201241508 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種顯示裝置,牯丨θ __ 直特別疋一種顯示裝置製造設備 及方法,在顯示面板透過移除部份殼體(咖)與保護蓋㈤ cover)而被暴露之顯示裝置中形. 心成用以保棱顯示面板之邊緣部份 之宠射細杜。 【先前技術】 近來,業界正在發展平面顯示裝置,可減少陰極射線管之限 制所對應的重量無積。料正娜研究作騎面麵示褒置之 液晶顯不裝置⑽)、賴顯示器⑽)、場發射顯示裝置⑽ 以及發光顯示裝置。然而,這些平面顯示裝置中,液晶顯示裝置 容易被製造’居财好的驅動器之可购性,實現高邱的影像, 因此吸引了眾多注意。 近來在吸引消費者之興趣之技術與設計方面,對平面顯示裝 置之研究與發展之需求日益增加。因此,業界正不斷地努力最小 化(變薄)顯示裝置之厚度,加大研究具有增強美感之設計,從 而迎合消費者之美感以吸引消費者購買。 然而,設計中用於增強顯示裝置之美感或薄型之發展已經過 日寺,用於習知顯tf裝置之元件照常顧,而元件的結構已經改變。 由於這些賴,在變_稀置以及發展新設計之_裝置方面 存在限制例如,習知技術之液晶顯示裝置中,需要使用下殼體 與前殼體以接收液晶顯示面板射光單元,此外還額外使用分離 的前保護蓋與後保護蓋以細液晶齡裝置至膝上魏腦、監視 4 201241508 * 器、行動裝置、電視等。如上所述,習知技術之顯示裝置需要使 * 用前保護蓋與後保護蓋以及下殼體與前殼體,因此在減少液晶顯 示裝置之厚度以及改變其設計方面存在限制。尤其地,前保護蓋 與後保護蓋必須覆蓋液晶顯示面板之頂部邊緣。由於這個原因, 顯不裝置的厚度不可避免地變厚,另外顯示裝置之邊界寬度擴 大。此外,由於邊界部份中階梯高度的原因,難以實現各種各樣 的新型設計。 【發明内容】 因此,本發明在於提供一種顯示裝置製造設備及方法,實質 上避免習知技術之限制與缺陷所導致的一或多個問題。 本發明一方面提供一種顯示裝置,未使用生產顯示裝置所需 要的某些殼體與賴蓋,由此可最小化厚度以及增賴型設計之 美感。 —本發明另—方面提供—雜示裝置之製造設備及方法,在顯 示面板透過移除部純體與倾蓋而被絲之顯稀置中形成用 以保護顯示面板之邊緣部份之密封組件。 、本發明其他的優點、目的和特徵將在如下的酬書中部分地 加以闡述:並且本發明其他的優點、目的和特徵對於本領域的普 通技術人貝來說’可以透過本發明如下的說明得以部分地理解或 tr從本發_實踐中得I本發_目的和其它優點可以透 明所說明#和申請專概圍中特戰_結構並結 5圖式部份,得以實現和獲得。 . 為了獲仔本發明的這些目的和其他特徵,現對本發明作具體 201241508 化和概括性的描述,本發明的一種顯示裝置製造設備包含:一個 底座;-條板描部’被放置於底贿以及描-塊顯示面板, 顯示面板包含下基板、正對耦合下基板之上基板以及附著至上基 板之至少—個上部膜;以及—個密封組件形成部,被放置於底座 處’以及在面板支樓部處放置的顯#面板之邊緣部形成密封組件。 顯示面板更包含:複數個電路膜,附著至下基板之一個側面 對應顯示面板之第-長邊與第二長邊之第—長邊;以及附著至這 些電路膜之印刷電路板’其中密封組件係形成於顯示面板之邊緣 部,對應顯示面板之第二長邊以及第—短邊與第二短邊。 密封組件形成部包含:-個朗單元,用財齡面板之邊 緣部形成密封組件;以及-個移動單元,用以移動密封單元。 密封組件形成部包含m密封私,㈣在顯示面 板之邊緣部戦密触件;以及—個義單元,肋移動第一至 第三密封單元。 —每-第-至第三密封單元包含:偵測組件,用以偵測待被塗 佈密封組件之顯示面板之邊緣部;塗佈組件,用以在偵測的顯示 ^反之邊緣部上塗佈密封劑;硬化組件,用以硬化顯示面板之邊 上塗佈的密封劑以形成該封組件;以及支撐模組,用以支樓 ^組件、輸物她#,_錢_私之驅動移動 偵測組件、塗佈組件與硬化組件。 第包含:第—高架’與底座平行放置,顯示面板位於 一側,支撐彼此分離之第—與第二密封單元,顯示面1:第 201241508 與第二密封單元之間;以及第三高架,被放置於第一言力口一 側,以及支撐與移動第三密封單元。 s采另 第一密封單被照第二高架之移動而移動,及 邊緣部形成密封組件對應顯示面板之第一短邊,第二^不― 照第二高架之移動而移動,及在顯示面板之邊緣部形 對應顯不面板之第二短邊’以及第三密封單被照第二古架之移 蝴㈣㈣糊細_軸=面 第二長邊。 只,w< 第一高架’放置於底座處對應顯示面板之第 且邊,奴支撐與軸第—密封單元m放置於底座 處對應顯示面板之第二短邊,以及支撐與移動第二密封單元·-以 及第三高架,放置於底座處對應顯示面板之第二長邊,以 與移動第三密封單元。 开元藉㈣—高_,以及在顯示面板之邊緣部 形成讀麟對應顯示面板之第—短邊,第二密封單元藉由第二 3移動广在_面板之邊_成嫌件對應顯示面板 ίΓΓ,以及第三密封單元藉由第三高_,以及在顯示 面板之邊緣部形成密封組件對應顯示面板之第二長邊。 依:、本發明之另—方面,—鶴示裝置製造方法包含:準備 =顯示面板,_面她含下紐、正_合下敍之上基板 以附者至上基板之至少—個上部膜;於面板支撐部上放置此顯 反’面板支撐部係被放置於底座處;以及在面板讀部所支 撐的顯示面板之邊緣部形成密封組件。 201241508 顯示面板更包含:複數個電路膜,被附著至下基板之一侧對 應顯示面板之第-長邊與第二長邊之第_長邊;錢附著至這些 電路膜之印刷電職,密封組件之形成係於糾面板之邊緣部形 成密封組件對應顯示面板之第二長邊以及第—短邊與第二短邊。 密封組件之形成步驟包含:_待被塗佈密封組件之顯示面 板之邊緣部;依照侧結果在顯示面板之_之邊緣部上塗佈密 封劑;以及硬化密封劑以形成密封組件。 ^恤件之形成倾更包含職硬她件所硬化與形成的密 封、.且件’以彳貞測密封組件之形狀。 可以轉岐,如上所述的本㈣之概括綱爾後所述的 私明之雜朗均是具有代表性和解釋性的說明,並且是為了 進一步揭示本發明之申請專利範圍。 【實施方式】 法 以下結合附圖描述本發明實施例之顯示裝 置製造設備及方 「第2 係為本發明第—實施例之顯示裝置之示意屋 置W包麵亍面^」與「第2圖」,本㈣第—實施例之顯示 如面板11G包含正_合的下基板112與上基; 201241508 • n4。背光單元120照射光線到顯示面板11()上。支撐組件13〇接 ‘ 收者光單元12〇以及支撐顯示面板110以使得顯示面板110之前 表面與側面對外暴露。面板耦合組件140將顯示面板110與面板 支撐組件130耦合。 顯不面板110包含下基板112、上基板114、上偏光膜116以 及下偏光膜118。上基板114正對耦合下基板112,兩者之間放置 有液晶層(圖中未表示)。上偏光膜116被附著(adhered)至上 基板114。下偏光膜118被附著至下基板112之後表面。 下基板112包含複數個晝素(圖中未表示),形成於複數條閘 極線(圖中未表示)與資料線(圖中未表示)之交叉處所定義的 各自區域中。每-晝素包含細電晶體(圖中未表示)、畫素電極 以及共同電極。薄膜電晶體連接閘極線與資料線。晝素電極連接 薄膜電晶體。共同電極係鄰接晝素電極而形成以及接收一共同電 壓。本文中,依照液晶層之驅動模式,共同電極形成於上基板 處。下基板112產生一電場以及調整液晶層之透射率,其中此電 場與應用至每-晝素之資料電壓與共同電壓之間的差動電壓對 應。 上基板114包含對應每一晝素之彩色濾光片,彩色濾光片係 形成於下基板112處且正對輕合於下絲112,液晶層形成於彩色 濾光片與下基板112之間。本文中,用於接收共同電壓之共同電 極依照液晶層之驅動模式形成於上基板114處。借助使用複數個 彩色遽光片’上基板114將透過液晶層入射於其上的光線過滤, 以發射-定顏色的光線至外部,由此允許顯示面板11〇上顯示一 201241508 定顏色的影像。 本文中,依照液晶層之驅動模式,下基板112與上基板U4 之詳細結構可以形成多種樣式。例如液晶層之驅動模式為扭轉向 列(Twisted Nematic; TN)模式、垂直配向(Vertical Aiignment ; VA)模式、橫向電場切換(in_piane挪丨她丨呢;jpg)模式或者 邊緣電場切換(Field Switching ; FFS)模式。 上偏光膜116附著至上基板114之一個完整表面,以及將透 過上基板114發射到外部的光線偏光。上偏光膜116透過切割製 程被形成以包含與上基板114之前表面相同的尺寸,以及附著至 上基板114之一個完整表面。上偏光膜丨π之每一側面透過去角 (chamfer)製程形成一定斜面。 下偏光膜118附著至下基板112之後表面,以及將背光單元 120照射到顯示面板11〇上的光線偏光。 顯示面板110更包含連接-焊塾部(圖中未表示)之複數個 電路膜(®巾未表示)以及連接這些電_之_電路板,其中 焊塾部被準備在下基板112之第—與第二長邊之第—長邊處:、 用於供應#料-5孔號至顯示面板11〇之資料驅動積體電路被裝 設於每-電賴上。此外,用於_(掃描)喊至顯示面 板110之閘極驅動電路(圖中未表示)透過薄膜電晶體製造製程 ^成於顯示面板11G之下基板112處。魏職過捲帶式自動接 合(Tape Automated Bonding ; TAB)製程被附著至顯示面板咄 之焊塾部與印職路板,以及為歸式封裝(Tape Carrier201241508 VI. Description of the Invention: [Technical Field] The present invention relates to a display device, 牯丨θ__, particularly a display device manufacturing apparatus and method, in which a display panel is removed by removing a part of a housing (coffee) Protective cover (5) cover) The exposed display device is shaped in the shape. The core is used to protect the edge portion of the display panel. [Prior Art] Recently, the industry is developing a flat display device which can reduce the weight of the cathode ray tube. It is reported that the liquid crystal display device (10), the display (10), the field emission display device (10), and the light-emitting display device are used for riding the surface display device. However, among these flat display devices, the liquid crystal display device is easily manufactured by the availability of a good-causing driver, and the image of Gaoqiu is realized, and thus attracts a lot of attention. Recently, there has been an increasing demand for research and development of flat display devices in terms of technology and design to attract consumer interest. As a result, the industry is continually striving to minimize (thinning) the thickness of display devices and to increase the design of aesthetically pleasing designs to cater to the aesthetics of consumers to appeal to consumers. However, the development of aesthetics or thinness for enhancing the display device in the design has been passed through, and the components for the conventional tf device have been taken care of, and the structure of the components has changed. Due to these limitations, there are limitations in terms of devices that are used in the development of new designs. For example, in a liquid crystal display device of the prior art, it is necessary to use the lower case and the front case to receive the liquid crystal display panel light-emitting unit, and additionally Use a separate front protective cover with a rear protective cover to the fine liquid crystal age device to the knee, monitor 4, 4,410,508, *, mobile devices, TV, etc. As described above, the display device of the prior art requires the front protective cover and the rear protective cover as well as the lower case and the front case, and thus there is a limitation in reducing the thickness of the liquid crystal display device and changing the design thereof. In particular, the front and rear protective covers must cover the top edge of the liquid crystal display panel. For this reason, the thickness of the display device is inevitably thickened, and the boundary width of the display device is enlarged. In addition, due to the height of the steps in the boundary portion, it is difficult to implement various new designs. SUMMARY OF THE INVENTION Accordingly, the present invention is directed to a device and method for manufacturing a display device that substantially obviate one or more problems due to the limitations and disadvantages of the prior art. One aspect of the present invention provides a display device that does not use some of the housings and covers required to produce the display device, thereby minimizing the aesthetics of the thickness and the added design. - Another aspect of the present invention provides a manufacturing apparatus and method for a hybrid device, wherein a sealing member for protecting an edge portion of a display panel is formed in a display panel through a removal portion of a pure body and a tilting cover . Other advantages, objects, and features of the present invention will be set forth in part in the following claims: <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; Partially understood or tr from the hair _ practice in the first _ purpose and other advantages can be transparently stated # and the application of the special squad _ structure and 5 diagram part, can be achieved and obtained. In order to obtain the above objects and other features of the present invention, the present invention will now be specifically described and described in detail in the specification of the present invention. The display device manufacturing apparatus of the present invention comprises: a base; the strip drawing portion is placed on the bribe And a tracing-block display panel, the display panel includes a lower substrate, a substrate directly opposite the lower substrate, and at least one upper film attached to the upper substrate; and a sealing component forming portion disposed at the base and the panel The edge portion of the panel placed at the floor forms a seal assembly. The display panel further includes: a plurality of circuit films attached to one side of the lower substrate corresponding to the first long side of the display panel and the first long side of the second long side; and a printed circuit board attached to the circuit films 'the sealing component The system is formed on an edge portion of the display panel, corresponding to the second long side of the display panel and the first short side and the second short side. The seal assembly forming portion includes: - a squaring unit that forms a seal assembly with a margin portion of the aging panel; and a moving unit for moving the seal unit. The seal assembly forming portion includes m seals, (4) close contacts at the edge portions of the display panel; and a unit that moves the first to third seal units. - each of the first to third sealing units includes: a detecting component for detecting an edge portion of the display panel to which the sealing component is to be coated; and a coating component for coating the detected display and the edge portion Cloth sealant; a hardening component for hardening the sealant coated on the side of the display panel to form the seal assembly; and a support module for supporting the assembly, the component, and the mobile drive Detection component, coating component and hardening component. The first includes: the first-high shelf is placed parallel to the base, the display panel is located on one side, the first and second sealing units are separated from each other, the display surface 1: between the 201241508 and the second sealing unit; and the third elevated frame is Placed on the side of the first speech port, and supports and moves the third sealing unit. The first sealing sheet is moved by the movement of the second elevated frame, and the edge portion forms a sealing component corresponding to the first short side of the display panel, and the second portion does not move according to the movement of the second overhead frame, and the display panel The edge shape corresponds to the second short side of the panel and the third seal is illuminated by the second frame (four) (four) paste _ axis = the second long side of the face. Only, w < first elevated 'placed at the base corresponding to the first side of the display panel, slave support and