201109777 六、發明說明: 【發明所屬之技術領域】 本發明關於修復膠圖案之方法以及具有利用此方法修 復之膠圖案的基板。 【先前技術】 近來液晶顯示H與㈣顯示面板(PDPs)或場發射顯示 器(FEDS)等平祕顯示器(FPDs),因具有優於陰極射線管 (CRTs)的高可視性、比具有與液晶顯示器相同螢幕尺寸的陰 極=線管雜的平均雜轉、以及具有低紐,而成為例 如行動電話或電腦的顯示幕、電視的螢幕等下一世代顯示器 的焦點。 〜液晶顯示器包含液晶顯示面板,而液晶顯示面板包含第 〜基板與第二基板之複數基板,以及在第-基板與第二基板 ^的液晶層。在第-基板與第二基板之間形成液晶層的方 去可包含液晶注入方法與液晶滴落方法。 於液晶注入方法中,當第一基板與第二基板於真空腔室 利用密封材料彼此附接而形成液晶入口於其間時,附接的 —基板與第二基板設置於填充有液晶的容器,然後使腔室 =再是真,,而藉由第一基板及第二基板間的空間與外部空 /之間的壓差’使液晶透過液晶入口注入第一基板及第二基 板之間的空間。 方;液3曰滴洛方法中’在滴落液晶到第一基板或第二基板 <,將第一基板與第二基板彼此附接。因此,液晶滴落方法 201109777 與液晶注入方法不同,因為不額外需要在注入液晶前形成液 晶入口或在注入液晶後封閉液晶入口的程序,花在形成液晶 層的時間可減少’且可避免浪費昂貴的液晶。因此緣故,近 來使用液晶滴洛方法。 液晶滴落方法中最重要的因素是在第一基板與第二基 板之間形成具有預定液晶量的液晶層。於液晶滴落方法中, 由於液晶層要滴落的基板是附接到具有塗佈有膠而形成封 閉膠圖案於其上的基板,因此膠圖案的内面積在形成具有預 定液晶量之液晶層時變成重要的因素。 於液晶滴落方法中,使用塗佈膠到基板上的塗膠機而在 基板上形成膠圖案。塗膠機包含裝載有基板的平台、裝設有 用於射出膠之喷嘴之頭單元、以及用於支撐頭單元的頭^撐 件。當改變基板與喷嘴的相對位置時,塗膠機形成具有預定 形狀的膠圖案於基板上。 於此,習知塗膠機以線性塗佈方式將膠塗佈到基板上, 其中從開始射出膠連續地將膠塗佈到基板上一直到结束射 出膠。 '° 以線性塗佈方式將膠塗佈到基板上的程序中,為了避免 在最初形成膠的位置上塗佈面積太寬的膠,如圖i所示,最 初形成膠的位置是在開始射出膠時,當噴嘴62〇向下朝基板 (s)移動然後沿基板⑻水平移動時,喷嘴62〇開始射出膠到 基板(S) ’亦即在喷嘴620設置在基板⑹上方預定間隔之 岫,增加彳疋°貝嘴620射出的膠量直到噴嘴62〇設置在基板(s) 上方的預定間隔處。 201109777 類^地’為了避免在完成膠圖案的位置上塗佈面積太寬 拉it即如圖2所示,最終塗佈膠的位置是在結束射出膠 Γ i 3 _從基板⑻向上移誠後沿基板⑸水平移動 時逐漸減>從噴嘴620射出的膠量直到完成射出膝。 因此,在利用塗膠機的線性塗佈方式中,在開始射出膠 需要有距離(D1)而使喷嘴62〇向下朝基板⑻移動然後 >口基板(S)水平移動來增加膠量,以及在結束射出膠時必 需要有距離㈣而㈣嘴_絲板⑻向上移祕後沿基 板(s)水平移動來減少膠量。 如上所述,由於習知膠塗佈方法需要距離(〇1及D2), ^斤以問題在於塗佈膠到基板上的程序很困難又複雜尤其是 很難於形成膠圖案時使得形成在膠射出起點位置與膠射出 ,點彼此相會的部分的膠圖案線寬均勻。再者,由於上述問 題而在议疋距離(D1與D2)發生錯誤時,問題在於膠圖案的 線寬變得不均勻,因此膠圖案的内面積不良。 同時,在利用塗膠機塗佈膠的程序中,膠圖案可具有缺 陷,例如膠圖案被截斷,或膠圖案的線寬低於參考值^傳統 上為了修復膠圖案發生缺陷的修復區段’會執行重新塗佈膠 到膠圖案的修復區段的程序。 然而,傳統上即使在重新塗佈膠到修復區段的程序中還 是使用上述線性塗佈方式。於此情況下,由於修復區段必須 在根據修復區段的起點與終點資料預先設定上述距離(D〗及 D2)後重新塗佈,發生的問題在於這樣的程序非常複雜又困 難。尤其是在膠圖案的彎曲部分以及形成膠圖案時在膠射出 201109777 起點與膠射出終點彼此相會的連接部分,上述問題會變得更 嚴重。因此,當利用修復區段資料設定距離(Di及D2)的程 序發生錯誤時,膠可能重新塗佈到已適當塗佈的膠,而大大 地增加膠圖案的線寬’造成膠圖案的内面積不良。 再者,由於線性塗佈方式即使在具有膠圖案線寬低於參 考值的缺陷的修復區段上也是重新塗佈預定膠量,進一步塗 佈膠到塗有某程度線寬的膠上,而使修復的膠圖案 或超過參考值,造成膠圖案的内面積不良。 寬曰加 如上所述,於液晶滴落方法巾’在第—基板與第二基板 =間形成具有預定液晶量的液晶層,以及依據卵案的内面 =液晶層的程序’是非常重要的。然而,於線性塗佈方 圖案的方法中,膠圖案的内面積變得不良,而難以 ;成八有預定液晶量的液晶層,降低了產品的品質。 【發明内容】 因此’本發明致力於解決上述問題, 在於提供修復膠圖案的方法,其中利目的 修復區段的膠量用對絲圖案為缺陷的 圖案的線寬^持=塗佈方式塗佈膠,而使修復區段中膠 本發明之另一目 圖案的基板。 的在於提供具有利用此方法修復之膠 ,馮了達成上述目的,根據本發明之— 设膠圖案之方法包含以下步驟:決定形成於基板I之2 201109777 案是否為缺陷的;若決定膠圖案為缺陷的,則將膠圖案的缺 陷所在的區段設定為修復區段;以及以點塗佈方式滴落膠滴 到修復區段。 ' 於此,在滴落膠滴的步驟中,可根據修復區段留有的膠 量,在膠圖案之線長方向及/或在膠圖案之寬度方向,控制 滴落到修復區段的膠滴的量。 再者,可藉由改變滴落膠滴的尺寸,或可藉由改變滴落 到修復區段具有相同尺寸的膠滴的數目’來控制滴落到修 區段的膠滴的量》 ^ 再者’在滴落膠滴的步驟中,可根據修復區段留有的膠 置#在膠圖案之線長方向及/或在卵案之寬度方向, 控制滴落到修復區段的膠滴的量。 在滴落膠滴的步驟中,在膠圖案的寬度方向,膠 綠Ιίΐϊ—列或更多列。於此案例中,沿形成膠圖案之内 落的膠滴3糊的量1陳沿喊顧案之外線的列滴 膠形成膠圖案之内_顏落的_的直徑可為 膠圖案之線寬的1/2或更少。 η -却i方法可更包含以下步驟:連續地射出膠到修復區段的 。刀’而以線性塗佈方式塗佈膠到修復區段。 膠 根據本發明之另—方面,提供—種基板,包含修復的 201109777 圖案,係藉由決定形成於基板上之膠圖案是否為缺陷的;若 決定膠圖案為缺陷的,則將膠圖案的缺陷所在的區段設定為 修復區段;以及以點塗佈方式滴落膠滴到修復區段而達成。 於此,膠圖案之内線及/或外線具有預定節距的波紋形 狀。於此案例中,膠圖案之内線及/或外線的波紋形狀的節 距在膠圖案的線長方向可彼此不同,以及膠圖案之内線的波 紋形狀的節距可不同於膠圖案之外線的波紋形狀的節距。 【實施方式】 於後,參考所附圖式將詳細說明本發明較佳實施例。 如上所述,液晶顯示器包含液晶顯示面板,而液晶顯示 面板包含第一基板、第二基板、以及設置於第一基板與第二 基板之間的液晶層。液晶顯示器的製造是藉由提供第二基^ 與第二基板,塗佈膠於第一基板與第二基板其中之一上,滴 落液晶到第一基板與第二基板其中之一上,然後將第一基板 與第二基板彼此附接。於此,第一基板及第二基板任一者可 為薄膜電晶體陣列板’而另-者可為彩色濾光片基板。 在製造液晶©板期間’塗有膠的基板上形成了缺陷膠圖 案時,本發明提供修復缺陷膠圖案的方法,並提供包含利用 此方法修復之膠圖案的基板。在說明本發明較佳實施例之 前,將參考圖3至圖5定義本發明所用的用語。 如圖3所tf ’形成於基板⑸上的膠圖案⑺具有封閉四 邊形,且可具有其他形狀。構成膠g|案⑺形狀的線定義為 201109777 勝圖案(P)的線(L)’而此線(L)的寬度定義為膠圖案(p)的線寬 (W)。再者,膠圖案(P)的線(L)延伸的方向定義為膠圖案(p) 的線長方向,而決定膠圖案(P)的線寬(W)的方向定義為膠圖 案(P)的線寬方向。再者,膠圖案(P)形成為具有預定的線寬 (W),於此情況下,決定膠圖案(P)内形狀的線定義為膠圖案 (P)的内線(L1)’而決定膠圖案(P)外形狀的線定義為膠圖案(p) 的外線(L2) ^因此,膠圖案(P)的線寬(w)是由内線(L1)與外 線(L2)之間的距離所決定。再者,由内線(L1)決定的面積定 義為膠圖案(P)的内面積(A)。再者,通過膠圖案(p)的線寬(w) 的中心且平行於膠圖案(P)的線長方向的線,定義為膠圖案(p) 的中心線(CL)。再者’在整個膠圖案(P)的形狀中,膠圖案(P) 的^(L)是直線的區段定義為直線部(SL),而膠圖案(p)的線 (L)是具有預定曲率的曲線的區段定義為曲線部(rl)。再 者如圖4所示’當膠圖案(p)的線(L)是垂直截斷時,膠所 佔的面積定義為膠圖案(P)的截面積(A1)。再者,如圖5所 ^為了形成膠圖案(P)於基板⑻上,膠的塗佈始於起點 )’以預定形狀前進紐在終师P)結束,於此狀況下, 點(SP)與終點㈣彼此相會的部分定義為連接部(⑶)。 於後’將參考圖6及圖7說明根據本發明之塗膠機。 框1〇並裝*二: 膠機包含基框1G、固定於基 兩側的之平纟30、於γ轴方向設置在平台30 單元60、將複數_衣6又於頭支樓件50之側邊的複數頭 於移動頭單元6Q ⑼裝設刺支撑件5G之側邊並用 杰X軸方向的X軸驅動單元70、以及控制 201109777 之操作的控制單元(未顯 X軸驅動單元70與複數頭單元6〇 示)。 基框10可提供有第-驅動單元(未顯示),用於移動平台 30於基框1冗。的前/後方向(X軸方向),而頭支撲件5〇可提^ 有第二驅動單元59,用於沿著此對線性運動導引件4〇移動 頭支撐件50。當基板(S)具有大面積時,可提供複數頭支撐 件50 ’以改善形成膠圖案(Ρ)的效率。 =圖7所示,頭單元60包含填充有膠的注射器61、與 主射器61相通用於射出膠的喷嘴62、設置於鄰近喷嘴62 用於量測喷嘴62與基板⑻之間的間隙資料的雷射位移感測 器63、移動喷嘴62與雷射位移感測器63於γ軸方向的γ 軸驅動單元64、以及移動噴嘴62與雷射位移感測器63於ζ 軸方向的Ζ轴驅動單元65。 雷射位移感測器63包含發射雷射光的光發射部631, 以及與光發射部631相隔用於接收自基板(s)反射之雷射光 的,接收部632。雷射位移感測器63藉由輸出電訊號到控 制單元,來量測噴嘴62與基板(s)之間的間隙資料,其中電 訊號是歸因於自光發射部631發射並由基板(s)反射的雷射 光的聚焦位置。 ,再者’頭單元60可提供有截面積感測器66,用於量測 形成於基板(S)上的膠圖案的戴面積(A1)。截面積感測器 66利用連績以雷射光照射基板(S)以掃瞄膠圖案(P),而量測 膠圖案(P)的戴面積(A1)。由戴面積感測器66所量测的膠圖 案(P)的截面積(A1)資料,用於決定膠圖案是否有缺陷。 201109777 於後,將參考圖8至圖13,說明根據本發明第一實施 例利用上述塗膠機’用於修復缺陷膠圖案之修復膠圖案之方 法。 如圖8所示,根據本發明第一實施例修復膠圖案之方法 包含以下步驟:決定形成於基板上之膠圖案是否為缺陷的 (S10) ’若決定膠圖案為缺陷的,則將膠圖案的缺陷所在的 區段設定為修復區段(S20);以及以點塗佈方式滴落膠滴到 修復區段(S30)。 口決定膠圖案(P)是否為缺陷的步驟可執行成利用雷射感 測器掃描基板(s)的整個表面,以決定膠圖案(P)是否為缺陷 的’或可執行成利用相機拍攝膠圖案(p)而決定膠圖案(p)是 否截斷。於此案例中,可使用上述截面積感測器66來量測 膠圖案(P)之截面積(A1)。 之後,當以此方式量測缺陷的膠圖案(p)時,將膠圖案(p) 為缺陷的區段設定為修復區段(S2〇)。 之後,以點塗佈方式修復存在於修復區段中的缺陷膠圖 案(P)。如圖9所示,可藉由以點塗佈方式滴落膠滴(pD)到修 復區段來執行修復膠圖案的方法。為了輕易滴落膠滴(pD) 到修復區段,可提供用於控制自噴嘴62射出的膠壓之單 元,且喷嘴62可提供有切換單元,例如壓電裝置。因此, 以點塗佈方式滴落的程序可藉由控制膠壓與切換單元的開/ 關(ΟΝ/OFF)狀態來達成。 如此一來,以點塗佈方式滴落到修復區段的膠滴(pD) 201109777 可藉由黏性與表面張力,而加到先前滴到基板(s)的其他膠 滴(PD)或先前塗佈到基板(s)的膠,因此在基板(幻上形成連 續形狀的膠圖案(P)。 同時’膠滴(PD)的滴落距離可設定成使膠滴(PD)的外圍 彼此面對的程度’使膠滴(PD)彼此重疊,或使膠滴(pD)彼此 相隔預定距離。膠滴(PD)的滴落距離可依據設計條件變化地 設定,例如基板(S)與喷嘴62間的距離、當膠滴(PD)碰到基 板(S)時的力量、膠滴(pd)的黏性與表面張力、當基板(幻彼 此附接時發生的力量、基板(S)間的間隔、以及類似者。 同時,預定量的膠可留在修復區段。因此,如圖⑴所 示,可根據修復區段留有的膠量,藉由控制在膠圖案(p)之 線長方向及/或在膠圖案(P)之寬度方向滴落的膠滴量,來修 復膠圖案(P)。換言之,在膠量部分存在的修復區段滴落小 量的膠滴(PD),而在膠不存在的修復區段(即膠圖案(p)戴斷 的修復區段)’則滴落大量的膠滴(PD),藉此使膠圖案(p)的 線寬維持固定。膠滴(PD)的滴落量可如圖η所示藉由改變 滴落到修復區段的膠滴(PD)的尺寸來控制,或如圖12所示 藉由調整滴落到修復區段相同位置具有相同尺寸的膠滴(pD) 的數目來控制。藉由調整滴落到修復區段相同位置具有相同 尺寸的膠滴(PD)的數目來控制膠滴(pD)的滴落量之方法,優 勢在於可更容易調整膠圖案(p)的線寬(W),因為可調整噴嘴 62的位置而不必調整膠滴(pd)的尺寸。 如圖丨3所示,在根據本發明第一實施例修復膠圖案之 方法所修復的膠圖案(P)中’膠圖案(P)在修復區段中的内線 (L1)與外線(L2)可形成為沿膠圖案(p)的線長方向具有預定 201109777 與PT2)的波紋形狀。於此案例中,構成卵案(p) ^復區段中的内線(L1)與外線(L2)之波紋形狀的節距(ρτι 與ΡΤ2),可沿膠圖案(ρ)的線長方向規律的形成。再者,膠 圖案(Ρ)在修復區段中的内線(L1)與外線㈣之個別波紋形 狀,可相對於膠圖案(P)的中心線(CL)為對稱的。 、如上所述’根據本發明第一實施例修復膠圖案之方法可 ^點塗佈方式執行,其中膠滴(PD)透過喷嘴62祕到修復 區段。因此,相較於習知利用線性塗佈方式的方法,本方法 ^優勢在於不需要距離(m與〇2),且可避免膠圖案⑺的線 (W)變成缺陷,藉此根據預定液晶量得到膠圖案(P)的内面 積(A) 〇 再者’於根據本發明第一實施例修復膠圖案之方法中, 根據修復區段留有师4,在卵案(P)之線長方向及/或在 膠圖案(P)之寬度方向,控制膠滴(pD)的滴落量,而使膠圖案 (P)的線寬(W)維持固定。 、 於後’將參考圖14及圖15,說明根據本發明第二實施 例修復,圖案之方法^於第二實施例中’與第—實施例相同 的參考符號麵相同或類似雜件,因此省略多餘的說明。 、如圖14所示’根據本發明第二實施例修復膠圖案之方 法’可根據修復區段留有膠的位置,在膠圖案(p)之線長方 向及/或在膠_(P)之寬度方向,控娜滴(PD)滴落的位置 亦即’當膠圖案(P)的線寬(w)是低於參考值時,可知修 14 201109777 復區#又邊有某程度的膠。於此狀況下,修復區段中留有膠的 位置在膠圖案(p)之線長方向及/或在膠圖案(P)之寬度方向 y以是不規則的。因此,控制膠滴(PD)的滴落位置,而使滴 落位置對應修復區段中不規則留有膠的位置,亦即使膠滴 (PD)滴落到修復區段中膠圖案(p)具有不均勻線寬(w)而沒 有膠的部分,藉此使膠圖案(P)的線寬(W)維持固定。 ^同時’根據修復區段留有膠的位置來控制膠滴(PD)的滴 落位置的方法’可結合根據修復區段中沒有膠的空白尺寸來 控制膠滴(PD)的滴落量的方法一起使用。亦即,修復區段中 沒有膠的空白案例中,小量的膠滴(PD)可滴落到包含膠的相 對小空白’而大量的膠滴(PD)可滴落到包含膠的相對大空 白。如此一來,可基於修復區段中沒有包含膠的空白,來控 制膠滴(PD)的滴落量及/或滴落位置。於此案例中,如上所 述,可藉由改變滴落到修復區段的膠滴(PD)的尺寸(參考圖 11) ’或藉由調整滴落具有相同尺寸的膠滴到修復區段的相 同位置的次數(參考圖12),來控制膠滴(pd)的滴落量。 