M361643 五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種加壓脫泡設備,且特別是有關於 一種可在線(in-line)化的加壓脫泡設備及應用其之生產 系統。 【先前技術】 請參照第1圖,其繪示一種傳統加壓脫泡設備的示意 圖。如第1圖所示,傳統加壓脫泡設備100包括槽體111、 門蓋112、承載台113及伸展機構114。承載台113可用以 承載液晶匣C,液晶匣C可用以放置複數張液晶面板P。 承載台113係連接於門蓋112,且伸展機構114係用以開 閤門蓋112,以帶動承載台113移動。另外,視加壓脫泡 設備100之容量或是液晶匣C之尺寸,承載台113可承載 液晶匣C之數量為一個或一個以上液晶匣。但是,隨著加 壓脫泡設備之容量的增加,在進行加壓脫泡製程時所須之 工時亦會隨之增加。 在傳統上製造液晶面板之過程中,液晶面板在偏光片 貼附其上後往往會有氣泡存留,故會對此等液晶面板進行 加壓脫泡,以去除存留的氣泡。其中,液晶面板在進行偏 光片貼附之後會送至倉儲設備中存放,等待排程以進行加 壓脫泡製程。因此,在對液晶面板進行加壓脫泡製程時, 是從先倉儲設備中取出載有欲脫泡面板之液晶匣,並經過 運送機構運送到加壓脫泡設備,以進行加壓脫泡製程,比 ,M3.61643 如為第1圖之加壓脫泡設備100。之後,在液晶面板完成 加壓脫泡後,係從加壓脫泡設備中取出載有已脫泡面板之 液晶匣,並經過運送機構運送到倉儲設備中存放,以等待 下一個製程之排程。 然而,在大量生產之工廠中,生產線繁多且液晶面板 之尺寸及品種複雜,各種尺寸及品種之液晶面板進行加壓 •脫泡之製程參數也不盡相同。所以,儲存在倉儲設備中的 - 液晶面板往往會存放一段很長的時間,才能輪到加壓脫泡 • 設備的排程。並且,製程參數的調變往往是產品良率的主 要因素’再加上液晶面板存放於倉儲設備之時間過長,亦 必須去注意及維持產品良率。此外,由於現行的生產製程 中須要大量倉儲設備,而倉儲設備有佔地大、造價高等缺 點,使企業投入之設備成本過高。因此,如何降低生產工 時、精進生產效率、解決上述窘境,是目前業界亟欲達成 之目標。 ® 【新型内容】 本創作係有關於一種可在線(in-line )化的加壓脫泡 設備及應用其之生產系統,使加壓脫泡設備可與前製程設 . 備及後製程設備直接接執,以有效地節省物流時間、減少 倉儲設備之負擔,來縮短生產工時並增加產品良率,使生 產線更趨完善,更可以降低企業投入之設備成本。 本創作提出一種加壓脫泡設備,其用以對放置於一個 液晶匣(cassette)中之複數張欲脫泡面板進行一加壓脫泡 5 M361643 製程,以製造出複數張已脫泡面板。加壓脫泡設備包括— 進料部、-加麼脫泡部、一出料部及一雙向輸送機構。此 進料部位在加壓脫泡設備之—前段,並包括有數個進料 口此些進料口分別用以容置一個液晶厘。加壓脫泡部位 在加壓脫泡設備之-中段,並包括有—供料口、一加壓脫 泡槽及-供料機構,此供料口用以容置一個液晶匣,此加 麼脫泡槽具有-門蓋及與門蓋連接之—承載台,此供料機 構係用以在供料σ與承載台之料遞液晶g。此出料部位 在加壓脫泡設備之-後段,並包財數個出料口,此些出 料口分別用以容置一個液晶匣。雙向輸送機構係用以在此 些進料口與供料口之間傳遞液晶匣,並用以在此些出料口 與供料口之間傳遞液晶匣。 本創作提出一種液晶面板之生產系統,其包括一第一 製程設備、一加壓脫泡設備及一第二製程設備。此第一製 程設備係製造出複數張欲脫泡面板。此加壓脫泡設備係承 接由第一製程設備傳遞而來之此些欲脫泡面板於一個液 晶匣中,並對放置於液晶匣中之此些欲脫泡面板進行一加 壓脫泡製程,以製造出複數張已脫泡面板。此第二製程設 備係承接由加壓脫泡設備傳遞而來之此些已脫泡面板。其 中,此加壓脫泡設備例如為上述之加壓脫泡設備。 本創作提出一種液晶面板之生產系統,其包括一第一 製程設備、一加壓脫泡設備及一第二製程設備。此第一製 程設備係製造出複數張欲脫泡面板。此加壓脫泡設備係承 接由第一製程設備傳遞而來之此些欲脫泡面板於一個液 晶E中’並對放置於液晶匣中之此些欲脫泡面板進行一加 M361643 i : 壓脫泡製程,以製造出複數張已脫泡面板。此第二製程設 備係承接由加壓脫泡設備運送而來之液晶匣。其中,此加 壓脫泡設備例如為上述之加壓脫泡設備。 本創作提出一種液晶面板之生產系統,其包括一第一 製程設備、一加壓脫泡設備及一第二製程設備。此第一製 程設備,製造出複數張欲脫泡面板,此些欲脫泡面板係放 •置於一液晶匣中。此加壓脫泡設備係承接由第一製程設備 、 運送而來之液晶匣,並對放置於液晶匣中之此些欲脫泡面 • 板進行一加壓脫泡製程,以製造出複數張已脫泡面板。此 第二製程設備,承接由加壓脫泡設備傳遞而來之此些已脫 泡面板。其中,此加壓脫泡設備例如為上述之加壓脫泡設 備。 為讓本創作之上述内容能更明顯易懂,下文特舉一較 佳實施例,並配合所附圖式,作詳細說明如下: 【實施方式】 ® 請參照第2A〜2B圖,第2A圖繪示依照本創作一較佳 實施例之加壓脫泡設備的俯視圖,第2B圖繪示依照本創 作一較佳實施例之加壓脫泡設備的侧視圖。本實施例之加 . 壓脫泡設備200係用以對放置於液晶匣中之欲脫泡面板進 行加壓脫泡製程,以製造出複數張已脫泡面板。 加壓脫泡設備200包括加壓脫泡部210、進料部220、 出料部230及雙向輸送機構240。進料部220位在加壓脫 泡設備200之前段X,並包括有二個進料口 221及222, 7 M361643 進料口 221及222分別用以容置一個液晶匣。 加壓脫泡部210位在加壓脫泡設備200之中段Y,並 包括有加壓脫泡槽211、供料口 212及供料機構213。加 壓脫泡槽211包括槽體2111、門蓋2112、與門蓋2112連 接之承載台2113以及伸展機構2114,承載台2113可用以 承載液晶匣,且伸展機構2114係用以開閤門蓋2112,以 帶動承載台2113移動。供料口 212用以容置一個液晶匣。 供料機構213係用以在供料口 212與承載台2113之間傳 遞液晶匣,在第2A〜2B圖中,供料機構213較佳的是可以 將載有欲脫泡面板之液晶匣從供料口 212傳遞至承載台 2113,也可以將載有已脫泡面板之液晶匣從承載台2113 傳遞至供料口 212。 出料部230位在加壓脫泡設備200之後段Z,並包括 有二個出料口 231及232,出料口 231及232分別用以容 置一個液晶匣。 本實施例之加壓脫泡設備200可視生產線之需求,改 變其進料口及其出料口之數量,並配予適當的液晶匣數量 於其内,藉此節省液晶匣之物流時間。因此,於本創作說 明中雖以二個進料口及二個出料口為例作說明,然而本創 作並不限定於此,前述之進料口及出料口數量亦可以為二 個以上。 此外,雙向輸送機構240係用以在進料口 221及222 與供料口 212之間傳遞液晶匣,並用以在出料口 231及232 與供料口 212之間傳遞液晶匣。也就是說,本實施例之加 壓脫泡製程200具有雙向輸送機構240,除了可以將載有 M361643 i ) 液晶面板之液晶匣從進料口 221/222運往出料口 231/232 之外,待已脫泡之液晶面板由液晶匣抽取出並運往下一個 製程設備之後,還可以將空的液晶匣由出料口 231/232運 回進料口 221/222。 雙向輸送機構240例如為劃分成多段的雙向輸送 帶。雙向輸送機構240係包括一前段雙向輸送機構、一中 •段雙向輸送機構及一後段雙向輸送機構。其中,前段雙向 - 輸送機構係用以將載有欲脫泡面板之液晶匣從進料口 221 • 及222送往中段Y,並用以將未載有面板之液晶匣從中段 Y送往進料口 221及222。中段雙向輸送機構係用以將載 有已脫泡面板之液晶匣從供料口 212送往後段Z,並用以 將未載有面板之液晶匣從供料口 212送往前段X。後段雙 向輸送機構係用以將未載有面板之液晶匣從出料口 231及 232送往中段Y,並用以將載有已脫泡面板之液晶匣從中 段Y送往出料口 231及232。在實際應用上,前段雙向輸 送機構將承載欲脫泡之液晶面板的液晶匡由進料口 • 221/222送往供料口 212,由供料口 212進入加壓脫泡部 210完成加壓脫泡製程之後,由中段雙向輸送機構運往出 料口 231/232,待脫泡完成之液晶面板由液晶匣中取出並 運往下一個製程設備後,空的液晶匣可以利用雙向輸送機 構240載運回進料口 221 /222繼續承接欲脫泡之液晶面板。 ' 雙向輸送機構240的設計可以有很多種,例如是加壓 脫泡設備具有二個獨立的運輸帶分別負責不同方向的運 輸,或者是同一條運輸帶上提供緩衝區的設計而有雙向運 輸功能。舉後者為例,加壓脫泡設備200更包括升降部 9 M361643 260 ’升降部260位在中段γ與前段X之間,用以升降一 们液Ba匿。如此,當兩個液晶於雙向輸送機構240中交 會時’其一液晶匣可在升降部26〇被升起,使另—液晶匡 得以順利通過,如此便可在同一輸送路徑上實現雙向輸送 的功能。較佳的是’加壓脫泡設備200更包括另一升降部 270 ’升降部27〇位在中段γ與後段z之間,用以升降一 個液晶£。另外,升降部260也可以暫時存放载有欲脫泡 面板之液晶匣’藉此縮短液晶匣於雙向輸送機構240中輸 送的時間。同樣地’升降部270也可以暫時存放载有已脫 泡面板之液晶匣,藉此縮短液晶匣於雙向輸送機構240中 輸送的時間。 請注意’於本創作中,前述之升降部係可以為二個以 上’於此為了簡化本創作之說明,故特以二個升降部為例 作說明。 此外,由於加壓脫泡槽211可以每次只對一個液晶匣 進行加壓脫泡製程,故可以視液晶面板及液晶匣之尺寸, 相對地改變加壓脫泡槽211之容量,來縮短加壓脫泡製程 所須之工時。 此外’加壓脫泡設備200更包括旋轉部250,位在中 段Y與後段Z之間。旋轉部250係用以旋轉液晶匣,使液 晶匣以水平180度轉向。旋轉液晶匣之目的,係使液晶匣 用以裝卸面板之開口由朝向進料口 221/222方向轉而朝向 出料口 231/232方向,以利接續作業。 以下係列舉三個範例來說明本創作之加壓脫泡設備 於生產系統中之應用。在第一範例中’加壓脫泡設備係與 ,M3 61643 前製程設備及後製程設備直接接執,成為一條連續性的生 產線。在第二範例中,加壓脫泡設備係與前製程設備直接 接軌,並與後製程設備之間以倉儲設備作為缓衝。在第三 範例中,加壓脫泡設備係與後製程設備直接接執,並與前 製程設備之間以倉儲設備作為緩衝。其中,此些範例僅用 以說明加壓脫泡設備於生產系統中之應用,並非用以限定 •本創作之範圍。 • 第一範例: 在第一範例中,加壓脫泡設備200係與前製程設備及 後製程設備直接接軌,成為一條連續性的生產線。 請參照第3A〜3B圖,第3A圖繪示依照本創作第一範 例之生產系統的俯視圖,第3B圖繪示依照本創作第一範 例之生產系統的側視圖。生產系統300包括第一製程設備 310、加壓脫泡設備200及第二製程設備320。第一製程設 備用以製造出欲‘脫泡面板P1。加壓脫泡設備200係承接由 • 第一製程設備310傳遞而來之欲脫泡面板P1於液晶匣 中,並對放置於液晶匣中之欲脫泡面板P1進行加壓脫泡 製程,以製造出已脫泡面板P2。第二製程設備320係承接 由加壓脫泡設備200傳遞而來之已脫泡面板P2。範例之加 壓脫泡設備200之元件及其功能如同前述第2A〜2B圖之說 ' 明,故不再贅述之功能。 在第3A〜3B圖中,在加壓脫泡設備200與前製程設 備310之間,生產系統300更包括進料機構330。進料機 構330位在進料口 221及222之外侧,用以承接由第一製 11 M361643 程設備310傳遞而來之欲脫泡面板PI,並傳遞欲脫泡面板 P1至容置於些進料口 221及222中之液晶匣。進料機構 3 3 0例如包括機械手臂3 31。另外,在加壓脫泡設備與後 製程設備之間,生產系統300更包括出料機構340。