shaft first - sealing unit m placed at the base corresponding to the second short side of the display panel, and support and move the second sealing unit ·- and the third elevated frame, placed at the base corresponding to the second long side of the display panel to move the third sealing unit. The opening element borrows (4)-high_, and forms the first short side of the display panel corresponding to the display panel at the edge of the display panel, and the second sealing unit is moved by the second 3 to the side of the panel_the corresponding display panel. And the third sealing unit is formed by the third high _, and the sealing member is formed on the edge portion of the display panel to correspond to the second long side of the display panel. According to another aspect of the present invention, a method for manufacturing a crane device includes: preparing a display panel, wherein the substrate comprises a lower substrate, and the substrate is attached to at least one upper film of the upper substrate; The reflective panel portion is placed on the panel support portion at the base; and a sealing assembly is formed at an edge portion of the display panel supported by the panel reading portion. The 201241508 display panel further includes: a plurality of circuit films attached to one side of the lower substrate corresponding to the first long side of the display panel and the first long side of the second long side; money attached to the printed circuit of the circuit film, sealed The forming of the component is formed on the edge of the correcting panel to form a second long side of the sealing component corresponding to the display panel, and the first short side and the second short side. The step of forming the sealing member comprises: - an edge portion of the display panel to be coated with the sealing member; applying a sealing agent on the edge portion of the display panel according to the side result; and hardening the sealant to form the sealing member. The formation of the t-shirt further includes the sealing of the hardened and formed seal of the member, and the member's shape to detect the seal assembly. It is to be understood that the singularity of the present invention as described above is a representative and explanatory description, and is intended to further disclose the scope of the patent application of the present invention. [Embodiment] Hereinafter, a display device manufacturing apparatus and a second embodiment of the display device of the first embodiment of the present invention will be described with reference to the accompanying drawings. Fig. 4 shows the display of the first embodiment as the panel 11G includes the positive substrate 112 and the upper substrate; 201241508 • n4. The backlight unit 120 illuminates the light onto the display panel 11(). The support assembly 13 is coupled to the 'receiving light unit 12' and supporting the display panel 110 such that the front surface and the side of the display panel 110 are exposed to the outside. Panel coupling assembly 140 couples display panel 110 to panel support assembly 130. The display panel 110 includes a lower substrate 112, an upper substrate 114, an upper polarizing film 116, and a lower polarizing film 118. The upper substrate 114 is coupled to the lower substrate 112 with a liquid crystal layer (not shown) interposed therebetween. The upper polarizing film 116 is adhered to the upper substrate 114. The lower polarizing film 118 is attached to the rear surface of the lower substrate 112. The lower substrate 112 includes a plurality of halogens (not shown) formed in respective regions defined by intersections of a plurality of gate lines (not shown) and data lines (not shown). Each of the halogens contains a fine crystal (not shown), a pixel electrode, and a common electrode. The thin film transistor is connected to the gate line and the data line. The halogen electrode is connected to a thin film transistor. The common electrode is formed adjacent to the halogen electrode and receives a common voltage. Herein, the common electrode is formed at the upper substrate in accordance with the driving mode of the liquid crystal layer. The lower substrate 112 generates an electric field and adjusts the transmittance of the liquid crystal layer, wherein the electric field corresponds to a differential voltage applied between the data voltage and the common voltage of each halogen. The upper substrate 114 includes a color filter corresponding to each of the pixels. The color filter is formed on the lower substrate 112 and directly opposite to the lower wire 112. The liquid crystal layer is formed between the color filter and the lower substrate 112. . Herein, the common electrode for receiving the common voltage is formed at the upper substrate 114 in accordance with the driving mode of the liquid crystal layer. The light incident on the liquid crystal layer is filtered by using a plurality of color calenders' upper substrate 114 to emit a light of a predetermined color to the outside, thereby allowing the display panel 11 to display an image of a predetermined color of 201241508. Herein, according to the driving mode of the liquid crystal layer, the detailed structure of the lower substrate 112 and the upper substrate U4 can be formed in various patterns. For example, the driving mode of the liquid crystal layer is Twisted Nematic (TN) mode, Vertical Aiignment (VA) mode, horizontal electric field switching (in_piane), or edge electric field switching (Field Switching; FFS) mode. The upper polarizing film 116 is attached to one complete surface of the upper substrate 114, and the light emitted to the outside through the upper substrate 114 is polarized. The upper polarizing film 116 is formed through a dicing process to include the same size as the front surface of the upper substrate 114, and attached to one complete surface of the upper substrate 114. Each side of the upper polarizing film 丨π is formed into a slope by a chamfer process. The lower polarizing film 118 is attached to the rear surface of the lower substrate 112, and the light of the light that illuminates the backlight unit 120 onto the display panel 11 is polarized. The display panel 110 further includes a plurality of circuit films (not shown) connected to the soldering portion (not shown) and a circuit board connecting the electric wires, wherein the soldering portion is prepared on the lower substrate 112. The second long side—the long side:: The data driving integrated circuit for supplying the #-5 hole number to the display panel 11〇 is mounted on each of the electric boards. Further, a gate driving circuit (not shown) for _ (scanning) shouting to the display panel 110 is formed through the thin film transistor manufacturing process at the substrate 112 below the display panel 11G. The Tape Automated Bonding (TAB) process is attached to the soldering and printed circuit boards of the display panel, as well as the tape carrier (Tape Carrier).
Package ’ TCP)或載晶撓性片板(Chip 〇n/ 201241508 薄膜覆晶封裝(Chip On Film ; C0F)。因此’顯示面板110透過 電路膜電連接至印刷電路板。 印刷電路板電連接這些電路膜,以及供應用於顯示影像之各 種訊號至顯示面板11 〇。用於控制顯示面板11 〇之驅動之時序控制 器(圖中未表示)、各種電源電路(圖中未表示)、記憶體元件(圖 中未表不)專被裝設於印刷電路板上。 背光單元120包含導光面板122、反射片124以及光學組件 126。 導光面板122被放置於面板支撐組件130中,導光面板122 形成為平面型(或者楔型),以及引導透過光入射面從光源(圖中 未表示)輸入的光線至顯示面板110。本文中,光源包含螢光燈或 者發光二極體(LED)。 反射片124被放置於導光面板122之後表面處,以及反射從 導光面板122入射於其上的光線至顯示面板110。 光學組件126被放置於導光面板122上,增強從導光面板122 仃進到顯示面板11〇之光線的亮度特性。為達此目的,光學組件 6包3 —下擴散片、一下稜鏡片、一上稜鏡片以及一上擴散片中 至少—個擴散片與一個稜鏡片。 面板支撐組件13〇支撐顯示面板no,以對外暴露上偏光獏 116 - 之則表面與顯示面板110之側面。為達此目的,面板支撐組件 130包含保護蓋131、支撐蓋133以及引導框135。 保濩蓋131形成υ狀以包含用於接收支撐蓋133與引導框 之接收空間,並且支撐顯示面板11〇之後邊緣。保護蓋I”由塑 201241508 勝材料或者金屬材料形成,例如由用於增強所生產的顯示裝置之 美感之金屬材料形成。為達此目的,保護蓋131包含保護板(set plate) 131a與保護側壁(set side wall) 131b。 保護板131a用作顯示裝置之後蓋,保護板131a被生產為平 面型。 保護侧壁131b從保護板131a之邊緣部份垂直彎曲以形成接 收空間。保護侧壁13ib被形成以圍繞引導框135之側面,用作所 生產的顯示裝置之側蓋。 支撐蓋133被放置於保護蓋131之接收空間中以支撐引導框 135以及接收背光單元12〇。為達此目的,支撐蓋133包含用於支 稽月光單元120之一蓋板(c〇ver pia^e)以及從此蓋板之邊緣垂 直彎曲的支撐側壁。支撐蓋133藉由與蓋板耦合的複數個螺釘透 過保護板131a與保護蓋131耦合。 引導框135形成正方(tetragonal)框狀以包含狀的 。】面,被放置於支撐蓋133處,以及藉由面板輕合組件14〇搞合 至顯示面板110之後表面。為達此目的,引導框135包含耦合組 件形成部135a以及引導侧壁135b,其中引導側壁丨咖從耦合組 件形成部135a垂直彎曲以及與保護側壁131b耦合。 耦合組件形成部135a係形成板狀以正對顯示面板11()之後邊 緣。卩伤。本文中’搞合組件形成部l35a包含具有一定深度的溝槽, 從而便於形成面板耦合組件14〇。 引導側壁135b從鄰接保護側壁i31b之搞合組件形成部135a 之-側垂直彎曲,被放置於支撐蓋133之支_壁與保護側壁 12 201241508 ' 131b之間的空間’以及耗合於保護側壁13ib。 為了耦合引導框135與保護蓋131,顯示裝置1〇更包含第一 麵0組件131c與第二輕合組件135c。第-輕合組件i3lc形成於 •保護蓋131處,第二搞合組件135c形成於引導框135處。 例如’第-輕合組件131c係形成凹陷,以包含從保護側壁 131b之内部側壁之一定深度,從而對應第二輕合組件版。第二 耦合組件135c被形成以從引導側壁1351)之外部側壁突起,並且 包含一階梯面與一斜面。本文中,此階梯面用於避免與第一耦合 組件131c耦合的第二搞合組件i35c脫離,此斜面則便於第一麵 合組件131c與第二耦合组件i35c之耦合。 以上已經描述引導框135與保護蓋131係相互耦合,但是實 施例並非限制於此。就顯示裝置1〇之設計而言,引導框135耦合 於支撐蓋133之支撐側壁。這種情況下,保護蓋131藉由與支撐 蓋133之蓋板輕合的螺釘透過保護板i31a輕合於支稽·蓋133。 面板耦合組件140係形成於引導框135之耦合組件形成部 135a處’並且搞合顯示面板11〇與面板支樓組件13〇。本文中, 考慮到顯示面板110與引導框135之耦合強度與厚度,面板輕合 組件140搞合於顯示面板11〇之下基板112,但是實施例並非限制 於此。另一例子,面板耦合組件140耦合於下偏光膜118。面板耦 合組件140係為雙面膠帶或者黏合劑(例如,膠水、瞬間黏合劑 (instant adhesive)、熱固性黏合劑,或者可光固性黏合劑 (photocurable adhesive)) 顯示裝置10中,面板耦合組件140將顯示面板no耦合至面 13 201241508 板支撐組件130’因此從一般的顯示裝置中移除上部殼體與前保護 蓋。從顯示面板110之邊界部份移除階梯高度,由此最小化厚度 以及增強設計的美感。 以上描述的顯示裝置10係為具有顯示面板110與背光單元 120之顯示器產品。然而,顯示裝置1〇中,顯示面板11〇可以由 包含複數個有機發光元件之有機發光顯示面板代替。這種情況 下,有機發光顯示面板係為自發光元件,由此則不提供面板支撐 組件130中放置的背光單元12〇。此外,也不提供面板支撐組件 130之支撐蓋133。 包含有機發光顯示面板之顯示面板110包含下基板112、上基 板114以及上偏光膜116。上基板114正對耦合下基板112,上偏 光膜116附著至上基板114。 下基板112包含複數個發光單元,其中複數個發光單元係形 成於複數條閘極線、資料線與電源(VDD)線所定義的各自區域中。 每-發光單元包含至少-個切換電晶體、至少一個驅動電晶體以 及-發光7C件’其中切換電晶體連接—閘極線與—資料線,驅動 電晶體連接切換電晶體與-電源⑽)線,發光元件依照驅動電晶 體之切換所控制的電流發射光線。 上基板114正對搞合下基板112,並且保護下基板112處形成 的複數個發光元件。本文中,上基板m包含複數個發光元件, .複數個發光元件分別連接下基板112處形成的複數個驅動電晶 體’這種情況下不在下基板112處提供形成的發光元件。 上偏光膜116附著至上基板114之一個完整表面,並且將透 201241508 '過上基板114發射到外部的光線偏光。上偏光膜116透過切割製 •程被形成以具有與上基板之前表面相同的尺寸,以及被附著至^ 基板114之個凡整表面。上偏光膜116之每-側面透過去角製 程形成-定斜面(slQpe)。可能不提供上偏細ιΐ6,這種情況下 因為上基板114被暴露於外’為了保護上基板114,上偏光膜116 由保護膜(圖中未表示)替代。 依照顯示面板110為液晶顯示面板、有機發光顯示面板或者 三維顯示面板,上偏光膜116、保護膜與三維⑽光學膜(圖中 未表不)可以被組合以及附著至顯示面板11{)之上基板114。因 此’以下描述中,附著至上基板114之上偏光膜116、保護膜與三 維光學膜之組合被定義為至少一個上部膜。 「第3圖」所Tit係為本發明第二實施例之顯示裝置之示意圖。 「第4圖」所示係為沿「第3圖」所示之線B_B之剖面之剖面圖。 請參考「第3圖」與「第4圖」,本發明第二實施例之顯示裝 置20包含顯示面板l1G、背光單元⑽、面板支敎件請、面板 耦合組件140以及密封組件25〇。顯示面板11〇包含正對搞合的下 基板112與上絲114。背光單元12〇照射光線到顯示面板11〇 上。面板支撐組件130接收背光單元12〇以及支撐顯示面板, 從而顯示面板110之前表面與側面被暴露到外部。面板輕合組件 140將顯示面板110與面板支撐組件13〇柄合。密封組件25〇形成 於顯不面板110之邊緣部,以及用以保護顯示面板11〇之邊緣部。 除密封組件250 α外’包含這種配置的顯示裝120具有第一實施 例之顯示裝置10相同之配置,因此,第一實施例之以上描述被應 15 201241508 用至第二實施例。相同的參考標號表示相同元件。 4封組件250係形成於顯示面板nG之第二長邊處以及 示面板m之第一與第二短邊對應之顯示面板11〇之邊緣部= 文中,複數個電路膜被附著於顯示面板110之第—長邊之邊 份。此部份被—分件(圖中未表示)所圍繞。因此,顯 板110之第—長邊所對應的顯示面板⑽之邊緣部不需要形成 封組件250。密封組件25〇由含石夕㈤ic〇n_based)密封劑 外線可硬化密封劑(或樹脂)或者光崎卿成,但是考廣、 程黏性時間’密封組件25〇由紫外線可硬化之密封劑形成。密封 劑的黏度處於大於·厘泊(cps)至大約% _厘泊以内作 是並非限制於此。可以依照形狀製程時間選擇黏度。