如圖15所示,於根據本發明第二實施例修復膠圖案之 方法所修復的膠圖案(P)中,膠圖案(P)之内線(L1)及外線(L2) 之個別波紋形狀可能相對於膠圖案(P)的中心線(CL)為不對 稱的’且構成膠圖案(P)在修復區段中之内線(L1)及外線(L2) 之波紋形狀的節距(PT3及PT4),可能沿著膠圖案(P)的線長 方向形成為不規則的。 如上所述,根據本發明第二實施例修復膠圖案之方法藉 由根據修復區段中留有的膠量及/或膠位置,而在膠圖案(P) 的線長方向及/或膠圖案(P)的寬度方向,控制膠滴(PD)的滴 201109777 落量來執行。因此,此方法的優勢在於可使修復的膠圖案(p) 的線寬〇ν)更加固定,而根據預定液晶量更精確地得到膠圖 案(P)的内面積(A)。 於後,將參考圖16至圖22,說明根據本發明第三實施 例修復膠圖案之方法。於第三實施例中,與第一及第二實施 例相同的參考符號表示相同或類似的組件,因此省略多餘的 說明。 如圖16及圖17所示,根據本發明第三實施例修復膠圖 案之方法可藉由在膠圖案(P)的寬度方向,滴落一列或更多 列的膠滴到修復區段。於此案例中’由於預定量的膠可留在 修復區段中,因此本方法亦可根據修復區段留有的膠量及/ 或膠位置,在膠圖案(P)的線長方向及/或在膠圖案(p)的寬度 方向’控制膠滴(P)的滴落量及/或滴落位置而執行。 為了在膠圖案(P)的寬度方向應用滴落兩列或更多列的 膠滴(PD)到修復區段之方法,將喷嘴62或基板(s)組態成可 移動於膠圖案(P)的寬度方向。 ^ ~ 當在膠圖案(P)的寬度方向將膠滴(PD)滴落成複數列 時’如圖16所示相對於各列膠滴(PD)滴落相同的量,以及 可如圖17所示相對於各列膠滴(PD)滴落不同的量。於圖16 所示之膠滴滴落方法所修復的膠圖案(P)中,膠圖案(p)在修 復區段中的内線(L1)及外線(L2)的個別波紋形狀可相對於膠 圖案(P)的中心線(CL)為對稱的,如圖丨8所示。然而,於圖 丨7所示之膠滴滴落方法所修復的膠圖案(p)中,膠圖案(p)在 修復區段中的内線(L1)及外線(L2)的個別波紋形狀可相對於 201109777 膠圖案(P)的中心線(CL)為不對稱的,如圖β所示 設計條件適當地選擇這些膠滴滴落方法。 χ 同時,當相對於圖17的各列,在膠圖案(ρ)的寬度方向 滴落不同量的膠滴(PD)時,滴落到形成膠圖案(ρ)之内線° 的列的膠滴(PD4)的量’可能比滴落卿成卵雜)之外線 (L2)的列的膠滴(PD3)的量還少,而使膠圖案(ρ)之内線(Li) 的波紋形狀的節距(PT4)尺寸比膠圖案(P)之外線(L2)的波紋 形狀的節距(PT3)尺寸還小。於此狀況下,如圖19所示,膠 圖案(P)之内線(L1)的波紋形狀的節距(PT4)可比膠圖案(p)之 外線(L2)的波紋形狀的節距(PT3)還窄。再者,相較於/在膠圖 案(Ρ)之寬度方向滴落一列膠滴(PD)的案例,膠圖案(ρ)之内 線(L1)的波紋形狀的節距(ΡΤ4)可更窄化,因而更精確地控制 膠圖案(Ρ)之内面積(Α)。同時,沿膠圖案(Ρ)之内線(L1)滴落 的膠滴(PD4)的直徑,可為膠圖案(ρ)要形成之線寬(w)的1/2 或更少,較佳為1/4或更少。 然而’本發明不限於上述方法。亦即,在本發明中’滴 落到形成膠圖案(P)之外線(L2)之列的膠滴(PD3)的量,可比 滴落到形成膠圖案(P)之内線(L1)的列的膠滴(PD4)的量還 少。同時’如同控制滴落膠滴(PD)的滴落量之方法,可調整 滴落到修復區段的膠滴(pD)的尺寸之方法(參考圖U),或調 整滴落具有相同尺寸的膠滴(PD)到修復區段的相同位置的 次數之方法(參考圖12)。 如同在膠圖案(P)之寬度方向滴落複數列膠滴(PD)的方 法’可使用交替滴落膠滴(PD)而使膠滴蜿蜒在膠圖案(P)的線 長方向及膠圖案(P)的寬度方向之方法(參考圖20之滴落方 201109777 向91),在維持膠圖案(P)寬度方向之間隔時,滴落膠滴(PD) 在膠圖案(P)的線長方向,然後滴落勝滴(PD)在膠圖案(p)的 線長方向已滴落的膠滴(PD)上之方法(參考圖21之滴落方向 92及圖22之滴落方向93),以及類似的方法。 於圖21及圖22所示滴落膠滴(PD)到修復區段的方法 中’如圖21所示’沿形成膠圖案(p)之外線(L2)的列滴落膠 滴(P) ’然後沿形成膠圖案(P)之内線(L1)的列滴落膠滴(P)。 然而’由於膠圖案(P)之内線(L1)是決定膠圖案(p)的内面積 (A)的重要因素’因此較佳先沿形成膠圖案(p)之内線(L1)的 列滴落膠滴(P)作為參考線’然後沿形成膠圖案之外線(L2) 的列滴落膠滴(P)。具體而言,如圖22所示,當沿形成膠圖 案(P)之内線(L1)的列滴落膠滴(pD4)的量,比沿形成膠圖案 (P)之外線(L2)的列滴落膠滴(PD3)的量還小時,沿形成膠圖 案(P)之内線(L1)的列滴落的膠滴(pD4)用於決定膠圖案(p) 之内線(L1),並容許膠滴(PD3)沿形成膠圖案(P)之外線(L2) 的列滴落,所以較佳先沿形成膠圖案(p)之内線(L1)的列滴落 的膠滴(PD4)。 於上述根據本發明第三實施例修復膠圖案之方法中,由 於在膠圖案(P)的寬度方向滴落複數列的膠滴(pD),所以相較 於在膠圖案(P)的寬度方向滴落—列膠滴(pD)時,—次滴落的 膠滴(PD)的尺寸比較小(—次滴落的膠滴(pD)的量比較小), 而可,確地調整膠圖案(p)之内線(L1)及外線(L2)的波紋形 狀的節距(PT) ’藉此更精確地調整膠圖雜)的内面積⑻。 於後’將參考圖23至圖26,說明根據本發明第四實施 例G彳又膠圖案之方法。於第四實施例中’與第一、第二、及 201109777 第二貫施例相同的參考符號表示相同或類似的組件,因此省 略多餘的說明。 如圖23所示,根據本發明第四實施例修復膠圖案之方 法可藉由以點塗佈方式滴落膠滴(PD)到基板⑶,並結合以線 性方式在改變喷嘴與基板(S)的相對位置時透過噴嘴連續射 出膠。 、、 舉例而言,如圖23所示,當修復區段的截斷部分相當 長時,大部分的截斷部分形成為膠圖案(PL),但可在修復^ 段的起點與終點附近以點塗佈方式滴落膠滴(p D)。如此一 來,由於線性塗佈方式與點塗佈方式一起使用,可降低形成 膠圖案(P)所花的時間。於此狀況下,以線性塗佈方式修復 在修復區段的截斷部分,然後在其他部分以點塗佈方式修 復;鄰近修復區段的起點及終點的部分是以點塗佈方式修 復’然後在修復區段的截斷部分是以線性塗佈方式修復;或 者鄰近修復區段的起點部分是以點塗佈方式修復,然後在修 復區段的截斷部分是以線性塗佈方式修復,然後鄰近修復區 •k的終點部分是以點塗佈方式修復。亦即,若有需要的話, 可改變以點塗佈方式修復及以線性塗佈方式修復的順序。 於由上述方法所修復的膠圖案(p)中,如圖24所示,修 復膠圖案(P)的内線(L1)及外線(L2)上部分形成波紋形狀的 節距(PT)。 再者,舉例而言,如圖25所示,當在膠圖案⑺的寬度 方向塗佈複數列膠時,可利用點塗佈方式滴落一列膠^ (PD),以及可利用線性塗佈方式塗佈另一列的膠。 201109777 於此’為了改善膠圖案(p)之内面積(A)的精確度,可應 用點塗佈方式於形成膠圖案(P)之内線(L1)的列,以及可應用 線性塗佈方式到形成膠圖案(p)之外線(L2)的列。於此狀況 下’如圖26所示’膠圖案(p)之内線(L1)可具有預定節距的 波紋形狀,而膠圖案(P)之外線(L2)可為直線。然而,本發明 不限於此。亦即,於本發明中,可應用線性塗佈方式到形成 膠圖案(P)之内線(L1)的列,以及可應用點塗佈方式到形成膠 圖案(P)之外線(L2)的列。於此狀況下,膠圖案(p)之外線(L2) 可具有預定節距的波紋形狀,而膠圖案(P)之内線(L1)可為直 線。 同時,於點塗佈方式的案例中,可根據修復區段留有的 膠量及/或位置,在膠圖案(P)之線長方向及/或在膠圖案(p) 之寬度方向控制膠滴(PD)的滴落量及/或滴落位置。、 根據本發明上述第四實施例修復膠圖案之方法的優勢 在於,由於點塗佈方式與線性塗佈方式一起使用,可得到點 塗佈方式的優點,以及可降低執行修復程序所花的時間/ 如上所述,根據本發明修復膠圖案之方法的優勢在於, 由於以點塗佈方式將膠滴(PD)滴落到修復區段,而可避免僅 使用線性塗佈方式時發生膠圖案(p)之線寬(w)增加超過參 f值之問題’以及可使修復區段中膠圖案的線寬維持固定>, 藉此得到具有對應預定液晶量之内面積的膠圖案。 如上所述,根據本發明修復膠圖案之方法的優勢在於, 以點塗佈方式塗佈對應於修復區段中之膠量的膠量,而使佟 區段令膠圖案的線寬可維持固定,藉此得到具有對應預定夜 20 201109777 晶量之内面積的膠圖案。 雖然已為例示目的揭露本發明實 知在不脖離本發明申請專利範圍所界定技藝者當 有各種不同的修改、添加、及替換。、月砷。乾疇下,可 【圖式簡單說明】 易了二二特徵以及優點’結合伴隨圖式與詳細說明將更 之程ί之1顯示習知_塗佈開始時塗_到基板上 之程序齡習知於膠塗佈結束時塗佈膠到基板上 圖3為顯示形成於基板上之膠圖案之平面圖; 圖4為沿圖3之IV4V線之膠圖案之戴面圖; 示意=;5為顯示塗佈膠而形·圖案於基板之方向範例之 圖6為顯示根據本發明之_機之透視圖; 圖7為顯示圖6之轉機之頭單元之透視圖; 圖8為根據本發明第一實施例修復膠圖案之方法之流 布壬圖; 圖/為顯示利用根據本發明第一實施例修復膠圖案之 法’膠滴從塗佈機时嘴以點塗佈方式滴落到修復區段之 狀態示意圖; 圖丨〇為顯示利用根據本發明第一實施例修復膠圖案之 法,依據修復區段上留有的膠量調整並滴落膠滴尺寸範例 201109777 的示意圖; 圖11及圖12為顯不在根據本發明第一實施例修復膠圖 ^之方法中’分別控制膠滴尺寸的方法以及控制滴落膠滴數 置的方法,以控制膠圖案線寬的示意圖; 圖13為顯示利用根據本發明第一實施例修復膠圖案之 方法’修復的膠圖案之部分放大圖; 圖14為顯示利用根據本發明第二實施例修復膠圖案之 方法’控制膠滴位置的範例而使膠滴滴落到修復區段留有的 膠之示意圖; 圖15為顯示利用根據本發明第二實施例修復膠圖案之 方法,修復的膠圖案之部分放大圖; 圖16及圖17為顯示利用根據本發明第三實施例修復膠 圖,之方法’在膠圖案的線寬方向將膠滴滴落成複數列範例 的示意圖; 圖18及圖19為顯示利用根據本發明第三實施例修復膠 圖案之方法,修復的膠圖案之部分放大圖; 圖20至圖22為顯示於根據本發明第三實施例修復膠圖 ^ ^方法中’在卵案之線長方向及線寬方向祕膠滴的範 例之示意圖; 23為顯不根據本發明第四實施例修復膠圖案之方 、、:口點塗佈方式與線性塗佈方式修復膠圖案之範例之示 思圖, 圖24為顯示利用根據本發明第四實施例修復膠圖案之 万法,修復__之部分放大圖; 圖25為顯示根據本發明第四實施例修復膠圖案之另一 祀例之示意圖;以及 22 201109777 圖26為顯示利用根據本發明第四實施例修復膠圖案之 另一方法範例,修復的膠圖案之部分放大圖。 【主要元件符號說明】 10基框 30平台 40線性運動導引件 50頭支撐件 59第二驅動單元 60頭單元 61注射器 62喷嘴 63雷射位移感測器 64 Y軸驅動單元 65 Z軸驅動單元 66截面積感測器 70 X軸驅動單元 91滴落方向 92滴落方向 93滴落方向 620噴嘴 631光發射部 632光接收部 A内面積 A]膠圖案的截面積 23 201109777 CL膠圖案的中心線 CP連接部 Dl、D2距離 EP終點 L線 L1内線 L2外線 P膠圖案 PASTE 膠 PD、PD3、PD4 膠滴 PL膠圖案 PT、PT3、PT4 節距 RL曲線部 S基板 SP起點 SL直線部 W膠圖案的線寬 S10,S20, S30 步驟 24201109777 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a method of repairing a rubber pattern and a substrate having a glue pattern repaired by the method. [Prior Art] Recently, liquid crystal displays H and (four) display panels (PDPs) or field emission displays (FEDS) and other flat display (FPDs) have higher visibility than cathode ray tubes (CRTs), and have liquid crystal displays. The same screen size of the cathode = line tube miscellaneous turns, and has a low button, which becomes the focus of next generation displays such as display screens for mobile phones or computers, television screens, and the like. The liquid crystal display comprises a liquid crystal display panel, and the liquid crystal display panel comprises a plurality of substrates of the first substrate and the second substrate, and a liquid crystal layer on the first substrate and the second substrate. The method of forming a liquid crystal layer between the first substrate and the second substrate may include a liquid crystal injection method and a liquid crystal dropping method. In the liquid crystal injection method, when the first substrate and the second substrate are attached to each other by a sealing material in the vacuum chamber to form a liquid crystal inlet therebetween, the attached substrate and the second substrate are disposed in a container filled with liquid crystal, and then The chamber is again true, and the liquid crystal is injected into the space between the first substrate and the second substrate through the liquid crystal inlet by the pressure difference between the space between the first substrate and the second substrate and the external space. In the liquid 3D dropping method, the liquid crystal is dropped onto the first substrate or the second substrate, and the first substrate and the second substrate are attached to each other. Therefore, the liquid crystal dropping method 201109777 is different from the liquid crystal injecting method, because