1290884 九、發明說明: 【考务明所屬^_技冬好領】 發明領域 本發明和偏光膜載體有關,特別是關於一種在檢查適 5用於LCD的偏光膜時,可以在各作業位置以維持平坦度的 狀態夾持並進行移送之載體。 L先前技術:J 發明背景 適用於LCD(Liquid Crystal Display,液晶顯示器)的偏 ίο光模有碘系、染料系、相位差、半透射(semi_transmissive) 及反射型等多樣的種類;其中,碘系偏光膜在製作具有高 透射及高偏光特性的高精細LCD用偏光膜時,係將碘應用 在透明的PVA(P〇ly Vinyl Alcohol)膜中而變成可以吸收可 見光區域的光。 15 前述偏光膜的構造大略是由TAC(Tri-Acetyl-Cellulose) 膜、黏著劑、偏光元件、黏著劑及TAC膜依序積層而構成。 為了製造具有此種構成的偏光膜而使用滾輪(r〇Uer)等,並 在利用滾輪製造偏光膜的過程中,可能會因為滾輪的摩擦 力而發生細微的刮傷(scratch”並且可能發生因pVA膜層中 20的微細變形或損傷等所造成之缺陷(kuniku)。像這樣,在於 偏光膜發生類似缺陷或刮傷等的情形中,當驅動1^〇畫面 牯,就可能發生在晝面上產生瑕疵的致命性不良情形。 【明内^^】 【發明欲解決之課題】 5 Ϊ290884 偏光膜檢查裝置係被應用以檢查有無可能會使LCD畫 面發生致命性瑕疲之偏光膜的不良狀況。偏光膜檢查裝置 係分離成對包含於偏光膜内而造成瑕疵之發生的異物或氣 /包等進行檢查之檢查作業位置。將17吋(111(:11)和19吋之類適 5用在小晝面LCD的偏光膜移送往此種偏光膜檢查裝置之各 仏查作業位置時’載體被要求要能夠在各檢查作業位置以 維持偏光膜的平坦度之狀態進行移送。 而,本發明即是為解決前述問題點而完成者,目的在 1提供-種使用偏光膜檢查裝置來檢查偏光膜有無瑕疵 T可以在各檢查作業位置以維持偏光膜的平坦度之狀態 來進行移送之偏光膜載體。 本舍明之另-目的在於提供一種可以在偏光膜檢查裝 置之各檢查作業位置以維持平坦度的狀態安全地移送偏光 ^ Μ可以在各檢查作業位置充作偏倾之檢查台的偏 15 光膜載體。 L用以解決課題的手段】 為達成此種目的’本發明之偏賴健包含有:… 夾持部,係設置在基架一側, 且/、有延長構件和第1夾頭, 而该苐一夾頭具有與前述 20 、负構件一體形成之第1下側夾 、冓件,《夾持部,係設置在基 第1滑動導軌構件、第Ρ 且具有複數個 頭及賴力調節部者,而該第 文頭§又置成可沿第1滑動導軌構件移動夕田十 m ^ η ^ ^ , 稱件移動之用來夾持偏光 、並且忒弟丨張力調節部係一曰 前沭筐1七n、, —弟丄火頭失住偏光膜就使 弟夹頭沿爾述第1滑動導執構件前/後移動以調節偏 6 1290884 光膜之平坦度者;第3夾持部,係設置在前述基架前端,且 具有複數個第2滑動導軌構件、第1移動板、第2夾頭、及第 2張力調節部,且該第1移動板可藉由前述第2滑動導執構件 導引而移動,並且該第2夾頭設置在前述第1移動板上用來 5 失持偏光膜,又,該第2張力調節部係設置在前述第2夾頭 上,且一旦前述第2夾頭夾住偏光膜就使第2夾頭前/後移 動以調節偏光膜之平坦度者;及第4夾持部,係設置在基架 後端,且具有複數個第3滑動導執構件、第2移動板及第2夾 碩,並且該第2移動板係藉由第3滑動導軌構件導引而移動 °者,而該第2夾頭設置在第2移動板上並夾持偏光膜。又, 在前述第2夾持部上設有使前述第2夾持部在第丨夾持部側 前/後移動以依照前述偏光膜的尺寸進行整列作業之第i 寬度調節部,而且在前述第3及第4夾持部的一側上設有使 前述第3及第4夾持部分別在相對向的方向上前/後移動之 15第2寬度調節部。 圖式簡單說明 【第1圖】依據本發明之偏光膜載體的立體圖。 【第2圖】第1圖所示之偏絲載體的分離組裝立體圖。 [第3圖】圖所示之第1夾持部及第2寬度調節部的 20 分離組裝立體圖。 [第4圖】$2圖戶斤示之第2夹持部的分離組裝立體圖。 [第5圖】$2圖戶斤示之第3爽持部的分離組裝立體圖。 【第6圖】第5圖所示之第2夾頭的分離組裝立體圖。 【第7圖】第6圖所不之第2上側及下側夾持構件的側面 7 1290884 圖。 【實施方式】 【發明之實施態樣】 以下將用所添附的圖式說明本發明之實施例如次。 第1圖為依據本發明之偏光膜載體的立體圖,第2圖為 第圖所示之偏光膜載體的分離組裝立體圖,第3圖為第2圖 所不之第1夾持部及第2寬度調節部的分離組裝立體圖。 卜如圖所示,本發明之偏光膜載體係由第1夾持部(110)、 第2夾持^ (12〇卜第3夾持部⑴⑺和第4爽持部(⑽)所構 10成。第1夾持部(11〇)設置在基架⑴的一側,具有延長構件 (ill)和具有與延長構件(111卜體形成之第i下側夾持構件 (17)之第1夾頭(1〇);第2夹持部(12〇)設置在基架(!)另一 側,具有複數個第1滑動導軌構件(122)、設置成可沿第工滑 動導軌構件(122)移動之用來夾持偏光膜⑺的第1夾頭 15 (10) ’和一旦第1夾頭(10)夾住偏光膜(7)就使第1夾頭(ία)沿 第1滑動導軌構件(122)前/後移動以調節偏光膜(7)之平坦 度的第1張力調節部(121);第3夾持部(130)設置在基架(1) 岫端,具有複數個第2滑動導執構件Q31)、受第2滑動導執 構件(131)所導引並移動之第1移動板(132)、設置在第1移動 20板(132)上用來夾持偏光膜(7)之第2夾頭(20),和設置在第2 爽頭(20)上,一旦第2夾頭(2〇)夾住偏光膜⑺就使第2夾頭 (20)前/後移動以調節偏光膜(7)之平坦度的第2張力調節 部(133);第4爽持部(140)設置在基架⑴後端,具有複數個 第3滑動導軌構件(141)、受第3滑動導執構件(141)導引而移 8 1290884 動之第2移動板(142)、設置在第2移動板(142)上用來夾持偏 光膜⑺之第2夾頭(20);特徵在於,使第2夾持部(12〇)在第j 夾持部(110)側前/後移動之第1寬度調節部(15〇)係設置在 第2夾持部(120)以便依照前述偏光膜(7)的尺寸進行整列作 5業,而且使第3及第4夾持部(130, 140)分別在相對向的方向 上前/後移動之第2寬度調節部(160)係設置在第3及第4失 持部(130, 140)的一側。 接著,用所添附之圖式更詳細地說明本發明之偏光臈 載體(100)的構成如次。 10 本發明之偏光膜載體(100)係如第1圖及第2圖所示,具 有第1至第4夾持部(110, 120, 130, 140)以便在夾持偏光膜(7) 之後調整張力以調節偏光膜(7)的平坦度,並具有用來進行 偏光膜⑺之整列的第1及第2寬度調節部(15〇, 160)。此處, 第2圖係第1圖所示之偏光膜載體(1〇〇)從箭頭” A”方向看去 15 的圖式。 首先’將依序說明在將偏光膜(8)更換成較大的偏光膜 (7) ’或反之將偏光膜(7)更換成較小的偏光膜時,供用於 由作業員以被動操作使第2至第4夾持部(120,130,140)在 前頭”al,a2,a3”方向進行移動整列之第1寬度調節部(15〇) 20和第2寬度調節部(160)。 第1寬度調節部(150)設置在第2夾持部(120)上以便使 第2夾持部(120)在第1夾持部(11〇)側前/後移動。設置在第 2夾持部(120)的第1寬度調節部(15〇)係如第工圖、第2圖及第 4圖所示,由第1寬度調節移動板(151)及複數個第丨鎖固構件 9 1290884 (152)組成。此處,第4圖係第2圖所示之第2夾持部(12〇)從 箭頭” B”的方向看去之圖式。 第!寬度調節部(15〇)由第度調節移動板(151)和第i 鎖固構件(152)組成,第1寬度調節移動板(151)被設置成其 5兩端可受設置在基架(1)之滑動導軌構件(未圖示出)的導引 而移動,在其兩側則於長向上形成有長孔(15叫;幻鎖固 構件(152),分別設置在長孔(151a)内。作業員為了以被動 方式將第2炎持部(120)整齊排列在偏光膜⑺而採用此種第 1覓度调節部,首先,利用第1滑動導軌構件(122)來引導第2 10夾持部(120)使其在偏光膜(7)側移動。第2夾持部(12〇) 一旦 被移動排列到偏光膜(7)側,就將第丨鎖固構件(152)鎖固在 第1寬度調節移動板(151),完成第2夾持部(12〇)之寬度調節 作業。 像這樣地在將第2夾持部(12〇)整齊排列在偏光膜(7)之 15後,用來鎖固第1寬度調節移動板(151)的第1鎖固構件(152) 係由鎖固旋鈕(152a)及鎖定塊(152b)構成。鎖固旋鈕(152a) 係以被插入形成於第1寬度調節移動板(151)上之長孔(151a) 的狀態和鎖定塊(152b)結合設置,作業員如果在該狀態下旋 動鎖固旋鈕(152a),鎖定塊(152b)就會被鎖固在第1寬度調 20節移動板(151)而完成第2夾持部(120)的寬度調節作業。第2 夾持部(120) —被整齊排列到偏光膜(7)就讓第3及第4夾持 部(130, 140)分別在相對向的方向上前/後移動而整齊排列 到偏光膜(7)。為此,第2寬度調節部(160)被設置在第3及第 4夾持部(130, 140)的一側。 1290884 第2寬度調節部(160)係如第2圖及第3圖所示,由第1及 第 2#條齒輪(rack gear 161,162)、小齒輪(pinion gear 163) 及第2鎖固構件(164)構成。 第1及第2齒條齒輪(161,162)分別被設置在第丨及第2 5 移動板(132, 142)的一側,形成分別沿著複數個第2及第3滑 動導執構件(131,141)而移動的狀態;小齒輪(163)設置在第 1及第2齒條齒輪(161,162)之間,因第1及第2齒條齒輪(161, 162)中之任一個齒輪(161, 162)的移動而轉動,使第1及第2 齒條齒輪(161,162)分別前/後移動,並調節分別設置在第1 10及第2移動板(132,142)之第3及第4夾持部(130,140)之間的 距離。 例如,作業員如果讓第1移動板沿複數個第2滑動導執 構件(131)移動,第1齒條齒輪(161)就會因該移動而移動。 小齒輪(163)因為第1齒條齒輪(161)的移動而被轉動,和小 15齒輪(163)嚙合結合之第2齒條齒輪(162)則因為小齒輪(163) 的轉動而移動,第2移動板(142)於是因為這個移動而沿著複 數個第3滑動導軌構件(141)移動,第3夾持部(13〇)和第4夾 持部(140)又因為第2移動板(142)移動而在互相靠近的方 向,或互相遠離的方向上移動。 20 第3及第4夾持部(130, 140)之間的距離係利用第丨及第 2齒條齒輪(161,162)和小齒輪(163)來作調節,一旦將偏光 膜⑺整列好,作業員就操作第2鎖固構件(164)將分別沿著 複數個第2及第3滑動導執構件(131,141)移動之第2及第3移 動板(132, 142)鎖定。為此,第2鎖固構件(164)有複數個而 11 1290884 且設置在第2及第3滑動導執構件(131,141),分別由鎖固旋 紐(164a)和鎖固夾扣(〗ocking c〗amp,i64b)構成。作業員如果 讓構成弟2鎖固構件(164)的鎖固旋紐(164a)轉動,鎖固夾扣 (164b)就會分別貼緊第2及第3滑動構件(131,141)使第1及 5第2移動板(132,〗42)鎖固,並使第3及第4夹持部(130, 140) 分別整列在偏光膜(7)的前/後側端。 第1至第4夾持部(110, 120, 130, 14〇) 一旦依照偏光膜(7) 的尺寸以第1及第2寬度調節部(15〇, 160)排列整齊後,各第1 至第4夾持部(11〇, 120, 13〇,14〇)就會夾住偏光膜(7)。 10 用來夹住偏光膜(7)的一側之第1夾持部(110)係如第2 圖及第3圖所示,由延長構件(111)和一體形成於該延長構件 (111)上之第1下側夾持構件(17)所具有的夾頭(1〇)所構成, 在整列偏光膜(7)時,夾持固定設置在基架(1)一側的偏光膜 (7)之一側形成基準。 15 用來夾持偏光膜C7)之另一側的第2夾持部(120)被設置 成和夾持偏光膜(7)的一側之第丨夾持部相對向;第2夾持部 係如第2圖及第4圖所示,設置在基架(1)之另一側,具有於 偏光膜(7)被夾住時用來調節偏光膜(7)的平坦度之第丨張力 調節部(121),並具有夾頭(1〇)及複數個第丨滑動導執構件 20 (122)。 第2夾持部(120)所具有之複數個第1滑動導軌構件(122) 分別固定設置在基架⑴上,由支樓構件(ma)、lm導轨 (Lmear Motion guide)(122b)、LM塊體(122c)及固定構件 (122d)構成,第2夾持部(120)調節偏光膜(7)的張力時,會形 12 1290884 成導引第1夾頭的情形。 為了導引設置在第2夾持部(120)的第1夾頭(1〇),支撐 構件(122a)被固定設置在基架(1),在該lm塊體(122c)上固 定結合著LM導執(122b),固定設置在LM導執(mb)之一端 5的固定構件(122d)各設於被設置在第2夾持部(120)之第工夾 頭(10)上的第1下側夾持構件(17)以導引第1夾頭(1〇)。 設置成可沿第1滑動導軌構件(122)移動之第i夾頭(10) φ 一夾住偏光膜(7),就由第1張力調節部(121)調整偏光膜(7) 的張力以調節平坦度。調節偏光膜(7)之平坦度的第i張力調 1〇郎部(121)在第1夾頭(10) 一夾住偏光膜(7)時,就使第丨夾頭 (10) 〜著複數個第1滑動導軌構件(丨22)前/後移動以調節 •偏光膜⑺的平坦度。更詳細的說明將連同第2張力調節部 (133)—同說明。 設置在夹住平坦度受到第1張力調節部之調節的偏光 15膜(7)之一侧和另一側的第1及第2夾持部(110, 12〇)上之夹 • 頭⑽係如第4圖所示,各由第1固持空壓(壓縮空氣)紅 (11) 、第1移動構件(12)、第1樞接構件(15)、第1上側夾持構 件(16)及第1下側夾持構件(17)所構成。 第1下側夾持構件被設置在第i夾持部(11〇)所具有 20之第1夾頭⑽的時候,延長構件(111 ••示於第3圖)係一體 七成.又置在第2夾持部(12〇)所具有之第J失頭(1〇)的時 候雖^和帛1,月動導執構件(m)之固定構件所設置 的點不同,但是與第1上側夾持構件(16)互相嗜合而夾住偏 光膜(7)的作用是相同的。 13 1290884 和具有如前所述之構成的第1下側夾持構件(17)嚙合而 夾住偏光膜(7)之第1上側夾持構件(16)在一側上設有具有 傾斜面(14a)的第1傾斜構件(14),複數個第1樞接構件(15) 各由支撐構件(15a)、樞軸(15b)及彈簧(15c)構成並設置在上 5 側夹持構件(16)的一側。