緣部51A之外徑,基於保護所捲繞之薄膜之 觀點,因應接著薄膜之長度以比其捲繞外徑大之方式設定。 如第1圖(b)所示,在各凸緣部51A,以同一形狀分別 形成導引槽53A,用以使薄膜通過引導槽至比鄰之其他凸 緣部51A。各導引槽53A,係形成大致扇形缺口(輥狀之薄 膜可部分露出之大小),與鄰接之凸緣部51A之導引槽53A 對向而在軸方向呈同列排置。 藉此,形成於各導引槽53A之外周部分之導引緣54A 於凸緣部5 1A之圓周方向係與其他導引緣54A在相同位置 抵接薄膜。 另一方面,捲繞軸部52A之長度係因應凸緣部51A之 數量或其間隔來形成。又,在捲繞軸部52A,雖形成以既 定之截面形狀向軸方向延伸之貫通孔55A,然在本實施形 態之情形,該貫通孔55A,係例如形成爲能與附鍵之軸(未 圖示)嵌合之形狀。 13 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) --------訂·-------- A7 518447 __— _____B7________ 五、發明說明(/>) 第2圖(a),係表示本發明第2實施形態之捲軸構件之 槪略構成的左側視圖,第2圖(b),係表示該捲軸構件之槪 略構成的前視圖,第2圖(c),係表示該捲軸構件之槪略構 成的右側視圖。第3圖,係表示該捲軸構件之結合狀態的 前視圖。 如圖2(a)〜圖2(c)所示,本實施形態之捲軸構件50B ,係具有構成爲一體之捲繞軸部52B與一個凸緣部5 1B。 本實施形態之情形,凸緣部51B之導引槽53B之形狀 與第1實施形態之凸緣部51A者不相同。即,該導引槽 53B,係以比薄膜寬度大之寬度向一半徑方向延伸至捲繞 軸部52B附近之形狀形成。 另一方面,捲繞軸部52B,係由比薄膜寬度若干大之 長度之軸部分52Bi,與在同一軸上之卡合軸部52B2(與軸 部分52Bi挾住凸緣部51B)所構成,卡合軸部52B2係形成 爲附鍵之圓筒狀,另一方面在軸部分52Bi,形成具有鍵槽 之孔,能與卡合軸部52B2嵌合。 藉此,捲軸構件50B,藉由與同一構成之其他捲軸構 件50B互相在軸方向結合,使雙方之凸緣部51B之導引槽 53B相互對向在軸方向配置爲同列。 又,在捲繞軸部52B,與上述實施形態同樣,形成有 貫通孔55B。在本實施形態之情形,該貫通孔55B,例如 ,形成爲能與截面「D字」狀之軸嵌合之形狀。 如第3圖所示,該捲軸構件50B,例如結合4個時, 各捲繞軸55B係一體化構成一個捲繞軸部,並且藉由各凸 14 I紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) I n H « I n I I I — ϋ I ϋ n 1 ϋ I I 1 I n — illlllllll n A7 518447 ___—- _ B7_ 五、發明說明(Μ) 緣部51Β配置成互相平行,來構成一體化之捲軸構件結合 體 60Β。 第4圖(a),係表示本發明第3實施形態之捲軸構件之 槪略構成的前視圖,第4圖(b),係表示該捲軸構件之槪略 構成的右側視圖。 如第4圖(a) (b)所示,本實施形態之捲軸構件50C, 係具有構成爲一體之捲繞軸部52C與二個凸緣部5 1C。 在本實施形態之情形,各凸緣部51C,係與第2實施 形態之凸緣部51B相同,互相平行配置於捲繞軸部52C上 〇 另一方面,捲繞軸部52C,因將凸緣部51B配置2個 ,故與第2實施形態之情形僅在長度之處不相同,然而其 他構成與第2實施形態之捲繞軸部52B相同。 如第3圖所示,此種捲軸構件50C,例如結合2個時 ,係與第2實施形態同樣,構成爲一體化之捲軸構件結合 體600 第5圖(a),係表示本發明第4實施形態之捲軸構件之 槪略構成的前視圖,第5圖(b),係表示該捲軸構件之槪略 構成的右側視圖。 如第5圖(a) (b)所示,本實施形態之捲軸構件50D, 係具有構成爲一體之捲繞軸部52D與一個凸緣部5 1D。 在本實施形態之情形,在凸緣部51D未形成導引槽這 方面,係與第1〜第3實施形態之凸緣部51A〜51C不相同 ,即,該凸緣部51D,係將上述凸緣部51A〜51C之外周部 15 本纸張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ' (請先閱讀背面之注意事項再填寫本頁) 訂---------線· 518447 B7 五、發明說明(⑷) 分之一部分,漸漸增加半徑來形成爲圓弧狀,在該圓弧形 狀之半徑之差最大之部分’形成卡合突部56D(具有能與薄 膜抵接之導引緣54D) ° 另一方面,捲繞軸部52D,係與第2實施形態之捲繞 軸部52B相同之構成。 第6圖(a),係表示本發明第5實施形態之捲軸構件之 槪略構成的前視圖,第6圖(b),係表示該捲軸構件之槪略 構成的右側視圖,第7圖’係表示在該捲軸構件之軸上結 合之狀態的前視圖。 如第6圖(a) (b)所示,本實施形態之捲軸構件50E, 係具有構成爲一體之捲繞軸部52E與一對凸緣部5 1E。 在本實施形態之情形’凸緣部51E,係與第3實施形 態之凸緣部51C相同之構成。 另一方面、在捲繞軸部52E,與第1實施形態同樣, 形成附鍵槽之圓形截面狀之貫通孔55E。 如第7圖所示,此種捲軸構件50E,係例如以接著方518447 A7 _ B7_ V. Description of the Invention (I) [Technical Field] The present invention relates to a technology for winding a series of long thin films (such as insulating adhesive film or anisotropic conductive adhesive film). [Conventional Technology] Generally, for example, when electronic parts (such as a liquid crystal panel or a 1C chip) are electrically connected to each other, an insulating adhesive film or an anisotropic conductive adhesive film is used. This adhesive film is shipped to customers in the form of a cylindrical roll wound on a reel member (completed by a predetermined manufacturing step). However, in recent years, customers have demanded that the adhesive film be made longer. However, if the adhesive film is made long, the stress of the adhesive film increases due to an increase in the roll-like diameter, so that there is a possibility that the adhesive in the adhesive film is extruded. The present invention has been made in view of the above-mentioned technical problems, and an object thereof is to provide a method for winding the adhesive film into a multi-stage shape corresponding to the lengthening of the adhesive film and winding the adhesive film without extruding the diameter of the adhesive, and the method The scroll component of this method. [Disclosure of the invention] The reel member of the present invention includes: a winding shaft portion capable of winding a predetermined film; and a flange portion provided in a state where a plurality of the winding shaft portions are arranged in the winding shaft portion; A guide groove portion is provided for passing the film through the adjacent winding shaft portions. According to the scroll member of the present invention, it is possible to roll 3 papers on one side. The paper size is applicable to China National Standard (CNS) A4 (210 X 297 mm) (please read the precautions on the back before filling this page)-Order- ------- line "518447 A7 _______B7____ 5. Description of the invention (less) At the stage where the film is wound around the shaft, the film is smoothly moved to the other side by passing the film through the guide groove.轴 部。 The shaft portion. It is also effective for the reel member of the present invention to form an engaging portion capable of engaging with the film in the guide groove portion. Thereby, when the film is passed through the guide groove, the film is caught by the engaging portion in the guide groove portion, and the film can be wound on the winding shaft portion on the other side. It is also effective for the reel member of the present invention to form a locking portion capable of locking a thin film in the aforementioned guide groove portion. -With this, when the film is passed through the guide groove, the film can be wound on the winding shaft portion on the other side without being loosened by locking the film with the locking portion in the guide groove portion. In the reel member of the present invention, it is also effective that each guide groove portion is disposed at a position facing each other with the other guide groove portions. Thereby, when the film is moved in the axial direction or when the film is hooked, it can be performed at the same timing between the flange portions. In the reel member of the present invention, the outer diameter of the flange portion is set based on the magnitude of the stress generated in the film when the thin film is wound around the winding shaft portion, and it is also effective. By this means, if it is ensured that the film is wound so as not to exceed the peripheral portion of the flange portion, it is possible to ensure that the adhesive is not squeezed out of the film. The reel member of the present invention is also effective in that the aforementioned winding shaft portions can be coupled to each other in the axial direction. In this way, in accordance with the length of the film, it is possible to respond appropriately by changing the number of combinations of the reel members. 4 ί The paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) '-(Please read the precautions on the back before filling this page) Order --------- 518447 A7 _- -—___ B7______ 5. Description of the invention (>) The reel member of the present invention includes: a winding shaft portion capable of winding a predetermined film; and a flange portion arranged in plural on the winding shaft portion. The reel member according to the present invention has the following advantages: it can smoothly move the film from the winding shaft portion on one side to the other side. The film can be wound around the shaft and the film can be hooked by the engaging protrusions. Furthermore, the timing for performing the above operations can be set more flexibly. It is also effective that each of the engaging projections of the scroll member of the present invention is disposed at a position facing each other with the engaging projections. In this way, when the film is moved in the axial direction or when the film is hooked, the same can be performed between the flange portions. Further, the "reel member of the present invention" includes: a winding shaft portion capable of winding a predetermined film; and a flange portion provided at one of the winding shaft portions and having an engagement with the film at an outer peripheral portion thereof A projection; the winding shaft portion is configured to be able to be coupled to each other in the axial direction. Furthermore, the reel member of the present invention includes a winding shaft portion capable of winding a predetermined film, and a flange portion provided with one winding shaft portion and having a guide groove portion through which the film passes; The winding shaft portions are configured to be coupled to each other in the axial direction. The reel member assembly of the present invention is a combination of a plurality of reel members (including: a winding shaft portion capable of winding a predetermined film; and a flange portion, one of which is provided on the winding shaft portion, and has a function to allow the film to pass through A guide groove portion; and the winding shaft portion is configured to be able to be coupled to each other in the axial direction). 5 This paper is oriented towards the Zhongguanjia Standard (CNS) A4 specification (210 X 297 public love) '-(Please read the precautions on the back before filling this page) ^ ________I 1AW ---------- --------- A7 518447 ______B7_____ 5. Description of the invention (4 ·) According to the present invention, these winding shaft portions are configured to be able to be combined with each other in the axial direction. Change the number of combinations of reel components to appropriately cope. The film container according to the present invention includes a plurality of reel members (including: a winding shaft portion capable of winding a predetermined film; and a flange portion, one of which is provided on the winding shaft portion, and the film passing portion A guide groove portion; and the winding shaft portion is configured as a reel member combined body which can be combined with each other in the axial direction); the winding shaft portion of the reel member combined body is formed by winding a series of films By. According to the thin film container of the present invention, it is possible to make the strip thin and thin when it is marketed. It is also effective for the film container of the present invention to have a winding shaft portion of an unwound film interposed between the winding shaft portions around which the film is wound. The reel member of the present invention includes a winding shaft portion, and a plurality of winding shaft portions are arranged at a predetermined interval on the same shaft; and flange portions are provided at both end portions of each winding shaft portion; The guide groove formed by forming a notch at a predetermined center angle is arranged in such a manner that the phases of the center angles are staggered. According to the reel member of the present invention, since the entire center of gravity of the reel member can be placed on the winding axis, on the one hand, a long film can be always wound with a uniform torque, and on the other hand, the guide edge portion ( In the state where the adjacent guide groove portions are opposite to each other, the film is guided to the next winding shaft portion. The reel member of the present invention is also effective in that a spacer shaft portion is provided between each winding shaft portion to induce the film. With this, the film can be guided to the next winding axis by the side of the spacer shaft. 6 This paper size is applicable to the Chinese National Standard (CNS) A4 (210 X 297 mm) (Please read the precautions on the back before filling this page. ) — II «111! 