there is no additional need to form a liquid crystal inlet before injecting the liquid crystal or a process of closing the liquid crystal inlet after injecting the liquid crystal, and the time for forming the liquid crystal layer can be reduced 'and the waste can be avoided. LCD. For this reason, the liquid crystal drop method has recently been used. The most important factor in the liquid crystal dropping method is to form a liquid crystal layer having a predetermined liquid crystal amount between the first substrate and the second substrate. In the liquid crystal dropping method, since the substrate to be dropped by the liquid crystal layer is attached to the substrate having the sealant pattern formed thereon, the inner area of the glue pattern is formed to form a liquid crystal layer having a predetermined liquid crystal amount. Time becomes an important factor. In the liquid crystal dropping method, a glue coater that applies a glue to a substrate is used to form a glue pattern on the substrate. The applicator includes a platform on which the substrate is loaded, a head unit equipped with a nozzle for ejecting the glue, and a head support for supporting the head unit. When the relative position of the substrate to the nozzle is changed, the glue applicator forms a paste pattern having a predetermined shape on the substrate. Here, the conventional applicator applies a glue to the substrate in a linear coating manner, wherein the glue is continuously applied to the substrate from the beginning of the injection of the glue until the end of the injection. '° In the procedure of applying the glue to the substrate by linear coating, in order to avoid coating the glue too wide at the position where the glue is initially formed, as shown in Fig. i, the position where the glue is initially formed is at the beginning of the injection. In the case of glue, when the nozzle 62 移动 moves downward toward the substrate (s) and then moves horizontally along the substrate (8), the nozzle 62 〇 starts to eject the glue to the substrate (S) 'that is, after the nozzle 620 is disposed at a predetermined interval above the substrate (6), The amount of glue ejected by the beak nozzle 620 is increased until the nozzle 62 is disposed at a predetermined interval above the substrate (s). 201109777 Class ^ 'To avoid the coating area too wide at the position where the glue pattern is completed, as shown in Figure 2, the final coating glue is at the end of the injection of the glue i 3 _ from the substrate (8) As the substrate (5) moves horizontally, it gradually decreases by the amount of glue ejected from the nozzle 620 until the exit of the knee is completed. Therefore, in the linear coating method using the coater, it is necessary to have a distance (D1) at the start of the injection of the glue, and the nozzle 62〇 is moved downward toward the substrate (8) and then the mouth substrate (S) is horizontally moved to increase the amount of glue. And when the glue is finished, it is necessary to have a distance (4) and (4) the mouth_silk plate (8) moves up and moves horizontally along the substrate (s) to reduce the amount of glue. As described above, since the conventional glue coating method requires distances (〇1 and D2), the problem is that the procedure of applying the glue to the substrate is difficult and complicated, especially when it is difficult to form a glue pattern to form a glue. The starting point and the glue are ejected, and the portion of the glue that meets each other has a uniform line width. Further, when an error occurs in the negotiation distance (D1 and D2) due to the above problem, the problem is that the line width of the glue pattern becomes uneven, and thus the inner area of the glue pattern is poor. Meanwhile, in the procedure of applying the glue by the applicator, the glue pattern may have defects, such as the glue pattern being cut off, or the line width of the glue pattern is lower than the reference value ^ the repair section which is conventionally used to repair the defect of the glue pattern' A procedure is performed to recoat the glue to the repair section of the glue pattern. However, the above linear coating method has conventionally been used even in the procedure of recoating the glue to the repair section. In this case, since the repair section must be recoated after the above distances (D & D and D2) are preset according to the start and end points of the repair section, the problem occurs that such a procedure is very complicated and difficult. Especially in the curved portion of the rubber pattern and the joint portion where the glue is emitted at the beginning of the 201109777 and the end point of the glue injection, the above problem becomes more serious. Therefore, when an error occurs in the procedure for setting the distance (Di and D2) using the repair section data, the glue may be reapplied to the properly applied glue, and the line width of the glue pattern is greatly increased to cause the inner area of the glue pattern. bad. Furthermore, since the linear coating method recoats the predetermined amount of glue even on the repairing section having the defect that the line width of the glue pattern is lower than the reference value, the glue is further applied to the glue coated with a certain line width, and The repaired glue pattern or the reference value is exceeded, resulting in a poor inner area of the glue pattern. Wide 曰 As described above, it is very important to form a liquid crystal layer having a predetermined liquid crystal amount between the first substrate and the second substrate in the liquid crystal dropping method towel, and a procedure according to the inner surface of the egg case = liquid crystal layer. However, in the method of linearly coating the pattern, the inner area of the glue pattern becomes poor, and it is difficult to form a liquid crystal layer having a predetermined liquid crystal amount, which lowers the quality of the product. SUMMARY OF THE INVENTION Therefore, the present invention has been made in an effort to solve the above problems, and to provide a method for repairing a rubber pattern in which a glue amount of a repairing section is coated with a line width of a pattern in which a silk pattern is defective. The glue, in the repair section, is bonded to another substrate of the present invention. According to the present invention, the method of providing a glue pattern comprises the following steps: determining whether the case formed on the substrate I 2011-09-777 is defective; if the glue pattern is determined to be If it is defective, the section where the defect of the glue pattern is located is set as the repair section; and the glue drop is dropped to the repair section by spot coating. Here, in the step of dropping the glue drops, the glue dripping to the repair section can be controlled according to the