此外,— 劑可以為無色(或透明)或者彩色(例如,藍色、紅色、藍綠Package 'TCP) or crystal-loaded flexible sheet (Chip Filmn/ 201241508 Chip On Film; C0F). Therefore, the display panel 110 is electrically connected to the printed circuit board through the circuit film. The printed circuit board electrically connects these a circuit film, and various signals for displaying images to the display panel 11 时序. A timing controller (not shown) for controlling the driving of the display panel 11 各种, various power supply circuits (not shown), memory The component (not shown) is specifically mounted on the printed circuit board. The backlight unit 120 includes a light guide panel 122, a reflective sheet 124, and an optical component 126. The light guide panel 122 is placed in the panel support assembly 130 to guide light. The panel 122 is formed in a planar shape (or a wedge shape), and guides light input from a light source (not shown) through the light incident surface to the display panel 110. Here, the light source includes a fluorescent lamp or a light emitting diode (LED). The reflective sheet 124 is placed at the rear surface of the light guide panel 122, and reflects light incident thereon from the light guide panel 122 to the display panel 110. The optical assembly 126 is placed on the guide On the panel 122, the brightness characteristic of the light that is pushed into the display panel 11 from the light guide panel 122 is enhanced. To achieve this, the optical component 6 includes a 3-diffusion sheet, a lower sheet, a top sheet, and an upper diffusion. At least one diffusion sheet and one cymbal sheet in the sheet. The panel support assembly 13 〇 supports the display panel no to expose the surface of the polarizing 貘 116 - to the side of the display panel 110. For this purpose, the panel support assembly 130 includes The protective cover 131, the support cover 133, and the guide frame 135. The protective cover 131 is formed in a shape to receive the receiving space for receiving the support cover 133 and the guide frame, and supports the rear edge of the display panel 11. The protective cover I" is made of plastic 201241508 The winning material or the metallic material is formed, for example, by a metallic material for enhancing the aesthetics of the produced display device. To this end, the protective cover 131 includes a set plate 131a and a set side wall 131b. The protective plate 131a is used as a rear cover of the display device, and the protective plate 131a is produced in a flat shape. The protective side wall 131b is bent perpendicularly from the edge portion of the protective plate 131a to form a joint. The protective side wall 13ib is formed to surround the side of the guide frame 135 for use as a side cover of the produced display device. The support cover 133 is placed in the receiving space of the protective cover 131 to support the guide frame 135 and the receiving backlight unit For this purpose, the support cover 133 includes a cover plate for covering one of the moonlight units 120 and a support side wall that is vertically bent from the edge of the cover plate. The support cover 133 is covered by the cover A plurality of screws coupled to the board are coupled to the protective cover 131 through the protective plate 131a. The guide frame 135 is formed in a tetragonal frame shape to contain a shape. The face is placed at the support cover 133, and is brought to the rear surface of the display panel 110 by the panel light fitting assembly 14. To this end, the guide frame 135 includes a coupling member forming portion 135a and a guiding side wall 135b, wherein the guiding side wall is vertically bent from the coupling member forming portion 135a and coupled to the protective side wall 131b. The coupling member forming portion 135a is formed in a plate shape to face the trailing edge of the display panel 11 (). Bruises. Here, the engaging component forming portion l35a includes a groove having a certain depth to facilitate formation of the panel coupling assembly 14A. The guiding side wall 135b is vertically bent from the side of the engaging member forming portion 135a adjacent to the protective side wall i31b, and is placed in the space between the branch wall of the support cover 133 and the protective side wall 12 201241508 '131b and is fitted to the protective side wall 13ib. . In order to couple the guiding frame 135 and the protective cover 131, the display device 1 further includes a first surface 0 component 131c and a second light combining component 135c. The first-light assembly i3lc is formed at the protective cover 131, and the second engagement assembly 135c is formed at the guide frame 135. For example, the 'first-light fitting assembly 131c' is formed with a recess to include a certain depth from the inner side wall of the protective side wall 131b, thereby corresponding to the second light-weight assembly plate. The second coupling assembly 135c is formed to protrude from the outer side wall of the guide side wall 1351) and includes a step surface and a slope. Here, the step face is used to avoid disengagement of the second engagement component i35c coupled to the first coupling component 131c, which facilitates coupling of the first face component 131c with the second coupling component i35c. It has been described above that the guide frame 135 and the protective cover 131 are coupled to each other, but the embodiment is not limited thereto. In terms of the design of the display device 1, the guide frame 135 is coupled to the support side wall of the support cover 133. In this case, the protective cover 131 is lightly attached to the cover 133 through the protective plate i31a by a screw that is lightly engaged with the cover of the support cover 133. The panel coupling assembly 140 is formed at the coupling assembly forming portion 135a of the guide frame 135 and engages the display panel 11A and the panel branch assembly 13A. Herein, considering the coupling strength and thickness of the display panel 110 and the guide frame 135, the panel light assembly 140 is engaged with the substrate 112 below the display panel 11, but the embodiment is not limited thereto. In another example, panel coupling assembly 140 is coupled to lower polarizing film 118. The panel coupling assembly 140 is a double-sided tape or adhesive (eg, glue, instant adhesive, thermoset adhesive, or photocurable adhesive). The display unit 10, the panel coupling assembly 140 Coupling the display panel no to the face 13 201241508 board support assembly 130' thus removes the upper and front protective covers from a typical display device. The step height is removed from the boundary portion of the display panel 110, thereby minimizing the thickness and enhancing the aesthetics of the design. The display device 10 described above is a display product having the display panel 110 and the backlight unit 120. However, in the display device 1, the display panel 11A may be replaced by an organic light emitting display panel including a plurality of organic light emitting elements. In this case, the organic light emitting display panel is a self-luminous element, whereby the backlight unit 12A placed in the panel supporting unit 130 is not provided. In addition, the support cover 133 of the panel support assembly 130 is not provided. The display panel 110 including the organic light emitting display panel includes a lower substrate 112, an upper substrate 114, and an upper polarizing film 116. The upper substrate 114 is coupled to the lower substrate 112, and the upper polarizing film 116 is attached to the upper substrate 114. The lower substrate 112 includes a plurality of light emitting cells, wherein the plurality of light emitting cells are formed in respective regions defined by a plurality of gate lines, data lines, and power (VDD) lines. Each of the light-emitting units includes at least one switching transistor, at least one driving transistor, and a light-emitting 7C member, wherein the switching transistor connection-gate line and the data line, and the driving transistor connection switching transistor and the power source (10) line The light emitting element emits light according to a current controlled by switching of the driving transistor. The upper substrate 114 faces the lower substrate 112 and protects a plurality of light-emitting elements formed at the lower substrate 112. Herein, the upper substrate m includes a plurality of light-emitting elements, and the plurality of light-emitting elements are respectively connected to a plurality of driving electric crystals formed at the lower substrate 112. In this case, the formed light-emitting elements are not provided at the lower substrate 112. The upper polarizing film 116 is attached to one complete surface of the upper substrate 114, and polarizes the light emitted to the outside through the substrate 41104. The upper polarizing film 116 is formed through the dicing process to have the same size as the front surface of the upper substrate, and is attached to the entire surface of the substrate 114. Each side of the upper polarizing film 116 is formed by a chamfering process to form a bevel (slQpe). The upper thin film ΐ6 may not be provided. In this case, since the upper substrate 114 is exposed to the outer side, in order to protect the upper substrate 114, the upper polarizing film 116 is replaced by a protective film (not shown). According to the display panel 110 being a liquid crystal display panel, an organic light emitting display panel or a three-dimensional display panel, the upper polarizing film 116, the protective film and the three-dimensional (10) optical film (not shown) may be combined and attached to the display panel 11{) Substrate 114. Therefore, in the following description, the combination of the polarizing film 116, the protective film and the three-dimensional optical film attached to the upper substrate 114 is defined as at least one upper film. The "Tit" in Fig. 3 is a schematic view of a display device according to a second embodiment of the present invention. The "figure 4" is a cross-sectional view of the section along the line B_B shown in "Fig. 3". Referring to "Fig. 3" and "Fig. 4", the display device 20 of the second embodiment of the present invention includes a display panel 11G, a backlight unit (10), a panel support member, a panel coupling assembly 140, and a sealing assembly 25A. The display panel 11A includes the lower substrate 112 and the upper wire 114 that are facing each other. The backlight unit 12 illuminates the light onto the display panel 11A. The panel support assembly 130 receives the backlight unit 12A and supports the display panel such that the front surface and the side surface of the display panel 110 are exposed to the outside. The panel light assembly 140 joins the display panel 110 with the panel support assembly 13. The sealing member 25 is formed on the edge portion of the display panel 110, and serves to protect the edge portion of the display panel 11A. The display device 120 including this configuration except for the sealing member 250 α has the same configuration as that of the display device 10 of the first embodiment, and therefore, the above description of the first embodiment is applied to the second embodiment. The same reference numerals denote the same elements. The four-part assembly 250 is formed at the second long side of the display panel nG and the edge of the display panel 11A corresponding to the first and second short sides of the display panel m. Herein, a plurality of circuit films are attached to the display panel 110. The first - the edge of the long side. This part is surrounded by a piece (not shown). Therefore, the edge portion of the display panel (10) corresponding to the first long side of the display panel 110 does not need to form the package assembly 250. The sealing member 25 is made of a refractory sealant (or resin) or a light-sealing sealant, but the viscous time of the seal member 25 is formed of an ultraviolet-curable sealant. The viscosity of the sealant is in the range of more than · centipoise (cps) to about % _ centipoise, and is not limited thereto. The viscosity can be selected according to the shape process time. In addition, the agent can be colorless (or transparent) or colored (for example, blue, red, blue-green