出料 機構340位在出料口 231及232之外側,用以將容置於出 料口 231及232中之液晶匣之已脫泡面板P2傳遞至第二 製程設備320,出料機構340例如包括機械手臂341。 於此範例來說,因為加壓脫泡設備200係與第一製程 設備310及第二製程設備320直接接軌,成為一條連續性 的生產線。所以,液晶面板在完成第一製程後,可直接進 入加壓脫泡製程,而不用送至倉儲設備中存放。同樣地, 液晶面板在完成加壓脫泡製程後,可直接進入第二製程。 如此,可以免去等待加壓脫泡設備之排程以及運送機構運 送液晶匣所耗費之時間,來縮短整體生產工時。同時,本 創作之加壓脫泡設備200可視生產線之需求,來變化其進 料口及出料口之數量,以作為液晶匣之缓衝空間以及搭配 製程工時之調節來使用。如此,將不須要使用到倉儲設 備,以減少整體生產製程對倉儲設備數量之需求,以降低 企業投資之設備成本。 第二範例: 在第二範例中,加壓脫泡設備200與前製程設備為連 續的生產線,加壓脫泡設備200與後製程設備之間係包括 倉儲設備。而在加壓脫泡設備200與後製程設備之間,須 使用運送機構來運送載有液晶面板之液晶匣。 12 M361643 請參照第4A〜4B圖,第4A圖繪示依照本創作第二範 例之生產系統的俯視圖,第4B圖繪示依照本創作第二範 例之生產系統的側視圖。生產系統400包括第一製程設備 410、加壓脫泡設備200及第二製程設備420。第一製程設 備410用以製造出欲脫泡面板P1。加壓脫泡設備200係承 接由第一製程設備410傳遞而來之欲脫泡面板P1於液晶 •匣中,並對放置於液晶匣中之欲脫泡面板進行加壓脫泡製 - 程,以製造出已脫泡面板P2。第二製程設備420係承接由 • 加壓脫泡設備200運送而來之載有已脫泡面板P2之液晶 匣C2。此範例之加壓脫泡設備200之元件及其功能如同前 述第2A〜2B圖之說明,故不再贅述之功能。 在第4A〜4B圖中,在加壓脫泡設備200與前製程設 備410之間,生產系統更包括進料機構430。進料機構430 位在進料口 221及222之外側,用以承接由第一製程設備 410傳遞而來之欲脫泡面板P1,並傳遞欲脫泡面板P1至 容置於進料口 221及222中之液晶匣,進料機構430例如 • 包括機械手臂431。另外,在加壓脫泡設備200與後製程 設備420之間,生產系統400更包括倉儲設備440、第一 運送機構450及第二運送機構460。倉儲設備440係介於 加壓脫泡設備200及第二製程設備420之間,用以儲存載 有已脫泡面板P2之液晶匣C2。第一運送機構450用以將 * 載有已脫泡面板P2之液晶匣C2由加壓脫泡設備200之出 料口 231及232運送至倉儲設備440。第二運送機構460 用以將載有已脫泡面板P2之液晶匣C2由倉儲設備440運 送至第二製程設備420。 13 M361643 並且,生產系統400更包括進匣機構,其可設置在加 壓脫泡設備200之旋轉部250之鄰近處。舉例來說,先在 旋轉部250設置一個對外窗口,而進匣機構則對應此對外 窗口設置,以藉由進匣機構來增加未載有面板之液晶匣至 加壓脫泡設備200之中。如此,將可替補第一運送機構450 從加壓脫泡設備200運送走之液晶匣,來維持加壓脫泡設 備200中之液晶匣數量。 以此範例來說,因為加壓脫泡設備200係與第一製程 設備410直接接執,並與第二製程設備420之間以倉儲設 備440作為緩衝,使完成加壓脫泡製程之液晶面板可儲存 在倉儲設備440中,等待第二製程設備420之排程,故於 此範例中至少可以節省一座倉儲設備。 第三範例: 在第三範例中,加壓脫泡設備200與後製程設備為連 續的生產線,加壓脫泡設備200與前製程設備之間係包括 倉儲設備。而在加壓脫泡設備200與後製程設備之間,須 使用運送機構來運送載有液晶面板之液晶匣。 請參照第5A〜5B圖,第5A圖繪示依照本創作第三範 例之生產系統的俯視圖,第5B圖繪示依照本創作第三範 例之生產系統的側視圖。生產系統500包括第一製程設備 510、加壓脫泡設備200及第二製程設備520。第一製程設 備510用以製造出欲脫泡面板P1,且欲脫泡面板P1係放 置於液晶匣C1中。加壓脫泡設備200係承接由第一製程 設備510運送而來之液晶匣C1,並對放置於液晶匣C1中 14 M361643 ! i 之欲脫泡面板PI進行加壓脫泡製程,以製造出已脫泡面 板P2。第二製程設備520係承接由加壓脫泡設備200傳遞 而來之已脫泡面板P2。此範例之加壓脫泡設備200之元件 及其功能如同前述第2A〜2B圖之說明,故不再贅述之功 能。 在第5A〜5B圖中,在加壓脫泡設備200與前製程設 -備510之間,生產系統500更包括倉儲設備530、第一運 - 送機構540及第二運送機構550。倉儲設備530係介於第 • 一製程設備510以及加壓脫泡設備200之間,用以儲存載 有欲脫泡面板P1之液晶匣C1。第一運送機構540用以將 載有欲脫泡面板P1之液晶匣C1由第一製程設備510運送 至倉儲設備530。第二運送機構550用以將載有欲脫泡面 板P1之液晶匣C1由倉儲設備530運送至加壓脫泡設備 200之進料口 221及222。另外,在加壓脫泡設備200與 後製程設備520之間,生產系統500更包括出料機構560。 出料機構560位在些出料口 231及232之外側,用以將容 • 置於出料口 231及232中之液晶匣之已脫泡面板P2傳遞 至第二製程設備520,進料機構560例如包括機械手臂 56卜 並且,生產系統500更包括取匣機構,其可設置在加 壓脫泡設備200之旋轉部250之鄰近處。舉例來說,先在 ' 旋轉部250設置一個對外窗口,而取匣機構則對應此對外 窗口設置,以藉由取匣機構從加壓脫泡設備200之中取出 未載有面板之液晶匣。如此,可移走已出料完成之未載有 面板之液晶匣,使壓脫泡設備200不會擠滿未載有面板之 15 M361643 液晶g ’以維持加壓脫泡設備200中之液晶匣數量。 以此範例來說,因為加壓脫泡設備200係與第二製程 设備520直接接執,並與第一製程設備5〇之間以倉儲設 備530作為緩衝,使儲存在倉儲設備530中之各種尺寸及 品種之液晶面板均可進入與第二製程設備52〇直接接執的 加壓脫泡設備200。並且,因為加壓脫泡設備200具有數 個進料口 ’故可同時容置數個液晶匣,使運送機構550運 送而來的液晶匠C1可隨時地進入加壓脫泡設備200中, 不^造成沒有可進行加壓脫泡製程之液晶匣,而延宕生產 工%。除此之外,於此範例中至少可以節省一座倉儲設備。 本創作上述實施例所揭露之加壓脫泡設備及應用其 =生產系統,可使加壓脫泡設備可與前製程設備及後製程 -又備直接接軌,其優點如:(―)可有效地節省 倉儲設備之貞擔;㈢可縮短生產工時;(四二一) 入之設備成本。趨元善,更可以降低企業投 然其並非用以限;:二c揭露如 常知識者,在不脫離本創作之精 術領域中具 之更動與潤飾。因此,本創作之圍内’當可作 專利範圍所界定者為準。 、°蔓靶圍當視後附之 【圖式簡單說明】 第1圖繪示-種加壓脫泡設傷的示意圖 16 M361643M361643 V. New description: [New technical field] This creation is related to a pressurized defoaming device, and in particular to an in-line pressurized degassing device and its application system. [Prior Art] Referring to Figure 1, there is shown a schematic view of a conventional pressurized defoaming apparatus. As shown in FIG. 1, the conventional pressurized defoaming apparatus 100 includes a tank body 111, a door cover 112, a carrying table 113, and a stretching mechanism 114. The carrying table 113 can be used to carry the liquid crystal cassette C, and the liquid crystal cassette C can be used to place a plurality of liquid crystal panels P. The carrying platform 113 is coupled to the door cover 112, and the stretching mechanism 114 is used to open the door cover 112 to drive the loading table 113 to move. Further, depending on the capacity of the pressurized defoaming apparatus 100 or the size of the liquid crystal crucible C, the stage 113 can carry the number of liquid crystal cells C as one or more liquid crystal defects. However, as the capacity of the pressurized degassing apparatus increases, the number of man-hours required to perform the pressurized defoaming process also increases. In the process of manufacturing a liquid crystal panel conventionally, the liquid crystal panel tends to have bubbles remaining after the polarizer is attached thereto, so that the liquid crystal panel is subjected to pressure defoaming to remove the remaining bubbles. Among them, the liquid crystal panel is sent to the storage device after being attached to the polarizer, and waits for the scheduling to perform the pressure defoaming process. Therefore, when the liquid crystal panel is subjected to the pressure defoaming process, the liquid crystal crucible carrying the defoaming panel is taken out from the first storage device, and transported to the pressurized defoaming device through the transport mechanism to perform the pressure defoaming process. , ratio, M3.61643 is the pressurized defoaming apparatus 100 of Fig. 1. After the liquid