amount of glue left in the repair section, in the line length direction of the glue pattern and/or in the width direction of the glue pattern. The amount of drops. Furthermore, the amount of glue drops dripping into the repair section can be controlled by changing the size of the drip droplets, or by changing the number of drops of the same size dripping into the repair section. In the step of dropping the glue drops, the glue drops which are left in the repair section can be controlled according to the length of the glue pattern and/or the width direction of the egg case. the amount. In the step of dropping the glue drops, in the width direction of the glue pattern, the glue is green-column-column or more. In this case, the amount of the glue 3 paste along the inside of the formed rubber pattern is 1 along the line of the outer line of the glue to form a glue pattern. The diameter of the _ _ _ can be the line width of the glue pattern 1/2 or less. The η - but i method may further comprise the step of continuously ejecting the glue to the repair section. The knife is applied to the repair section in a linear coating manner. According to another aspect of the present invention, there is provided a substrate comprising a repaired 201109777 pattern by determining whether a glue pattern formed on the substrate is defective; and if the glue pattern is determined to be defective, the defect of the glue pattern is The section in which it is located is set as the repair section; and it is achieved by dropping the glue droplets to the repair section in a dot coating manner. Here, the inner and/or outer lines of the glue pattern have a corrugated shape of a predetermined pitch. In this case, the pitch of the corrugated shape of the inner line and/or the outer line of the glue pattern may be different from each other in the line length direction of the glue pattern, and the pitch of the corrugated shape of the inner line of the glue pattern may be different from the line of the outer line of the glue pattern. The pitch of the shape. [Embodiment] Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. As described above, the liquid crystal display includes a liquid crystal display panel including a first substrate, a second substrate, and a liquid crystal layer disposed between the first substrate and the second substrate. The liquid crystal display is manufactured by providing a second substrate and a second substrate, coating the glue on one of the first substrate and the second substrate, dropping the liquid crystal onto one of the first substrate and the second substrate, and then The first substrate and the second substrate are attached to each other. Here, either the first substrate or the second substrate may be a thin film transistor array plate and the other may be a color filter substrate. The present invention provides a method of repairing a defective adhesive pattern when a defective adhesive pattern is formed on a 'glue-coated substrate' during the manufacture of a liquid crystal © panel, and a substrate comprising a paste pattern repaired by the method is provided. Before explaining the preferred embodiment of the present invention, the terms used in the present invention will be defined with reference to Figs. The glue pattern (7) formed on the substrate (5) as shown in Fig. 3 has a closed quadrilateral and may have other shapes. The line constituting the shape of the glue g| case (7) is defined as the line (L)' of the 201109777 win pattern (P) and the width of the line (L) is defined as the line width (W) of the glue pattern (p). Furthermore, the direction in which the line (L) of the glue pattern (P) extends is defined as the line length direction of the glue pattern (p), and the direction in which the line width (W) of the glue pattern (P) is determined is defined as the glue pattern (P) Line width direction. Further, the glue pattern (P) is formed to have a predetermined line width (W), and in this case, the line determining the shape in the glue pattern (P) is defined as the inner line (L1)' of the glue pattern (P) and determines the glue. The line of the outer shape of the pattern (P) is defined as the outer line (L2) of the glue pattern (p). Therefore, the line width (w) of the glue pattern (P) is the distance between the inner line (L1) and the outer line (L2). Decide. Further, the area determined by the inner line (L1) is defined as the inner area (A) of the glue pattern (P). Further, a line passing through the center of the line width (w) of the glue pattern (p) and parallel to the line length direction of the glue pattern (P) is defined as the center line (CL) of the glue pattern (p). Furthermore, 'in the shape of the entire glue pattern (P), the section (^) where the glue pattern (P) is a straight line is defined as a straight line portion (SL), and the line (L) of the glue pattern (p) has A section of the curve of the predetermined curvature is defined as a curve portion (rl). Further, as shown in Fig. 4, when the line (L) of the glue pattern (p) is vertically cut, the area occupied by the glue is defined as the sectional area (A1) of the glue pattern (P). Furthermore, as shown in FIG. 5, in order to form a glue pattern (P) on the substrate (8), the application of the glue starts from the starting point) 'the advancement of the predetermined shape in the final position P), in this case, the point (SP) The portion that meets with the end point (4) is defined as the joint ((3)). Hereinafter, the glue applicator according to the present invention will be described with reference to Figs. 6 and 7. Box 1〇 and installed *2: The glue machine comprises a base frame 1G, a flat 30 fixed to both sides of the base, a platform 30 unit 60 disposed in the γ-axis direction, and a plurality of clothes 6 and a head support 50 The plurality of side heads are mounted on the side of the spur support 5G on the moving head unit 6Q (9) and the X-axis driving unit 70 in the X-axis direction, and the control unit that controls the operation of 201109777 (the X-axis driving unit 70 and the plural are not displayed) Head unit 6 is shown). The base frame 10 can be provided with a first drive unit (not shown) for the mobile platform 30 to be redundant with the base frame 1. The front/rear direction (X-axis direction), and the head support member 5, can be provided with a second driving unit 59 for moving the head support 50 along the pair of linear motion guides 4. When the substrate (S) has a large area, the plurality of head supports 50' can be provided to improve the efficiency of forming a pattern (Ρ). As shown in FIG. 7, the head unit 60 includes a syringe 61 filled with glue, a nozzle 62 communicating with the main emitter 61 for ejecting glue, and a gap 62 disposed adjacent to the nozzle 62 for measuring the gap between the nozzle 62 and the substrate (8). The laser displacement sensor 