黑色)’但是並非限制於此。可以依照顯示袭置的設計選擇密封句 的顏色。 M 如「第5圖」所示,第-實施例之密封組件25〇係形成於辱員 示面板110之邊緣部,包含下基板112之整個側面、上基板山 之整個側面,以及鄰接上基板112之上偏光膜116之部ς側面。 如「第6圖」所示,第二實施例之密封組件25〇係形成於顯 示面板110之邊緣部,包含下基板112之整個側面、上基板山 之整個側面以及上偏光膜116之整個側面。 如「第7圖」所示’第三實施例之密封組件25〇係形成於顯 示面板no之邊緣部,包含上偏光膜116之頂面邊緣部份纽個 側面、下基板m之整侧面、_L基板114之整個側面以及下其 16 201241508 - 板112之後邊緣部份。 甚至當顯示面板110為有機發光顯示面板以及代替上偏光膜 116之保護膜被附著至有機發光顯示面板之上基板114時,密封組 件250形成於保護膜之頂面邊緣部份與整個側面、保護膜之部份 侧面或者保瘦膜之整個侧面。 第一至第三實施例之密封組件250形成於顯示面板11〇之邊 緣部’由此從一般的顯示裝置中移除上部殼體與前保護蓋。因此, 暴露於外的顯示面板110之邊緣部被防護以避免外部環境或者外 力。就是說’密封組件250形成於顯示面板11〇之邊緣部具有以 下優點’ 1)透過保護暴露於外的顯示面板110避免受到外力損 壞,增強顯示面板110之耐久性;2)避免上部膜脫落;3)當使用 暴露於外的顯示面板時,避免使用者受到傷害;4)避免水分參透 到顯示面板110内部之内;以及5)借助顯示面板110内部出現的 光線全反射,避免側邊光線泄露。 因此,第二實施例之顯示裝置20具有與第一實施例之顯示裝 置20相同的效果,此外,透過使用顯示面板11〇之邊緣部形成的 密封組件250,還避免顯示面板11〇之損壞、上部膜之脫落、水分 滲透以及側邊處之光線泄露。 「第8圖」所示係為用於形成本發明第二實施例之顯示裝置 之密封組件之本發明第一實施例之顯示裝置製造設備之透視圖。 「第9圖」所示係為「第8圖」所示之本發明第一實施例之顯示 裝置製造設備之側視圖。「第10圖」所示係為「第8圖」所示^ 本發明第一實施例之顯示裝置製造設備之平面圖。 17 201241508 請參考「第4圖」、「第8圖」、「第9圖」與「第1〇圖」,本 發明第-實施例之顯示裝置製造設備包含面板支撐部咖與密封 組件形成部700。面板支撐部_係被提供於底座_處以及支樓 顯示面板110。密封組件形成部7〇〇於面板支撐部6〇〇所支撐的顯 示面板110之邊緣部形成密封組件250。 首先,顯示面板110係為液晶顯示面板或有機發光顯示面板。 一實施例之顯示面板110包含下基板112、上基板114、上偏 光膜116與下偏光膜118。上基板114正對麵合下基板112,兩者 之間放置有液晶層(圖中未表示)。上偏光膜116附著至上基板 114。下偏細118附著至下基板112之後表面。—實施例之顯示 面板11G更包含附著至上偏光膜116之三維絲膜(圖巾未表示)。 另一實施例之顯示面板11〇包含下基板112、正對耦合於下基 板112之上基板114 ’以及附著至上基板114之上偏光膜。下 偏光膜118可以由保護膜代替。另一實施例之顯示面板11〇更包 各附著至上偏光膜116或上基板114之三維光學膜(圖中未表示)。 依照顯示面板110為液晶顯示面板、有機發光顯示面板或者 三維顯示面板’上偏光膜116、保護膜與三維光學膜(圖中未表示) 被組合以及附著至顯示面板110之上基板114。因此,以下描述 中,附著至上基板114之上偏光膜116、保護膜與三維光學膜之組 合被定義為至少一個上部膜。 顯示面板110.更包含複數個電路膜^如與―個印刷電路板 11牝。複數個電路膜1193被附著至下基板112之第一與第二長邊 之第一長邊處準備的焊墊部(圖中未表示)。印刷電路板11%連 201241508 接這些電路膜119a。 底座(baseframe) 500包含平面型底板(baseplate)以及 用於支樓底板之複數個支座(supports)。 面板支撐部600係被提供於底座5〇〇處以及用於支稽·顯示面 板110。為達此目的,面板支撐部600包含用以支撐顯示面板 之平台(stage)610以及用以支撐平台61〇之平台支撐單元630。 平台610被放置於底板上以被平台支撐單元63〇支撐,以及 用於支稽從外部裝載的顯示面板110。為達此目的,平台61〇包含 工作台612與突出部614’其中平台支撐單元63〇支撐工作台612, 突出部614形成於工作台612上以具有一定高度以及支撐顯示面 板 110。 工作台612被放置於底板上以被平台支撐單元63〇支撐。本 文中,工作台612藉由平台支樓單元630升高。這種情況下,在 裝載顯示面板110時工作台612升高(或降低)到一平面裝載位 置,當顯示面板110被放置於突出部614處時,工作台612下降 (或上升)到一製程位置。 突出部614從工作台612突出一定高度以包含小於顯示面板 110之面積’以及用於支撐從外部褒載的顯示面板110。本文中, 大出部614用以支撐與顯示面板11〇之後邊緣部份不同的部份, 從而允許顯示面板110之邊緣部被暴露於外。 面板支撲部600更包含複數個真空吸附孔(圖中未表示),形 成於犬出部614處以及真空吸附(vacuum-absorb)i員示面板110。 此外,面板支撐部600更包含複數個提升銷(lift pin)(圖中未 19 201241508 表示)。提升銷被提供於突出部614處從而能夠上升,臨時支撐其 上裝載的顯不面板110以及於突出部614處放置所支樓的顯示面 板 110。。 平台支樓早元630被放置於底板(base plate)下方以及支 樓平台610。為達此目的,平台支撐單元630包含支架(shelf) 631、支撐軸633以及驅動部635。 支架631被放置以與底板之後表面分離一定距離,以及用以 支樓驅動部635。 支撐軸633通過底板以及搞合於平台610之工作台612之後 表面。 驅動部635被放置於支架631處以耦合支撐軸633。驅動部 635提升支撐軸633。因此,耦合於支撐轴633之平台61〇依照驅 動部635之驅動上升。依照密封組件形成部7〇〇所完成的密封組 件250之形成方法,驅動部635旋轉支撐軸633。因此,依照驅動 部635之驅動,耦合於支撐軸633之平台61〇旋轉。 本發明第一實施例之顯示裝置製造設備更包含面板對準部 650 ’用於對準平台610所支撐的顯示面板no之位置。 面板對準部650包含標記偵測單元652與面板對準單元654。 標記僧測單* 652用於價測顯示面板110處形成的對準標記(圖 中未表不)。面板對準單元654根據標記偵測單元652削貞測的對 準標記的位置用以對準顯示面板11G的位置。 〇〇禚记偵測單元652包含一對垂直支座652a以及一個標記捕獲 〇〇 b這對垂直支座652a被放置於底座5〇〇上,包含對應顯 20 201241508 .:=11G處形成的解標記⑽中未表示)之—^高度。標記 .捕獲早疋獅被放置於這對垂直支座_之每一垂直支座處, 並且捕獲對應的對準標記。 面板對準單元脱包含-對對準導桿654a以及一對面板對準 桿 654b 。 這對對準導才干654a彼此平行地被放置於平台61〇周圍。例 如,這對對準導捍654a _接平台⑽之—條短邊或—條長 放置。 、古這對面板對準桿654b被放置於顯示面板m周圍,從而能夠 在^對對準導桿654a之間運動。根據標記偵測單元脱所債測的 對準標記的位置,這對面板對準桿祕滑動平台61〇處放置的顯 不面板110之侧面,以對準顯示面板110處形成的對準標記至參 考位置’從而對準顯示面板110之位置。 / 泣密封组件形成部·在平台61G所支稽的顯示面板m的邊 緣部上塗佈密_,硬化㈣齡顯示面板iiq的邊緣 部,形成密封組件25Q。為達此目的,密封組件形成部彻包含密 封單7L 710與移動單元72〇。密封單元71〇用於在顯示單元no 之邊緣部處形成密封組件25Q。移動單元72G 移動密封單元 如「第11圖」所示,密封單元710包含偵測組件711、塗佈 組件712、硬化組件713以及支撐模組714。 * 、—偵測組件711係被支撐模組714所支撐,以及用以偵測意圖 •被密封組件25〇所塗佈之顯示面板no之邊緣部。例如,、偵二组 21 201241508 用細貞測顯示面板11G之側面,即上基板m之側面。 塗佈組件712被支樓模組714支私正對顯示面板110之邊 緣部,以及在偵敝件711已偵測的顯示面板⑽之邊緣部上塗 «封劑。為達此目的,塗佈組件712包含喷塗喷嘴與注射器 喷塗噴嘴被放置於支撲模組714處以正對顯示面板m之邊 緣部。喷塗喷嘴在顯示面板11Q之邊緣部上塗佈注射器他所供 應的密封劑,由此允許「第5圖」、「第6圖」與「第7圖」分別 =之第i第二實施例任意其一之密封組件咖形成於顯示面 反no之邊緣部。本文中,在喷射製程或氣壓製程中,喷塗喷嘴 在顯示面板110之邊緣部上塗佈密封劑。 -實施例之喷塗喷嘴被形成μ狀之剖面,透過在顯示面板 no之邊緣部上塗佈㈣劑,健喷嘴允許於顯示面板別之邊緣 部處形成「第5圖」之第-實施峨「第6圖」之第二實施例之 密封組件250。 如「第12圖」所示,另一實施例之喷塗喷嘴被形成包含,/〔 狀=面,以及允許於顯示面板11〇之邊緣部形成「第7圖」之 第-實知例之密封組件250。就是說,另—實蘭之噴塗噴嘴被形 成以包含\,,狀勤與插人空間,以及允許於顯示面板ιι〇之 邊緣部形成第三實施例之密封組件25〇,其中顯示面板ιι〇之邊緣 部被插入此插入空間内。 注射器712a被放置於支揮模組714 •處,以連接喷塗喷嘴。注 射器712a被放置於支撐模組714處以連接喷塗喷嘴。注射器7似 22 201241508 - 儲存一定數量的密封劑以及供應儲存的密封劑至噴塗喷嘴。密封 - 劑為含矽密封劑、紫外線可硬化的密封劑(或樹脂)或者光阻密 封劑’但是考慮到製程黏性時間,密封組件25〇為紫外線可硬化 之密封劑。這種情況下,硬化密封劑所花費的時間為大約5秒以 内,硬化收縮百分比處於大約5 %以内。此外,密封劑的黏度為大 約1500厘泊至大約30, 000厘泊以内,但是並非限制於此。依照 形狀制程時間選擇黏度。另外,密封劑可以為無色(或透明)或 者彩色(例如,藍色、紅色、藍綠或黑色),但是並非限制於此。 可以依照顯示裝置的設計選擇密封劑的顏色。 硬化組件713被鄰接塗佈組件712的支撐模組714所支撐, 當連同塗佈組件712移動時,用以硬化塗佈組件712在顯示面板 no之邊緣部上塗佈的密封劑。此時’硬化組件713從密封劑藉由 塗佈組件712被塗佈時,在大約5秒内硬化被塗佈的密封劑。為 達此目的,依照密封劑的硬化特性,硬化組件713在密封劑上照 射-定溫度的紫外線或熱量。例如,密封舰由料線可硬化樹 脂形成,硬化組件713在紫外線可硬化樹脂上照射紫外線。 支撐模組714支撐偵測組件71卜塗佈組件712與硬化組件 713 ’同B夺依照移動單元720办驅動移動偵測組件711、塗佈組件 712與硬化組件713。為達此目的’找模組714 &含—個提升組 件71如、一個支撐托架714b、一個支撐框架714c以及-個旋轉 組件714d。 . 升、、且件?14a可上升地放置於移動單元72Q處,以及可上升 地支撐此支撐托架⑽。為達此目的,提升組件仙使用液壓紅 23 201241508 (hydrauhc cylinder)或氣壓缸(pneumatic 洲浙)採用 汽缸(cylinder)方案提升支揮托架mb,提升組件恥使用使 用馬達與滾賴桿(ball serew) 螺財案提升支撐托 架714b ’提升組件714a彳_達 '祕(⑽卿)與小齒輪 (Pinion gear)採用齒輪方案提升支撐托架mb,提升組件仙 使用馬達、滑輪(pulley)與傳送帶(belt)剌舰帶方案提 升支樓托架714b,或者提升組件714a採用線性馬達方案提升支撐 托架714b。例如’當塗佈組件712在顯示面㈣G之邊緣部處形 成第-或第二實施例之密封組件25G時,提升組件71知提升支撐 托架714b ’這樣喷塗喷嘴之排放口(如如哪〇pening)被放置 於顯示面板110之側面中央部份或者側面中央部份與顯示面板 110之頂部之間。 支撐托架714b被放置於提升組件714a處,以及用以支撐旋 轉組件714d與注射器712a。為達此目的,支撐托架714b被形成 以具有〃 L〃形狀之剖面。 支撐框架714c被放置於支撐托架714b下方,透過旋轉組件 714d可旋轉性地支撐,以及支撐偵測組件711、塗佈組件712與 硬化組件713。為達此目的,支撐框架714c形成板狀。 旋轉組件714d被放置於支撐托架714b處以耦合於支撐框架 714c ’以及支撐此支撐框架714c。就是說,旋轉組件714d將噴塗 密封劑之喷塗喷嘴旋轉大約90度,以正對顯示面板110之邊緣部。 如「第11圖」或「第12圖」所示,密封單元710更包含捕 獲組件715。 24 201241508 . 捕獲組件715被放置於支擇模組714即支撐框架714c下方以 .鄰接硬化組件713。捕獲組件715捕獲密封組件25〇以即時檢查密 封組件250之形狀,其中密封組件250係透過硬化組件713被硬 化及形成。就是說,捕獲組件715捕獲顯示面板11〇之邊緣部處 形成的密封組件250,以即時產生密封組件之形成狀態資訊,即密 封組件250之形狀資訊。捕獲組件715 I生的密封組件25〇之形 ,資訊被供應至影像分析組件(财未表示)。影像分析組件分析 密封組件25G之形狀資訊以偵測密封組件25()之寬度或厚度,或 者供應密封組件250之斷開連接之相關資訊至使用者。 的久巧弟8圖」、「第9圖」與「第10圖」,移動單元 720依照X軸方向與/或㈣方向移動密封單元別,耻允許落 =單元=在顯示面板11G之邊緣部形成密封組件咖。為達此目 的’移動早το 72G包含第-高架722與第二高架似。 no H (齡50 722被放置為與底座_平行,顯示面核 向架722與底座删之間,第—高架722沿γ軸方 螺724。第一高架722使用馬達與滾珠螺桿採用滾珠 達、齒條與小齒輪採用齒輪方案或者線性馬達 ν、歹 第一咼架722使用線性馬達方案。 第二高架724可移祕放置於第 :密封單元咖以及沿X軸方向移動密封單元二第#^= ,使用馬達、祕與= ===方索或者線性馬達方案。例如,第二高架似使用線 25 201241508 如「第彳q區| P2盘速卢、、心所示,依照速度加速週期怪定速度週期 文中二/週期P3 ’移動單元720單獨移動密封單元710。本 移動速度示移動速度在驅動時期被加速到一期望 期,速度心、咖 期Ρ2表示保持—怪定移動速度之週 m期ρ3表示財移動速度減少為停止狀態之速度之 ⑽之驅動力·=r」所示,密解^ 7iq依照移動單元 1仙圖~ - 之起錄置移_雜部。如「第 no之’密封單元71G贿定速度移動,以及從顯示面板 緣权—側到其另-侧的範圍形成密封組件250。如「第 ^圖」所示’密封單元別減速義,然後在顯示面板別之邊 。之另侧停止。此時,當偵測單元711偵測到顯示面板削 i密封單元Μ之塗佈組件712喷塗密封劑。結果,僅 ^虽达封早疋71〇在怪定速度週期p2期間透過移動單元购皮移 動時’「在顯示面板n〇之邊緣部形成密封組件25〇。 第15A圖」、「第15B圖」、「第15C圖」、「第15D圖」、「第 —E圖」與帛15F圖」所不係為順序地描述透過使用本發明第一 具包例之裝置製造稍形成本發明第二實施例之顯示裝置之 密封組件之方法之示意圖。Black)' but it is not limited to this. The color of the seal sentence can be selected according to the design of the display. M. As shown in FIG. 5, the sealing assembly 25 of the first embodiment is formed on the edge portion of the humiliation panel 110, including the entire side surface of the lower substrate 112, the entire side surface of the upper substrate mountain, and the adjacent upper substrate. 112 is the side of the polarizing film 116. As shown in FIG. 6, the sealing assembly 25 of the second embodiment is formed on the edge portion of the display panel 110, and includes the entire side surface of the lower substrate 112, the entire side surface of the upper substrate mountain, and the entire side surface of the upper polarizing film 116. . As shown in FIG. 7 , the sealing assembly 25 of the third embodiment is formed on the edge portion of the display panel no, and includes the top side of the top surface of the upper polarizing film 116 and the entire side surface of the lower substrate m. The entire side of the _L substrate 114 and the lower edge portion of the 16 201241508 - board 112. Even when the display panel 110 is an organic light emitting display panel and a protective film instead of the upper polarizing film 116 is attached to the upper substrate 114 of the organic light emitting display panel, the sealing member 250 is formed on the top edge portion and the entire side of the protective film, and is protected. Part of the side of the film or the entire side of the thin film. The sealing assembly 250 of the first to third embodiments is formed at the edge portion of the display panel 11', thereby removing the upper casing and the front protective cover from a general display device. Therefore, the edge portion of the display panel 110 exposed to the outside is protected from the external environment or external force. That is to say, 'the sealing member 250 is formed on the edge portion of the display panel 11 具有 to have the following advantages' 1) to protect the display panel 110 exposed to the outside from external damage, to enhance the durability of the display panel 110; 2) to prevent the upper film from falling off; 3) avoiding damage to the user when using the exposed display panel; 4) avoiding moisture penetration into the interior of the display panel 110; and 5) avoiding side leakage of light by means of total reflection of light appearing inside the display panel 110 . Therefore, the display device 20 of the second embodiment has the same effect as the display device 20 of the first embodiment, and further, by using the sealing member 250 formed by the edge portion of the display panel 11 ,, the damage of the display panel 11 is also prevented, The upper film is detached, the moisture penetrates, and the light at the side is leaked. Fig. 8 is a perspective view showing a manufacturing apparatus of a display device of a first embodiment of the present invention for forming a sealing member of a display device of a second embodiment of the present invention. Fig. 9 is a side view showing the apparatus for manufacturing a display device according to the first embodiment of the present invention shown in Fig. 8. Fig. 10 is a plan view showing a manufacturing apparatus of a display device according to a first embodiment of the present invention shown in Fig. 8. 