111! — ^^^ 1 — — — — — — — — — — — — ————— II --- A7 518447 ___________B7_____ 5. Description of the invention (<) Department 'and by Set the length of the spacer shaft portion to ease the drawing of the film. The reel member of the present invention is provided with a predetermined angle of chamfering at the leading edge portion opposite to the guide groove portion adjacent to each other to induce the film, which is also effective. The inclined surface can smoothly guide the film to the next winding shaft. The film container of the present invention includes a reel member (having: a winding shaft portion, a plurality of which are arranged at a predetermined interval on the same shaft; and a flange portion, _g is received at both ends of each winding shaft portion ; And the guide groove portion formed by forming a notch in each flange portion with a predetermined center angle is arranged in such a manner that the phase angles of the center angles are staggered); it is formed by winding a series of films on the reel member . The film used in the film container of the present invention is preferably an insulating adhesive film or an anisotropic conductive adhesive film. In the film container of the present invention, the film is laminated with an adhesive on the peeling film, and it is also effective to expose the peeling film by pulling the flange portion from one side to the other side as necessary. . Thereby, there are the following advantages: it is not necessary to waste the insulating adhesive film or the anisotropic conductive adhesive film; and the customer does not use the insulating adhesive film or the anisotropic conductive adhesive film which is twisted due to the winding, and can Guarantee its quality 0 The film winding method of the present invention is a series of films pulled from the sending side, and wound around the winding shaft in multiple sections; by rotating the winding shaft at a predetermined speed, the film is wound. The predetermined part is wound on a part of the winding shaft ___ 7 This paper size iiTi _Fresh (⑽) A4 size ⑽χ 297-~ (Please read the precautions on the back before filling this page). — — — — — — — — — — — — — — — — — — — — — — — — — — A7 518447 ____B7 _ V. After the invention description (&), stop or slow down the winding shaft rotation, Then, the winding shaft is moved in the axial direction with respect to the sending side to wind a predetermined portion of the film on the other portion of the winding shaft. According to the film winding method of the present invention, a long film can be wound into a multi-stage shape while suppressing the winding diameter of the film from becoming desired, and in particular, if the film is an adhesive film or anisotropic conductive adhesive In the case of a film, it can be wound into a multi-stage shape with a winding diameter such that the film does not extrude the adhesive, without becoming larger. 1. In the film winding method of the present invention, a series of films drawn from the sending side is wound around the winding shaft and each part of the winding shaft separated by a flange; by rotating at a predetermined speed The winding shaft, after a predetermined portion of the film is wound around a portion of the winding shaft, the rotation of the winding shaft is stopped or decelerated, and the winding shaft is moved in the axial direction relative to the sending side, so that the film After a predetermined portion passes through the flange, it is wound on other windings of the winding shaft. According to the film winding method of the present invention, even if a reel member having a plurality of flanges on a winding shaft is used, the elongated film can be wound into a multi-stage shape without becoming large-diameter. The film winding method of the present invention uses a reel member [equipped with: a winding shaft portion; and a flange portion (provided in a state in which a plurality of the winding shaft portions are arranged in a row), and the film has a film passing adjacent to each other. The guide groove portion of the winding shaft portion)] to wind a series of films; the winding film is wound on one winding shaft portion, and the film is wound on the next winding shaft portion with at least one unused winding shaft portion . 8 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) (Please read the precautions on the back before filling this page) •! I 1 II! 1 · IIII ---- IIIIIIII1 ----- --III I ----- A7 518447 _ B7_ 5. Explanation of the invention (γ) According to the film winding method of the present invention, the film can be wound into a multi-stage shape while being pulled around the flange without bending the film. . Furthermore, the film winding method of the present invention uses a reel member (including: a winding shaft portion, a plurality of which are arranged at a predetermined interval on the same shaft; and a flange portion provided at both ends of each winding shaft portion And a guide groove formed by forming a notch in each flange portion with a predetermined center angle, which is arranged in such a manner that the center angles are out of phase) to wind a series of films; the winding shaft portion is The timing of the movement in the axis direction is individually shifted according to the center angle of the guide groove portion. According to the film winding method of the present invention, uniformity in weight distribution can be attempted, and the film can be smoothly wound while being induced into a spiral curve. [Brief description of the drawings] FIG. 1 (a) is a front view showing a schematic configuration of a scroll member according to the first embodiment of the present invention, and FIG. 1 (b) is a schematic view showing a schematic configuration of the scroll member Right side. FIG. 2 (a) is a left side view showing a schematic configuration of a scroll member according to a second embodiment of the present invention, and FIG. 2 (b) is a front view showing the schematic configuration of the scroll member, and FIG. 2 ( c) is a right side view showing the outline structure of the scroll member, and FIG. 3 is a front view showing the outline structure of the scroll member. Fig. 4 (a) is a front view showing a schematic configuration of a scroll member according to a third embodiment of the present invention, and Fig. 4 (b) is a right side view showing the schematic configuration of the scroll member. 9 This paper size is in accordance with China National Standard (CNS) A4 (210 x 297 mm) (Please read the precautions on the back before filling this page) β ί I n I -I nnnnnnnnn 518447 A7 ------- B7__ 5. Description of the invention (g) Figure 5 (a) is a front view showing a schematic structure of a scroll member according to a fourth embodiment of the present invention 'Figure 5 (b) is a schematic view of the scroll member Right side view. FIG. 6 (a) is a front view showing a schematic configuration of a scroll member according to a fifth embodiment of the present invention, and FIG. 6 (b) is a right side view showing a schematic configuration of the scroll member. FIG. It is a front view showing a state of coupling on the axis of the reel member. FIG. 8 (a) is a front view showing a schematic configuration of a scroll member according to a sixth embodiment of the present invention, and FIG. 8 (b) is a plan view showing a schematic configuration of the scroll member. FIG. 8 (c) The drawing is an enlarged view of a locking groove of the reel member. Fig. 9 (a) is a front view showing a schematic configuration of a scroll member according to a seventh embodiment of the present invention, and Fig. 9 (b) is an enlarged view showing a locking groove of the scroll member. Fig. 10 'is a front view showing a schematic configuration of a scroll member according to an eighth embodiment of the present invention. Fig. 11 (a) is a front view showing a schematic configuration of a scroll member according to a ninth embodiment of the present invention, and Fig. 11 (b) is an enlarged view of a part of a locking groove of the scroll member. Fig. 12 (a) is a front view showing a schematic configuration of a scroll member according to a tenth embodiment of the present invention, and Fig. 12 (b) is a view showing a positional relationship of a guide groove of a flange portion of the scroll member Illustration. Figure 13 (a) is a right side view cut along the section line S1_S1 of the reel member. Figure 13 (b) is a section line S2_S2 10 along the reel member. The paper size applies the Chinese National Standard (CNS ) A4 specification (21Q X 297 public love) " (Please read the precautions on the back before filling this page)-OJe I— nn is n an n I flal 1_1 ϋ n ϋ n -ϋ ln In nn A7 518447 ^ ___ B7_____ V. Description of the invention (f) A cut-away right side view, the first figure is a diagram for explaining the declination angle of the reel member, and the 15th figure is a view showing a film wrapped around the film container of the reel member. A front view, FIG. 16 is a diagram showing an example of dividing the reel member into component elements. Fig. 17 is a front view showing a schematic configuration of an example of a multi-stage winding system for implementing the film winding method of the present invention, and Fig. 18 is a left side view showing a schematic configuration of the multi-stage winding system. Figures 19 (a) (b) to 24 (a) (b) show the film winding method of the present invention in a state where the film is wound by the reel member of the present invention. Figure 25 (a) ) Is a left side view showing an embodiment of the film container of the present invention, and FIG. 25 (b) is a front view showing the film container. FIG. 26 is a view showing a film container of another embodiment of the present invention. front view. Figures 27 to 30 are diagrams showing a state in which a film is wound with another reel member of the present invention with respect to the film winding method of the present invention. In the figure, 50 (A ~ Η, K, L) is a reel member, 51 (A ~ Η, K, L) is a flange part, 52 (A ~ Η, K, L) is a winding shaft part, and 520L is Spacer shaft part, 53 (Α ~ C, Ε, F, G, H, Κ, L) is a guide groove, 54 (Α ~ Η) is a guide edge, 54L is a guide edge portion, and 56 (D) is a guide groove The engaging protrusions, 57 (F, G, Η, Κ) are locking grooves, 60 (B, C, E, KK) is a combination of scroll members, and 70 (Α, Β, C) is a film container. __ 11 This paper size applies to China National Standard (CNS) A4 specification (210 x 297 public love) ---- (Please read the precautions on the back before filling this page) Order --------- line — · A7 518447 B7 _ V. Description of the invention [Preferred embodiment of the invention] The scroll member related to the present invention is used to wind a series of long films in a multi-stage shape. Although the film of the present invention is not particularly limited, it is particularly effective for an insulating adhesive film or an anisotropic conductive adhesive film (for electrically connecting an electrode of a circuit board and an electrode of a 1C chip). Here, the insulating adhesive film is formed by forming an insulating adhesive in a film shape on the release film. On the other hand, an anisotropic conductive adhesive film is one in which the adhesive contains conductive particles. In the following, a reel member such as the above-mentioned insulating adhesive film and anisotropic adhesive film (hereinafter, simply referred to as a "film") can be wound, and a preferred embodiment will be described with reference to the drawings. Also, the film used in this embodiment is one in which the adhesive is removed at a predetermined interval and a part of the release film is exposed. Fig. 1 (a) is a front view showing a schematic configuration of the scroll member according to the first embodiment of the present invention, and Fig. 1 (b) is a right side view showing the schematic configuration of the scroll member. As shown in Figs. 1 (a) and (b), the reel member 50A according to the present embodiment is integrally formed of, for example, a resin, and includes a winding shaft portion 52A and a plurality of flange portions 51A. The flange portion 51A is formed in a circular plate shape with a predetermined outer diameter, and is arranged parallel to each other on a cylindrical winding shaft 52A at a predetermined interval. Here, the insulating adhesive film and the anisotropic conductive adhesive film (not shown) will not cause the adhesive to peel off the film based on the stress generated when it is wound. 