63, the moving nozzle 62 and the y-axis driving unit 64 of the laser displacement sensor 63 in the γ-axis direction, and the y-axis of the moving nozzle 62 and the laser displacement sensor 63 in the y-axis direction Drive unit 65. The laser displacement sensor 63 includes a light emitting portion 631 that emits laser light, and a receiving portion 632 that is spaced apart from the light emitting portion 631 for receiving laser light reflected from the substrate (s). The laser displacement sensor 63 measures the gap data between the nozzle 62 and the substrate (s) by outputting an electrical signal to the control unit, wherein the electrical signal is due to the emission from the light emitting portion 631 and by the substrate (s The focus position of the reflected laser light. Further, the head unit 60 may be provided with a cross-sectional area sensor 66 for measuring the wearing area (A1) of the glue pattern formed on the substrate (S). The cross-sectional area sensor 66 measures the wearing area (A1) of the adhesive pattern (P) by irradiating the substrate (S) with laser light to scan the adhesive pattern (P). The cross-sectional area (A1) of the glue pattern (P) measured by the wearing area sensor 66 is used to determine whether the glue pattern is defective. 201109777 Hereinafter, a method for repairing a repair adhesive pattern of a defective glue pattern by using the above-described rubber applicator will be described with reference to Figs. 8 to 13 in accordance with a first embodiment of the present invention. As shown in FIG. 8, a method for repairing a rubber pattern according to a first embodiment of the present invention includes the steps of: determining whether a glue pattern formed on a substrate is a defect (S10) 'If the glue pattern is determined to be defective, the glue pattern is The section in which the defect is located is set as the repair section (S20); and the glue drop is dropped to the repair section in a spot coating manner (S30). The step of determining whether the glue pattern (P) is a defect may be performed by scanning the entire surface of the substrate (s) with a laser sensor to determine whether the glue pattern (P) is defective or performing the filming of the glue using a camera The pattern (p) determines whether the glue pattern (p) is cut off. In this case, the cross-sectional area sensor 66 described above can be used to measure the cross-sectional area (A1) of the glue pattern (P). Thereafter, when the defective glue pattern (p) is measured in this manner, the section in which the glue pattern (p) is defective is set as the repair section (S2〇). Thereafter, the defective rubber pattern (P) present in the repair section is repaired by spot coating. As shown in Fig. 9, a method of repairing a rubber pattern can be performed by dropping a droplet (pD) into a repaired section by dot coating. In order to easily drop the glue drops (pD) to the repair section, a unit for controlling the pressure of the glue from the nozzle 62 may be provided, and the nozzle 62 may be provided with a switching unit such as a piezoelectric device. Therefore, the procedure of dropping by the dot coating method can be achieved by controlling the glue pressure and the on/off state of the switching unit. In this way, the droplets (pD) that are dropped into the repairing section by spot coating can be added to other droplets (PD) or previous droplets previously dropped onto the substrate (s) by viscosity and surface tension. The glue applied to the substrate (s), thus forming a continuous shape of the glue pattern (P) on the substrate. At the same time, the drop distance of the glue droplet (PD) can be set such that the periphery of the glue droplet (PD) faces each other. The degree of pairing 'make the glue droplets (PD) overlap each other or the glue drops (pD) are separated from each other by a predetermined distance. The dropping distance of the glue droplets (PD) can be set variably according to design conditions, such as the substrate (S) and the nozzle 62 The distance between the glue, the force when the glue droplet (PD) hits the substrate (S), the viscosity of the glue droplet (pd) and the surface tension, when the substrate (the force that occurs when the phantoms are attached to each other, the substrate (S) At the same time, a predetermined amount of glue can remain in the repair section. Therefore, as shown in (1), the length of the glue remaining in the repair section can be controlled by controlling the length of the line in the glue pattern (p). The direction and/or the amount of glue dripping in the width direction of the glue pattern (P) to repair the glue pattern (P). In other words, the repair section existing in the glue amount is small. The glue droplet (PD), while in the repair section where the glue does not exist (ie the glue pattern (p) wears the repair section), a large amount of glue droplets (PD) are dripped, thereby making the glue pattern (p) The line width remains fixed. The drop amount of the glue droplet (PD) can be controlled by changing the size of the glue droplet (PD) dropped to the repair section as shown in Figure η, or by adjusting as shown in Figure 12. Controlling the number of drops (pD) of the same size dropped into the same position in the repair section. Controlling the droplets (pD) by adjusting the number of drops (PD) of the same size dropped to the same position in the repair section The method of dripping amount has the advantage that the line width (W) of the glue pattern (p) can be adjusted more easily because the position of the nozzle 62 can be adjusted without having to adjust the size of the glue droplet (pd). In the glue pattern (P) repaired by the method for repairing the rubber pattern according to the first embodiment of the present invention, the inner line (L1) and the outer line (L2) of the glue pattern (P) in the repair section may be formed along the glue pattern. The line length direction of (p) has a corrugated shape of predetermined 201109777 and PT2). In this case, the corrugated shape of the inner line (L1) and the outer line (L2) in the egg (p) complex section is formed. The distance (ρτι and ΡΤ2) can be regularly formed along the line length direction of the glue pattern (ρ). Furthermore, the individual corrugations of the inner line (L1) and the outer line (4) of the glue pattern (Ρ) in the repair section can be relatively The center line (CL) of the glue pattern (P) is symmetrical. As described above, the method of repairing the glue pattern according to the first embodiment of the present invention can be performed by a dot coating method in which a glue droplet (PD) is transmitted through the nozzle 62. The repair section is secret. Therefore, compared with the conventional method of using the linear coating method, the method has the advantage that the distance (m and 〇2) is not required, and