在設置於第1上側夾持構件(16)的 第1傾斜構件(14)之傾斜面(14a)上,第1滾輪(13)被設置成可 沿傾斜面(14a)移動,第1滾輪(13)設置在第1移動構件(12) 鲁一側,第1固持空壓缸(11)設置在第1移動構件(12)另一側。 設置在第1移動構件(12) —側之第1固持空壓缸(丨丨)產 10生用來使第1移動構件(12)前/後移動之驅動力,第i移動構 件利用該驅動力而移動,從而使第1滾輪(丨3)沿著第i傾斜構 件(14)的傾斜面(14a)移動。第1滾輪(13) 一旦沿著傾斜面 U4a)前/後方向的移動,第丨上側夾持構件(16)就會以複數 個第1樞接構件(15)為中心旋動預定的角度,與第側夾持 15 構件(17)嚙合而夾住偏光膜(?)。 φ 接績分別設有透過第1上側夾持構件(16)以第1樞接構 件(15)為中心軸旋動的動作而與第丨下側夾持構件(17)嚙合 並夾住偏光膜(7)之第!夾頭(1〇)的第丨及第2夾持構件(11〇, 120)之後’分別夾住偏光膜⑺之前側和另一側的第3及第* 2〇夾持部(130, 140)的構成將詳細說明如次。 、—第3夾持部⑽)設置在基架⑴前端,由第2爽頭(2〇)、 複數個第2,月動導執構件(131)、第丄移動板⑴2)及第2張力 調節部(133)構成。 複數個第2滑動導軌構件(131)係如第2及第3 圖所示,固 14 1290884 定設置在基架⑴兩側;第!移動板⑴2)設置成受複數個第2 滑動導軌構件(131)所導引而移動的狀態;第2夾頭⑽被固 定設置在受複數個第2滑動導執構件(131)所導引而移動之 第1移動板(U2)上,構成可以夾住偏光膜⑺的狀態。為了 5在設置於第1移動板d32)的第2夾頭(20)夾住偏光膜(7)時調 整其張力以調節偏光膜(7)的平坦度,於第j移動板(132)上 設置了第2張力調節部(133)。此處,第3張力調節部(133)設 置在第3夾持部(130)之第1移動板(132)上,偏光膜(7)—被第 2夾頭(20)夾住,就會使第2夾頭(2〇)前/後移動以調節偏光 10 膜(7)的平坦度。 為能調節偏光膜(7)之平坦度,設置在和具有第2張力調 節部(133)之第3夾持部(130)相對向的方向上之第4夾持部 (140)係如第2圖所示,被設置在基架(1)的後端,夾住偏光 膜(7),由第2夾頭(20)、複數個第3滑動導軌構件(141)、第2 15移動板(142)構成。此處,複數個第3滑動導軌構件(141)固 定設置在基架(1)兩側;第2移動板(142)設置成受複數個第3 滑動導軌構件(141)所導引而移動;第2夾頭(20)被固定設置 在該第2移動板(142)形成可以夾住偏光膜(7)的狀態。 為夾住偏光膜(7),固定設置在第2移動板(142),或分 20 別設置在第1移動板(132)之第2夾頭(20)係如第6圖所示,由 第2固持空壓缸(21)、連結構件(22)、複數個夾扣(23)、第2 傾斜構件(24)、複數個第2上側夾持構件(26)及複數個第2下 側夾持構件(27)所構成。此處,第6圖係從第2圖之箭號”C,, 看過去之第2夾頭(20)的圖式。 15 1290884 構成第2夾頭(20)之複數個夾扣(23)以樞軸(23d)將具有 傾斜面(24a)之第2傾斜構件(24)結合設置於内側,並將第2 傾斜構件(24)之上側和該内側上面以第1彈性構件(23a)予 以連結設置,固定構件(23c)和第2彈性構件(23b)則設置在 5 另一側。在複數個夾扣(23)的内側設有樞軸(23d),第2傾斜 構件(24)之傾斜面(24a)上則分別設有第2滾輪(22a),該第2 滾輪(22a)又分別被設置到連結構件(22)的兩側端,並在連 結構件(22)的底面上設有第2固持空壓缸(21)。 驅動力從設置在連結構件(22)的底面之第2固持空壓缸 10 (21)產生時,第2滾輪(22a)就藉著該驅動力而沿傾斜面(24a) 移動,透過該移動使得固定設置在第2傾斜構件(24)的一側 之複數個第2上側夾持構件(26)僅移動預定距離(ηι :圖示於 第7圖),而且複數個第2上側夾持構件(26)因為該移動而與 複數個第2下側夾持構件(27)互相嗜合夾住偏光膜(?)。 15 第2夾頭(20)所具有之複數個第2上側夾持構件(26) — 旦與複數個第2下側夾持構件(27)互相嚙合而夾住偏光膜 (7),就以第4圖及第5圖所示之第i及第2張力調節部(121, 133)來調整偏光膜(7)的張力以調節平坦度。 調整偏光膜(7)之張力以調節平坦度之第丨張力調節部 20 (121)會调整偏光膜⑺之長邊方向的張力,而為了調整偏光 膜⑺之長邊方向的張力係如第4圖所示地,由第说力調節 空壓缸(121a)、第1張力調節移動構件(mb)及第说力調節 連結構件(121c)所構成。 第1張力調節空壓㈣21a)會產生用來使第⑼力調節 16 1290884 移動構件(12lb)前/後移動的驅動力,第说力調節移動構 件()利用該驅動力在前/後方向上移動,從而使得第工 張力調節連結構件(121c)在前/後方向上移動。第i張力調 節連結構件(121c)被設置於第i夾持部(12〇)之第汀側夹持 5構件(17)’係設置成在第i夾頭⑽受到第说力調節空壓缸 (121a)的驅動而沿著複數個第丨滑動導執構件(122)前/後 移動時,會調整被第i爽頭⑽夾住之偏光膜⑺的張力以調 節平坦度。 一旦在偏光膜(7)的長邊方向上進行平坦度的調整,就 1〇要同時調節豸光膜⑺的短邊方向之平坦度。在此,於調節 偏光膜⑺之長邊或短邊方向的張力時,偏光載體_ :圖 示於第2圖)之驅動控制係採用控制裝置(未圖示出)而可以 在調節長邊方向的平坦度時同時調節短邊方向的平坦度, 也可以在調節長邊方向的平坦度後,調節短邊方向的平坦 15 度。 調整偏光膜(7)之短邊方向的張力以調節平坦度之第2 張力調節部(133)係如第5圖所示,由複數個第2張力調節空 壓缸(133a)、複數個第2張力調節移動構件(133b)、第2張力 移動板(133e)及複數個第2張力調節導引構件(133f)構成。 10 複數個第2張力調節空壓缸(133a)分別被設置在第2張 力調節移動構件(133b)之一側,產生使複數個第2張力調節 移動構件(133b)前/後移動之驅動力,複數個第2張力調節 移動構件(133b)被設置成利用該驅動力來作移動 。為此,複 數個第2張力調節移動構件(133b)係設置在第2張力調節移 17 1290884 動板(133e)上,分別受複數個第2張力調節導引構件(133f) 所導引而前/後移動。 導引第2張力調節移動板(I33e)之第2張力調節導引構 件(133f)固定設置在第丨移動板(132)上;第2張力調節移動板 5 (133e)利用複數個第2張力調節空壓缸(133a)在前/後移動 期間作導引;第2夾頭(20)之第2下側夾持構件(27)被固定設 置或一體形成在第2張力調節移動板(i33e),以便形成第2 張力調節移動板(133e)前/後移動的期間,第2夾頭(2〇)同 時地前/後移動,對被夾住的偏光膜(7)之張力進行調整以 10 調節平坦度的狀態。 此處,導引棒(133c)(未說明)及彈簧(133(1)係設置在第2 張力調節移動構件(133b)上,而第1圖及第2圖中雖然有示出 惟並未加以說明之電磁閥組件(solenoid valve assembiy)⑶ 則設置在基架(1)上側。然後,在在基架(1)的一側和另一側 15分別設有當偏光膜載體(1〇〇)移動到偏光膜檢查裝置(未圖 示出)的檢查作業位置時,用來使之固定在各檢查作業位 置,或者將外部實用工具(utility)供給給偏光膜載體(1〇〇)之 鉤夾(hooking)構件(4)或空壓耦合器(3),底面上則設有在偏 光膜載體(1〇〇)移動時,設置在偏光膜檢查裝置的傳輸器 20 (transfer)(未圖示出)上之多數個移動塊⑵。 如前所述之本發明的偏光膜載體(100)之作用將說明如 次。 首先,在第1圖所示之偏光膜(8)被安裝到偏光膜載體 (100)的狀態下要更換成比偏光膜(8)大的偏光膜(7)時,作業 18 1290884 員使用第1及第2见度调郎部(15〇, 160)被動地將第2至第4夾 持部(120, 130, 140)沿箭號”al,a2, a3”方向移動實施整列操 作。 例如,在本發明之偏光膜載體(1〇〇)中要更換成比偏光 5膜⑻大的偏光膜⑺時,作業員會先用第1寬度調節部 (150),並以固定設置在基架上的第丨夾持部(11〇)為基準 使第2夾持部前/後移動,將第2夹持部(12〇)整齊排列到偏 光膜(7)的一側,再用第2寬度調節部(16〇)使第3及第4夾持 部(130, 140)在彼此相對向的方向上前/後移動而將第3及 10第4夾持部(13〇, 140)整齊排列到偏光膜(7)。 作業員用第1及第2寬度調節部(15〇,16〇)將第2至第4 夾持部(120, 130, 140)整齊排列成和所更換的偏光膜(乃相 配後,就以控制偏光膜載體(100)的控制裝置(未圖示出)自 動控制第1至第4夾持部(11〇,12〇,130,14〇)所分別具有的 15第1及第2夾頭(10, 20)來夾住偏光膜(7),然後由控制裝置控 制第1及第2張力調節部(121,133)來調節偏光膜(7)之長邊 及短邊方向的平坦度。 利用第2至第4夾持部(12〇, 130, 14〇)來調節偏光膜(?) 的平坦度時,可以調節到±〇.5mm以内,如第7圖所示,第j 2〇夾頭(10:圖示於第4圖)及第2夾頭(20:圖示於第6圖)所分 別具有之第1及第2上側夾持構件(16, 26)與第丨及第2下側夾 持構件(17, 27)互相嚙合而夾住偏光膜(7)時,第丨及第2上側 失持構件(16, 26)可以在只比第丨及第2下側夾持構件(17, 2乃 更為突出預定距離(nl)的狀態下夾住偏光膜(7),第1及第2 19 1290884 上側失持構件(H⑽所突出的預定距離⑽在〇至〇 5 mm以 内。 第1及第2上側夾持構件(16, 26)及第i及第2下侧夾持 構件(17, 27)夾住偏光膜⑺時,夾住的間隔㈣是從偏光膜 5 (7)的邊緣起夾住2·0至2.5mm,這是要以除了使偏光膜(7) 2損失最小化之外,同時可以防止偏光膜⑺彎曲之儘可能 最大的範圍纟夾持。另外,為了使第以頭⑽及第2炎頭(2〇) φ 的夾持動作所造成之損失最小化,第1及第2上側夾持構件 (16· 26)和第i及第2下側夾持構件(17, 27)可以在其表面上 10塗布無光澤的白色橡膠材質和無光澤的白色塑膠材質中之 任一種以增加摩擦力藉以更安定地進行夾持作業。 — 像這樣,當使用偏光膜檢查裝置來檢查偏光膜有無瑕 疵時,就可以在偏光膜載體上以維持偏光膜之平坦度的狀 態進行夾持作業,然後安全且迅速地移送到各檢查作業位 15置,而且因為利用各檢查作業位置來提供偏光膜檢查台的 φ 功能,所以可以改善偏光膜之檢查作業的生產性。、 【發明的效果】 如上所述,本發明之偏光膜載體所提供的優點是,檢 查偏光膜有無瑕疵時,可以在偏光膜載體上以維持偏光膜 2〇之平坦度的狀態進行夾持作業,然後安全且迅速地移送到 各檢查作業位置,而且因為利用各檢查作業位置來提供偏 光膜檢查台的功能’所以可以改善偏光膜之檢查作業的生 產性。 C圖式簡單說明3 20 1290884 【第1圖】依據本發明之偏光膜載體的立體圖。 【第2圖】第1圖所示之偏光膜載體的分離組裝立體圖。 【第3圖】第2圖所示之第1夾持部及第2寬度調節部的 分離組裝立體圖。 5 【第4圖】第2圖所示之第2夾持部的分離組裝立體圖。 【第5圖】第2圖所示之第3夾持部的分離組裝立體圖。 【第6圖】第5圖所示之第2夾頭的分離組裝立體圖。 【第7圖】第6圖所示之第2上側及下側夾持構件的側面 圖。 10 【主要元件符號說明】 1…基架 15a…支撐構件 2…移動塊 15b…樞軸 3···空壓耦合器 15c…彈簧 4…釣夾構件 16…第1上側夾持構件 5···電磁閥組件 17…第1下側夾持構件 7…偏光膜 20···第2夾頭 8…偏光膜 21···第2固持空壓缸 10…第1夾頭 22···連結構件 11…第1固持空壓缸 22a…第2滾輪 12…第1移動構件 23…夾扣 13…第1滾輪 23a…第1彈性構件 14…第1傾斜構件 23b…第2彈性構件 14a···傾斜面 23c…固定構件 15…第1樞接構件 23d…極轴 21 12908841290884 IX. Description of the invention: [Technical Field] The present invention relates to a polarizing film carrier, and more particularly to a polarizing film for use in an LCD, which can be used at each working position. The carrier that holds and transfers the state while maintaining the flatness. L Prior Art: J Background of the Invention Applicable to LCD (Liquid Crystal Display), the optical mode has various types such as iodine, dye, phase difference, semi-transmissive and reflective type; When a polarizing film for a high-definition LCD having high transmission and high polarization characteristics is produced, a polarizing film is applied to a transparent PVA (P〇ly Vinyl Alcohol) film to absorb light in a visible light region. 