12 This paper applies the Chinese National Standard (CNS) A4 standard. (210 X 297 mm) (Please read the notes on the back before filling out this page) I -------- Order --------- Line 丨 ▲ A7 518447 ____B7 _ V. Description of the invention (Π) From the viewpoint of extrusion, according to the film width (for example, 1.9mm) or film thickness (for example, 0.1mm), a certain length (for example, 25m) of the adhesive film is repeatedly formed at a predetermined interval on the release film. on. In addition, the interval of the adhesive film, that is, the length of the release film, is set to a minimum range required when the film is pulled in the direction of the winding axis based on the viewpoint that the adhesive film is not wasted when wound in a multi-stage shape. In order to make the scroll member 50A of this embodiment correspond to the above-mentioned film, the number of the flange portions 51A is set according to the number of repeated films, and the interval between the flange portions 51A is set to be slightly larger than the width of the film. Mode setting. In addition, the outer diameter of the 'flange portion 51A is set to be larger than the outer diameter of the film to be wound from the viewpoint of protecting the wound film. As shown in Fig. 1 (b), a guide groove 53A is formed in each flange portion 51A in the same shape so that the film can pass through the guide groove to other adjacent flange portions 51A. Each of the guide grooves 53A is formed into a substantially fan-shaped notch (a size where the roll-shaped film can be partially exposed), and is opposed to the guide groove 53A of the adjacent flange portion 51A and aligned in the axial direction. Accordingly, the guide edge 54A formed on the outer peripheral portion of each guide groove 53A abuts the film at the same position as the other guide edges 54A in the circumferential direction of the flange portion 51A. On the other hand, the length of the winding shaft portion 52A is formed in accordance with the number of the flange portions 51A or the interval between them. Further, although the winding shaft portion 52A is formed with a through-hole 55A extending in the axial direction in a predetermined cross-sectional shape, in the case of this embodiment, the through-hole 55A is formed, for example, so that it can be connected to a shaft with a key (not (Shown) the shape of the fit. 13 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) (Please read the precautions on the back before filling this page) -------- Order · ------- -A7 518447 __— _____B7________ 5. Description of the invention (/ >) Figure 2 (a) is a left side view showing a schematic configuration of a scroll member according to a second embodiment of the present invention, and Figure 2 (b) is a view showing A front view of the outline structure of the scroll member, and FIG. 2 (c) is a right side view showing the outline structure of the scroll member. Fig. 3 is a front view showing the coupled state of the reel member. As shown in FIGS. 2 (a) to 2 (c), the reel member 50B according to this embodiment includes a winding shaft portion 52B and a flange portion 51B which are integrally formed. In the case of this embodiment, the shape of the guide groove 53B of the flange portion 51B is different from that of the flange portion 51A of the first embodiment. That is, the guide groove 53B is formed in a shape extending in a radial direction to a vicinity of the winding shaft portion 52B in a width larger than the film width. On the other hand, the winding shaft portion 52B is constituted by a shaft portion 52Bi which is slightly longer than the width of the film, and an engaging shaft portion 52B2 on the same shaft (the flange portion 51B is held by the shaft portion 52Bi). The shaft coupling portion 52B2 is formed in a cylindrical shape with a key. On the other hand, a hole having a key groove is formed in the shaft portion 52Bi, and the shaft coupling portion 52B2 can be fitted into the shaft coupling portion 52B2. Thereby, the reel member 50B is combined with other reel members 50B of the same configuration in the axial direction, so that the guide grooves 53B of the flange portions 51B of both sides are opposed to each other and are arranged in the same row in the axial direction. In the winding shaft portion 52B, a through-hole 55B is formed in the same manner as in the above embodiment. In the case of this embodiment, the through-hole 55B is formed into a shape that can be fitted into an "D-shaped" shaft in cross section, for example. As shown in FIG. 3, when four reel members 50B are combined, for example, each winding shaft 55B is integrated to form a winding shaft portion, and the national paper standard (CNS) A4 is applied by each convex 14 I paper size. Specifications (210 X 297 mm) (Please read the notes on the back before filling this page) I n H «I n III — ϋ I ϋ n 1 ϋ II 1 I n — illlllllll n A7 518447 ___ —- _ B7_ 5 DESCRIPTION OF THE INVENTION (M) The edge portions 51B are arranged parallel to each other to form an integrated scroll member assembly 60B. Fig. 4 (a) is a front view showing a schematic configuration of a scroll member according to a third embodiment of the present invention, and Fig. 4 (b) is a right side view showing the schematic configuration of the scroll member. As shown in FIG. 4 (a) and (b), the reel member 50C according to the present embodiment includes a winding shaft portion 52C and two flange portions 51C which are integrally formed. In the case of this embodiment, each flange portion 51C is the same as the flange portion 51B of the second embodiment, and is arranged parallel to each other on the winding shaft portion 52C. On the other hand, the winding shaft portion 52C is convex Since the two edge portions 51B are arranged, they are different from the case of the second embodiment only in length, but other configurations are the same as those of the winding shaft portion 52B of the second embodiment. As shown in FIG. 3, for example, when two such reel members 50C are combined, the reel member combination 600 is configured as an integrated reel member 600 in the same manner as in the second embodiment. FIG. 5 (a) shows the fourth embodiment of the present invention. A front view of a schematic configuration of the scroll member of the embodiment, and FIG. 5 (b) is a right side view showing the schematic configuration of the scroll member. As shown in Figs. 5 (a) and 5 (b), the reel member 50D of the present embodiment includes a winding shaft portion 52D and a flange portion 51D which are integrally formed. In the case of this embodiment, the flange portion 51D is different from the flange portions 51A to 51C of the first to third embodiments in that the guide groove is not formed, that is, the flange portion 51D is the same as described above. Flange part 51A ~ 51C outer peripheral part 15 This paper size applies Chinese National Standard (CNS) A4 specification (210 X 297 mm) '(Please read the precautions on the back before filling this page) Order ----- ---- Line · 518447 B7 V. Description of the invention (⑷) One part is gradually increased in radius to form a circular arc shape, and the engaging protrusion 56D (having the largest difference in radius of the arc shape) is formed Guide edge 54D that can abut against the film) On the other hand, the winding shaft portion 52D has the same configuration as the winding shaft portion 52B of the second embodiment. Fig. 6 (a) is a front view showing a schematic configuration of a scroll member according to a fifth embodiment of the present invention, and Fig. 6 (b) is a right side view showing a schematic configuration of the scroll member; Fig. 7 ' It is a front view showing a state of coupling on the axis of the reel member. As shown in FIGS. 6 (a) and (b), the reel member 50E according to the present embodiment includes a winding shaft portion 52E and a pair of flange portions 51E, which are integrally formed. In the case of this embodiment ', the flange portion 51E has the same configuration as the flange portion 51C of the third embodiment. On the other hand, in the winding shaft portion 52E, as in the first embodiment, a through-hole 55E having a circular cross-section with a key groove is formed. As shown in FIG. 7, such a reel member 50E is
式在軸上連結複數個而構成一體化之捲軸構件結合體60E 〇 第8圖(a),係表示本發明第6實施形態之捲軸構件之 槪略構成的前視圖,第8圖(b),係表示該捲軸構件之槪略 構成的俯視圖,第8(c)圖,係放大顯示該捲軸構件之卡止 槽的圖。 如第8圖(a)〜第8圖(c)所示,本實施形態之捲軸構件 50F,係具有構成爲一體之捲繞軸部52F與一個凸緣部51F。 16 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公爱) "" " (請先閱讀背面之注意事項再填寫本頁) ^OJ H ϋ n I n n n I n I n ϋ ϋ n n n n n n n n n ϋ n ϋ ϋ n 518447 B7 五、發明說明()< ) 本實施形態之凸緣部51F,係具有與第1實施形態之 凸緣部51A相同之導引槽53F,進一步,具有以下之構成 〇 即,凸緣部51F,基於在導引槽53F內之導引緣54F 上拉繞薄膜時不致折曲來加以保護之觀點,係形成爲 5mm〜6mm之厚度,再者,以使得導引緣54F成爲曲線的 方式,將包含該導引緣54F之部分之截面形狀形成爲凸曲 面狀。 又,在凸緣部51F,基於拉繞薄膜至其他捲軸構件時 不致鬆動之觀點,乃設置用以卡止薄膜之卡止槽57F。 該卡止槽57F以較薄膜之厚度若干小之寬度,從導引 緣54F上之接近導引槽53F之角落部分朝與凸緣部51F之 半徑方向大致直交的方向延伸形成。 另一方面,捲繞軸部52F,係與第2實施形態之捲繞 軸部52B相同之構成。 第9圖(a),係表示本發明第7實施形態之捲軸構件之 槪略構成的前視圖,第9圖(b),係放大顯示該捲軸構件之 卡止槽的圖。 如第9圖(a) (b)所示,本實施形態之捲軸構件50G, 係具有構成爲一體之捲繞軸部52G與一個凸緣部5 1G。 本實施形態之凸緣部51G,構成爲與第6實施形態之 凸緣部51F相同,進一步,具有與第6實施形態之卡止槽 57F不相同之卡止槽57G。 卡止槽57G,具有誘導槽部57Gi,從導引緣54G之接 17 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) ,· 訂---------線 A7 518447 _B7 ___ 五、發明說明(J) 近導引槽53G之角落部分向凸緣部5 1G之大致中央部分延 伸。該卡止槽57G,形成爲比薄膜之厚度大之寬度。並且 ,在導引槽53G之誘導槽部57G!之前端部分,形成圓形 狀之卡止孔57G2,具有比薄膜之寬度若干大之直徑。 並且,在誘導槽部57G!之卡止孔57G2附近,以使誘 導槽部57Gi之寬度比薄膜之厚度爲小之方式,形成突狀之 防脫部57G3。 另一方面,捲繞軸部52G,係與第2實施形態之捲繞 軸部52B相同之構成。 第10圖,係表示本發明第8實施形態之捲軸構件之槪 略構成的前視圖。 如第10圖所示,本實施形態之捲軸構件50H,係具有 構成爲一體之捲繞軸部52H與一個凸緣部51H。 本實施形態之情形,在凸緣部51H,設置複數個導引 槽53H。該等導引槽53H,從平衡上之觀點(使凸緣部51H 本身之重心位於捲繞軸部52H上),以相同之中心角使得凸 緣部5 1Η之外周部分以相同之間隔分開來形成。 又,卡止槽57Η,亦在與各導引槽53Η相同位置形成 爲相同形狀。各卡止槽57Η,係以比薄膜之厚度大之寬度 ,從導引槽53Η之角落部分向一方向延伸,進一步,以比 薄膜之厚度若干小之寬度,向半徑方向彎曲來形成。 另一方面,捲繞軸部52Η,係與第2實施形態之捲繞 軸部52Β相同之構成。 第11圖(a),係表示本發明第9實施形態之捲軸構件 18 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ~ (請先閱讀背面之注意事項再填寫本頁) --------訂.------- 丨赢 518447 A7 ---- B7_____ 五、發明說明(丨7) 之槪略構成的前視圖,第11 (b)圖,係放大顯示該捲軸構 件之卡止槽之一部分的圖。 如第11圖(a) (b)所示,本實施形態之捲軸構件50K, 係具有構成爲一體之捲繞軸部52K與複數個凸緣部51K。 本實施形態之情形,各凸緣部51Κ,基於與上述相同 之平衡上之觀點,形成爲具有相同中心角之扇形狀,以相 同之間隔配置於捲繞軸部52Κ之外周上。在該等凸緣部 51Κ之各個之間,形成導引槽53Κ,又,在各凸緣部51Κ 之一側之緣部分,形成導引緣54Κ。 卡止槽57Κ,係由第1卡止槽57Κ1(從各導引槽53Κ 之角落部分陷入凸緣部51Κ並朝捲繞軸部52Κ之捲繞方向 延伸,進一步刻入捲繞軸部52Κ)、第2卡止槽57Κ2 (形成 於與導引緣54Κ對向之其他凸緣部51Κ之緣部分)所構成。 該第2卡止槽57Κ2,係在具薄膜之捲繞直徑之同一圓 周上,與捲繞方向相反方向延伸而形成。 另一方面,捲繞軸部52Κ,除刻入卡止槽57Κ1 —部 分之處,其餘係與第2實施形態之捲繞軸部52Β相同之構 成。 第12圖(a),係表示本發明第1〇實施形態之捲軸構件 之槪略構成的前視圖,第12 (b)圖,係表示該捲軸構件之 凸緣部導引槽之位置關係的圖.。第13圖(a),係順沿該捲 軸構件之截線S1-S1截開的右側視圖,第13圖(b),係順 沿該捲軸構件之截線S2-S2截開的右側視圖。第14圖,係 用以說明該捲軸構件之去角角度的圖。 19 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ---------------------訂·--------線丨 (請先閱讀背面之注意事項再填寫本頁) A7 518447 — —_B7______ 五、發明說明(/2> ) 如第12圖(a)所示,本實施形態之捲軸構件50L,係 具有構成爲一體之捲繞軸部52L及間隔軸部520L,與複數 個凸緣部51L。在此,捲繞軸部52L及間隔軸部520L,係 交替配置爲複數個。 間隔軸部520L之外徑及長度雖根據後述之既定條件 設定,惟構成上係較捲繞軸部52L之外徑及長度大。 另一方面,在各凸緣部51L,形成以既定之中心角形 成缺口之扇形狀之導引槽53L。 > 在此,導引槽53L之中心角β相對於構成捲軸構件 50L之凸緣部51L之單位構成數η係設定爲360度/η( “ / ”表示除算),再者,讓導引槽53L依各中心角β做相位錯 開來配置,藉此,使關於捲繞軸線之捲軸構件50L全體之 重量分布成爲均勻。 例如,如第12圖(a) (b)所示,設凸緣部51L之單位構 成數η爲4時,導引槽53L之中心角0,就變成90度, 凸緣部51L之總數,就變爲單位構成數η之整數倍(在此爲 8個)。 從捲繞軸之滑動方向Χ+側依序設爲凸緣部51LK1)〜 凸緣部51L8(8)時,在右側視圖之旋轉座標系(捲繞方向R 爲正),凸緣部51LK1)、51L5(5),在〇度〜90度之範圍 具有導引槽53川、53L5(用虛線表示之斜線部分),凸緣部 51L2(2)、51L6(6),在90度〜180度之範圍具有導引槽 5 3L2、531^6(用貫線表不之斜線部分),凸緣部51L3(3)、 51LH7),在180度〜270度之範圍具有導引槽53L3、53L7( 20 $紙張尺度^中國國家標準(CNS)A4規格(210 χ 297公釐)~' "" n til 11 an n« n m i— i·— It n n I · an n n n ϋ n n'-I I— I n HI If I m 1 (請先閱讀背面之注意事項再填寫本頁) A7 518447 ____B7 __ 五、發明說明(//) 用貫線表不之斜線部分)’凸緣部5 1 L4(4)、5 1 Ls(8),在 270度〜360度之範圍具有導引槽53L4、53L8(用虛線表示 之斜線部分)。 