the line (W) of the glue pattern (7) can be prevented from becoming a defect. Thereby, the inner area (A) of the glue pattern (P) is obtained according to the predetermined liquid crystal amount. Further, in the method of repairing the glue pattern according to the first embodiment of the present invention, according to the repair section, there is a division 4 in the egg case ( The line length direction of P) and/or the width direction of the glue pattern (P) is controlled to control the drop amount of the glue droplet (pD), and the line width (W) of the glue pattern (P) is kept constant. Referring to FIG. 14 and FIG. 15, a method of repairing a pattern according to a second embodiment of the present invention will be described. In the second embodiment, the same reference numerals are used for the same or similar miscellaneous parts as in the first embodiment. Omit redundant instructions. As shown in FIG. 14, 'the method of repairing the rubber pattern according to the second embodiment of the present invention' may be based on the position of the glue remaining in the repair section, in the line length direction of the glue pattern (p) and/or in the glue_(P) In the width direction, the position where the drip drop (PD) drops, that is, when the line width (w) of the glue pattern (P) is lower than the reference value, it can be seen that the repaired 14 201109777 complex area # has a certain degree of glue . In this case, the position where the glue remains in the repair section is irregular in the line length direction of the glue pattern (p) and/or in the width direction y of the glue pattern (P). Therefore, the drip position of the glue droplet (PD) is controlled such that the drop position corresponds to the position where the glue is irregularly left in the repair section, and even if the glue droplet (PD) drops into the repair section (g) A portion having a non-uniform line width (w) without glue, whereby the line width (W) of the glue pattern (P) is maintained constant. ^ At the same time 'the method of controlling the drip position of the glue droplet (PD) according to the position where the glue is left in the repair section' can be combined with the drip amount of the glue droplet (PD) according to the blank size without glue in the repair section. The method is used together. That is, in the blank case where there is no glue in the repair section, a small amount of glue droplets (PD) can drip to the relatively small blank containing the glue' and a large number of glue drops (PD) can drip to the relatively large size containing the glue. blank. In this way, the drop amount and/or the drop position of the glue droplet (PD) can be controlled based on the blank containing no glue in the repair section. In this case, as described above, the size of the glue droplet (PD) dropped to the repair section can be changed (refer to FIG. 11)' or by adjusting the drop of the same size droplet to the repair section. The number of times of the same position (refer to Fig. 12) to control the amount of dripping of the glue droplet (pd). As shown in FIG. 15, in the glue pattern (P) repaired by the method for repairing a rubber pattern according to the second embodiment of the present invention, the individual corrugation shapes of the inner line (L1) and the outer line (L2) of the glue pattern (P) may be relatively The center line (CL) of the glue pattern (P) is asymmetrical 'and the pitch of the corrugated shape of the inner line (L1) and the outer line (L2) constituting the glue pattern (P) in the repair section (PT3 and PT4) It may be irregular along the line length direction of the glue pattern (P). As described above, the method of repairing a rubber pattern according to the second embodiment of the present invention is based on the line length direction and/or the glue pattern of the glue pattern (P) according to the amount of glue and/or glue remaining in the repair section. (P) in the width direction, control the drop of glue (PD) drops 201109777 to perform. Therefore, this method has an advantage in that the line width 〇ν) of the repaired rubber pattern (p) can be made more fixed, and the inner area (A) of the glue pattern (P) can be obtained more accurately according to the predetermined liquid crystal amount. Hereinafter, a method of repairing a rubber pattern according to a third embodiment of the present invention will be described with reference to Figs. 16 to 22 . In the third embodiment, the same reference numerals as those of the first and second embodiments denote the same or similar components, and thus redundant explanations are omitted. As shown in Figs. 16 and 17, the method of repairing an adhesive pattern according to the third embodiment of the present invention can drop one or more rows of glue drops to the repair section by the width direction of the glue pattern (P). In this case, 'since the predetermined amount of glue can remain in the repair section, the method can also be based on the amount of glue and/or glue remaining in the repair section, in the direction of the line length of the glue pattern (P) and / Or it is performed in the width direction of the glue pattern (p) to control the amount of dripping and/or the dropping position of the glue droplet (P). In order to apply a drop of two or more columns of glue drops (PD) to the repair section in the width direction of the glue pattern (P), the nozzle 62 or the substrate (s) is configured to be movable to the glue pattern (P) ) the width direction. ^ ~ When the glue droplets (PD) are dropped into a plurality of columns in the width direction of the glue pattern (P), as shown in Fig. 16, the same amount is dropped with respect to each column of glue drops (PD), and as shown in Fig. 17 It is shown that different amounts are dropped with respect to each column of glue droplets (PD). In the glue pattern (P) repaired by the glue drop method shown in FIG. 16, the individual corrugation shapes of the inner line (L1) and the outer line (L2) of the glue pattern (p) in the repair section may be relative to the glue pattern. The center line (CL) of (P) is symmetrical, as shown in Fig. 8. However, in the glue pattern (p) repaired by the glue drop method shown in FIG. 7, the individual corrugations of the inner line (L1) and the outer line (L2) of the glue pattern (p) in the repair section may be relatively At 201109777, the center line (CL) of the glue pattern (P) is asymmetrical, and the droplet dropping method is appropriately selected as shown in the design conditions shown in FIG. χ At the same time, when different amounts of droplets (PD) are dropped in the width direction of the glue pattern (ρ) with respect to the respective columns of FIG. 17, the drops of the droplets falling into the column forming the inner line of the glue pattern (ρ) The amount of (PD4) 'may be smaller than the number of drops (PD3) in