15 The structure of the polarizing film is roughly composed of a TAC (Tri-Acetyl-Cellulose) film, an adhesive, a polarizing element, an adhesive, and a TAC film. In order to manufacture a polarizing film having such a configuration, a roller (r〇Uer) or the like is used, and in the process of manufacturing a polarizing film using a roller, a slight scratch may occur due to the frictional force of the roller and may occur. A defect caused by micro-deformation or damage of the pVA film layer (such as kuniku). In this case, in the case where the polarizing film is similar to a defect or a scratch, etc., when the image is driven, it may occur in the kneading surface. A fatal flaw occurs in the sputum. [Minge ^^] [The subject of the invention] 5 Ϊ 290884 The polarizing film inspection device is applied to check the presence or absence of a polarizing film that may cause fatal fatigue on the LCD screen. The polarizing film inspection device separates the inspection work position for inspecting foreign matter or gas/package which is caused by the occurrence of flaws in the polarizing film. 17 吋 (111 (: 11) and 19 吋 are suitable for 5 When the polarizing film of the small-faced LCD is transferred to each inspection position of the polarizing film inspection apparatus, the carrier is required to be able to maintain the flatness of the polarizing film at each inspection operation position. However, the present invention has been made to solve the above problems, and the object of the present invention is to provide a state in which a polarizing film inspection device is used to check whether or not a polarizing film is present, and a flatness of a polarizing film can be maintained at each inspection operation position. The polarizing film carrier for transfer is provided. Another object of the present invention is to provide a method for safely transferring polarized light in a state where the flatness is maintained at each inspection work position of the polarizing film inspection device, and can be tilted at each inspection work position. The 15th film carrier of the inspection table. L means for solving the problem] To achieve this purpose, the bias of the present invention includes: ... the clamping portion is provided on the side of the base frame, and/or An extension member and a first chuck, wherein the first chuck has a first lower clamp and a tongue formed integrally with the 20 and the negative member, and the clamping portion is provided on the first sliding guide member and the third member. And having a plurality of heads and a control unit, and the head § is further arranged to move along the first sliding rail member to Xitian ten m ^ η ^ ^ , the movement of the workpiece is used to clamp the polarized light, and the tension of the younger brother Tune The department is in front of the basket and the seventeenth, and the younger brother's fire head loses the polarizing film, so that the younger colleague moves along the front/rear of the first sliding guide member to adjust the flatness of the 6 1290884 light film. The third clamping portion is provided at the front end of the base frame, and includes a plurality of second sliding rail members, a first moving plate, a second chuck, and a second tension adjusting portion, and the first moving plate can be borrowed Guided by the second sliding guide member, the second chuck is disposed on the first moving plate for 5 to lose the polarizing film, and the second tension adjusting portion is disposed in the second clip a head, and once the second chuck clamps the polarizing film, the second chuck is moved forward/backward to adjust the flatness of the polarizing film; and the fourth clamping portion is disposed at the rear end of the pedestal and has a plurality of The third sliding guide member, the second moving plate, and the second clamping plate, and the second moving plate is guided by the third sliding rail member to move, and the second chuck is disposed in the second movement The polarizing film is clamped on the board. Further, the second nip portion is provided with an i-th width adjusting portion that moves the front and rear portions of the second nip portion on the second nip portion side to perform the alignment operation in accordance with the size of the polarizing film, and One of the third and fourth holding portions is provided with a first width adjusting portion that moves the front and rear portions of the third and fourth holding portions in the opposing directions. BRIEF DESCRIPTION OF THE DRAWINGS [Fig. 1] A perspective view of a polarizing film carrier according to the present invention. [Fig. 2] A perspective view showing the separation and assembly of the partial strand carrier shown in Fig. 1. [Fig. 3] A perspective view showing the separation of the first holding portion and the second width adjusting portion shown in Fig. 3 . [Fig. 4] A perspective view showing the separation and assembly of the second holding portion of the $2 figure. [Fig. 5] A perspective view of the separation and assembly of the third cool holding portion of $2. [Fig. 6] A perspective view showing the separation and assembly of the second chuck shown in Fig. 5. [Fig. 7] Fig. 6 is a side view of the second upper side and the lower side holding member 7 1290884. [Embodiment] [Embodiment of the Invention] The embodiment of the present invention will be described below with reference to the attached drawings. 