藉由如上述之導引槽之配置,凸緣部本身51L之重心 ,會因凸緣部51LK1)、51L5(5)相對於捲繞軸線係與凸緣 部 51L3(3)、51L7⑺對稱,又,凸緣部 51L2(2)、51L6(6)相 對於捲繞軸線係與凸緣部51L4(4)、51L8(8)對稱,故捲軸 構件53L全體之重心,就位於捲繞軸線上。 - 又,在送出側之凸緣部51L2(2)、51L4(4) 、51L6(6)之 在捲繞方向R之下位側之導引緣部54L2、54L4、54L6分別 與在接受側之凸緣部51L3(3)、51L5(5)、51L7(7)之捲繞方 向R之下位側之導引緣部54 L3、54L5、54L7挾著相同平 面而對向著。 再者,本實施形態之情形,爲了避免拉繞薄膜時造成 薄膜折曲,乃對送出側之導引緣部54 L2、54L4 、54L6, 與接受側之導引緣部54 L3、54L5、54L7,分別以相互可形 成平行斜面之方式以一定角度施行去角。 例如,如第13圖(a) (b)及第12圖(a)所示,在凸緣部 51L2(2)之導引緣部54 L2,形成導引斜面58 L2(對包含捲繞 軸線之水平面往斜下方傾斜),在凸緣部51L3(3)之導引緣 部54 L2,形成導引斜面58 L3(對包含捲繞軸線之水平面往 斜上方傾斜)。 在其他送出側之導引緣部54L4 、54L6,或接受側之 導引緣部54L5 、54L7,亦相同。 21 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ---------------------訂---------線 (請先閱讀背面之注意事項再填寫本頁) A7 518447 ___B7_ 五、發明說明(p ) 在此,參閱第14圖’說明導引緣部54L之去角角度 α之設定。 從捲繞於捲繞軸部52Li之薄膜之最外側部分,經過間 隔軸部520川將薄膜拉繞於下一個捲繞軸部521^2時,該薄 膜係如上述必須以不致折曲之方式來引導,故較佳者係採 取在特定之圓筒曲面上成爲螺旋曲線之軌跡。 因此,在本實施形態之情形’首先’捲軸構件50L中 ,以凸緣部51Ι^〜51ί4、在凸緣部間之捲繞軸部52L: ' 52L2及間隔軸部5201^之部分爲對象時,對直線L2(以凸 緣部51L!之內面與捲繞直徑D之薄膜2上之最上面母線 L1的交點P1爲起點拉繞時,與薄膜2上浮部分接觸之處) ,與直線L3(從凸緣部51L4之內面與捲繞軸部52L2上之最 下面母線的交點P2對直線L2所拉之平行線),假想一圓筒 曲面C(將直線L2、L3當作爲最外側之母線來納入,與間 隔軸部520L之側面模擬地成爲一體)。 其次,在其假想的圓筒曲面C上,考慮薄膜緣軌跡 S1(連接交點P1與交點P3(在直線L3上從交點P2離開相 當於薄膜寬度之點)使成爲螺旋曲線),與薄膜緣軌跡S2(連 接交點P2與交點P4(在直線L2上從交點P1離開相當於薄 膜寬度之點)使成爲螺旋曲線)。 並且,凸緣部51L3之去角角度α 3,係以使導引斜面 5 8 L3接觸於薄膜緣軌跡S2之角度來設定。又,凸緣部 51L2之去角角度α2,係與凸緣部51L3之去角角度^3相 同。 22 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之;i意事項再填寫本頁) 丨--------訂---------線 A7 518447 _____B7 _____ 五、發明說明(τ\ ) 其他凸緣部51川、51L4〜51L8之去角角度α 1,J 4〜 α 8,同樣地與凸緣部51L3之去角角度α 3相同。 又,凸緣部51L2之導引傾斜面58 L2之與間隔軸部 520L之長度d之關係上,有與薄膜緣軌跡S1不接觸之情 形及接觸之情形。 若設定間隔軸部520川之長度dl爲使導引傾斜面58 L2不接觸於薄膜緣軌跡S1之情形,伴隨薄膜誘導空間(由 間隔軸部52〇1^之長度dl、在凸緣部511^之上位側之導引 緣部54 L2、及相對導引緣部54 1^2差180度之凸緣部51L3 之下位側之導引緣部54 L3所決定)使假想的圓筒曲面C放 大,藉此,因螺旋曲線之·進角變大,故有使薄膜之拉繞緩 和之優點,在本實施形態,係利用如上述之優點。 另一方面,雖在本實施形態未採用,若設定間隔軸部 520川之長度d2(<dl)使導引傾斜面58 1^2接觸於薄膜緣軌 跡S1之情形,雖伴隨薄膜誘導空間變小會造成薄膜之拉繞 張緊,然而,藉由以凸緣部51L3之導引傾斜面58 L3及凸 緣部51L2之導引傾斜面58 L2雙方誘導薄膜之兩端緣,有 能防止鬆繞之優點。 第15圖,係表示捲繞薄膜於本實施形態之捲軸構件之 薄膜收容體的前視圖。 如第15圖所示,該薄膜收容體70C,係在本實施形態 之捲軸構件50L實施後述之薄膜捲繞方法者,然而,所拉 繞部分之薄膜2,係分別接觸於導引傾斜面58 L3、58L5、 58L7且位於近似螺旋曲線之曲線上。 23 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ---------------------訂·--------線 (請先閱讀背面之注意事項再填寫本頁) 518447 A7 —---—____B7_ 五、發明說明(分) 當然,藉由將導引緣部54 L(未去角)之端面或間隔軸 部520L之側面中之至少與薄膜2接觸之部分做成接近於 假想的圓筒曲面C,所拉繞部分之薄膜2,能與薄膜緣軌 跡SI、S2位處於更近似之曲線上。 第16圖’係表示將本實施形態之捲軸構件分割爲複數 個零件要素之例的圖。 雖上述捲軸構件50L係構成爲一體者,然亦能將本實 施形態之捲軸構件50L構成爲以複數個零件要素組合者。_ 例如’如第16圖所示,設凸緣部51L!及捲繞軸部 521^爲第1零件要素501L,又,設凸緣部51“爲零件要 素502L,再者,設凸緣部51l2及凸緣部51l3、間隔軸部 520Li及捲繞軸部52L2爲零件要素503L,然後,將零件要 素501L與零件要素503L·.構成爲能互相連結,並且將零件 要素503L與零件要素502L構成爲能互相連結。 並且,如上述之捲軸構件50L,藉由將各零件要素 501L〜503L依每90度錯開位相來連結,能使凸緣部51L 之數量設定爲單位構成數η之任意整數倍。 又’在本實施形態之情形,雖基於重量分布之均勻化 之觀點,設置導引槽53Li、531^8於凸緣部51L1(1)、51L8 (8) ’然而’該等導引槽,基本上在拉繞薄膜方面係不需要者。 因此’從重量分布之均勻化及薄膜之保護之觀點,使 具有導引槽53L之凸緣部51L構成爲如上述之單位構成數 η之任意整數倍之配置後,亦能在該等之兩外側配置未設 置導引槽53L之凸緣部5il。 24 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ---------------------訂---------線 (請先閱讀背面之注意事項再填寫本頁) A7 518447 ________B7___ 五、發明說明(乃) 當實施本發明相關之薄膜捲繞方法時,例如,使用如 下所示之多段捲繞系統。首先,參閱圖式說明該多段捲繞 系統。 第17圖,係表示用以實施本發明之薄膜捲繞方法的多 段捲繞系統之一例之槪略構成的前視圖,第18圖,係表示 該多段捲繞系統之槪略構成的左側視圖。 如第17圖或第18圖所示,本實施形態之多段捲繞系 統1,具備送出裝置10,與捲繞裝置20。 — 送出裝置10,係構成:對捲軸構件11施加既定負荷 ’使得捲軸構件11(捲繞既定之薄膜2)成爲支撐於送出軸 12上而能旋轉之狀態。. 又’送出裝置10之捲軸構件11,雖與上述第1〜第5 之貫施形態之捲軸構件50之構成大致相同,然而凸緣部 13之外徑,係比上述實施形態之凸緣部51之外徑大,係 因應絕緣性接著薄膜或異向導電性接著薄膜全體之長度設 r r ' r 疋。 捲繞裝置20,係以捲繞機構30、移動機構40、控制 部60所構成。 捲繞機構30具有捲繞軸31(配設爲與送出裝置10之 輸送軸12平行)。 該捲繞軸31,例如,以若干之間隙嵌合於上述實施形 態之捲軸構件50之捲繞軸部51之貫通孔,藉此,可支撐 捲軸構件50使其保持著在圓周方向之轉動固定而能向軸方 向移動之狀態。 ______ 25 本紙張尺度ϋ國國家標準^規格(2ι〇 χ 297公釐------ (請先閱讀背面之注意事項再填寫本頁) 訂---------^ IAW.------------ 518447 B7 五、發明說明(ylV) 在如上述捲繞軸31之一側之端部分,設置驅動部32 。該驅動部32,係構成:對固定於捲繞軸31之齒輪32a, 透過既定之齒輪列32b傳達步進馬達所構成之捲繞馬達 32c之動力,使捲繞軸31旋轉。 又,在捲繞馬達32c之驅動軸,固定編碼器32d,進 一步,在編碼器32d之附近,設置光反射型之感測器32e 〇 如上述之捲繞馬達32c及感測器32e分別電氣連接於 控制部60。該控制部60,係構成:根據來自感測器32e之 訊號來計數捲繞馬達32c之脈衝數,並且根據該脈衝數來 控制捲繞馬達32c之旋轉◊ 另一方面,移動機構40,具有驅動軸41(與捲繞軸31 平行之一對軸,形成有公螺紋)與滑軸42。在驅動軸41之 一側之端部分,設置驅動部43(具有與捲繞裝置20之情形 相同之構成)。即,該驅動部43,係由滑動馬達43b(藉由 將動力傳達到驅動軸41上之齒輪43a,來旋轉驅動軸41) 與光透過性感測器43d(能檢測該滑動馬達43b驅動軸上之 編碼器43c)所構成。該等滑動馬達43b及感測器43d,連 接於控制部60 ’與捲繞機構30相同被控制。 在上述之驅動軸41與滑軸42,裝設移動板44與推壓 板45。移動板44係以與驅動軸41螺固、並且可滑動於滑 軸42之方式來卡合。推壓板45係以不與驅動軸41螺固、 僅能滑動於滑軸42之狀態,由未圖示之螺旋彈簧向移動板 44側彈壓。 26 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ' (請先閱讀背面之注意事項再填寫本頁) 訂---------線」 A7 518447 ____B7^_ 五、發明說明(〆) 又,移動板44與推壓板45,均例如形成爲環狀,使 之僅與捲軸構件50之凸緣部51之外周部分抵接。 其次,將第1〜第10實施形態之捲軸構件50A〜50L中 之數種類適用於如上述之多段捲繞系統1之情形爲例,來 說明本發明相關之薄膜捲繞方法之較佳實施形態。 第19圖〜第24圖,係以本發明之捲軸構件捲繞薄膜 之狀態,來表示本實施形態之薄膜捲繞方法的左側視圖及 前視圖。 第25圖(a),係表示本實施形態之薄膜收容體的左側 視圖’第25圖(b),係表示該薄膜收容體的前視圖。 如桌17圖所不,首先,將捲繞著薄膜2之捲軸構件 11安裝於送出裝置10,並且,將例如第1實施形態之捲軸 構件50A安裝於捲繞裝置20後,以使捲繞裝置20之移動 板44側(第Π圖之最右側)之凸緣部51 a與送出裝置1〇右 側之凸緣部13(以下稱爲「右凸緣部13a」)配置於同一平 面之方式’對送出側之捲軸構件11來決定捲繞側之捲軸構 件50A之位置。 其次’將從送出側之捲軸構件11拉出之薄膜2,捲繞 於捲繞側之捲軸構件50A之捲繞軸部52A,在此,爲說明 之方便上,如第1圖(a)所示,捲軸構件50A之凸緣部51A ’從右側開始依序定爲第1凸緣部51A!、第2凸緣部 51A2、第3凸緣部51A3、第4凸緣部51A4,捲軸構件50A 之捲繞軸部52A中,在第1、第2之凸緣部51A!、51八2間 者疋爲第1捲繞軸部52Ai,在第2、第3之凸緣部51A2、 27 本紙張尺度適用中國國家標準(CNS)A4規格(21〇 x 297公釐) (請先閱讀背面之注*事項再填寫本頁) --------訂--------線丨赢 A7 518447 ____B7 _ 五、發明說明(>名) 51A3間者定爲第2捲繞軸部52A2,在第3、第4之凸緣音6 5IA3、5IA4間者疋爲弟3捲繞軸部52八3。 並且,藉由來自上述控制部60之命令,使捲繞馬達 32c動作,開始捲繞軸31之旋轉’並且開始計數捲繞馬達 32c之脈衝數。 藉此,捲軸構件50A,以保持在張拉有薄膜2(受送出 裝置10所加之負載)之狀態捲繞於第1捲繞軸部52Ai(參閱 第 19 圖(a) (b))。 _ 如第20圖(a) (b)所示,捲軸構件50A之第1捲繞軸部 52Ai,捲繞完接著薄膜2之部分而開始捲繞剝離薄膜2a後 ,當控制部60以捲繞馬達32c之脈衝數之計數判斷:送出 側之剝離薄膜2a與捲繞側之輥狀之薄膜2相接之剝離薄膜 2a之捲繞部分2b已到達第2凸緣部5 1八2之導引槽53A內 ,則停止捲繞馬達32c之動作。 以來自控制部60之命令,使滑動馬達43b動作既定 之脈衝數而旋轉驅動軸41。藉此,如第21圖(a) (b)所示, 捲軸構件50A,則順沿捲繞軸31移動至使第2凸緣部 51八2超越送出側之右凸緣部13a之位置而抵達相當之距離 。該情形,因送出側之剝離薄膜2a對捲繞側之輥狀之薄膜 2被扭曲,故其剝離薄膜2a,就從第2凸緣部51A2之導引 槽53A跨出,接近第3凸緣部51A3。 如第22圖(a) (b)所示,保持著該狀態,再旋轉捲軸構 件50A,第2凸緣部51A2就會以導引緣54A勾掛剝離薄 膜2a。 28 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐)~一 ' "~' '~ (請先閱讀背面之注意事項再填寫本頁) --------訂---------線 518447 B7 五、發明說明) 其後,如第23圖(a)⑻所示,捲軸構件50A,伴隨旋 轉’將剝離薄膜2a(勾掛在第2凸緣部51A2之狀態)捲繞於 第2捲繞軸部52a2,不久,因完成剝離薄膜2a之送出而 將下一個接著薄膜2送來,故開始捲繞該薄膜2。 另一方面,以來自控制部60之命令,使滑動馬達43b 動作,將捲軸構件50A退回,使得第2凸緣部51A2配置 成與送出側之右凸緣部13a在同一平面上。 藉此,如第24圖(a) (b)所示,捲軸構件50A就以送出 側之薄膜2對第2捲繞軸部52人2平行之狀態進行捲繞。 以下,對捲軸構件50A之第3捲繞軸部52A3,亦施行 如上述之捲繞處理。 如上所述,藉由在捲軸構件50A實施本實施形態之薄 膜捲繞方法,如第25圖(a) (b)所示,能得:以將薄膜2之 剝離薄膜2a之露出部分從凸緣部51A拉繞至捲繞軸部 52A之狀態,將薄膜2從送出側輥狀捲繞於各捲繞軸部 52A之薄膜收容體70A。 第27圖〜第30圖,係顯示針對本實施形態之薄膜捲 繞方法,以本發明相關之其他捲軸構件捲繞薄膜之狀態的 圖。 在該薄膜捲繞方法中,係使用捲軸構件結合體60K(以 下,簡稱爲「捲軸構件50K」),係複數個結合上述第9實 施形態之捲軸構件50K者。 在本實施形態之情形,薄膜捲繞方法本身,與使用上 述第1實施形態之捲軸構件50A之捲繞方法並無差異,以 29 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) 訂---------線 A7 518447 _____ B7____ 五、發明說明(>δ ) 下’主要說明起因於捲軸構件50Κ與捲軸構件50Α相異形 狀的作用。 又,第27圖、第29圖、第30圖,係分別對應第22 圖(a)、第 23 圖(a)、第 24 圖(a)。 如第27圖所示,在本實施形態,於一個捲繞軸部52K 捲繞完薄膜2後,以薄膜2進入一個導引槽53K之狀態, 使捲軸構件50K本身滑動後旋轉。藉此,薄膜2會在跨越 凸緣部51K之狀態下接觸於導引緣54K。 - 如第28圖所示,進一步旋轉捲軸構件50K,薄膜2之 與導引緣54K之接點2c會向第1卡止槽57&之方向移動 ,另一方面,從薄膜2之輥體鬆開之部分2d就向第2卡止 槽57K2之方向移動。 並且,如第29圖所示,薄膜2以碰到第2卡止槽 57K2之底,並且陷入第1卡止槽571之狀態,橫越二個 凸緣部51K之緣部勾掛。 其後,如第30圖所示,薄膜2在第1、第2卡止槽 57&、57K2之間保持著張緊狀態下,捲繞於下一個捲繞軸 部52K,以該狀態進行捲繞。 再者,說明本發明之薄膜捲繞方法之其他實施形態。 例如,在本發明,基於保護薄膜不被折曲(在使用第 1〜第10實施形態之捲軸構件50A〜50L中之任一件拉繞薄 膜時)之觀點,可在已捲繞完薄膜之捲繞軸部52與下一個 欲捲繞薄膜之捲繞軸部52之間加入至少一個未捲繞薄膜2 之捲繞軸部52,即,能跳過一個捲繞軸部52來捲繞薄膜2。 30 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) --------訂·-------* A7 518447 —- ___ _B7____ 五、發明說明(>/) 根據如上述之構成,位於用以從捲繞軸部52(已捲繞 完薄膜2)拉出薄膜2之凸緣部51,與用以捲繞於捲繞軸部 52(欲捲繞薄膜2)之凸緣部51之間的薄膜2,相對於對捲 繞軸部52之全部捲繞薄膜的情況,能以緩和之角度拉繞。 然而,該方法,較佳者係適用於上述第6實施形態之 捲軸構件5 0 F。 在該情形,係將薄膜2以抵接於凸緣部51F之導引槽 53F內之曲面部分之狀態拉繞,於陷入卡止槽57F(位於其 他凸緣部51F(鄰接於隔一個捲繞軸部52F)之導引槽53F內 )後,捲繞於下一個捲繞軸部52F。 如此,藉由將上述之所謂跳一個之薄膜捲繞方法適用 於捲軸構件結合體60F(結合複數個捲軸構件50F),如第 26圖所不’能獲得以緩和之角度拉繞薄膜2之薄膜收容體 70B 〇 另一方面,其他實施形態之薄膜捲繞方法,同樣基於 不使薄膜折曲而平順地拉繞之觀點,亦能使用追加間隔件( 用以在送出側與接受側之各捲繞軸部之間拉繞)的捲軸構件 ,來進行捲繞。 該情形,從圖謀重量分布之均勻化之觀點,較佳者爲, 例如,使用第12圖(a)所示之第10實施形態之捲軸構件50L。 又,使用該捲軸構件50L時,將拉繞薄膜之時機,即 ,滑動捲繞軸部52L之時機,需要各挪移90度。 又,其他實施形態之薄膜捲繞方法,適用第1圖所$ 之第1實施形態之捲軸構件50A於上述多段捲繞系統1日寺 31 I紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) " -- (請先閱讀背面之注意事項再填寫本頁)A plurality of reel member assemblies 60E connected to the shaft to form an integrated unit is shown in FIG. 8 (a), which is a front view showing a schematic configuration of the reel member according to the sixth embodiment of the present invention, and FIG. 8 (b) Is a plan view showing a schematic configuration of the reel member, and FIG. 8 (c) is an enlarged view of a locking groove of the reel member. As shown in Figs. 8 (a) to 8 (c), the reel member 50F of this embodiment includes a winding shaft portion 52F and a flange portion 51F which are integrally formed. 16 This paper size applies to China National Standard (CNS) A4 (210 X 297 public love) " " " (Please read the precautions on the back before filling this page) ^ OJ H ϋ n I nnn I n I n ϋ ϋ nnnnnnnnn ϋ n ϋ ϋ n 518447 B7 V. Description of the invention () <) The flange portion 51F of this embodiment has the same guide groove 53F as the flange portion 51A of the first embodiment, and further has The following structure, that is, the flange portion 51F is formed to have a thickness of 5 mm to 6 mm based on the viewpoint that the film is protected from bending when the film 54 is pulled up around the guide edge 54F in the guide groove 53F. In order to make the guide edge 54F into a curve, the cross-sectional shape of the portion including the guide edge 54F is formed into a convex curved surface. In addition, the flange portion 51F is provided with a locking groove 57F for locking the film from the viewpoint that the film is not loosened when the film is pulled to other reel members. The locking groove 57F is formed with a width slightly smaller than the thickness of the film, and extends from a corner portion of the guide edge 54F close to the guide groove 53F in a direction substantially orthogonal to the radial direction of the flange portion 51F. On the other hand, the winding shaft portion 52F has the same configuration as the winding shaft portion 52B of the second embodiment. Fig. 9 (a) is a front view showing a schematic configuration of a scroll member according to a seventh embodiment of the present invention, and Fig. 9 (b) is an enlarged view of a locking groove of the scroll member. As shown in FIG. 9 (a) and (b), the reel member 50G according to the present embodiment includes a winding shaft portion 52G and a flange portion 51G which are integrally formed. The flange portion 51G of this embodiment is the same as the flange portion 51F of the sixth embodiment, and further includes a locking groove 57G different from the locking groove 57F of the sixth embodiment. The locking groove 57G has an induction groove 57Gi. It is connected to the guide edge 54G. 17 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm). (Please read the precautions on the back before filling this page. ), · Order --------- line A7 518447 _B7 ___ 5. Description of the invention (J) The corner portion near the guide groove 53G extends to the substantially central portion of the flange portion 5 1G. The locking groove 57G is formed to have a width larger than the thickness of the film. Further, a circular locking hole 57G2 is formed at the front end portion of the guide groove portion 57G! Of the guide groove 53G, which has a diameter that is slightly larger than the width of the film. Further, in the vicinity of the locking hole 57G2 of the induction groove portion 57G !, a protrusion-shaped detachment prevention portion 57G3 is formed so that the width of the induction groove portion 57Gi is smaller than the thickness of the film. On the other hand, the winding shaft portion 52G has the same configuration as the winding shaft portion 52B of the second embodiment. Fig. 10 is a front view showing a schematic configuration of a scroll member according to an eighth embodiment of the present invention. As shown in Fig. 10, the reel member 50H of this embodiment has a winding shaft portion 52H and a single flange portion 51H which are integrally formed. In the case of this embodiment, a plurality of guide grooves 53H are provided in the flange portion 51H. These guide grooves 53H are spaced from the viewpoint of balance (the center of gravity of the flange portion 51H itself is located on the winding shaft portion 52H), so that the outer peripheral portion of the flange portion 51 is separated at the same interval at the same center angle. form. The locking groove 57 'is also formed in the same shape at the same position as each guide groove 53'. Each of the locking grooves 57Η is formed with a width larger than the thickness of the film, extending in a direction from the corner portion of the guide groove 53Η, and further formed by bending in a radial direction with a width slightly smaller than the thickness of the film. On the other hand, the winding shaft portion 52 'has the same configuration as the winding shaft portion 52B of the second embodiment. Figure 11 (a) shows the scroll member 18 showing the ninth embodiment of the present invention. The paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) ~ (Please read the precautions on the back before filling in this (Page) -------- Order .