the column of the line (L2), and the corrugated shape of the inner line (Li) of the glue pattern (ρ) The pitch (PT4) size is smaller than the pitch (PT3) of the corrugated shape of the line (L2) other than the glue pattern (P). In this case, as shown in FIG. 19, the pitch (PT4) of the corrugation shape of the inner line (L1) of the glue pattern (P) may be smaller than the pitch of the corrugation shape of the line (L2) outside the glue pattern (p) (PT3). Still narrow. Furthermore, the pitch (ΡΤ4) of the corrugated shape of the inner line (L1) of the glue pattern (ρ) can be narrower compared to the case where a row of glue drops (PD) is dropped in the width direction of the glue pattern (Ρ). Therefore, the area (Α) inside the glue pattern (Ρ) is controlled more precisely. Meanwhile, the diameter of the glue droplet (PD4) dropped along the inner line (L1) of the glue pattern (Ρ) may be 1/2 or less of the line width (w) to be formed of the glue pattern (ρ), preferably 1/4 or less. However, the present invention is not limited to the above method. That is, in the present invention, the amount of the glue droplet (PD3) dropped into the line (L2) outside the gel pattern (P) may be dropped to the column of the inner line (L1) forming the glue pattern (P). The amount of glue droplets (PD4) is still small. At the same time, as in the method of controlling the amount of dripping of the drip drop (PD), the method of measuring the size of the drip (pD) dripping into the repair section can be adjusted (refer to FIG. U), or the drip can be adjusted to have the same size. The method of the number of times the glue drops (PD) go to the same position in the repair section (refer to Figure 12). As in the method of dropping a plurality of drops (PD) in the width direction of the glue pattern (P), an alternate drop glue (PD) can be used to make the glue drop in the line length direction of the glue pattern (P) and the glue The method of the width direction of the pattern (P) (refer to the drop side of Fig. 20, 201109777 to 91), when the interval of the width direction of the glue pattern (P) is maintained, the drop of the glue (PD) in the line of the glue pattern (P) In the long direction, then drop the drop (PD) on the drip drop (PD) in the line length direction of the glue pattern (p) (refer to the drop direction 92 of FIG. 21 and the drop direction of FIG. ), and a similar approach. In the method of dropping the glue droplets (PD) to the repairing section shown in FIG. 21 and FIG. 22, 'as shown in FIG. 21', the droplets (P) are dropped along the line (L2) forming the rubber pattern (p). 'The droplets (P) are then dropped along the column forming the inner line (L1) of the glue pattern (P). However, since the inner line (L1) of the glue pattern (P) is an important factor determining the inner area (A) of the glue pattern (p), it is preferable to first drop along the column forming the inner line (L1) of the glue pattern (p). The glue drops (P) serve as reference lines 'and then drop the glue drops (P) along the line forming the outer line (L2) of the glue pattern. Specifically, as shown in FIG. 22, when the amount of drops (pD4) is dropped along the column forming the inner line (L1) of the glue pattern (P), the column is smaller than the line (L2) along the line (G2) forming the glue pattern (P). When the amount of dripping drops (PD3) is still small, the drops (pD4) dripping along the column forming the inner line (L1) of the glue pattern (P) are used to determine the inner line (L1) of the glue pattern (p), and allow The glue droplets (PD3) drip along the column forming the outer line (L2) of the glue pattern (P), so it is preferable to first drop the droplets (PD4) which are dropped along the column forming the inner line (L1) of the glue pattern (p). In the above method for repairing a rubber pattern according to the third embodiment of the present invention, since a plurality of rows of glue drops (pD) are dropped in the width direction of the glue pattern (P), compared to the width direction of the glue pattern (P) When dripping-dispersing droplets (pD), the size of the droplets (PD) is small (the amount of droplets (pD) is small), and the glue pattern can be adjusted accurately. (p) The inner diameter (8) of the corrugated shape (PT) of the inner (L1) and outer (L2) lines (by which the glue pattern is more precisely adjusted). Hereinafter, a method of G-filling a pattern according to a fourth embodiment of the present invention will be described with reference to Figs. 23 to 26. In the fourth embodiment, the same reference numerals as in the first, second, and 201109777 second embodiment denote the same or similar components, and therefore redundant description is omitted. As shown in FIG. 23, the method for repairing a rubber pattern according to the fourth embodiment of the present invention can be used to change the nozzle and the substrate (S) in a linear manner by dropping a droplet (PD) to the substrate (3) in a dot coating manner. The relative position of the glue is continuously injected through the nozzle. For example, as shown in FIG. 23, when the cut portion of the repair section is relatively long, most of the cut portion is formed into a glue pattern (PL), but may be spotted near the start point and the end point of the repair section. Drip drops (p D). In this way, since the linear coating method is used together with the dot coating method, the time taken to form the rubber pattern (P) can be reduced. In this case, the cut-off part of the repair section is repaired by linear coating, and then repaired by spot coating in other parts; the part of the start and end points of the adjacent repair section is repaired by point coating 'and then The cut-off portion of the repair section is repaired by linear coating; or the starting part of the adjacent repair section is repaired by point coating, and then the cut portion of the repair section is repaired by linear coating, and then adjacent to the repair zone. • The end portion of k is repaired by point coating. That is, if necessary, the order of repair by spot coating and repair by linear coating can be changed. In the glue pattern (p) repaired by the above method, as shown in Fig. 24, the inner line (L1) and the outer line (L2) of the repair glue pattern (P) form a corrugated pitch (PT). Further, for example, as shown in FIG. 25, when a plurality of glues are applied in the width direction of the glue pattern (7), a column of glue (PD) may be dropped by a dot coating method, and a linear coating method may be used. Apply another line of glue. 201109777 Here, in order to improve the accuracy of the area (A) within the glue pattern (p), a dot coating method can be applied to the column forming the inner line (L1) of the glue pattern (P), and a linear coating method can be applied thereto. A column of lines (L2) outside the glue