crystal panel completes the pressure defoaming, the liquid crystal crucible carrying the defoamed panel is taken out from the pressurized defoaming device, and transported to the storage device through the transport mechanism for waiting for the next process scheduling. . However, in a mass-produced factory, the production line is numerous and the size and variety of the liquid crystal panel are complicated, and the process parameters of the liquid crystal panel of various sizes and varieties are not the same. Therefore, the LCD panel stored in the storage device tends to be stored for a long period of time in order to achieve the pressure defoaming • the scheduling of the device. Moreover, the modulation of process parameters is often the main factor of product yield. In addition, when the LCD panel is stored in the storage equipment for too long, it must also pay attention to and maintain the product yield. In addition, due to the large amount of warehousing equipment required in the current production process, and the warehousing equipment has a large footprint and high cost, the equipment cost of the enterprise is too high. Therefore, how to reduce production time, improve production efficiency, and solve the above-mentioned dilemma is the current goal of the industry. ® [New Content] This creation is about an in-line pressurized degassing equipment and its production system, which enables the pressurized defoaming equipment to be directly connected to the pre-process and post-process equipment. The order is to effectively save logistics time and reduce the burden of storage equipment, to shorten production hours and increase product yield, to make the production line more perfect, and to reduce the equipment cost invested by enterprises. The present invention proposes a pressurized defoaming apparatus for performing a pressure defoaming 5 M361643 process on a plurality of sheets of defoaming panels placed in a liquid crystal cassette to produce a plurality of defoamed panels. The pressurized defoaming device comprises a feeding portion, a defoaming portion, a discharging portion and a bidirectional conveying mechanism. The feed location is in the front section of the pressurized degassing apparatus and includes a plurality of feed ports for receiving a liquid crystal centimeter respectively. The pressurized defoaming portion is in the middle section of the pressurized defoaming device, and includes a supply port, a pressurized degassing tank and a feeding mechanism for accommodating a liquid crystal crucible. The defoaming tank has a door cover and a carrying platform connected to the door cover, and the feeding mechanism is used for feeding the liquid crystal g at the feeding σ and the loading platform. The discharge portion is in the back section of the pressurized defoaming device, and includes a plurality of discharge ports for respectively accommodating a liquid crystal crucible. The two-way conveying mechanism is configured to transfer the liquid crystal crucible between the feed port and the supply port, and to transfer the liquid crystal crucible between the discharge port and the supply port. The present invention proposes a production system for a liquid crystal panel comprising a first process device, a pressurized defoaming device and a second process device. This first process equipment produces a plurality of panels for defoaming. The pressurized defoaming device is configured to receive the defoaming panels transferred from the first process equipment in a liquid crystal crucible, and perform a pressure defoaming process on the plurality of defoaming panels placed in the liquid crystal crucible. To produce a plurality of defoamed panels. The second process equipment receives such defoamed panels that are transferred from the pressurized degassing apparatus. Among them, the pressurized defoaming device is, for example, the above-described pressurized defoaming device. The present invention proposes a production system for a liquid crystal panel comprising a first process device, a pressurized defoaming device and a second process device. This first process equipment produces a plurality of panels for defoaming. The pressurized defoaming device is configured to receive the defoaming panels transferred from the first process equipment in a liquid crystal E and to add a M361643 i to the defoaming panels placed in the liquid crystal crucible. A defoaming process to produce a plurality of defoamed panels. The second process equipment is a liquid crystal crucible that is carried by a pressurized defoaming device. Among them, the pressurized defoaming device is, for example, the above-described pressurized defoaming device. The present invention proposes a production system for a liquid crystal panel comprising a first process device, a pressurized defoaming device and a second process device. The first process equipment produces a plurality of panels for defoaming, and the panels to be defoamed are placed in a liquid crystal