------- 丨 Win 518447 A7 ---- B7_____ V. Front view of the outline of the invention (丨 7), Figure 11 (b) Is an enlarged view of a part of the locking groove of the reel member. As shown in FIGS. 11 (a) and (b), the reel member 50K according to this embodiment includes a winding shaft portion 52K and a plurality of flange portions 51K, which are integrally formed. In the case of this embodiment, each flange portion 51K is formed into a fan shape having the same center angle from the viewpoint of the same balance as described above, and is arranged on the outer periphery of the winding shaft portion 52K at the same interval. A guide groove 53K is formed between each of the flange portions 51K, and a guide edge 54K is formed at an edge portion on one side of each flange portion 51K. The locking groove 57K is formed by the first locking groove 57K1 (entering from the corner portion of each guide groove 53K into the flange portion 51K and extending in the winding direction of the winding shaft portion 52K, and further engraved into the winding shaft portion 52K), The second locking groove 57K2 (formed at the edge portion of the other flange portion 51K opposite to the guide edge 54K). The second locking groove 57K2 is formed on the same circumference with the winding diameter of the film and extends in the direction opposite to the winding direction. On the other hand, the winding shaft portion 52K has the same structure as that of the winding shaft portion 52B of the second embodiment except that it is engraved into the locking groove 57K1. Fig. 12 (a) is a front view showing a schematic configuration of a scroll member according to a tenth embodiment of the present invention, and Fig. 12 (b) is a view showing a positional relationship of a guide groove of a flange portion of the scroll member Figure ... Fig. 13 (a) is a right side view taken along the section line S1-S1 of the reel member, and Fig. 13 (b) is a right side view taken along the section line S2-S2 of the reel member. Fig. 14 is a diagram for explaining the chamfering angle of the reel member. 19 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) --------------------- Order · ------- -Line 丨 (Please read the precautions on the back before filling this page) A7 518447 — —_B7 ______ 5. Description of the Invention (/ 2 >) As shown in Figure 12 (a), the scroll member 50L of this embodiment is provided with The winding shaft portion 52L and the spacer shaft portion 520L are integrally formed with the plurality of flange portions 51L. Here, the winding shaft portion 52L and the interval shaft portion 520L are alternately arranged in plural. Although the outer diameter and length of the spacer shaft portion 520L are set in accordance with predetermined conditions described later, the outer diameter and length of the winding shaft portion 52L are larger than those of the winding shaft portion 52L. On the other hand, in each flange portion 51L, a fan-shaped guide groove 53L formed with a notch at a predetermined center angle is formed. > Here, the center angle β of the guide groove 53L with respect to the unit constitution number η of the flange portion 51L constituting the reel member 50L is set to 360 degrees / η ("/" means division), and let the guide The grooves 53L are arranged so as to be shifted in phase with respect to each center angle β, thereby making the weight distribution of the entire reel member 50L about the winding axis uniform. For example, as shown in Fig. 12 (a) and (b), when the unit number η of the flange portion 51L is set to 4, the center angle 0 of the guide groove 53L becomes 90 degrees, and the total number of the flange portions 51L. It becomes an integer multiple of the unit configuration number η (here, 8). From the sliding direction X + side of the winding axis to the flange portion 51LK1) to the flange portion 51L8 (8), the rotation coordinate system in the right side view (the winding direction R is positive), and the flange portion 51LK1) , 51L5 (5), with guide grooves 53 and 53L5 in the range of 0 to 90 degrees (slashed part indicated by dotted lines), flanges 51L2 (2), 51L6 (6), 90 to 180 degrees The range includes guide grooves 5 3L2, 531 ^ 6 (slash portions indicated by continuous lines), flange portions 51L3 (3), 51LH7), and guide grooves 53L3, 53L7 (in the range of 180 to 270 degrees) 20 $ Paper size ^ Chinese National Standard (CNS) A4 specification (210 χ 297 mm) ~ '" " n til 11 an n «nmi— i · — It nn I · an nnn ϋ n n'-II— I n HI If I m 1 (Please read the precautions on the back before filling this page) A7 518447 ____B7 __ V. Description of the invention (//) The oblique line indicated by the line) 'Flange 5 1 L4 (4 ), 5 1 Ls (8), with guide grooves 53L4, 53L8 (slashed portions indicated by dotted lines) in the range of 270 degrees to 360 degrees. With the configuration of the guide groove as described above, the center of gravity of the flange portion 51L will be symmetrical to the flange portions 51L3 (3) and 51L7 because of the flange axis 51LK1), 51L5 (5) relative to the winding axis, and Since the flange portions 51L2 (2) and 51L6 (6) are symmetrical to the flange portions 51L4 (4) and 51L8 (8) with respect to the winding axis, the center of gravity of the entire reel member 53L is located on the winding axis. -Further, the guide edge portions 54L2, 54L4, and 54L6 of the flange portions 51L2 (2), 51L4 (4), and 51L6 (6) on the sending side below the winding direction R and the convex portions on the receiving side are respectively The leading edges 54L3, 54L5, and 54L7 on the lower side in the winding direction R of the edges 51L3 (3), 51L5 (5), and 51L7 (7) face the same plane and face each other. Furthermore, in the case of this embodiment, in order to avoid bending of the film when the film is pulled, the guide edge portions 54 L2, 54L4, and 54L6 on the sending side and the guide edge portions 54 L3, 54L5, and 54L7 on the receiving side are used. , Respectively, in a manner that can form parallel bevels with each other at a certain angle. For example, as shown in FIGS. 13 (a) (b) and 12 (a), a guide slope 58 L2 is formed at the guide edge portion 54 L2 of the flange portion 51L2 (2) (for the winding axis). The horizontal plane is inclined obliquely downward), and the guide edge portion 54 L2 of the flange portion 51L3 (3) forms a guide inclined surface 58 L3 (inclined obliquely upward with respect to the horizontal plane including the winding axis). The same applies to the guide edge portions 54L4 and 54L6 on the other sending side, and the guide edge portions 54L5 and 54L7 on the receiving side. 21 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) --------------------- Order -------- -Line (please read the precautions on the back before filling this page) A7 518447 ___B7_ V. Description of the invention (p) Here, please refer to Figure 14 to explain the setting of the chamfer angle α of the guide edge 54L. When the film is drawn from the outermost part of the film wound around the winding shaft portion 52Li to the next winding shaft portion 521 ^ 2 through the interval shaft portion 520, the film must not be bent as described above. To guide, so the better is to take a trajectory that becomes a spiral curve on a specific cylindrical surface. Therefore, in the case of the "first" reel member 50L in this embodiment, the flange portion 51I ^ ~ 51ί4, the winding shaft portion 52L between the flange portions: 52L2 and the portion of the spacer shaft portion 5201 ^ are targeted. Straight line L2 (where the point of contact with the floating part of film 2 when drawing around the intersection point P1 of the inner surface of flange portion 51L! And the uppermost generatrix L1 on film 2 with winding diameter D as the starting point), and line L3 (Parallel line drawn from the intersection point P2 of the inner surface of the flange portion 51L4 and the lowermost generatrix on the winding shaft portion 52L2 to the straight line L2), imagine a cylindrical curved surface C (with the straight lines L2 and L3 as the outermost generatrix) It is incorporated into the side surface of the spacer shaft portion 520L in a simulated manner). Next, on the imaginary cylindrical curved surface C, consider the film edge trajectory S1 (connecting the intersection point P1 and the intersection point P3 (away from the intersection point P2 on the straight line L3 by a point equivalent to the film width) to make a spiral curve), S2 (connects the intersection point P2 and the intersection point P4 (a point corresponding to the film width from the intersection point P1 on the straight line L2) to make a spiral curve). The chamfered angle α 3 of the flange portion 51L3 is set to an angle at which the guide slope 5 8 L3 contacts the film edge locus S2. The chamfer angle α2 of the flange portion 51L2 is the same as the chamfer angle ^ 3 of the flange portion 51L3. 22 This paper size applies to China National Standard (CNS) A4 specification (210 X 297 mm) (Please read the back of the page; i-notes before filling out this page) 丨 -------- Order ----- ---- Line A7 518447 _____B7 _____ V. Description of the invention (τ \) Angle angles α 1, J 4 to α 8 of other flanges 51, 51L4 to 51L8, same as the angles of 51L3 to flange The angle α 3 is the same. In addition, the relationship between the guide inclined surface 58 L2 of the flange portion 51L2 and the length d of the spacer shaft portion 520L may not be in contact with the film edge locus S1 and may be in contact. If the length dl of the interval shaft portion 520 is set so that the guide inclined surface 58 L2 does not contact the film edge trajectory S1, along with the film induction space (the length dl of the interval shaft portion 5201 ^, the flange portion 511 ^ Determined by the leading edge 54 L2 on the upper side and the flange portion 51L3 which is 180 degrees away from the leading edge 54 1 ^ The leading edge 54 L3 on the lower side is determined by imaginary cylindrical surface C Enlarging, thereby increasing the angle of the spiral curve, has the advantage of reducing the tension of the film. In this embodiment, the advantages described above are used. On the other hand, although it is not adopted in this embodiment, if the length d2 (< dl) of the interval shaft portion 520 is set so that the guide inclined surface 58 1 ^ 2 contacts the film edge trajectory S1, it is accompanied by the film induction space. The smaller diameter will cause the film to be stretched and tensioned. However, by guiding the inclined surface 58 L3 of the flange portion 51L3 and the guided inclined surface 58 L2 of the flange portion 51L2, both ends of the film can be induced, which can prevent The advantages of loose winding. Fig. 15 is a front view showing a film container in which a film is wound on a reel member of this embodiment. As shown in FIG. 15, the film storage body 70C is a film winding method described later on the reel member 50L of the present embodiment. However, the film 2 drawn is in contact with the guide inclined surfaces 58. L3, 58L5, 58L7 are located on a curve that approximates a spiral curve. 