17 201241508 Please refer to "4th drawing", "8th drawing", "9th drawing" and "1st drawing". The display device manufacturing apparatus of the first embodiment of the present invention includes a panel supporting portion and a sealing member forming portion. 700. The panel support portion is provided at the base_ and the branch display panel 110. The seal assembly forming portion 7 forms a seal assembly 250 at an edge portion of the display panel 110 supported by the panel support portion 6''. First, the display panel 110 is a liquid crystal display panel or an organic light emitting display panel. The display panel 110 of an embodiment includes a lower substrate 112, an upper substrate 114, an upper polarizing film 116, and a lower polarizing film 118. The upper substrate 114 is joined to the substrate 112 directly opposite to each other with a liquid crystal layer (not shown) placed therebetween. The upper polarizing film 116 is attached to the upper substrate 114. The lower taper 118 is attached to the rear surface of the lower substrate 112. - Display of the embodiment The panel 11G further includes a three-dimensional silk film (not shown) attached to the upper polarizing film 116. The display panel 11A of another embodiment includes a lower substrate 112, a substrate 114' that is coupled to the upper substrate 112, and a polarizing film attached to the upper substrate 114. The lower polarizing film 118 can be replaced by a protective film. The display panel 11 of another embodiment further includes a three-dimensional optical film (not shown) attached to the upper polarizing film 116 or the upper substrate 114. The polarizing film 116, the protective film and the three-dimensional optical film (not shown) are combined and attached to the upper substrate 114 of the display panel 110 in accordance with the display panel 110 as a liquid crystal display panel, an organic light emitting display panel or a three-dimensional display panel. Therefore, in the following description, the combination of the polarizing film 116, the protective film, and the three-dimensional optical film attached to the upper substrate 114 is defined as at least one upper film. The display panel 110. further includes a plurality of circuit films, such as a printed circuit board 11A. A plurality of circuit films 1193 are attached to the pad portions (not shown) prepared at the first long sides of the first and second long sides of the lower substrate 112. The printed circuit board 11% is connected to 201241508 to connect these circuit films 119a. The base frame 500 includes a base plate and a plurality of supports for the floor of the support. The panel support portion 600 is provided at the base 5A and for the display panel 110. To this end, the panel support portion 600 includes a stage 610 for supporting the display panel and a platform supporting unit 630 for supporting the platform 61. The platform 610 is placed on the bottom plate to be supported by the platform supporting unit 63, and for displaying the display panel 110 loaded from the outside. To this end, the platform 61A includes a table 612 and a projection 614' in which the platform support unit 63 supports the table 612, and the protrusion 614 is formed on the table 612 to have a certain height and support the display panel 110. The table 612 is placed on the bottom plate to be supported by the platform support unit 63. In this context, the table 612 is raised by the platform branch unit 630. In this case, the table 612 is raised (or lowered) to a plane loading position when the display panel 110 is loaded, and when the display panel 110 is placed at the protrusion 614, the table 612 is lowered (or raised) to a process. position. The protrusion 614 protrudes from the table 612 by a certain height to include an area smaller than the display panel 110 and for supporting the display panel 110 that is loaded from the outside. Herein, the large portion 614 is for supporting a portion different from the edge portion of the display panel 11A, thereby allowing the edge portion of the display panel 110 to be exposed to the outside. The panel baffle 600 further includes a plurality of vacuum suction holes (not shown) formed at the dog outlet 614 and the vacuum-absorb i panel. In addition, the panel support portion 600 further includes a plurality of lift pins (not shown in FIG. 19 201241508). A lift pin is provided at the projection 614 to be able to ascend, temporarily supporting the display panel 110 loaded thereon and placing the display panel 110 of the building at the projection 614. . The platform abutment 630 is placed below the base plate and the platform platform 610. To this end, the platform support unit 630 includes a shelf 631, a support shaft 633, and a driving portion 635. The bracket 631 is placed to be separated from the rear surface of the bottom plate by a distance, and is used for the branch driving portion 635. The support shaft 633 passes through the bottom plate and engages the rear surface of the table 612 of the platform 610. The driving portion 635 is placed at the bracket 631 to couple the support shaft 633. The drive portion 635 lifts the support shaft 633. Therefore, the stage 61 耦合 coupled to the support shaft 633 rises in accordance with the driving of the driving portion 635. The driving portion 635 rotates the support shaft 633 in accordance with the method of forming the sealing member 250 which is completed by the sealing member forming portion 7''. Therefore, in accordance with the driving of the driving portion 635, the stage 61 耦合 coupled to the support shaft 633 rotates. The display device manufacturing apparatus of the first embodiment of the present invention further includes a panel alignment portion 650' for aligning the position of the display panel no supported by the platform 610. The panel alignment portion 650 includes a mark detecting unit 652 and a panel alignment unit 654. The mark test sheet * 652 is used to measure the alignment mark formed at the display panel 110 (not shown in the drawing). The panel alignment unit 654 aligns the position of the alignment mark according to the mark detecting unit 652 for aligning the position of the display panel 11G. The sniffer detecting unit 652 includes a pair of vertical pedestals 652a and a pair of mark 〇〇b. The pair of vertical pedestals 652a are placed on the base 5〇〇, and include solutions corresponding to the display 20 201241508 . :=11G. The height of the ^^ is not shown in the mark (10). Marking. The capture early lion is placed at each of the vertical supports _ and the corresponding alignment marks are captured. The panel alignment unit is decoupled from the alignment guide 654a and the pair of panel alignment levers 654b. The pair of alignment guides 654a are placed in parallel with each other around the platform 61A. For example, the alignment guide 654a _ is connected to the platform (10) by a short side or a strip length. The pair of panel alignment rods 654b are placed around the display panel m so as to be movable between the alignment guides 654a. According to the position of the alignment mark measured by the mark detecting unit, the pair of panels are aligned with the side of the display panel 110 placed at the sliding platform 61〇 to align the alignment mark formed at the display panel 110 to The reference position ' is thus aligned with the position of the display panel 110. / Wet seal assembly forming portion - The edge portion of the display panel m which is supported by the stage 61G is coated with a heat _, and the edge portion of the (four) age display panel iiq is cured to form a seal member 25Q. To this end, the seal assembly forming portion completely includes the seal sheet 7L 710 and the moving unit 72A. The sealing unit 71 is for forming a seal assembly 25Q at the edge portion of the display unit no. The moving unit 72G moves the sealing unit. As shown in Fig. 11, the sealing unit 710 includes a detecting unit 711, a coating unit 712, a hardening unit 713, and a supporting module 714. The detection component 711 is supported by the support module 714 and is used to detect the edge portion of the display panel no intended to be coated by the sealing component 25A. For example, the second group 21 201241508 measures the side of the display panel 11G, that is, the side of the upper substrate m. The coating assembly 712 is affixed to the edge of the display panel 110 by the branch module 714, and to the edge of the display panel (10) that has been detected by the detector 711. To this end, the coating assembly 712 includes a spray nozzle and a syringe spray nozzle that is placed at the flap module 714 to face the edge of the display panel m. The spray nozzle applies the sealant supplied by the syringe to the edge portion of the display panel 11Q, thereby allowing the fifth embodiment of the "fifth figure", the "figure 6" and the "figure 7" respectively = One of the sealing components is formed on the edge of the display surface anti-no. Herein, in the jetting process or the pneumatic process, the spray nozzle applies a sealant on the edge portion of the display panel 110. - The spray nozzle of the embodiment is formed into a μ-shaped cross section, and the (four) agent is applied to the edge portion of the display panel no, and the nozzle is allowed to form the "fifth figure" at the edge portion of the display panel. The sealing assembly 250 of the second embodiment of "Fig. 6". As shown in Fig. 12, the spray nozzle of another embodiment is formed to include /, a shape, and a first embodiment in which the edge portion of the display panel 11 is formed to form "Fig. 7". Seal assembly 250. That is, the other - the spray nozzle of the real blue is formed to include \, the space and the insertion space, and the edge portion of the display panel is allowed to form the sealing assembly 25 of the third embodiment, wherein the display panel ιι〇 The edge portion is inserted into this insertion space. A syringe 712a is placed at the support module 714 to connect the spray nozzles. The injector 712a is placed at the support module 714 to connect the spray nozzles. Syringe 7 like 22 201241508 - Store a certain amount of sealant and supply stored sealant to the spray nozzle. The sealant is a sealant containing a silicone sealant, an ultraviolet curable sealant (or resin) or a photoresist sealant. However, the seal