display. The pressurized defoaming device is configured to receive the liquid crystal crucible conveyed by the first process equipment, and perform a pressure defoaming process on the defoaming surface plates placed in the liquid crystal crucible to produce a plurality of sheets. The panel has been defoamed. The second process equipment receives such defoamed panels that are delivered by the pressurized degassing apparatus. Among them, the pressurized defoaming device is, for example, the above-described pressurized defoaming device. In order to make the above-mentioned contents of the present invention more comprehensible, a preferred embodiment will be described below in detail with reference to the accompanying drawings: [Embodiment] ® Please refer to Figures 2A to 2B, Figure 2A A top view of a pressurized degassing apparatus in accordance with a preferred embodiment of the present invention is shown, and FIG. 2B is a side elevational view of the pressurized degassing apparatus in accordance with a preferred embodiment of the present invention. The pressure defoaming apparatus 200 of the present embodiment is for performing a pressure defoaming process on a defoaming panel placed in a liquid crystal crucible to produce a plurality of defoamed panels. The pressurized defoaming apparatus 200 includes a pressurized defoaming section 210, a feeding section 220, a discharging section 230, and a bidirectional conveying mechanism 240. The feeding portion 220 is located in the front section X of the pressurized defoaming apparatus 200 and includes two inlets 221 and 222, and the 7 M361643 inlets 221 and 222 are respectively used for accommodating a liquid crystal crucible. The pressurized defoaming portion 210 is located in the middle portion Y of the pressurized defoaming apparatus 200, and includes a pressurized degassing tank 211, a supply port 212, and a supply mechanism 213. The pressure degassing tank 211 includes a tank body 2111, a door cover 2112, a carrying platform 2113 connected to the door cover 2112, and a stretching mechanism 2114. The carrying platform 2113 can be used to carry the liquid crystal raft, and the stretching mechanism 2114 is used for opening and closing the door cover 2112. In order to drive the carrying table 2113 to move. The supply port 212 is for accommodating a liquid crystal port. The feeding mechanism 213 is configured to transfer the liquid crystal raft between the feeding port 212 and the carrying table 2113. In the second drawing 2A-2B, the feeding mechanism 213 preferably can carry the liquid crystal raft carrying the panel to be defoamed. The supply port 212 is transferred to the carrier 2113, and the liquid crystal cassette carrying the defoamed panel can also be transferred from the carrier 2113 to the supply port 212. The discharge portion 230 is located in the rear stage Z of the pressurized defoaming apparatus 200 and includes two discharge ports 231 and 232 for respectively accommodating a liquid crystal port. The pressurized defoaming apparatus 200 of the present embodiment can change the quantity of the feed port and the discharge port thereof according to the demand of the production line, and allocate the appropriate amount of liquid crystal crucible therein, thereby saving the liquidation time of the liquid crystal crucible. Therefore, in the description of the present invention, the two inlets and the two outlets are taken as an example. However, the creation is not limited thereto, and the number of the inlets and the outlets may be two or more. . In addition, the two-way transport mechanism 240 is configured to transfer liquid crystal rafts between the feed ports 221 and 222 and the feed port 212 and to transfer liquid crystal rafts between the discharge ports 231 and 232 and the feed port 212. That is, the pressurized defoaming process 200 of the present embodiment has a bidirectional conveying mechanism 240, except that the liquid crystal crucible carrying the M361643 i) liquid crystal panel can be transported from the inlet port 221/222 to the discharge port 231/232. After the liquid crystal panel that has been defoamed is extracted by the liquid crystal port and transported to the next process equipment, the empty liquid crystal cell can also be transported back to the feed port 221/222 from the discharge port 231-232. The bidirectional conveying mechanism 240 is, for example, a bidirectional conveying belt that is divided into a plurality of stages. The two-way conveying mechanism 240 includes a front two-way conveying mechanism, a middle-stage two-way conveying mechanism, and a rear two-way conveying mechanism. Wherein, the front two-way conveying mechanism is used for conveying the liquid crystal crucible carrying the panel to be defoamed from the feeding ports 221 and 222 to the middle section Y, and for sending the liquid crystal crucible not carrying the panel from the middle section Y to the feeding material. Ports 221 and 222. The middle section two-way conveying mechanism is for conveying