1 is a perspective view of a polarizing film carrier according to the present invention, FIG. 2 is a perspective view showing a separation and assembly of the polarizing film carrier shown in FIG. 3, and FIG. 3 is a first clamping portion and a second width which are not shown in FIG. A perspective view of the separation and assembly of the adjustment unit. As shown in the figure, the polarizing film carrier of the present invention is composed of a first holding portion (110), a second holding portion (12), a third holding portion (1) (7), and a fourth holding portion ((10)). The first holding portion (11〇) is provided on one side of the base frame (1), and has an extension member (ill) and a first member having an i-side lower side clamping member (17) formed by the extension member (111). a chuck (1〇); a second clamping portion (12〇) disposed on the other side of the base frame (!), having a plurality of first sliding rail members (122) disposed along the sliding guide rail member (122) Moving the first chuck 15 (10) ' for holding the polarizing film (7) and placing the first chuck (ία) along the first sliding rail once the first chuck (10) sandwiches the polarizing film (7) a first tension adjusting portion (121) that moves forward/backward of the member (122) to adjust the flatness of the polarizing film (7); and a third clamping portion (130) is disposed at the end of the base frame (1), and has a plurality of 2 sliding guide member Q31), a first moving plate (132) guided and moved by the second sliding guide member (131), and a first moving plate (132) for clamping the polarizing film ( 7) The 2nd collet (20), and the 2nd cool head (20), once the 2nd a second tension adjusting portion (133) that moves the front surface of the second chuck (20) to adjust the flatness of the polarizing film (7) by sandwiching the polarizing film (7); the fourth holding portion (133) 140) is disposed at a rear end of the base frame (1), has a plurality of third sliding rail members (141), is guided by the third sliding guide member (141), and moves the second moving plate (142) to be moved by 8 1290884, and is disposed at a second chuck (20) for holding the polarizing film (7) on the second moving plate (142); characterized in that the second holding portion (12A) is placed on the front side of the j-th clamping portion (110) The first width adjusting portion (15) that is moved is provided in the second holding portion (120) so as to be arranged in accordance with the size of the polarizing film (7), and the third and fourth holding portions (130) are provided. 140) The second width adjusting portion (160) that moves forward/backward in the opposing direction is provided on one side of the third and fourth missing portions (130, 140). Next, the attached figure is used. The configuration of the polarizing iridium carrier (100) of the present invention will be described in more detail. The polarizing film carrier (100) of the present invention has the first to fourth holding portions as shown in Figs. 1 and 2 . (110, 120, 130, 140) to hold the polarized light (7) Thereafter, the tension is adjusted to adjust the flatness of the polarizing film (7), and the first and second width adjusting portions (15A, 160) for aligning the polarizing film (7) are provided. Here, the second drawing is The polarizing film carrier (1〇〇) shown in Fig. 1 looks at the pattern of 15 from the direction of arrow "A". First, the description will be made to replace the polarizing film (8) with a large polarizing film (7). 'Or vice versa when replacing the polarizing film (7) with a small polarizing film, for the passive operation of the second to fourth clamping portions (120, 130, 140) by the operator at the front "al, a2, a3" The direction moves the first width adjustment unit (15〇) 20 and the second width adjustment unit (160). The first width adjusting portion (150) is provided on the second holding portion (120) so as to move the second holding portion (120) forward/backward on the first holding portion (11〇) side. The first width adjusting portion (15) provided in the second holding portion (120) is as shown in the first drawing, the second drawing, and the fourth drawing, and the first width adjusting moving plate (151) and the plurality of丨Locking member 9 1290884 (152). Here, Fig. 4 is a view of the second holding portion (12〇) shown in Fig. 2 as seen from the direction of the arrow "B". The first! The width adjusting portion (15〇) is composed of a first adjustment moving plate (151) and an i-th locking member (152), and the first width adjusting moving plate (151) is disposed such that both ends thereof can be disposed on the base frame ( 1) The sliding guide member (not shown) is guided to move, and on both sides, a long hole is formed in the long direction (15; the magic lock member (152) is respectively disposed in the long hole (151a) In order to passively arrange the second illuminating portion (120) in the polarizing film (7), the operator adopts the first illuminating unit, and first guides the second sliding member (122). The clamping portion (120) moves on the side of the polarizing film (7). The second clamping portion (12〇) locks the third locking member (152) once it is moved to the side of the polarizing film (7). The first width adjustment moving plate (151) is fixed to the width adjustment operation of the second holding portion (12〇). The second holding portion (12〇) is aligned in the polarizing film (7). After 15, the first locking member (152) for locking the first width adjusting moving plate (151) is composed of a locking knob (152a) and a locking block (152b). The locking knob (152a) is Insert formation The state of the long hole (151a) on the first width adjusting moving plate (151) is combined with the locking block (152b), and if the operator rotates the locking knob (152a) in this state, the locking block (152b) will be The width adjustment operation of the second holding portion (120) is completed by being locked to the first width-adjusting 20-section moving plate (151). The second holding portion (120) is aligned to the polarizing film (7). The third and fourth holding portions (130, 140) are moved forward/backward in the opposing direction and aligned to the polarizing film (7). For this purpose, the second width adjusting portion (160) is set at the third position. And one side of the fourth clamping portion (130, 140). 1290884 The second width adjusting portion (160) is the first and second # gears (rack gear 161, as shown in Figs. 2 and 3). 