23 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) --------------------- Order · ----- -Line (please read the precautions on the back before filling this page) 518447 A7 —---- ____B7_ V. Description of the Invention (minutes) Of course, the end face or interval of the guide edge 54 L (not chamfered) is of course At least a portion of the side surface of the shaft portion 520L that is in contact with the film 2 is made close to the imaginary cylindrical curved surface C, and the film 2 that is drawn around can be on a more similar curve with the film edge loci SI and S2. Fig. 16 'is a diagram showing an example in which the scroll member of this embodiment is divided into a plurality of component elements. Although the above-mentioned reel member 50L is configured as a single body, the reel member 50L of the present embodiment can also be configured as a combination of a plurality of component elements. _ For example, as shown in FIG. 16, the flange portion 51L! And the winding shaft portion 521 ^ are the first component element 501L, and the flange portion 51 is the component element 502L, and further, a flange portion is provided. 51l2 and the flange portion 51l3, the spacer shaft portion 520Li, and the winding shaft portion 52L2 are the component element 503L. Then, the component element 501L and the component element 503L are connected to each other, and the component element 503L and the component element 502L are configured. In order to be able to be connected to each other, as in the above-mentioned scroll member 50L, by connecting each of the component elements 501L to 503L at a phase shifted by 90 degrees, the number of the flange portions 51L can be set to an arbitrary integer multiple of the unit number η. "Although in the case of this embodiment, the guide grooves 53Li and 531 ^ 8 are provided in the flange portions 51L1 (1) and 51L8 (8) from the viewpoint of the uniformity of the weight distribution. Basically, it is not necessary in drawing the film. Therefore, from the viewpoint of uniformity of the weight distribution and protection of the film, the flange portion 51L having the guide groove 53L is configured to have an arbitrary unit configuration number η as described above. After the multiple configuration, it can also be placed on both sides of the two. It is equipped with a flange part 5il without a guide groove 53L. 24 This paper size is applicable to China National Standard (CNS) A4 (210 X 297 mm) ----------------- ---- Order --------- line (please read the precautions on the back before filling this page) A7 518447 ________B7___ V. Description of the invention (but) When implementing the film winding method related to the present invention, For example, a multi-stage winding system as shown below is used. First, the multi-stage winding system will be described with reference to the drawings. Fig. 17 shows an example of a multi-stage winding system for implementing the film winding method of the present invention. The front view of the structure, FIG. 18, is a left side view showing a schematic configuration of the multi-segment winding system. As shown in FIG. 17 or 18, the multi-segment winding system 1 of this embodiment includes a feeding device 10, And the winding device 20. — The sending device 10 is configured to apply a predetermined load to the reel member 11 so that the reel member 11 (the predetermined film 2 is wound) is supported on the sending shaft 12 and can be rotated. The reel member 11 of the feeding device 10 is similar to the reel structure of the first to fifth embodiments. The structure of the element 50 is substantially the same, but the outer diameter of the flange portion 13 is larger than the outer diameter of the flange portion 51 of the above embodiment, and is set to rr 'according to the length of the entire insulating film or anisotropic conductive film. r 疋. The winding device 20 is composed of a winding mechanism 30, a moving mechanism 40, and a control unit 60. The winding mechanism 30 has a winding shaft 31 (arranged in parallel with the conveying shaft 12 of the delivery device 10). The winding shaft 31 is fitted into the through-holes of the winding shaft portion 51 of the reel member 50 of the above embodiment with a certain amount of clearance, for example, so that the reel member 50 can be supported while being fixed in rotation in the circumferential direction. It can move in the axial direction. ______ 25 The national standard of this paper ^ Specifications (2ι〇χ 297 mm ------ (Please read the notes on the back before filling this page) Order --------- ^ IAW. ------------ 518447 B7 V. Description of the invention (ylV) A driving portion 32 is provided at one end portion of one side of the winding shaft 31 as described above. The driving portion 32 is configured to be fixed to The gear 32a of the winding shaft 31 transmits the power of the winding motor 32c constituted by a stepping motor through a predetermined gear train 32b to rotate the winding shaft 31. The encoder is fixed to the driving shaft of the winding motor 32c. 32d. Further, a light-reflective sensor 32e is provided near the encoder 32d. The winding motor 32c and the sensor 32e are electrically connected to the control unit 60 as described above. The control unit 60 is composed of: The signal from the sensor 32e counts the number of pulses of the winding motor 32c and controls the rotation of the winding motor 32c based on the number of pulses. On the other hand, the moving mechanism 40 has a drive shaft 41 (parallel to the winding shaft 31) One pair of shafts is formed with a male screw thread) and a sliding shaft 42. A driving portion 43 (a It has the same structure as in the case of the winding device 20.) That is, the drive unit 43 is driven by a sliding motor 43b (the drive shaft 41 is rotated by a gear 43a that transmits power to the drive shaft 41) and light transmission is sexy. The sensor 43d (which can detect the encoder 43c on the drive shaft of the slide motor 43b). The slide motor 43b and the sensor 43d are connected to the control unit 60 'and are controlled in the same manner as the winding mechanism 30. The driving shaft 41 and the sliding shaft 42 are provided with a moving plate 44 and a pressing plate 45. The moving plate 44 is engaged with the driving shaft 41 and can slide on the sliding shaft 42. The pressing plate 45 is not connected with The driving shaft 41 is screwed and can only slide on the sliding shaft 42. The unillustrated helical spring is pressed against the moving plate 44. 26 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) '(Please read the precautions on the back before filling in this page) Order --------- line "A7 518447 ____ B7 ^ _ V. Description of the invention (〆) In addition, the moving plate 44 and the pressing plate 45 are, for example, It is formed in a ring shape so as to contact only the outer peripheral portion of the flange portion 51 of the reel member 50. Next, the first Several types of the reel members 50A to 50L of the 1st to 10th embodiments are applicable to the multi-stage winding system 1 described above as an example to explain a preferred embodiment of the film winding method according to the present invention. FIG. 19 Fig. 24 is a left side view and a front view of the film winding method of the present embodiment in a state where the film is wound by the reel member of the present invention. Fig. 25 (a) shows the film storage of the present embodiment. The left side view of the body 'FIG. 25 (b) is a front view showing the film container. As shown in the table 17, first, the reel member 11 with the film 2 wound thereon is attached to the feeding device 10, and, for example, the reel member 50A of the first embodiment is attached to the winding device 20 to make the winding device The manner in which the flange portion 51 a on the moving plate 44 side (the rightmost side of the FIG. 20) of 20 and the flange portion 13 on the right side of the feeding device 10 (hereinafter referred to as the “right flange portion 13 a”) are arranged on the same plane. The position of the reel member 50A on the winding side is determined for the reel member 11 on the sending side. Next, the film 2 pulled out from the reel member 11 on the sending side is wound around the winding shaft portion 52A of the reel member 50A on the winding side. Here, for convenience of explanation, as shown in FIG. 1 (a) As shown, the flange portion 51A ′ of the reel member 50A is sequentially designated as the first flange portion 51A !, the second flange portion 51A2, the third flange portion 51A3, and the fourth flange portion 51A4 from the right, and the reel member 50A. Among the winding shaft portions 52A, the first and second flange portions 51A !, 51 and 2 are the first winding shaft portions 52Ai, and the second and third flange portions 51A2 and 27 are Paper size applies Chinese National Standard (CNS) A4 specification (21 × 297 mm) (Please read the note on the back before filling in this page) -------- Order -------- Line 丨 Win A7 518447 ____B7 _ 5. Explanation of the invention (> name) The one between 51A3 is set as the second winding shaft portion 52A2, and the third and fourth flange sounds 6 5IA3 and 5IA4 are the three volumes. Around the shaft section 52 eight 3. Then, the winding motor 32c is operated by the command from the control unit 60, the rotation of the winding shaft 31 is started ', and the pulse number of the winding motor 32c is started to be counted. Thereby, the reel member 50A is wound around the first winding shaft portion 52Ai while maintaining the tensioned film 2 (received by the load from the delivery device 10) (see Figs. 19 (a) and 19 (b)). _ As shown in Fig. 20 (a) and (b), after the first winding shaft portion 52Ai of the reel member 50A is wound, the portion following the film 2 is wound and the peeling film 2a is started to be wound. Judgment of the number of pulses of the motor 32c: The wound portion 2b of the release film 2a which is connected to the release film 2a on the sending side and the roll-shaped film 2 on the winding side has reached the guide of the second flange portion 5182. In the groove 53A, the operation of the winding motor 32c is stopped. In response to a command from the control unit 60, the slide motor 43b is operated to a predetermined number of pulses to rotate the drive shaft 41. As a result, as shown in FIG. 21 (a) and (b), the reel member 50A moves along the winding shaft 31 to a position where the second flange portion 51-8 2 exceeds the right flange portion 13a on the sending side. Reached a considerable distance. In this case, since the release film 2a on the sending side is twisted to the roll-shaped film 2 on the winding side, the release film 2a comes out from the guide groove 53A of the second flange portion 51A2 and approaches the third flange.