the liquid crystal crucible carrying the defoamed panel from the supply port 212 to the rear section Z, and is used to transport the liquid crystal crucible not carrying the panel from the supply port 212 to the front section X. The rear two-way conveying mechanism is configured to send the liquid crystal rafts without the panel to the middle section Y from the discharge ports 231 and 232, and to send the liquid crystal rafts carrying the defoamed panel from the middle section Y to the discharge ports 231 and 232. . In practical applications, the front-end bidirectional conveying mechanism transports the liquid crystal raft carrying the liquid crystal panel to be defoamed from the feed port 221/222 to the supply port 212, and enters the pressurized defoaming portion 210 from the supply port 212 to complete the pressurization. After the defoaming process, it is transported to the discharge port 231/232 by the middle-stage two-way conveying mechanism. After the liquid crystal panel to be defoamed is taken out from the liquid crystal port and transported to the next process equipment, the empty liquid crystal port can be transported back by the two-way conveying mechanism 240. The feed port 221 / 222 continues to receive the liquid crystal panel to be defoamed. The design of the two-way conveying mechanism 240 can be various. For example, the pressurized defoaming device has two independent conveyor belts for transporting in different directions, or a buffer for the same conveyor belt and a two-way transportation function. . Taking the latter as an example, the pressurized defoaming apparatus 200 further includes a lifting portion 9 M361643 260 'The lifting portion 260 is located between the middle portion γ and the front portion X for lifting and lowering a liquid. In this way, when the two liquid crystals meet in the two-way conveying mechanism 240, one of the liquid crystals can be raised in the lifting portion 26, so that the other liquid crystal can pass smoothly, so that the two-way conveying can be realized on the same conveying path. Features. Preferably, the pressurized degassing apparatus 200 further includes another lifting portion 270' elevating portion 27 between the middle portion γ and the rear portion z for raising and lowering a liquid crystal. Further, the elevating portion 260 may temporarily store the liquid crystal cartridges carrying the panel to be defoamed, thereby shortening the time during which the liquid crystals are transported in the bidirectional transport mechanism 240. Similarly, the elevating unit 270 can temporarily store the liquid crystal cassette carrying the defoamed panel, thereby shortening the time during which the liquid crystal cassette is transported in the bidirectional transport mechanism 240. Please note that in the present creation, the above-mentioned lifting portion may be two or more. Here, in order to simplify the description of the creation, two lifting portions are exemplified. In addition, since the pressurized degassing tank 211 can perform a pressure defoaming process for only one liquid crystal crucible at a time, the capacity of the pressure degassing tank 211 can be relatively changed depending on the size of the liquid crystal panel and the liquid crystal crucible, thereby shortening the addition. The working hours required for the pressure defoaming process. Further, the pressurized degassing apparatus 200 further includes a rotating portion 250 positioned between the middle portion Y and the rear portion Z. The rotating portion 250 is for rotating the liquid crystal crucible to steer the liquid crystal crucible at a horizontal angle of 180 degrees. The purpose of rotating the liquid crystal crucible is to make the opening of the liquid crystal cassette for loading and unloading the panel from the direction of the feed port 221/222 toward the discharge port 231/232 to facilitate the continuous operation. The following series gives three examples to illustrate the application of the created pressurized defoaming equipment in production systems. In the first example, the pressurization defoaming equipment was directly connected with the M3 61643 pre-process equipment and the post-process equipment, becoming a continuous production line. In the second example, the pressurized defoaming device is directly coupled to the pre-process equipment and is buffered by the storage device with the post-process equipment. In the third example, the pressurized defoaming device is directly connected to the post-process equipment and is buffered by the storage device with the pre-process equipment. Among them, these examples are only used to illustrate the application of pressurized defoaming equipment in production systems, and are not intended to limit the scope of this creation. • First Example: In the first example, the pressurized defoaming device 200 is directly connected to the front process equipment and the post process equipment to become a continuous production line. Referring to Figures 