assembly 25 is an ultraviolet curable sealant in view of process viscosity time. In this case, the time taken to harden the sealant is within about 5 seconds, and the percentage of hardening shrinkage is within about 5%. Further, the sealant has a viscosity of from about 1,500 cps to about 3,000 cps, but is not limited thereto. Select the viscosity according to the shape process time. Further, the sealant may be colorless (or transparent) or colored (for example, blue, red, cyan or black), but is not limited thereto. The color of the sealant can be selected in accordance with the design of the display device. The stiffening assembly 713 is supported by the support module 714 adjacent the coating assembly 712 to cure the sealant applied by the coating assembly 712 on the edge of the display panel no as the coating assembly 712 moves. At this time, when the hardening member 713 is coated from the sealant by the coating member 712, the applied sealant is hardened in about 5 seconds. To this end, the hardening unit 713 illuminates a predetermined temperature of ultraviolet light or heat on the sealant in accordance with the hardening characteristics of the sealant. For example, the seal ship is formed of a hardenable resin line, and the hardening unit 713 is irradiated with ultraviolet rays on the ultraviolet curable resin. The support module 714 supports the detecting component 71, the coating component 712 and the hardening component 713, and drives the motion detecting component 711, the coating component 712 and the hardening component 713 according to the mobile unit 720. For this purpose, the module 714 & includes a lifting assembly 71, such as a support bracket 714b, a support frame 714c, and a rotating assembly 714d. . Li, and pieces? The 14a is vertically placed at the moving unit 72Q, and the support bracket (10) is supported up. In order to achieve this, the lifting component uses hydraulic red 23 201241508 (hydrauhc cylinder) or pneumatic cylinder (pneumatic cylinder) to increase the support bracket mb by using the cylinder scheme, and to improve the shame of the assembly using the motor and the roller. Serew) screw case lifting support bracket 714b 'lifting assembly 714a彳_达' secret ((10)qing) and pinion gear (Pinion gear) adopting the gear scheme to raise the support bracket mb, the lifting component uses motor, pulley and A belt belt approach enhances the branch bracket 714b, or the lift assembly 714a lifts the support bracket 714b using a linear motor approach. For example, when the coating assembly 712 forms the sealing assembly 25G of the first or second embodiment at the edge portion of the display surface (four) G, the lifting assembly 71 knows to lift the support bracket 714b' such that the nozzle of the spray nozzle (such as The "pening" is placed between the central portion of the side of the display panel 110 or the central portion of the side surface and the top of the display panel 110. Support bracket 714b is placed at lift assembly 714a and to support rotary assembly 714d and syringe 712a. To this end, the support bracket 714b is formed to have a cross section of a 〃L〃 shape. The support frame 714c is placed under the support bracket 714b, rotatably supported by the rotating assembly 714d, and supports the detecting assembly 711, the coating assembly 712, and the hardening assembly 713. To this end, the support frame 714c is formed into a plate shape. Rotating assembly 714d is placed at support bracket 714b to couple to and support support frame 714c'. That is, the rotating assembly 714d rotates the spray nozzle for spraying the sealant by approximately 90 degrees to face the edge portion of the display panel 110. As shown in Fig. 11 or Fig. 12, the sealing unit 710 further includes a catching unit 715. 24 201241508. The capture assembly 715 is placed under the support module 714, ie, the support frame 714c, adjacent to the hardened assembly 713. The capture assembly 715 captures the seal assembly 25 to instantly inspect the shape of the seal assembly 250, wherein the seal assembly 250 is hardened and formed through the stiffening assembly 713. That is, the capture assembly 715 captures the seal assembly 250 formed at the edge of the display panel 11 to instantly generate the formation status information of the seal assembly, i.e., the shape information of the seal assembly 250. The capture component 715 is shaped by a seal assembly 25, and information is supplied to the image analysis component (not shown). The image analysis component analyzes the shape information of the seal assembly 25G to detect the width or thickness of the seal assembly 25() or to supply information about the disconnection of the seal assembly 250 to the user. The mobile unit 720 moves the sealing unit in accordance with the X-axis direction and/or the (four) direction, and the shame allows the unit to be at the edge of the display panel 11G. Form a sealed component coffee. To achieve this goal, the 'moving early το 72G includes the first-high shelf 722 and the second overhead. No H (age 50 722 is placed parallel to the base _, the surface nucleus is shown between the frame 722 and the base, and the first elevated 722 is along the γ axis snail 724. The first elevated 722 uses a motor and a ball screw to use a ball, The rack and pinion adopt a gear scheme or a linear motor ν, and the first truss 722 uses a linear motor scheme. The second elevated 724 can be moved to the first: the sealing unit and the sealing unit 2 along the X-axis direction #^ = , use the motor, secret with = === square cable or linear motor scheme. For example, the second overhead like line 25 201241508 such as "the third quarter | P2 disk speed Lu, heart, according to the speed acceleration cycle strange In the fixed speed period, the second/period P3 'moving unit 720 moves the sealing unit 710 separately. The moving speed indicates that the moving speed is accelerated to a desired period during the driving period, and the speed heart and the coffee period Ρ2 indicate that the moving speed is the week of the strange moving speed. The period ρ3 indicates that the speed of the movement movement is reduced to the speed of the stop state (10), and the resolution is 7=qi, according to the movement unit 1 - the record of the move - the miscellaneous part. 'Sealing unit 71G bribe speed The sealing assembly 250 is formed from the edge of the display panel to the other side of the display panel. As shown in the "Fig. 2", the sealing unit is not decelerated, and then the other side of the display panel is stopped. At this time, when the detecting unit 711 detects that the coating component of the display panel is sealed, the coating component 712 sprays the sealing agent. As a result, only the sealing time is 71, and the mobile unit is purchased during the strange speed cycle p2. When the skin moves, '"The seal assembly 25 is formed at the edge of the display panel n〇. Fig. 15A", "15B", "15C", "15D", "E-E" and 帛The Fig. 15F is not a schematic view sequentially describing a method of manufacturing a sealing member which slightly forms the display device of the second embodiment of the present invention by using the apparatus of the first package of the present invention.
以下將結合「第4圖」、「第15A圖」、「第15β圖」、「第15C 圖」第15D圖」、「第15E圖」與「第15F圖」順序地描述透過 使用本發㈣—實關之_裝置製造設備形成本發明第二實施 例之顯示裝置之密封組件之方法。 首先,如「第15A圖」所示,顯示面板11〇被放置於面板支 26 201241508 •樓部600之平台⑽處,此後平台610處放置的顯示面板no的 位置依照面板對準部650之驅動被對準。 接下來,如「第15B圖」所示,依照移動單元720之第一高 ,架722之驅動,顯示袭置製造設備在顯示面板11〇之第一短邊對 應之邊緣部形成密封組件25〇,同時從其起始位置向顯示面板ιι〇 之第短邊之另一側移動密封單元710。此時,在移動單元720 之怪疋速度週期期間’密封組件71G透過使用塗部組件712在顯 不面板110之第-短邊對應的邊緣部上塗佈密封劑,以及用硬化 組件713將塗佈的密封劑硬化,以在顯示面板110之第-短邊對 應的邊緣部形成密封組件250。 以後’如「第15C圖」所示,顯示裝置製造設備將顯示面板 no之第-短邊之另一側放置的密封單元71〇反時針旋轉大約9〇 度。 此後如第15D圖」所示,依照移動單元720之第二高架 724之驅動’顯示裝置製造設備在顯示面板11G之第二長邊對應的 邊緣部形成密封組件250,同時移動9〇度旋轉的密封單元71〇從 顯不面板11G之第二長邊之—側至其另—側。此時,在移動單元 720之怪定速度週期期間,密封單元71〇使用塗佈組件712在顯示 0之第一長邊對應的邊緣部上塗佈密封劑,使用硬化組件 2硬化已塗佈之密封劑,以在顯示面板UQ之第二長邊對應的邊 緣部形成密封組件25〇。The following is a description of the use of this (4) in conjunction with "4th", "15A", "15th", "15C", 15D", "15E" and "15F". - The method of manufacturing the device to form the sealing assembly of the display device of the second embodiment of the present invention. First, as shown in FIG. 15A, the display panel 11 is placed on the platform (10) of the panel branch 26 201241508 • the floor 600, and thereafter the position of the display panel no placed at the platform 610 is driven by the panel alignment portion 650. Aligned. Next, as shown in "Fig. 15B", in accordance with the driving of the shelf 722 at the first height of the moving unit 720, the display manufacturing device forms a sealing member 25 at the edge portion corresponding to the first short side of the display panel 11A. At the same time, the sealing unit 710 is moved from the starting position to the other side of the short side of the display panel. At this time, during the quirky speed period of the moving unit 720, the sealing member 71G applies the sealant on the edge portion corresponding to the first short side of the display panel 110 by using the coating portion assembly 712, and coats it with the hardening member 713. The sealant of the cloth is hardened to form the seal assembly 250 at the edge portion corresponding to the first short side of the display panel 110. Later, as shown in Fig. 15C, the display device manufacturing apparatus rotates the sealing unit 71 placed on the other side of the first-short side of the display panel no counterclockwise by about 9 degrees. Thereafter, as shown in FIG. 15D, the display device manufacturing apparatus according to the second elevated 724 of the moving unit 720 forms a sealing assembly 250 at the edge portion corresponding to the second long side of the display panel 11G while moving 9 degrees of rotation. The sealing unit 71 is from the side of the second long side of the panel 11G to the other side thereof. At this time, during the strange speed period of the moving unit 720, the sealing unit 71 涂布 applies the sealant on the edge portion corresponding to the first long side of the display 0 using the coating assembly 712, and hardens the coated portion using the hardening assembly 2. The sealant forms a seal member 25A at an edge portion corresponding to the second long side of the display panel UQ.