pattern (p) is formed. In this case, as shown in Fig. 26, the inner line (L1) of the glue pattern (p) may have a corrugated shape of a predetermined pitch, and the line (L2) outside the glue pattern (P) may be a straight line. However, the invention is not limited thereto. That is, in the present invention, a linear coating method can be applied to the column forming the inner line (L1) of the glue pattern (P), and a column applying the dot coating method to the line (L2) forming the glue pattern (P) can be applied. . In this case, the outer line (L2) of the glue pattern (p) may have a corrugated shape of a predetermined pitch, and the inner line (L1) of the glue pattern (P) may be a straight line. At the same time, in the case of the point coating method, the glue can be controlled in the line length direction of the glue pattern (P) and/or in the width direction of the glue pattern (p) according to the amount and/or position of the glue remaining in the repair section. The amount of dripping (PD) and/or the location of the drop. An advantage of the method of repairing a rubber pattern according to the above fourth embodiment of the present invention is that, since the dot coating method is used together with the linear coating method, the advantages of the dot coating method can be obtained, and the time taken to execute the repair program can be reduced. / As described above, the method of repairing the rubber pattern according to the present invention is advantageous in that it is possible to avoid the occurrence of a glue pattern when only the linear coating method is used because the glue droplets (PD) are dropped to the repair section in a dot coating manner ( The line width (w) of p) is increased by more than the value of the reference f and the line width of the glue pattern in the repair section can be kept fixed>, thereby obtaining a glue pattern having an inner area corresponding to the predetermined liquid crystal amount. As described above, the method of repairing a rubber pattern according to the present invention is advantageous in that the amount of glue corresponding to the amount of glue in the repair section is applied in a dot coating manner, so that the line width of the glue pattern can be maintained fixed. Thereby, a glue pattern having an area corresponding to the predetermined night 20 201109777 crystal amount is obtained. Although the present invention has been disclosed for purposes of illustration, various modifications, additions and substitutions may be made without departing from the scope of the invention. , arsenic. Under the dry domain, can be [simplified description of the schema] Easy to use 22 features and advantages 'Combined with the accompanying schema and detailed description will be more ί1 Display the conventional _ coating start _ to the substrate on the program age It is known that the glue is applied to the substrate at the end of the coating. FIG. 3 is a plan view showing the rubber pattern formed on the substrate; FIG. 4 is a front view of the rubber pattern along the line IV4V of FIG. 3; FIG. 6 is a perspective view showing a head unit according to the present invention; FIG. 7 is a perspective view showing a head unit of the transfer machine of FIG. 6; The flow pattern of the method for repairing the rubber pattern of the embodiment; FIG. 2 is a view showing the method of repairing the rubber pattern according to the first embodiment of the present invention, when the glue droplet is dripped from the coater to the repairing section by point coating. FIG. 11 is a schematic diagram showing an example of using the method of repairing a rubber pattern according to the first embodiment of the present invention to adjust and drop the droplet size according to the amount of glue remaining on the repair section; FIG. 11 and FIG. It is obvious that the rubber map is repaired according to the first embodiment of the present invention. In the method of 'the method of separately controlling the size of the droplets and the method of controlling the number of drops, to control the line width of the glue pattern; FIG. 13 is a view showing the method of repairing the pattern of the glue according to the first embodiment of the present invention. a partially enlarged view of the repaired glue pattern; FIG. 14 is a schematic view showing the glue remaining in the repair section by the example of controlling the position of the glue droplet by the method of repairing the glue pattern according to the second embodiment of the present invention; Figure 15 is a partially enlarged view showing a rubber pattern repaired by the method for repairing a rubber pattern according to a second embodiment of the present invention; Figures 16 and 17 are views showing the method of repairing a rubber image according to a third embodiment of the present invention. FIG. 18 and FIG. 19 are partial enlarged views showing the glue pattern repaired by the method for repairing the rubber pattern according to the third embodiment of the present invention; FIG. 20 to FIG. 19 are schematic diagrams showing the example in which the glue line is dropped into a plurality of columns in the line width direction; FIG. FIG. 22 is a schematic view showing an example of a glue drop in the line length direction and the line width direction of the egg case according to the third embodiment of the present invention; 23 is not based on The fourth embodiment of the present invention is a schematic diagram of a method for repairing a rubber pattern, an example of a dot coating method and a linear coating method for repairing a rubber pattern, and FIG. 24 is a view showing a method for repairing a rubber pattern according to a fourth embodiment of the present invention. FIG. 25 is a schematic view showing another example of repairing a rubber pattern according to a fourth embodiment of the present invention; and 22 201109777 FIG. 26 is a view showing the use of the repairing rubber pattern according to the fourth embodiment of the present invention. Another method example is a partial enlarged view of the repaired glue pattern. [Main component symbol description] 10 base frame 30 platform 40 linear motion guide 50 head support 59 second drive unit 60 head unit 61 injector 62 nozzle 63 laser displacement sensor 64 Y-axis drive unit 65 Z-axis drive unit 66 cross-sectional area sensor 70 X-axis drive unit 91 drop direction 92 drop direction 93 drop direction 620 nozzle 631 light emission portion 632 light receiving portion A inner area A] cross-sectional area of the rubber pattern 23 201109777 CL glue pattern center Line CP connection parts D1, D2 distance EP end point L line L1 inner line L2 outer line P glue pattern PASTE glue PD, PD3, PD4 glue drop PL glue pattern PT, PT3, PT4 pitch RL curve part S substrate SP start point SL straight line W glue Line width of the pattern S10, S20, S30 Step 24