3A to 3B, Figure 3A shows a top view of the production system in accordance with the first example of the present creation, and Figure 3B shows a side view of the production system in accordance with the first example of the present creation. Production system 300 includes a first process equipment 310, a pressurized degassing apparatus 200, and a second process equipment 320. The first process is set aside to create the desired defoaming panel P1. The pressure degassing apparatus 200 receives the defoaming panel P1 transferred from the first process equipment 310 in the liquid crystal crucible, and performs a pressure defoaming process on the defoaming panel P1 placed in the liquid crystal crucible. The defoamed panel P2 is produced. The second process equipment 320 is adapted to receive the defoamed panel P2 delivered by the pressurized degassing apparatus 200. The components of the pressurized degassing apparatus 200 and their functions are as described in the above-mentioned 2A to 2B drawings, and therefore will not be described again. In Figures 3A-3B, between the pressurized defoaming apparatus 200 and the pre-process apparatus 310, the production system 300 further includes a feed mechanism 330. The feeding mechanism 330 is located on the outer side of the feeding ports 221 and 222 for receiving the defoaming panel PI transmitted from the first 11 M361643 device 310, and transferring the panel P1 to be defoamed to some extent. The liquid crystal 中 in the ports 221 and 222. The feed mechanism 3 3 0 includes, for example, a robot arm 31. Additionally, between the pressurized deaeration apparatus and the aftertreatment apparatus, the production system 300 further includes a discharge mechanism 340. The discharge mechanism 340 is located on the outer side of the discharge ports 231 and 232 for transferring the defoamed panel P2 of the liquid crystal cassette accommodated in the discharge ports 231 and 232 to the second process device 320, for example, the discharge mechanism 340. Includes a robotic arm 341. In this example, since the pressurized defoaming apparatus 200 is directly coupled to the first process equipment 310 and the second process equipment 320, it becomes a continuous production line. Therefore, after completing the first process, the liquid crystal panel can directly enter the pressurized defoaming process without being sent to the storage device for storage. Similarly, after completing the pressurized defoaming process, the liquid crystal panel can directly enter the second process. In this way, the overall production man-hour can be shortened by eliminating the time required to wait for the schedule of the pressurized defoaming device and the time required for the transport mechanism to transport the liquid crystal cassette. At the same time, the pressure degassing apparatus 200 of the present invention can change the number of the inlet and the discharge port according to the demand of the production line, and can be used as the buffer space of the liquid crystal crucible and the adjustment of the working time. In this way, there is no need to use storage equipment to reduce the need for the number of storage equipment in the overall production process to reduce the equipment cost of the enterprise investment. Second Example: In the second example, the pressurized defoaming apparatus 200 and the front process equipment are continuous production lines, and the pressure defoaming apparatus 200 and the post process equipment include storage equipment. Between the pressurized defoaming device 200 and the post process device, a transport mechanism is used to transport the liquid crystal cassette carrying the liquid crystal panel. 12 M361643 Please refer to FIG. 4A to FIG. 4B, FIG. 4A is a plan view showing a production system according to a second example of the present creation, and FIG. 4B is a side view showing a production system according to a second example of the present creation. Production system 400 includes a first process equipment 410, a pressurized degassing apparatus 200, and a second process equipment 420. The first process device 410 is used to manufacture the panel P1 to be defoamed. The pressurized defoaming device 200 receives the defoaming panel P1 transferred from the first process equipment 410 in the liquid crystal, and pressurizes the defoaming panel placed in the liquid crystal crucible. To produce the defoamed panel P2. The second process equipment 420 is a liquid crystal crucible C2 carried by the pressurized defoaming apparatus 200 carrying the defoamed panel P2. The components of the pressurized degassing apparatus 200 of this example and their functions are as described in the above-mentioned 2A to 2B drawings, and thus the functions will not be described again. In Figures 4A-4B, between the pressurized defoaming apparatus 200 and the pre-process apparatus 410, the production system further includes a feed mechanism 430. The feeding mechanism 430 is located at the outer side of the feeding ports 