I . 然後’如「第15E圖」戶斤示,顯示裝置製造設備將顯示面板 帛長邊之另一側放置的密封單元710反時針旋轉大約90 27 201241508 度。 加下來,如「第耽圖」戶斤示,依照移動單元720之第一高 :之驅動,顯示裝置製造設備在顯示面板ιι〇之第二短邊對 =、、_緣部形成密封組件25〇,同時移動9〇度旋轉的密封單元训 之第二短邊之—側至其另-側。此時,在移動單 ^疋速度週期期間,密封單元710使用塗佈組件712在 二^ 11〇之第二短邊對應的邊緣部上塗佈密封劑,使用硬化 =I13硬化已塗佈之密封劑,以在顯示面板Π0之第二短邊對 應的邊緣部形軸_,化「㈣」、「以圖」或邊ζ 圖」之密封組件250係形成於顯示面板11〇之邊 :與之=及第一非電路謂所附一: 此後顯示裝置製造設備反時針旋細示面板11G之第二短 =之另-側處放置的密封單元71G大_度,如「第15㈣」 -不’依照第二高架724之驅動’顯示裝置製造設備移動密封單 凡710至其起始位置’不形成密封組件250。此時,密封單元71〇 旋轉同時從顯示面板110之第二短邊之另一側移動到其起始位置。 一此後,_裝置製造設備從料_卸糕巾邊緣部形成有 魏組件250之顯示面板則至外部,然後於平台_處放置另 一顯示面板1H),重複完成「第15A圖」、「第脱圖」、「第既 圖」、「第15D圖」.、「第15E圖」與「第顶圖」之各項操作。 第-實施例之顯示裝置製造設備在顯示面板UQ之邊緣部形 成密封組件250,由此可避免暴露於外之顯示面板11〇之損傷、上 28 201241508 - 部膜之局部脫落、水分等的滲透以及側光泄露。 . 帛—實施例之顯稀置製造設備及方法中,以上已經描述密 封單元710在顯不面板11〇之邊緣部形成密封組件25〇,同時藉由 •移動單it 72G之驅動依照顯示面板m之第—短邊、第二長邊、 第二短邊以及起始位置之順序移動。然而,依照移動單元72〇之 驅動,密封單元710健沿顯示面板11〇之第一短邊依照γ方向 移動’以及依照平台610之旋轉在顯示面板11〇其他之第二長邊 與第二短邊對應的邊緣部形成密封組件25〇。 「第16圖」所示係為用於形成本發明第二實施例之顯示裝置 之密封組件之本發明第二實施例之顯示裝置製造_之平面圖。 请參考「第4圖」與「第16圖」’本發明第二實施例之顯示 裝置製造設備包含©缺撐部6_密触件形成部咖。面板支 樓部_係提供於底座500處以及支撐顯示面板11()。密封組件形 成=800在面板支樓部咖所支樓的顯示面板11()之邊緣部處形 成密封組件250。除密封組件形成部咖以外,具有這種配置的第 m知例之顯稍置製造設備具有鄕—實施例之顯錢置製造 設備相同的配置,因此第一實施例之以上描述被應用至第二實施 例。相同的參考標號表示相同的元件。 "密封組件形成部_在平台⑽所支撐的顯示面板ιι〇之邊 彖P上塗佈韻劑’然後透過硬化此密_在顯示面板11〇之邊 =部形成密封組件25〇。為達此目的,密封组件形成部_包含第 • 一,第三密封單元8池至81此以及移動單元82〇。_一至第三密 封早凡810a至810c在顯示面板110之邊緣部形成密封組件。移 29 201241508 動單元820移動第一至第三密封單元81〇a至81〇c。 如「第17圖」所示,第一至第三密封單元_至·各自 包含偵測組件711、塗佈組件712、硬化組件Tig、支樓模組 以及捕獲組件715。除支禮模組814以外,具有這種配置之第一至 第三密封單元81〇a至81〇c各自包含與第一實施例之顯示裝置製 造设備之密封單兀710相同的配置,因此以上第一實施例之描述 被應用至第二實施例。相同的參考標號表示相同的元件。 支撐模組814支撐偵測組件711、塗佈組件712、硬化組件713 與捕獲組件715 ’同時依照移動單元82〇之驅動移動_組件 71卜塗佈組件712、硬化組件713與捕獲組件715。為達此目的, 支樓模組814包含提升組件814a與支撐托架(bracket)襲。 提升組件814a可上升地放置於移動單元72〇處,以及可上升 地支撐該支撐托架814b。為達此目的,提升組件_使用液壓缸 或氣壓紅採用汽缸方案、使用馬達與滾珠螺桿依照滾珠螺桿方 案、使用馬達、齒條與小齒輪採_輪方案、使用馬達、滑輪以 及傳送帶制傳送帶方案或者線性馬達方案提升讀托架難。 =如,當塗佈組件712在顯示面板110之邊緣部形成第一或第二 實施例之密封組件250時,提升组件814a提升支撐托架_,這 樣噴塗喷嘴的排放口(discharge〇pening)被放置於顯示面板別 之侧面中央部份或者顯示面板110之側面令央部份與頂部之間。 支樓托架814b被放置於提升組件814a處,以及支樓偵測組 件71卜塗佈組件712、硬化組件713與捕獲組件715。就是說, 支撐偵測組件7n、塗佈組件712、硬化組件713與捕獲組件715 201241508 -被放置於支撐托架_下方且_定至支撐絲_。本文中, •用以供應密封劑至塗佈纽件712之注射器712a被放置於支撐托架 814b 上。 '、 . 請再次參考「第16圖」,移動單元820沿Y轴方向移動第一 與第二密封單元810a與_,以及沿χ轴方向移動第三密封單元 綠’由此允許第-至第三密封單元_a至_在顯示面板ιι〇 之邊緣部形成密封組件250。移動單元82〇依照「第13圖」所示 的速度加速週期PW互定速度週期P2與速度減少週期p3單獨^ 動每-第-至第三密封單以1()a至削c。為達此目的,移動單元 820包含第-高架822、第二高架824與第三高架咖。 第一高架微被放置為與底座_平行,顯示面板丨ι〇被放 置於第-高架822與底座_之間。第一高架峨沿^方向移 ==_H 82_ __桿使用滾珠螺桿 方案、藉由馬達、齒條與小齒輪使用齒輪方案或者線性馬達方案。 例如,第一尚架822使用線性馬達方案。 第二高架824可移動地被放置於第一高架卿處,可移動地 支撐第-密封單元81Ga與第二密封單元祕。本 單元_被放置於第二高架_之一側以對應顯示面板別:第 一短邊。第二密封單元_被放置於第二高架824之另一側以對 應顯示面板110之第二短邊。第二高架824依照第一轉微之 驅動沿Y軸方向同時移動第一密封單元_封、一 • _,從而對應顯示面板110之一短邊。 —謂早凡 .第三高架826被固定地放置於第一高架822處,可移動地支 3] 201241508 稽·第二密封單元81〇c ’以及〉νι· γ红 。軸方向移動第三密封單元810c。 第-4 826沿X軸方向移動第三密 面板110之第二長邊。此時 古70 81〇C,從而對應顯示 相同之驅動方荦Η麵方⑽红—问木826透過與第-高架822 移動第三密封單元·。 第18Α®」、「第通圖」金 一 描述透過使用本發·二實施例;=」所示麵順序地 第一貫施例之顯不裝置之密封組件之方法之示音圖。 以下將結合「第4圖」、「第18A圖」、「第⑽Then, as shown in Fig. 15E, the display device manufacturing apparatus rotates the sealing unit 710 placed on the other side of the long side of the display panel counterclockwise by approximately 90 27 201241508 degrees. Adding, as shown in the "figure map", according to the first high: driving of the mobile unit 720, the display device manufacturing device forms a sealing assembly 25 on the second short side of the display panel ιι =, _ _ edge portion 〇, while moving the 9-degree rotating sealing unit to the side of the second short side to the other side. At this time, during the moving speed period, the sealing unit 710 applies the sealant on the edge portion corresponding to the second short side of the second coating using the coating assembly 712, and hardens the applied seal using hardening = I13. The sealing member 250 is formed on the side of the display panel 11 by the edge portion axis corresponding to the second short side of the display panel Π0, and the sealing member 250 of the "(4)", "Fig." or "edge" is formed: = and the first non-circuit is attached: after the display device manufacturing device counterclockwise, the second short of the thin display panel 11G = the sealing unit 71G placed at the other side, such as "15th (four)" - no In accordance with the drive of the second elevated 724, the 'display device manufacturing device moves the seal 710 to its starting position' without forming the seal assembly 250. At this time, the sealing unit 71 is rotated while moving from the other side of the second short side of the display panel 110 to its starting position. After that, the device manufacturing equipment is formed from the display panel of the Wei component 250 to the outside from the edge of the material unloading towel, and then another display panel 1H is placed at the platform_, and the "15A" and "The" are repeated. The operations of the "de-picture", "the first picture", "the 15th picture", "15E picture" and "top picture". The display device manufacturing apparatus of the first embodiment forms the sealing member 250 at the edge portion of the display panel UQ, thereby avoiding the damage of the display panel 11 exposed to the outside, and the penetration of the upper portion of the film, the moisture, and the like. And side light leaks. In the faint manufacturing apparatus and method of the embodiment, it has been described above that the sealing unit 710 forms the sealing member 25〇 at the edge portion of the display panel 11〇, and at the same time, according to the display panel m by the driving of the mobile single unit 72G The first—the short side, the second long side, the second short side, and the starting position move in sequence. However, according to the driving of the mobile unit 72, the sealing unit 710 moves along the first short side of the display panel 11 in accordance with the γ direction and the other long side and the second short in the display panel 11 according to the rotation of the platform 610. The edge portion corresponding to the side forms a seal assembly 25A. Fig. 16 is a plan view showing the manufacture of the display device of the second embodiment of the present invention for forming the sealing member of the display device of the second embodiment of the present invention. Please refer to "Fig. 4" and "Fig. 16". The display device manufacturing apparatus according to the second embodiment of the present invention includes a detachment portion 6_contact member forming portion. The panel support portion is provided at the base 500 and supports the display panel 11 (). The seal assembly is formed to form a seal assembly 250 at the edge portion of the display panel 11 () of the panel branch building. The above-described description of the first embodiment is applied to the first embodiment except that the sealing assembly forming portion has the same configuration as the manufacturing device of the first embodiment. Two embodiments. The same reference numerals denote the same elements. "seal assembly forming portion_coating the rhyme' on the side of the display panel supported by the platform (10) 然后P and then forming the sealing member 25〇 by hardening the dense _ on the side of the display panel 11〇. To this end, the seal assembly forming portion _ includes the first, third sealing unit 8 pool to 81 and the moving unit 82 〇. The first to third seals 810a to 810c form a seal member at the edge portion of the display panel 110. Move 29 201241508 The moving unit 820 moves the first to third sealing units 81a to 81〇c. As shown in Fig. 17, the first to third sealing units _ to each include a detecting unit 711, a coating unit 712, a hardening unit Tig, a branch module, and a catching unit 715. The first to third sealing units 81a to 81〇c having such a configuration each include the same configuration as the sealing unit 710 of the display device manufacturing apparatus of the first embodiment, except for the bonus module 814, and thus The description of the above first embodiment is applied to the second embodiment. The same reference numerals denote the same elements. The support module 814 supports the detecting component 711, the coating component 712, the hardening component 713 and the capturing component 715' while moving according to the driving unit 82, the coating component 712, the hardening component 713 and the capturing component 715. To this end, the branch module 814 includes a lift assembly 814a and a support bracket. The lifting assembly 814a is vertically positionable at the moving unit 72A and can support the support bracket 814b in a raised manner. For this purpose, lifting components _ use hydraulic cylinder or pneumatic red cylinder scheme, use motor and ball screw according to ball screw scheme, use motor, rack and pinion mining wheel scheme, use motor, pulley and conveyor belt conveyor scheme Or a linear motor solution makes it difficult to lift the read bracket. If, for example, the coating assembly 712 forms the sealing assembly 250 of the first or second embodiment at the edge of the display panel 110, the lifting assembly 814a lifts the support bracket _ such that the discharge nozzle of the spray nozzle is It is placed between the central part of the side of the display panel or the side of the display panel 110 between the central part and the top. The pedestal bracket 814b is placed at the lifting assembly 814a, as well as the pylon detecting assembly 71, the coating assembly 712, the hardening assembly 713, and the capture assembly 715. That is, the support detecting assembly 7n, the coating assembly 712, the hardening assembly 713, and the capturing assembly 715 201241508 - are placed under the support bracket_ and set to the support wire_. Herein, the syringe 712a for supplying the sealant to the coating member 712 is placed on the support bracket 814b. Referring again to FIG. 16, the moving unit 820 moves the first and second sealing units 810a and _ along the Y-axis direction, and moves the third sealing unit green in the z-axis direction to allow the first to the first The three sealing units _a to _ form a seal assembly 250 at the edge portion of the display panel ιι. The moving unit 82 individually controls the per-first to third seals to 1 () a to c in accordance with the speed acceleration period PW and the speed reduction period p3 shown in Fig. 13. To this end, mobile unit 820 includes a first elevated 822, a second elevated 824, and a third elevated coffee. The first overhead micro is placed parallel to the base _, and the display panel 丨ι is placed between the first elevated 822 and the base _. The first elevated 峨 is moved in the direction of ^ ==_H 82_ __ The rod uses the ball screw scheme, the gear scheme or the linear motor scheme is used by the motor, rack and pinion. For example, the first shelf 822 uses a linear motor approach. The second elevated frame 824 is movably placed at the first elevated frame to movably support the first sealing unit 81Ga and the second sealing unit. This unit _ is placed on the side of the second overhead _ to correspond to the display panel: the first short side. The second sealing unit_ is placed on the other side of the second elevated frame 824 to correspond to the second short side of the display panel 110. The second elevated frame 824 simultaneously moves the first sealing unit _ sealing, one _ in the Y-axis direction according to the driving of the first rotation, thereby corresponding to one short side of the display panel 110. - The third elevated 826 is fixedly placed at the first elevated 822, and is movably supported 3] 201241508 ??? second sealing unit 81 〇 c ’ and 〉 ν γ γ red. The third sealing unit 810c is moved in the axial direction. The -4 826 moves the second long side of the third dense panel 110 in the X-axis direction. At this time, the ancient 70 81 〇C, corresponding to the display of the same driving side face (10) red - wen wood 826 through the first - elevated 822 moving the third sealing unit. </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; The following will be combined with "4th", "18A", "10th"