162), a pinion gear (163) and a second lock member (164). The first and second rack gears (161, 162) are respectively disposed on the second and second moving plates (132, 142) One side is formed to move along a plurality of second and third sliding guide members (131, 141); the pinion (163) is disposed in the first and second rack gears (161, 162) Between the 1st and 2nd racks The gears (161, 162) of any one of the wheels (161, 162) are rotated to move the first and second rack gears (161, 162) forward/rear, respectively, and the adjustments are respectively set at the 1st 10th and The distance between the third and fourth holding portions (130, 140) of the second moving plate (132, 142). For example, if the operator moves the first moving plate along the plurality of second sliding guide members (131), the first rack gear (161) moves due to the movement. The pinion gear (163) is rotated by the movement of the first rack gear (161), and the second rack gear (162) meshing with the small 15 gear (163) is moved by the rotation of the pinion gear (163). The second moving plate (142) is moved along the plurality of third sliding rail members (141) by this movement, and the third holding portion (13〇) and the fourth holding portion (140) are again because of the second moving plate. (142) Moving to move in a direction close to each other, or in a direction away from each other. 20 The distance between the third and fourth clamping portions (130, 140) is adjusted by the second and second rack gears (161, 162) and the pinion gear (163), once the polarizing film (7) is aligned. The operator locks the second and third moving plates (132, 142) that move along the plurality of second and third sliding guide members (131, 141) by operating the second lock member (164). To this end, the second locking member (164) has a plurality of 11 1290884 and is disposed on the second and third sliding guide members (131, 141), respectively, by a locking knob (164a) and a locking clip ( 〗 〖ocking c amp, i64b). When the operator rotates the lock knob (164a) that constitutes the lock member (164) of the brother 2, the lock clip (164b) is in close contact with the second and third slide members (131, 141) to make the first And the 5th moving plate (132, 42) is locked, and the 3rd and 4th clamping parts (130, 140) are respectively arranged in the front/rear side end of the polarizing film (7). The first to fourth holding portions (110, 120, 130, 14) are aligned in the first and second width adjusting portions (15〇, 160) according to the size of the polarizing film (7), and each of the first to the first The fourth holding portion (11〇, 120, 13〇, 14〇) sandwiches the polarizing film (7). The first holding portion (110) for sandwiching the side of the polarizing film (7) is formed by the extension member (111) and the extension member (111) as shown in Figs. 2 and 3, respectively. The upper first lower sandwiching member (17) is constituted by a chuck (1), and when the polarizing film (7) is aligned, the polarizing film (7) provided on the side of the base frame (1) is sandwiched and fixed (7). One side forms a reference. 15, the second clamping portion (120) for holding the other side of the polarizing film C7) is disposed to face the second clamping portion of the side on which the polarizing film (7) is sandwiched; the second clamping portion As shown in Fig. 2 and Fig. 4, it is disposed on the other side of the pedestal (1) and has a third tension for adjusting the flatness of the polarizing film (7) when the polarizing film (7) is clamped. The adjusting portion (121) has a collet (1) and a plurality of second sliding guide members 20 (122). The plurality of first slide rail members (122) included in the second clamping portion (120) are fixedly disposed on the base frame (1), and are supported by a branch member (ma), a lm guide (Lbear Motion guide) (122b), The LM block (122c) and the fixing member (122d) are configured. When the second holding portion (120) adjusts the tension of the polarizing film (7), the 12,290,884 shape is guided to guide the first chuck. In order to guide the first chuck (1) provided in the second clamping portion (120), the support member (122a) is fixedly disposed on the base frame (1), and is fixedly coupled to the lm block (122c). The LM guide (122b), the fixing members (122d) fixedly disposed at one end 5 of the LM guide (mb) are each provided on the first collet (10) of the second clamping portion (120). 1 Lower clamping member (17) to guide the first chuck (1). The first chuck (10) φ, which is movable along the first slide rail member (122), sandwiches the polarizing film (7), and the tension of the polarizing film (7) is adjusted by the first tension adjusting portion (121). Adjust the flatness. The ith tension adjustment 1121 adjusting the flatness of the polarizing film (7) causes the third chuck (10) to be held when the polarizing film (7) is sandwiched by the first chuck (10). A plurality of first slide rail members (丨22) are moved forward/backward to adjust the flatness of the polarizing film (7). A more detailed description will be given together with the second tension adjusting unit (133). The clip head (10) is placed on the first and second holding portions (110, 12〇) on one side of the polarizing film 15 (7) whose flatness is adjusted by the first tension adjusting portion and on the other side. As shown in Fig. 4, each of the first holding air pressure (compressed air) red (11), the first moving member (12), the first pivoting member (15), and the first upper holding member (16) The first lower sandwiching member (17) is configured. When the first lower holding member is provided in the first chuck (10) of the ith holding portion (11), the extension member (111 • • shown in Fig. 3) is integrated into seven. In the case of the J-throw (1〇) of the second holding portion (12〇), the point of the fixing member of the lunar guiding member (m) is different from that of the first one, but the first one is different from the first one. The function of the upper sandwiching members (16) to be intimate with each other and to sandwich the polarizing film (7) is the same. 13 1290884 The first upper side sandwiching member (16) which is engaged with the first lower side holding member (17) having the above-described configuration and sandwiches the polarizing film (7) is provided with an inclined surface on one side ( The first inclined member (14) of 14a), the plurality of first pivoting members (15) are each composed of a support member (15a), a pivot (15b), and a spring (15c) and are disposed on the upper 5 side clamping member ( 16) on one side. The first roller (13) is provided to be movable along the inclined surface (14a) on the inclined surface (14a) of the first inclined member (14) provided on the first upper sandwiching member (16), and the first roller ( 13) The first holding air cylinder (11) is provided on the other side of the first moving member (12). The first holding air cylinder (1) on the side of the first moving member (12) produces a driving force for moving the first moving member (12) forward/backward, and the i-th moving member uses the driving. The force moves to move the first roller (丨3) along the inclined surface (14a) of the i-th inclined member (14). When the first roller (13) moves in the front/rear direction along the inclined surface U4a), the second upper clamping member (16) is rotated by a predetermined angle around a plurality of first pivoting members (15). Engages with the first side clamping member 15 (17) to sandwich the polarizing film (?). Each of the φ outputs is provided by the first upper side sandwiching member (16) being rotated by the first pivoting member (15) as a central axis, and is engaged with the second lower holding member (17) and sandwiching the polarizing film. (7) The first! The third and second clamping members (130, 140) of the front side and the other side of the polarizing film (7) are respectively sandwiched between the second and second holding members (11, 120) of the chuck (1). The composition of the ) will be explained in detail as follows. - the third clamping portion (10) is provided at the front end of the base frame (1), and is composed of a second cooling head (2 inches), a plurality of second, moon moving guide members (131), a second moving plate (1) 2), and a second tension. The adjustment unit (133) is configured. The plurality of second sliding rail members (131) are as shown in the second and third figures, and the solid 14 1290884 is set on both sides of the base frame (1); The moving plate (1) 2) is disposed in a state of being guided by a plurality of second sliding guide members (131); the second chuck (10) is fixedly disposed by a plurality of second sliding guide members (131) The moving first moving plate (U2) is configured to be able to sandwich the polarizing film (7). In order to adjust the tension of the polarizing film (7) when the second chuck (20) provided on the first moving plate d32) sandwiches the polarizing film (7), the j-moving plate (132) is adjusted on the jth moving plate (132). The second tension adjusting unit (133) is provided. Here, the third tension adjusting portion (133) is provided on the first moving plate (132) of the third holding portion (130), and the polarizing film (7) is sandwiched by the second chuck (20). The front/back of the second chuck (2 turns) is moved to adjust the flatness of the polarizing film 10 (7). In order to adjust the flatness of the polarizing film (7), the fourth holding portion (140) provided in a direction facing the third holding portion (130) having the second tension adjusting portion (133) is as described above. 2 is shown at the rear end of the base frame (1), sandwiching the polarizing film (7), the second chuck (20), the plurality of third sliding rail members (141), and the 2nd 15th moving plate. (142) Constitution. Here, a plurality of third sliding rail members (141) are fixedly disposed on both sides of the base frame (1); and the second moving plate (142) is disposed to be guided by a plurality of third sliding rail members (141) to move; The second chuck (20) is fixedly disposed on the second moving plate (142) to form a state in which the polarizing film (7) can be sandwiched. In order to clamp the polarizing film (7), the second moving plate (142) is fixedly disposed, or the second chuck (20) provided in the first moving plate (132) is as shown in Fig. 6, The second holding air cylinder (21), the connecting member (22), the plurality of clips (23), the second inclined member (24), the plurality of second upper holding members (26), and the plurality of second lower sides The clamping member (27) is constructed. Here, Fig. 6 is a view of the second chuck (20) from the arrow "C" of Fig. 2. 15 1290884 A plurality of clips (23) constituting the second chuck (20) The second inclined member (24) having the inclined surface (24a) is coupled to the inner side by a pivot (23d), and the upper side of the second inclined member (24) and the inner upper surface are provided by the first elastic member (23a). The connecting arrangement, the fixing member (23c) and the second elastic member (23b) are disposed on the other side of the 5. The pivot (23d) is provided inside the plurality of clips (23), and the second inclined member (24) is provided A second roller (22a) is respectively disposed on the inclined surface (24a), and the second roller (22a) is respectively disposed at both side ends of the connecting member (22), and is disposed on the bottom surface of the connecting member (22). There is a second holding air cylinder (21). When the driving force is generated from the second holding air cylinder 10 (21) provided on the bottom surface of the connecting member (22), the second roller (22a) is driven by the driving force. Moving along the inclined surface (24a), the plurality of second upper clamping members (26) fixedly disposed on one side of the second inclined member (24) are moved by a predetermined distance only by the movement (ηι: shown in Fig. 7 ), and a plurality of the second The holding member (26) is in contact with the plurality of second lower sandwiching members (27) by the movement of the polarizing film (?). 