221 and 222 for receiving the defoaming panel P1 transferred from the first processing equipment 410, and transferring the panel P1 to be discharged to the feeding port 221 and In the liquid crystal port of 222, the feeding mechanism 430 includes, for example, a robot arm 431. Additionally, between the pressurized degassing apparatus 200 and the after-treatment apparatus 420, the production system 400 further includes a storage apparatus 440, a first transport mechanism 450, and a second transport mechanism 460. The storage device 440 is interposed between the pressurized defoaming device 200 and the second process device 420 for storing the liquid crystal crucible C2 carrying the defoamed panel P2. The first transport mechanism 450 is used to transport the liquid crystal crucible C2 carrying the defoamed panel P2 from the discharge ports 231 and 232 of the pressurized defoaming apparatus 200 to the storage device 440. The second transport mechanism 460 is for transporting the liquid crystal cassette C2 carrying the defoamed panel P2 from the storage device 440 to the second process equipment 420. 13 M361643 Also, the production system 400 further includes an inlet mechanism that can be disposed adjacent to the rotating portion 250 of the pressurized defoaming device 200. For example, an external window is first provided in the rotating portion 250, and the feeding mechanism is disposed corresponding to the external window to increase the liquid crystal enthalpy without the panel into the pressurized defoaming device 200 by the feeding mechanism. Thus, the number of liquid crystal turns in the pressurized defoaming apparatus 200 is maintained by the liquid crystal cartridge that can be transported away from the pressurized defoaming apparatus 200 by the first transport mechanism 450. In this example, because the pressurized defoaming device 200 is directly connected to the first process device 410 and is buffered with the storage device 440 between the second process device 420, the liquid crystal panel that completes the pressure defoaming process is completed. It can be stored in the storage device 440 and waits for the scheduling of the second process device 420, so at least one storage device can be saved in this example. Third Example: In the third example, the pressurized degassing apparatus 200 and the post process equipment are continuous production lines, and the pressure defoaming apparatus 200 and the front process equipment include storage equipment. Between the pressurized defoaming device 200 and the post process device, a transport mechanism is used to transport the liquid crystal cassette carrying the liquid crystal panel. Please refer to FIG. 5A to FIG. 5B, FIG. 5A is a plan view of the production system according to the third example of the present creation, and FIG. 5B is a side view of the production system according to the third example of the present creation. Production system 500 includes a first process equipment 510, a pressurized degassing apparatus 200, and a second process equipment 520. The first process device 510 is used to fabricate the panel P1 to be defoamed, and the panel P1 to be defoamed is placed in the liquid crystal cell C1. The pressurized defoaming device 200 receives the liquid crystal crucible C1 transported by the first process equipment 510, and performs a pressure defoaming process on the defoaming panel PI placed in the liquid crystal crucible C1 14 M361643! i to manufacture The panel P2 has been defoamed. The second process equipment 520 is adapted to receive the defoamed panel P2 delivered by the pressurized degassing apparatus 200. The components of the pressurized degassing apparatus 200 of this example and their functions are as described in the above-mentioned 2A to 2B drawings, and therefore will not be described again. In Figures 5A-5B, between the pressurized degassing apparatus 200 and the pre-process equipment 510, the production system 500 further includes a storage apparatus 530, a first transport mechanism 540, and a second transport mechanism 550. The warehousing apparatus 530 is interposed between the first process equipment 510 and the pressurized defoaming apparatus 200 for storing the liquid crystal crucible C1 carrying the panel P1 to be defoamed. The first transport mechanism 540 is for transporting the liquid crystal cassette C1 carrying the defoaming panel P1 from the first process equipment 510 to the storage apparatus 530. The second transport mechanism 550 is for transporting the liquid crystal crucible C1 carrying the defoaming panel P1 from the storage device 530 to the feed ports 221 and 222 of the pressurized defoaming apparatus 200. Additionally, between the pressurized degassing apparatus 200 and the post process apparatus 520, the production system 500 further includes a discharge mechanism 560. The discharge mechanism 560 is located on the outer sides of the discharge ports 231 and 232 for transferring the defoamed panel P2 of the liquid crystal crucible disposed