部 51A3. As shown in Figs. 22 (a) and (b), when the reel member 50A is further rotated while the state is maintained, the second flange portion 51A2 hangs the peeling film 2a with the guide edge 54A. 28 This paper size applies to China National Standard (CNS) A4 specification (210 X 297 mm) ~ 1 '" ~' '~ (Please read the precautions on the back before filling this page) -------- Order --------- line 518447 B7 V. Description of the invention) Thereafter, as shown in FIG. 23 (a) (a), the reel member 50A is rotated with the peeling film 2a (hook on the second projection) The state of the edge portion 51A2) is wound around the second winding shaft portion 52a2, and soon after the release of the release film 2a is completed, the next film 2 is sent in, so the film 2 starts to be wound. On the other hand, the slide motor 43b is operated by a command from the control unit 60, and the reel member 50A is retracted so that the second flange portion 51A2 is arranged on the same plane as the right flange portion 13a on the sending side. Thereby, as shown in Figs. 24 (a) and (b), the reel member 50A is wound with the film 2 on the delivery side, and the second winding shaft portion 52 is wound in a parallel state. Hereinafter, the third winding shaft portion 52A3 of the reel member 50A is also subjected to the winding process as described above. As described above, by implementing the film winding method of the present embodiment on the reel member 50A, as shown in FIGS. 25 (a) and 25 (b), the exposed portion of the release film 2a of the film 2 can be obtained from the flange. The portion 51A is wound to the state of the winding shaft portion 52A, and the film 2 is rolled around the film storage body 70A of each winding shaft portion 52A from the delivery side. Figures 27 to 30 are views showing a state in which a film is wound with another reel member according to the present invention in accordance with the film winding method of this embodiment. In this film winding method, a reel member assembly 60K (hereinafter simply referred to as "reel member 50K") is used, and a plurality of reel members 50K combined with the ninth embodiment are used. In the case of this embodiment, the film winding method itself is not different from the winding method using the reel member 50A of the first embodiment described above, and the 29 national paper standards (CNS) A4 (210 X 297) Mm) (Please read the notes on the back before filling this page) Order --------- line A7 518447 _____ B7____ V. Description of the invention (> δ) The main explanation is caused by the reel member 50K and The reel member 50A functions differently. 27, 29, and 30 correspond to 22 (a), 23 (a), and 24 (a), respectively. As shown in FIG. 27, in this embodiment, after the film 2 is wound around one winding shaft portion 52K, the film member 2 enters a guide groove 53K, and the reel member 50K itself is slid and rotated. As a result, the film 2 is brought into contact with the guide edge 54K in a state of crossing the flange portion 51K. -As shown in Figure 28, when the reel member 50K is further rotated, the contact 2c between the film 2 and the guide edge 54K will move in the direction of the first locking groove 57 & The opened portion 2d moves in the direction of the second locking groove 57K2. Further, as shown in Fig. 29, the film 2 hits the bottom of the second locking groove 57K2 and falls into the first locking groove 571, and hangs across the edges of the two flange portions 51K. Thereafter, as shown in FIG. 30, the film 2 is wound under the tension state between the first and second locking grooves 57 & and 57K2, and is wound around the next winding shaft portion 52K, and is wound in this state. Around. In addition, another embodiment of the film winding method of the present invention will be described. For example, in the present invention, from the viewpoint of preventing the film from being bent (when the film is drawn by using any of the reel members 50A to 50L of the first to tenth embodiments), the film can be At least one winding shaft portion 52 of the unwound film 2 is added between the winding shaft portion 52 and the winding shaft portion 52 of the next film to be wound, that is, one winding shaft portion 52 can be skipped to wind the film 2. 30 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) (Please read the precautions on the back before filling this page) -------- Order · ------- * A7 518447 —- ___ _B7____ 5. Description of the invention (> /) According to the structure described above, it is located at the flange portion 51 which is used to pull out the film 2 from the winding shaft portion 52 (the finished film 2), and The film 2 to be wound between the flange portions 51 of the winding shaft portion 52 (the film 2 to be wound) can be pulled at a gentle angle relative to the case where the entire winding film of the winding shaft portion 52 is wound. Around. However, this method is preferably applied to the reel member 50F of the sixth embodiment. In this case, the film 2 is pulled and wound in a state of abutting the curved surface portion in the guide groove 53F of the flange portion 51F, and is caught in the locking groove 57F (located in the other flange portion 51F (adjacent to the other winding) In the guide groove 53F of the shaft portion 52F), it is wound around the next winding shaft portion 52F. In this way, by applying the above-mentioned so-called one-hop film winding method to the reel member assembly 60F (combining a plurality of reel members 50F), as shown in FIG. 26, it is possible to obtain a film that is wound around the film 2 at a gentle angle. Container 70B 〇 On the other hand, the film winding method of other embodiments is also based on the viewpoint that the film is smoothly pulled without bending the film, and an additional spacer (for each roll on the sending side and the receiving side) can also be used. A reel member is drawn between the shaft portions to be wound. In this case, it is preferable to use a reel member 50L of the tenth embodiment shown in Fig. 12 (a) from the viewpoint of uniformizing the weight distribution. When using the reel member 50L, the timing of drawing the film, that is, the timing of sliding the winding shaft portion 52L, needs to be shifted by 90 degrees each. In addition, the film winding method of the other embodiment is applicable to the reel member 50A of the first embodiment as shown in FIG. 1 in the above-mentioned multi-segment winding system on the 1st Temple 31 I paper scale applicable to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) "-(Please read the notes on the back before filling this page)
I 1 I ! I I I I I-----I I I I — II I 518447 A7 ------ —_ B7__ 五、發明說明(>) ,亦能於第1捲繞軸部52Ai捲完接著薄膜2之階段,在送 出側之剝離薄膜2a之捲繞部分抵達第2凸緣部51 A2之導 引緣54A時,停止捲軸構件5〇A之旋轉。 該情形,在停止捲軸構件50A之旋轉後,邊將捲軸構 件50A移動於軸方向邊將剝離薄膜2a勾在第2凸緣部51 A2之導引緣54A。其後之處理,係與上述實施形態相同。 又’右將第3圖、第4圖(a) (b)或第6圖(a) (b)所示之 第2、3、5之實施形態之捲軸構件5〇b、50C或50E之任 何一種適用於上述多段捲繞系統1時,相較於第1實施形 態之捲軸構件50A,各導引槽53B、53C、53E之形狀、大 小並不相同。 因此,若使用第2、3、5之實施形態之捲軸構件50B 、50C、50E時需要變更使捲軸構件50之旋轉停止之時機。 然而,其他地方,例如,於第1捲繞軸部52捲繞完接 著薄膜2之階段,使剝離薄膜2a通過第2凸緣部51之導 引槽53移至第2捲繞軸部52後邊以其導引緣54勾掛邊進 行捲繞的方面;或,邊以第2凸緣部51之導引緣54勾掛 邊移至第2捲繞軸部52後進行捲繞的方面,係與上述實施 形態相同。 · 再者,若適用第5圖(a) (b)所示之第4實施形態之捲 軸構件50D於上述多段捲繞系統1時,因能伴隨各凸緣部 51D之旋轉以其外周緣部分使剝離薄膜2a滑動後勾在卡合 突部56D之導引緣54D,故比上述實施形態能增大捲軸構 件50D之旋轉停止時機之幅度。 32 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) 0 訂---------線 A7 518447 一一___B7 _ __ 五、發明說明(Μ ) 又,本實施形態之情形,在各凸緣部51D之卡合突部 56D之周邊使剝離薄膜2a通過,以其導引緣54D做勾掛 的方面,係與上述實施形態祖同。 再者,做爲其他實施形態之薄膜捲繞方法,將捲軸構 件50移動於軸方向時,以比捲繞捲軸構件50時之速度減 速之狀態持續旋轉亦爲可能。 該情形,捲軸構件50之旋轉速度,要考慮讓剝離薄膜 通過各凸緣部51之導引槽53的方面、將剝離薄膜2a勾在 各凸緣部51之導引槽54的方面而決定。 又,其他實施形態之薄膜捲繞方法,若使用第9圖(a) (b)或第10圖所示之第7、_第8實施形態之捲軸構件50G、 50H之任一種時,亦可於一個捲繞軸部52捲完薄膜後,使 該薄膜順沿凸緣部51之導引緣54而陷入卡止槽57來卡止 於捲繞軸部52附近。 在第7實施形態,薄膜係伴隨捲軸構件50G之旋轉而 被防脫部57G3所堵塞使其在卡止孔57G2R之動作受到拘 束,在卡止孔57G2內變更其姿態的同時以張緊抵接於卡止 孔57G2緣部分的狀態下捲繞於捲繞軸部52H。 又,在第8實施形態的情況,薄膜係伴隨捲軸構件 5〇H之旋轉受卡止槽57H之底部挾住而固定,以該固定之 部分爲起點邊保持張緊之狀態邊捲繞於捲繞軸部52H。 又,在本發明,如上述之捲軸構件50G、50H之卡止 槽57G、57H,或前述之捲軸構件50F、50K之卡止槽57F ' 57K,除將薄目吴捲繞爲多段狀時用以自動卡止凸緣部5 1 33 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ----------------------訂---------線|^^~ (請先閱讀背面之注意事項再填寫本頁) A7 518447 五、發明說明(y) 外,該等卡止槽57,在僅自動進行捲繞薄膜之製程,而以 手動進行拉繞薄膜之作業時,亦可用於將薄膜卡止於凸緣 部51。 當然,以手動拉繞薄膜時,設置於凸緣部51之導引槽 5 3,就不需要自動通過薄膜之原來機能,而僅需要當成作 業孔(例如作業者,將薄膜之前端貼附於捲繞軸部52之情 形,或將薄膜插入於卡止槽57之情形),不設置導引槽53 而僅設置卡止槽57亦足夠。 - 因此’在本發明,卡止槽57只要具有使薄膜通過凸緣 部51之廣義之共同點,則包含於導引槽53之槪念。例如 ,對捲軸構件50F、50G、50H而言,可不設置導引槽53 而僅設置卡止槽57作爲「導引槽」,對捲軸構件50K而 言,能設置包含導引槽53之形狀之卡止槽57作爲「導引 槽」。 如以上所述,根據上述實施形態,藉由將接著薄膜捲 繞於捲軸構件50之一個捲繞軸部52後,讓捲軸構件50之 旋轉停止(或減速),使捲軸構件50移動於軸方向,因在下 一個捲繞軸部52能平順地開始薄膜之捲繞,故對長條之薄 膜,能邊抑制爲接著劑不從薄膜內擠出之程度的外徑’邊 捲繞爲多段狀。 實施如上述之本實施形態之薄膜捲繞方法時’藉由使 用第1〜第10實施形態所示之捲軸構件50,能更有效地捲 繞長條化之薄膜爲多段狀。 例如,根據第1〜3、第5〜10之實施形態’因設置導引 34 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先闓讀背面之注意事項再填寫本頁) 0 訂---------線 518447 A7 五、發明說明(Η ) 槽53於各凸緣部51 f _ —咖训1 所以在一個捲繞軸部52完成薄膜之 捲繞之階段,藉由將彌 通過於導引槽53,能平順地移動 至下一個捲繞軸部52。 特別,對第1〜3、給 — 心、治 弟5之貫施形態而言,藉由在導引 槽53之緣(導引緣)幻抖 一 1掛薄_,又,對第6〜9之實施形態而I 1 I! IIII I ----- IIII — II I 518447 A7 ------ —_ B7__ 5. Description of the invention (>), can also be rolled up on the first winding shaft 52Ai and then the film 2 At this stage, when the wound portion of the release film 2a on the sending side reaches the guide edge 54A of the second flange portion 51 A2, the rotation of the reel member 50A is stopped. In this case, after the rotation of the reel member 50A is stopped, the release film 2a is hooked on the guide edge 54A of the second flange portion 51 A2 while the reel member 50A is moved in the axial direction. Subsequent processing is the same as that of the above embodiment. Also, the scroll member 50b, 50C, or 50E of the second, third, and fifth embodiments shown in FIG. 3, FIG. 4 (a) (b), or FIG. 6 (a) (b) When any one is applied to the above-mentioned multi-stage winding system 1, the shapes and sizes of the respective guide grooves 53B, 53C, and 53E are different from those of the reel member 50A of the first embodiment. Therefore, when using the reel members 50B, 50C, and 50E according to the second, third, and fifth embodiments, the timing of stopping the rotation of the reel member 50 needs to be changed. However, in other places, for example, at the stage where the first winding shaft portion 52 is wound and the film 2 is wound, the release film 2 a is moved to the rear of the second winding shaft portion 52 through the guide groove 53 of the second flange portion 51. The aspect where the guide edge 54 is wound while being hooked; or the aspect where the guide edge 54 of the second flange portion 51 is hooked while being moved to the second winding shaft portion 52 and wound, is This is the same as the above embodiment. · Furthermore, if the reel member 50D of the fourth embodiment shown in Figs. 5 (a) and (b) is applied to the above-mentioned multi-stage winding system 1, it can accompany the rotation of each flange portion 51D and its outer peripheral portion. The release film 2a is slid and hooked on the guide edge 54D of the engaging projection 56D, so that the width of the rotation stop timing of the reel member 50D can be increased compared to the above embodiment. 