15 The second chuck (20) has a plurality of second upper sides The holding member (26) is engaged with the plurality of second lower holding members (27) to sandwich the polarizing film (7), and the i-th and second tensions shown in Figs. 4 and 5 are used. The adjusting portion (121, 133) adjusts the tension of the polarizing film (7) to adjust the flatness. The tension adjusting portion 20 (121) which adjusts the tension of the polarizing film (7) to adjust the flatness adjusts the length of the polarizing film (7). In order to adjust the tension in the longitudinal direction of the polarizing film (7), as shown in Fig. 4, the first force adjustment air cylinder (121a), the first tension adjustment moving member (mb), and the The force adjustment coupling member (121c) is formed. The first tension adjustment air pressure (four) 21a) generates a driving force for moving the (9) force adjustment 16 1290884 moving member (12lb) forward/rear movement, and the first force adjustment moving member () The driving force is used to move in the front/rear direction, thereby causing the first tension adjusting joint member (121c) to move in the front/rear direction. The joint connecting member (121c) is disposed on the first side of the i-th clamping portion (12〇), and the clamping member 5 (17) is disposed to receive the first force regulating air cylinder (121a) in the i-th chuck (10). When the driving is moved forward/backward along the plurality of second sliding guide members (122), the tension of the polarizing film (7) sandwiched by the ith head (10) is adjusted to adjust the flatness. Once in the polarizing film (7) The flatness is adjusted in the longitudinal direction, and the flatness of the short side direction of the calender film (7) is adjusted at the same time. Here, when adjusting the tension in the long side or the short side direction of the polarizing film (7), the driving control system of the polarizing carrier _: shown in FIG. 2) is controlled by a control device (not shown) and can be adjusted in the longitudinal direction. At the same time, the flatness of the short side direction is adjusted at the same time, and the flatness of the short side direction can be adjusted by 15 degrees after adjusting the flatness in the long side direction. The second tension adjusting unit (133) for adjusting the tension in the short-side direction of the polarizing film (7) to adjust the flatness is as shown in Fig. 5, and the plurality of second tension adjusting cylinders (133a) and a plurality of The tension adjusting moving member (133b), the second tension moving plate (133e), and the plurality of second tension adjusting guide members (133f) are configured. Each of the plurality of second tension adjustment air cylinders (133a) is provided on one side of the second tension adjustment moving member (133b), and a driving force for moving the front/rear of the plurality of second tension adjustment moving members (133b) is generated. A plurality of second tension adjustment moving members (133b) are provided to be moved by the driving force. To this end, a plurality of second tension adjusting moving members (133b) are provided on the second tension adjusting movement 17 1290884 moving plate (133e), respectively, guided by a plurality of second tension adjusting guiding members (133f) / After moving. The second tension adjustment guide member (133f) for guiding the second tension adjustment moving plate (I33e) is fixedly disposed on the second moving plate (132); and the second tension adjusting moving plate 5 (133e) is provided with a plurality of second tensions The adjustment air cylinder (133a) is guided during the front/rear movement; the second lower side clamping member (27) of the second chuck (20) is fixedly disposed or integrally formed on the second tension adjustment moving plate (i33e) During the movement of the front/rear movement of the second tension adjustment moving plate (133e), the second chuck (2〇) moves forward/backward simultaneously, and the tension of the sandwiched polarizing film (7) is adjusted. 10 Adjust the state of the flatness. Here, the guide bar (133c) (not illustrated) and the spring (133(1) are provided on the second tension adjustment moving member (133b), and although not shown in FIGS. 1 and 2, The solenoid valve assembiy (3) is disposed on the upper side of the base frame (1). Then, on one side and the other side 15 of the base frame (1), a polarizing film carrier (1〇〇) is provided. When moving to the inspection work position of the polarizing film inspection device (not shown), it is used to fix it at each inspection work position, or to supply an external utility to the polarizing film carrier (1〇〇) a hooking member (4) or a pneumatic coupler (3), and a bottom surface is provided with a transporter 20 (transfer) disposed on the polarizing film inspection device when the polarizing film carrier (1〇〇) moves (not shown) A plurality of moving blocks (2) are shown. The role of the polarizing film carrier (100) of the present invention as described above will be explained as follows. First, the polarizing film (8) shown in Fig. 1 is mounted to polarized light. When the film carrier (100) is replaced with a polarizing film (7) larger than the polarizing film (8), the work 18 1290884 uses the first and The second visibility lang (15 〇, 160) passively moves the second to fourth nips (120, 130, 140) in the direction of the arrow "al, a2, a3" to perform the entire column operation. For example, When the polarizing film carrier (1) of the present invention is replaced with a polarizing film (7) larger than the polarizing film 5 (8), the operator first uses the first width adjusting portion (150) and is fixedly disposed on the pedestal. The second clamping portion is moved forward/backward based on the second clamping portion (11〇), and the second clamping portion (12〇) is aligned on one side of the polarizing film (7), and the second width is adjusted. The third and fourth holding portions (130, 140) move forward/backward in the direction in which they face each other, and the third and tenth fourth holding portions (13〇, 140) are aligned to the same. The polarizing film (7). The operator arranges the second to fourth holding portions (120, 130, 140) in alignment with the replaced polarizing film by the first and second width adjusting portions (15, 16). After matching, the first to fourth clamping portions (11〇, 12〇, 130, 14〇) respectively are automatically controlled by a control device (not shown) that controls the polarizing film carrier (100). 