in the discharge ports 231 and 232 to the second process equipment 520, the feeding mechanism 560 includes, for example, a robotic arm 56 and the production system 500 further includes a picking mechanism that can be disposed adjacent the rotating portion 250 of the pressurized defoaming device 200. For example, an external window is first provided in the 'rotating portion 250', and the pick-up mechanism is disposed corresponding to the outer window to take out the liquid crystal cassette without the panel from the pressurized defoaming device 200 by the pick-up mechanism. In this way, the liquid crystal raft that has not been loaded with the panel that has been discharged can be removed, so that the pressure defoaming device 200 does not be filled with the 15 M361643 liquid crystal g' that does not carry the panel to maintain the liquid crystal 中 in the pressurized defoaming device 200. Quantity. In this example, because the pressurized defoaming device 200 is directly connected to the second process device 520 and is buffered with the storage device 530 from the first process device 5, it is stored in the storage device 530. The liquid crystal panels of various sizes and varieties can enter the pressurized defoaming apparatus 200 directly connected to the second process equipment 52. Moreover, since the pressurized defoaming apparatus 200 has a plurality of feed ports', a plurality of liquid crystal cartridges can be accommodated at the same time, so that the liquid crystals C1 transported by the transport mechanism 550 can enter the pressurized defoaming apparatus 200 at any time, ^There is no liquid crystal crucible that can be subjected to a pressurized defoaming process, and the production cost is delayed. In addition, at least one storage device can be saved in this example. The pressure defoaming device disclosed in the above embodiments and the application thereof=production system can make the pressure defoaming device can be directly connected with the pre-process equipment and the post-process, and the advantages are as follows: (-) can be effective Save the burden of storage equipment; (3) can shorten the production hours; (42) the cost of equipment. If you want to improve your business, you can reduce the investment of the company. It is not limited to the use of the company. Therefore, the scope of this creation is subject to the definition of patent scope. , ° 蔓 围 围 视 视 视 [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [ [
f I 第2A圖繪示依照本創作一較佳實施例之加壓脫泡設 備的俯視圖。 第2B圖繪示依照本創作一較佳實施例之加壓脫泡設 備的侧視圖。 第3A圖繪示依照本創作第一範例之生產系統的俯視 圖。 • 第3B圖繪示依照本創作第一範例之生產系統的側視 -圖。 _ 第4A圖繪示依照本創作第二範例之生產系統的俯視 圖。 第4B圖繪示依照本創作第二範例之生產系統的側視 圖。 第5A圖繪示依照本創作第三範例之生產系統的俯視 圖。 第5B圖繪示依照本創作第三範例之生產系統的側視 圖。 • 【主要元件符號說明】 100、200 :加壓脫泡設備 111、 2111 :槽體 112、 2112 :門蓋 113、 2113 :承載台 114、 2114 :伸展機構 210 :加壓脫泡部 211 :加壓脫泡槽 17 M361643 212 :供料口 213 :供料機構 220 :進料部 221、222 :進料口 230 :出料部 231、232 :出料口 240 :雙向輸送機構 250 :旋轉部 260、270 :升降部 300、400、500 :生產系統 310、410、510 :第一製程設備 320、420、520 :第二製程設備 330、 430 :進料機構 331、 341、431、561 :機械手臂 340、560 :出料機構 440、530 :倉儲設備 450、540 :第一運送機構 460、550 :第二運送機構 P :面板 P1 :欲脫泡面板 P2 :已脫泡面板 C、Cl、C2 :液晶匣 X :前段 Y :中段 Z :後段 18f I Fig. 2A is a plan view showing a pressurized defoaming apparatus in accordance with a preferred embodiment of the present invention. Figure 2B is a side elevational view of a pressurized defoaming apparatus in accordance with a preferred embodiment of the present invention. Fig. 3A is a plan view showing the production system according to the first example of the present creation. • Figure 3B is a side elevational view of the production system in accordance with the first example of the present creation. _ 4A is a top plan view of the production system in accordance with the second example of the present creation. Figure 4B is a side elevational view of the production system in accordance with the second example of the present creation. Fig. 5A is a plan view showing the production system according to the third example of the present creation. Fig. 5B is a side elevational view of the production system in accordance with the third example of the present creation. • [Main component symbol description] 100, 200: Pressurized defoaming device 111, 2111: Tank 112, 2112: Door cover 113, 2113: Carrying table 114, 2114: Stretching mechanism 210: Pressurized defoaming section 211: Add Pressing degassing tank 17 M361643 212 : Feeding port 213 : Feeding mechanism 220 : Feeding portion 221 , 222 : Feeding port 230 : Discharging portion 231 , 232 : Discharge port 240 : Bidirectional conveying mechanism 250 : Rotating portion 260 270: lifting unit 300, 400, 500: production system 310, 410, 510: first process equipment 320, 420, 520: second process equipment 330, 430: feeding mechanism 331, 341, 431, 561: robot arm 340, 560: discharge mechanism 440, 530: storage equipment 450, 540: first transport mechanism 460, 550: second transport mechanism P: panel P1: defoaming panel P2: defoamed panels C, Cl, C2: LCD 匣X: front segment Y: middle segment Z: rear segment 18