32 This paper size applies to China National Standard (CNS) A4 specification (210 X 297 mm) (Please read the precautions on the back before filling this page) 0 Order --------- line A7 518447 one by one_ __B7 _ __ 5. Description of the Invention (M) In addition, in the case of this embodiment, the peeling film 2a is passed around the engaging projection 56D of each flange portion 51D, and the guide edge 54D is used for hooking. It is the same as the above embodiment. Furthermore, as a film winding method according to another embodiment, when the reel member 50 is moved in the axial direction, it is also possible to continue to rotate at a reduced speed than when the reel member 50 is wound. In this case, the rotation speed of the reel member 50 is determined in consideration of passing the release film through the guide grooves 53 of the flange portions 51 and hooking the release film 2a into the guide grooves 54 of the flange portions 51. In addition, in the film winding method of another embodiment, if any of the reel members 50G and 50H of the seventh and eighth embodiments shown in FIG. 9 (a) (b) or FIG. 10 is used, it may be used. After the film is wound up by one winding shaft portion 52, the film is caused to slide along the guide edge 54 of the flange portion 51 and fall into the locking groove 57 to be locked near the winding shaft portion 52. In the seventh embodiment, the film is blocked by the detachment prevention portion 57G3 with the rotation of the reel member 50G, and the operation of the film in the locking hole 57G2R is restricted. While changing its posture in the locking hole 57G2, it is tightly contacted. It winds around the winding shaft part 52H in the state of the edge part of the locking hole 57G2. In the case of the eighth embodiment, the film is fixed by being caught by the bottom of the locking groove 57H as the reel member 50H is rotated, and the film is wound around the roll while maintaining the tensioned state with the fixed portion as a starting point. Around the shaft portion 52H. In addition, in the present invention, the locking grooves 57G and 57H of the reel members 50G and 50H described above, or the locking grooves 57F and 57K of the reel members 50F and 50K described above are used in addition to winding thin-headed Wu into a multi-stage shape. Automatic locking flange 5 1 33 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) ---------------------- Order --------- line | ^^ ~ (Please read the precautions on the back before filling in this page) A7 518447 V. Description of the invention (y) In addition, these locking grooves 57 are automatically performed only In the process of winding the film, and when manually pulling the film, the film can also be used to lock the film to the flange portion 51. Of course, when the film is manually wound, the guide groove 53 provided in the flange portion 51 does not need to automatically pass the original function of the film, but only needs to be used as a working hole (for example, an operator attaches the front end of the film to In the case of winding the shaft portion 52 or in the case where a film is inserted into the locking groove 57), it is sufficient to provide the guide groove 53 without only the locking groove 57. -Therefore, in the present invention, the locking groove 57 is included in the guide groove 53 as long as it has a broad point in common that allows the film to pass through the flange portion 51. For example, for the reel members 50F, 50G, and 50H, instead of providing the guide groove 53, only the locking groove 57 can be provided as a "guide groove". For the reel member 50K, a shape including the guide groove 53 can be provided. The locking groove 57 functions as a "guide groove". As described above, according to the above embodiment, after the adhesive film is wound around one winding shaft portion 52 of the reel member 50, the rotation of the reel member 50 is stopped (or decelerated), and the reel member 50 is moved in the axial direction. Since the winding of the film can be smoothly started at the next winding shaft portion 52, the long film can be wound into a multi-stage shape while suppressing the outer diameter to the extent that the adhesive does not squeeze out of the film. When the film winding method according to this embodiment is carried out as described above, 'by using the reel member 50 shown in the first to tenth embodiments, the long film can be wound more efficiently into a multi-stage shape. For example, according to the 1st, 3rd, and 5th to 10th implementation forms, “the paper size guide is based on the setting of 34 paper sizes, and the Chinese National Standard (CNS) A4 specification (210 X 297 mm) is applicable.” Please read the precautions on the back first. (Fill in this page) 0 Order --------- Line 518447 A7 V. Description of the invention (Η) The groove 53 is in each flange portion 51 f _-coffee training 1 So the film is completed in a winding shaft portion 52 In the winding stage, the guide can be smoothly moved to the next winding shaft portion 52 by passing the passage through the guide groove 53. In particular, for the 1st, 3rd, to-heart, and 5th brother's consistent application forms, by imaginary shaking at the edge of the guide groove 53 (lead edge), a thin __, and also for the 6th ~ The implementation form of 9
言,藉由在卡止槽57七L 卡止、勾掛薄膜,能不使薄膜鬆張而 捲/¼於下一'個捲繞軸部$ 2。 又’封在各凸緣部5丨設置導引槽53而言,亦有下列 優點:、,膜能f不從凸緣部51之外周部分擠出之方式做捲 繞,或是^如桌2、3、5、9實施形態,藉由將導引槽53 延伸至捲繞軸部52附近,又,如第7、8實施形態,藉由 將卡止槽延伸至捲繞軸部附近,可使從一個捲繞軸部52拉 繞至下一個捲k軸部2所需之薄膜(剝離薄膜)的長度縮短。 又’根據第4實施形態,由於在各凸緣部51設置卡合 突部56 ’除了能將薄膜從一個捲繞軸部52平順地移動至 下個捲’彳知軸52、或以卡合突部56勾掛薄膜的優點’ 亦有能將實施這些動作之時機做更彈性設定之優點。 又’根據第2〜9實施形態,由於使各捲軸構件50互 相結合於軸方向,故可因應薄膜之長條化之程度,來增減 捲軸構件50之結合數量,做適宜的對應。 再者,根據第1〜9實施形態,由於將各導引槽53或 各卡合突部56在凸緣部51之圓周上配置於同一位置,所 以移動薄膜於軸方向時或勾掛薄膜時,各凸緣部51之間能 以相同時機來進行。 35 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) 0In other words, by locking and hooking the film in the locking groove 577L, the film can be rolled up to ¼ of the next winding shaft portion without loosening the film. In addition, when the guide groove 53 is sealed in each flange portion 5, it also has the following advantages: 1. The film can be wound in such a way that the film can not be extruded from the outer peripheral portion of the flange portion 51, or ^ such as In the embodiments 2, 3, 5, and 9, the guide groove 53 is extended to the vicinity of the winding shaft portion 52, and as in the seventh and eighth embodiments, the locking groove is extended to the vicinity of the winding shaft portion. The length of the film (release film) required for drawing from one winding shaft portion 52 to the next k shaft portion 2 can be shortened. Furthermore, according to the fourth embodiment, since the engagement protrusions 56 are provided on each flange portion 51, the film can be smoothly moved from one winding shaft portion 52 to the next roll. The advantage of the protrusion 56 hooking the film 'also has the advantage of being able to set the timing of performing these actions more flexibly. In addition, according to the second to ninth embodiments, since the reel members 50 are coupled to each other in the axial direction, the number of the reel members 50 can be increased or decreased according to the length of the film, and appropriate responses can be made. Furthermore, according to the first to ninth embodiments, since each guide groove 53 or each engaging projection 56 is disposed at the same position on the circumference of the flange portion 51, when the film is moved in the axial direction or when the film is hooked Each flange portion 51 can be performed at the same timing. 35 This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) (Please read the precautions on the back before filling this page) 0
T 象 In HI n n 1 · n n I— an m amM9 tmtm I 518447 A7 ________B7___ 五、發明說明(处) 又,根據第6實施形態,由於使凸緣部51之厚度做相 當程度增厚,並使導引槽53內之通過薄膜之部分成爲曲面 狀,所以拉繞薄膜時能防止薄膜之折曲。 特別,對如上述之捲軸構件50,藉由使用所謂跳一個 之薄膜捲繞方法,能更有效地防止薄膜折曲。 再者,根據第6〜9實施形態,由於可在導引槽53之 導引緣54上設置卡止槽57使薄膜自動卡止於凸緣部51, 故拉繞薄膜時能防止薄膜鬆張。 — 雖然,第1〜5實施形態可藉由保持薄膜勾在導引槽53 之角落部或底部之狀態下捲繞於捲繞軸部52,來防止薄膜 鬆張’然而該情形,必須對薄膜持續賦予特定程度大小之 拉力,使薄膜不會從導引槽53之勾掛部分移動,另一方面 ’在第6〜9實施形態之情形,一旦在卡止槽57卡止薄膜, 因能使此後賦予薄膜之拉力改爲所需最小之大小,故有適 合於厚度薄之薄膜捲繞之優點。 又’根據第8、9實施形態,由於凸緣部51本身之重 心位於捲繞軸部52上,所以對在構成上包含有上述凸緣部 51之捲軸構件50,因能以均勻之轉矩使其旋轉,故能邊對 薄膜賦予所需最小拉力邊均勻捲繞。 又’捲繞薄膜於如上述捲軸構件50之薄膜收容體70 ’因全體之重心位於捲繞軸部52上而具安定性,故能對出 貨時之交貨形態做各種變化。 又’根據第10實施形態,藉由圖謀捲軸構件50L之 重量分布之均勻化,能始終以均勻之轉矩來捲繞長條薄膜 _ 36 本紙張尺/X適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) --------訂.-------* * 518447 A7 ___B7_ 五、發明說明彡) ,並且藉由邊誘導薄膜爲螺旋曲線狀邊平順地拉繞,能以 不產生折曲的方式捲繞長條之薄膜,其結果,能對顧客提 供:收容有無折曲痕跡(無廢棄部分)之薄膜的薄膜收容體 70C。 特別,該實施形態之情形,依據重量分布所決定之單 位構成數η來增加捲繞軸部52L及凸緣部51L之數量,可 在保持重量分布均勻的前提下,更增大捲繞爲多段狀之薄 月旲之長度。 - 例如,使用捲軸構件50L所能捲繞之薄膜之長度,假 設在一個捲繞軸部52L捲繞50公尺之薄膜之情形,就乘 以整數倍η於單位構成數·η(=4),成爲200Χη公尺(X表示 乘算)。 【產業上之可利用性】 .如以上所述,根據本發明,可對應於接著劑薄膜之長 條化,以不擠出接著劑之直徑來捲繞薄膜爲多段狀,又, 能獲得能適用於此用途之捲軸構件。 (請先閱讀背面之注意事項再填寫本頁) --------訂---------丨赢 37 i紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公爱^T like In HI nn 1 · nn I— an m amM9 tmtm I 518447 A7 ________B7___ V. Description of the Invention According to the sixth embodiment, since the thickness of the flange portion 51 is considerably increased, and the guide The portion passing through the film in the guide groove 53 is curved, so that the film can be prevented from being bent when the film is pulled around. In particular, for the reel member 50 as described above, by using a so-called one-up film winding method, the film can be more effectively prevented from being bent. In addition, according to the sixth to ninth embodiments, since the locking groove 57 can be provided on the guide edge 54 of the guide groove 53 to automatically lock the film to the flange portion 51, the film can be prevented from loosening when it is wound around the film. . — Although in the first to fifth embodiments, the film can be wound around the winding shaft portion 52 while the film is hooked on the corner portion or the bottom of the guide groove 53 to prevent the film from being loosened. However, in this case, the film must be Continue to give a certain degree of tension to prevent the film from moving from the hooking portion of the guide groove 53. On the other hand, in the case of the sixth to ninth embodiments, once the film is locked in the locking groove 57, Thereafter, the tensile force imparted to the film was changed to the required minimum, so it has the advantage of being suitable for thin film winding. According to the eighth and ninth embodiments, since the center of gravity of the flange portion 51 is located on the winding shaft portion 52, the reel member 50 including the flange portion 51 in the structure can be uniformly torqued. It is rotated so that the film can be evenly wound while applying the required minimum tensile force to the film. Furthermore, since the film is wound on the film storage body 70 of the reel member 50 as described above, since the center of gravity of the entire body is located on the winding shaft portion 52, it is stable, so that various changes can be made to the delivery form at the time of shipment. According to the tenth embodiment, by planning the uniformity of the weight distribution of the scroll member 50L, the long film can always be wound with a uniform torque _ 36 This paper rule / X applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) (Please read the precautions on the back before filling this page) -------- Order .------- * * 518447 A7 ___B7_ V. Description of the invention 彡), and The side-inducing film is wound in a spiral curve while being smoothly wound, and the long film can be wound without bending. As a result, it can be provided to the customer: a film with or without a trace of bending (no waste) Of the film container 70C. In particular, in the case of this embodiment, the number of the winding shaft portion 52L and the flange portion 51L is increased according to the unit configuration number η determined by the weight distribution, and the winding can be increased into multiple sections while maintaining a uniform weight distribution. The length of the thin moon. -For example, if the length of the film that can be wound by 50L of the reel member is used, and if a film of 50 meters is wound around 52L of the reel member, the unit number η (= 4) is multiplied by an integer multiple. , Becomes 200 × η meters (X stands for multiplication). [Industrial Applicability] As described above, according to the present invention, the film can be wound into a multi-stage shape in accordance with the lengthening of the adhesive film, and the film can be wound in a multi-stage shape without extruding the diameter of the adhesive. Scroll member suitable for this purpose. (Please read the precautions on the back before filling this page) -------- Order --------- 丨 Win 37 i Paper size applies to China National Standard (CNS) A4 specification (210 X 297 Public love ^