1 and 2nd collet (10, 20) to clamp the polarizing film (7) Then, the first and second tension adjusting units (121, 133) are controlled by the control device to adjust the flatness in the long side and the short side direction of the polarizing film (7). The second to fourth holding portions (12, 130) , 14〇) to adjust the flatness of the polarizing film (?), can be adjusted to within ± 〇 5mm, as shown in Figure 7, the j 2 〇 chuck (10: Figure 4) and The first and second upper clamping members (16, 26) respectively of the 2 collet (20: shown in Fig. 6) are in mesh with the second and second lower clamping members (17, 27). When the polarizing film (7) is sandwiched, the second and second upper-side holding members (16, 26) can be protruded only by the predetermined distance (nl) from the second and second lower holding members (17, 2). The polarizing film (7) is sandwiched in the state, and the predetermined distance (10) at which the upper-side holding member (H(10) protrudes from the first and second 19 12940884 is within 〇5 mm. When the first and second upper sandwiching members (16, 26) and the i-th and second lower sandwiching members (17, 27) sandwich the polarizing film (7), the interval (four) that is sandwiched is from the polarizing film 5 (7). The edge is sandwiched by 2·0 to 2.5 mm, in order to minimize the loss of the polarizing film (7) 2, and at the same time prevent the polarizing film (7) from being bent as much as possible. In addition, in order to minimize the loss caused by the clamping operation of the first head (10) and the second head (2) φ, the first and second upper holding members (16·26) and the i and second The side holding members (17, 27) may be coated on the surface 10 with any one of a matt white rubber material and a matt white plastic material to increase the frictional force for more stable clamping work. — In this way, when the polarizing film inspection device is used to check the presence or absence of flaws in the polarizing film, the clamping operation can be performed on the polarizing film carrier while maintaining the flatness of the polarizing film, and then safely and quickly transferred to each inspection work position. Since the φ function of the polarizing film inspection table is provided by using each inspection work position, the productivity of the inspection operation of the polarizing film can be improved. [Effects of the Invention] As described above, the polarizing film carrier of the present invention provides the advantage of being able to perform the clamping operation on the polarizing film carrier while maintaining the flatness of the polarizing film 2 when the polarizing film is inspected for flaws. Then, it is safely and quickly transferred to each inspection work position, and since the function of the polarizing film inspection table is provided by using each inspection work position, the productivity of the inspection operation of the polarizing film can be improved. Brief Description of Drawing C 3 20 1290884 [Fig. 1] A perspective view of a polarizing film carrier according to the present invention. [Fig. 2] A perspective view showing the separation and assembly of the polarizing film carrier shown in Fig. 1. Fig. 3 is a perspective view showing the separation and assembly of the first holding portion and the second width adjusting portion shown in Fig. 2; 5 [Fig. 4] A perspective view showing the separation and assembly of the second holding portion shown in Fig. 2. Fig. 5 is a perspective view showing the separation and assembly of the third holding portion shown in Fig. 2; [Fig. 6] A perspective view showing the separation and assembly of the second chuck shown in Fig. 5. Fig. 7 is a side view showing the second upper and lower sandwiching members shown in Fig. 6. 10 [Description of main component symbols] 1...Base frame 15a...Support member 2...Moving block 15b...Pivot 3··Air compressor coupler 15c...Spring 4... Fishing clip member 16...First upper grip member 5·· - Solenoid valve unit 17 ... first lower side sandwiching member 7 ... polarizing film 20 · · 2nd chuck 8 ... polarizing film 21 · · 2nd holding cylinder 10... 1st chuck 22 · · · Link Member 11...first holding air cylinder 22a...second roller 12...first moving member 23...clip 13...first roller 23a...first elastic member 14...first inclined member 23b...second elastic member 14a·· Inclined surface 23c...fixing member 15...first pivoting member 23d...polar axis 21 1290884
24…第2傾斜構件 24a…傾斜面 26…第2上側夾持構件 27…第2下側夾持構件 100…偏光膜載體 110···第1夾持部 111···延長構件 120…第2夾持部 121···第1張力調節部 121a…第1張力調節空壓缸 121b…第1張力調節移動構件 121c···第1張力調節連結構件 122· ··第1滑動導執構件 122a···支撐構件 122b…LM導軌 122c…LM塊體 122d···固定構件 130···第3夾持部 131···第2滑動導軌構件 132···第1移動板 133…第2張力調節部 133a…第2張力調節空壓缸 13 3 b…第2張力調節移動構件 133c…導引棒 133d…彈簧 133e…第2張力移動板 133f…第2張力調節導引構件 140···第4夾持部 141···第3滑動導執構件 142···第2移動板 150···第1寬度調節部 151···第1寬度調節移動板 151a…長孔 152···第1鎖固構件 152a…鎖固旋紐 152b…鎖定塊 160…第2寬度調節部 161,162···第卜第2條齒輪 163···小#輪 164…第2鎖固構件 164a···鎖固旋紐 164b…鎖固夾扣 2224...second inclined member 24a...inclined surface 26...second upper sandwiching member 27...second lower sandwiching member 100...polarizing film carrier 110··first holding portion 111···extension member 120... 2 gripping portion 121···1st tension adjusting unit 121a...first tension adjusting air cylinder 121b...first tension adjusting moving member 121c···first tension adjusting connecting member 122···1st sliding guide member 122a···support member 122b...LM guide 122c...LM block 122d···fixing member 130···third holding unit 131···second slide rail member 132···first moving plate 133... 2 tension adjusting unit 133a... second tension adjusting air cylinder 13 3 b... second tension adjusting moving member 133c... guiding rod 133d... spring 133e... second tension moving plate 133f... second tension adjusting guiding member 140·· Fourth holding portion 141 ···3rd sliding guide member 142···2nd moving plate 150···1st width adjusting unit 151···1st width adjusting moving plate 151a...long hole 152·· The first locking member 152a...the locking knob 152b...the locking block 160...the second width adjusting portion 161,162···the second gear 163···small# The second locking knob lock member 164a ··· locking clip 164b ... 22