圖」順序地描述透過使用本發明第 」。第18C ,L t 弟一貫施例之顯示裝置製若 形成本發明第二實施例之顯示裝置之密封組件之方法。^ 首先,如「第18A圖」所示,顯放 撐部_之平台⑽處 ^ 110被放置於面板支 谈十° _處放置的顯示面极】1〇 位置依照面板對準部650之驅動被對準。 接下來,顯示裝置製造設備在齡面板㈣之第—與第二短 邊镜的邊緣部卿成密馳件娜晴透過第 動依照第二高架824之γ軸蒋叙,%甘、& 门木之驅 軸移動,從其初始位置向顯示面板110 :奴另-側移動第-與第二密封單元_與_。此時,在 82G之蚊速度週期期間,第―與第二密封單元斷與 H她綱712各自編面_德_的邊緣部 —佈减劑,以及用硬化组件713將塗佈的密封劑硬化以在顯 不面板110之第-與第二短邊對應的邊緣部處形成密封組件。 —此後,如「第18Α圖」與「第18Β圖」所示,當第一與第二 密封單元810a與810b移動到顯示面板m之側面之中央部份Ζ 32 201241508 -後之部份’從而避免第—與第二密封單元810a與81〇b碰撞到第 • 三密封單元810c時,顯示裝置製造設備在顯示面板11〇之第二長 邊對應的邊緣部份形成密封組件250,同時依照第三高架8邡之驅 動從其起始位置向顯示面板11Q之第二長邊之另一側移動第三密 封單元810c。此時,在移動單元82〇之恆定速度週期期間,第三 密封單元810c透過使用塗佈組件712在顯示面板11〇之第二長& 對應的邊緣部份上塗佈密封劑,以及用硬化組件713將塗佈的密 封劑硬化以在顯示面板11G之第二長邊對應的邊緣部形成密封组 件 250。 然後’每-第-與第二密封單元810a與_分別在顯示面 板11〇之第一與第二短邊對應的各自邊緣部形成密封組件25〇,當 顯示裝置製造設備完成此製程時,為了避免第一與第二密封單元 810a與810b碰撞到第三密封單元810c,如「第18C圖」所示, 每一第一與第二密封單元81〇3與8101)返回其起始位置,同時第 二岔封單元810c在顯示面板11〇之第二長邊對應的邊緣部份形成 密封組件250。 接下來,第三密封單元810c在顯示面板ι1〇之第二長邊對應 的邊緣部份處形成密封組件250 ’當顯示裝置製造設備完成此製程 時,顯示裝置製造設備返回第三密封單元81〇c之起始位置。 此後,顯示装置製造設備從平台61〇卸下其中邊緣部形成有 密封組件250之顯示面板110至外部,然後在平台61〇處放置另 一顯不面板110,重複完成「第18A圖」、「第18B圖」與「第18C 圖」之各項操作。 33 201241508 —第二實施例之顯示裝置製造設備在顯示面板10之邊緣部形成 推封組件25G ’由此可避免暴露於外的顯示面板110之損壞、上偏 光膜116之局部脫落、水分渗透等以及側光泄露。第二實施例之 顯示裝置製造設備中,密封單元的個數更比第—實施例之顯示裝 置製造設備增蝴三倍’但是與第—實施例之顯示裝置製造設備 相比丄形成密封增加咖所需要的次數減少了三分之—。因此, 第二實施例之縣裝置製造設備可提高生產率。 第19圖」所示係為用於形成本發明第三實施例之示 之密封組件林發明第三實_之顯科置製造設叙平面示意 圖。 清參考「第4圖」與「第19圖」,本發明第三實施例之顯示 裝置製造設備包含面板支撐部刪與密封組件形成部_。面板支 撐部6GG被提供於底座_冑並且支稽顯示面板ιΐ()。密封組件形 成在面板支撐部刪所支撐的顯示板110之邊緣部處形 成f封組件250。除㈣組件形成部_以外,具有這種配置的第 三實施例之顯示裝置製造與第—實施例之顯示裝置製造設備 具有相同配置’因此以上第一實施例之描述被應用至第三實施 例。相同參考標號表示相同元件。 &役封組件形成部9〇〇在平台61〇所支擇的顯示面板11〇之邊 彖佈在、封劑’然後透過硬化該密封劑在顯示面板no之邊 料處形成密封組件25G。為達此目的,密封組件形成部編包含 至第三密封單元810a至810c以及移動單元92〇。第一至第三 雄封單元810a至810c在顯示面板no之邊緣部處形成密封組件 34 201241508 -25〇。移動單元920移動第-至第三密封單元撕至则c。除移 .動單元猶财卜,具有這種配置的密封組件形成部議包含盡第 二實關之顯示裝置製造設備中密件形成部_相同的配 置,因此以上第二實施例之描述被應用至第一至第三密封單元 810a至810c。以下將描述移動單元92〇。 移動單元820依照「第13圖」所示之速度加速週期ρι、怪定 速度週期P2與速度減少週期P3單獨每一第一至第三密封單元 810a至810c。為達此目的’移動單元92〇包含第一高架犯2、第 二高架924與第三高架926。 第尚架922被放置於底座base member 5〇〇處以鄰接平台 610之-條短邊,即顯示面板m之第一短邊。第一高架922沿χ $方向移動第一密封單元副a。第一高架卿藉由馬達與滚珠螺 域用滾珠螺财案、藉由馬達、齒條與小錄使賴輪方案或 者線性馬達方案。例如,第一高架犯體使用線性馬達方案。 第一兩架924被放置於底座base member* 500處以鄰接平台 610之另-短邊’即顯示面板11〇之第二短邊。第二高架沿Y 轴方向移動第二密封單元81〇卜第二高架924_與第一高架慨 相同的驅動方案沿γ軸方向移動第二密封單元副b。 第三高架926被放置於底座500處以鄰接平台610之-條長 邊:即顯不面板110之第二長邊。第三高架926沿X軸方向移動 2二欲封單元81Gc。第三高架926透過與第-高架922及第二高 •架924相同的驅動方案沿X軸移動第三舍封單元隐。 第20A圖」與「第2〇b圖」所示係為順序地描述透過使用 35 201241508 本發明第三實施例之顯示裝置製造設備形成本發明第二實施例之 顯不裝置之密封組件之方法之示意圖。 以下將結合「第4圖」、「第19圖」、「第20A圖」i「第20B 圖」順序地猶透過使財翻第三實施例之顯稀造設備 形成本發明第二實施例之顯稀置之密封組件之方法。 首先’如「第19圖」所示,顯示面板11〇被放置於面板支樓 4 600之平台610處,此後平台_處放置的顯示面板ιι〇的位 置依照面板對準部650之驅動被對準。 一接下來,如帛2GA ϋ」所示’顯示裝置製造設備同時驅動 同木922、第一冋架924與第三高架926,以從其起始位置向γ 軸方向移動每一第一密封單元_a與第二密封單元_,從而在 .員不面板11 〇之每―第—與第二短邊對應的邊緣部形成密封組件 50同時,虽從其起始位置向χ軸方向移動第三密封單元 時’顯不裝置製造設備在顯示面板11〇之第二長邊對應的邊緣部 ,成选封組件250。此時’在移動單元92〇之恆定速度週期期間, 每一第一至第三密封單元810a至810c透過使用塗佈組件712在 顯不面板110之第-及第二短邊與第二長邊各自對應的邊緣部份 上塗佈岔封劑,以及用硬化組件713將塗佈的密封劑硬化以在顯 不面板110之第一及第二短邊與第二長邊各自對應的邊緣部形成 密封組件250。 然後,如「第20B圖」所示,每一第一至第三密封單元81〇a 至810c在顯示面板11〇之第一及第二短邊與第二長邊對應的各自 邊緣部形成密封組件250,當顯示裝置製造設備完成此製程時,每 36 201241508 • 一第一至第三密封單元810a至810c返回其起始位置。 . 接下來,顯示裝置製造設備從平台610卸下其中邊緣部份形 成有密封組件250之顯示面板110至外部,然後放置另一顯示面 板110於平台610處,重複完成「第2〇A圖」與「第2〇B圖」之 各項操作。 第二實施例之顯示裝置製造設備在顯示面板110之邊緣部形 成密封組件250,由此可避免暴露於外的顯示面板110之損傷、上 偏光膜116之局部脫落(detachment)、水分等的渗透以及側光泄 露。第三實施例之顯示裝置製造設備中,與第二實施例之顯示裝 置製造設備不同,每一第一至第三密封單元_至账單獨移 動’因此更節省形成密封組件250所花費的時間,從而提高生產 率。 依照本發明實施例,使㈣缺合組件將顯示面_合至面 板支樓組件,從-般顯示裝置+移除上部殼體與祕護蓋,因此The drawings "sequentially describe the use of the invention". The display device of the 18th embodiment of the present invention is a method of forming a sealing member of the display device of the second embodiment of the present invention. ^ First, as shown in "Fig. 18A", the platform (10) at the display stand _ is placed at the display surface of the panel 十 10° _ 1 〇 position is driven by the panel alignment portion 650 Aligned. Next, the display device manufacturing device is in the first panel of the age panel (4) - and the edge portion of the second short-side mirror is spliced into a piece of yam through the first movement according to the gamma axis of the second elevated 824, the gan, the door The wood drive shaft moves from its initial position to the display panel 110: the slave-side moves the first-and second sealing units _ and _. At this time, during the mosquito speed cycle of 82G, the first and second sealing units are broken and the edge portions of the H-class 712 are flanked, and the coated sealant is hardened by the hardening assembly 713. A seal assembly is formed at an edge portion corresponding to the first to second short sides of the display panel 110. - Thereafter, as shown in "Fig. 18" and "Fig. 18", when the first and second sealing units 810a and 810b are moved to the central portion of the side of the display panel m, 2012 32 201241508 - the latter portion When the first and second sealing units 810a and 81b are prevented from colliding with the third sealing unit 810c, the display device manufacturing apparatus forms the sealing assembly 250 at the edge portion corresponding to the second long side of the display panel 11A, and according to the The drive of the three overhead frame 8 moves the third sealing unit 810c from the home position to the other side of the second long side of the display panel 11Q. At this time, during the constant speed period of the moving unit 82, the third sealing unit 810c applies a sealant on the edge portion corresponding to the second length of the display panel 11 by using the coating assembly 712, and hardens it. The assembly 713 hardens the applied sealant to form the seal assembly 250 at the corresponding edge portion of the second long side of the display panel 11G. Then, each of the first and second sealing units 810a and __ respectively form a sealing member 25A at a respective edge portion corresponding to the first and second short sides of the display panel 11A, when the display device manufacturing apparatus completes the process, The first and second sealing units 810a and 810b are prevented from colliding with the third sealing unit 810c, and as shown in FIG. 18C, each of the first and second sealing units 81〇3 and 8101) is returned to its starting position while The second seal unit 810c forms a seal assembly 250 at an edge portion corresponding to the second long side of the display panel 11A. Next, the third sealing unit 810c forms a sealing member 250 at the edge portion corresponding to the second long side of the display panel ι1'. When the display device manufacturing apparatus completes the process, the display device manufacturing apparatus returns to the third sealing unit 81. The starting position of c. Thereafter, the display device manufacturing apparatus removes the display panel 110 in which the sealing member 250 is formed at the edge portion from the platform 61 to the outside, and then places another display panel 110 on the platform 61, repeating the "18A" and " The operations of Figure 18B and Figure 18C. 33201241508 - The display device manufacturing apparatus of the second embodiment forms the squeezing assembly 25G' at the edge portion of the display panel 10, thereby avoiding damage of the display panel 110 exposed to the outside, partial detachment of the upper polarizing film 116, moisture infiltration, etc. And side light leaks. In the display device manufacturing apparatus of the second embodiment, the number of the sealing units is more than three times that of the display device manufacturing apparatus of the first embodiment, but the sealing device is formed in comparison with the display device manufacturing apparatus of the first embodiment. The number of times required is reduced by a third. Therefore, the county device manufacturing apparatus of the second embodiment can improve productivity. Fig. 19 is a schematic plan view showing the manufacture of the seal assembly of the third embodiment of the present invention. Referring to "Fig. 4" and "Fig. 19", a display device manufacturing apparatus according to a third embodiment of the present invention includes a panel supporting portion and a seal assembly forming portion. The panel support portion 6GG is provided to the base _ 胄 and the display panel ΐ (). The seal assembly forms an f seal assembly 250 at an edge portion of the display panel 110 supported by the panel support portion. The display device manufacturing of the third embodiment having such a configuration has the same configuration as the display device manufacturing device of the first embodiment except for the (4) component forming portion _ so the above description of the first embodiment is applied to the third embodiment . The same reference numerals denote the same elements. The & seal assembly forming portion 9 is formed on the side of the display panel 11A supported by the stage 61, and is sealed, and then the sealing member 25G is formed at the edge of the display panel no by hardening the sealant. To this end, the seal assembly forming portion is incorporated to the third sealing units 810a to 810c and the moving unit 92A. The first to third male sealing units 810a to 810c form a seal member 34 201241508 - 25A at the edge portion of the display panel no. The moving unit 920 moves the first to third sealing units to tear to c. The sealing assembly forming portion having such a configuration includes the same configuration as the dense member forming portion in the display device manufacturing apparatus of the second embodiment, and thus the description of the second embodiment above is applied to First to third sealing units 810a to 810c. The mobile unit 92A will be described below. The moving unit 820 separates each of the first to third sealing units 810a to 810c in accordance with the speed acceleration period ρι, the strange speed period P2, and the speed reduction period P3 shown in Fig. 13. For this purpose, the mobile unit 92 includes a first elevated 2, a second elevated 924 and a third elevated 926. The first shelf 922 is placed at the base member 5〇〇 to abut the short side of the platform 610, that is, the first short side of the display panel m. The first elevated frame 922 moves the first sealing unit pair a in the direction of χ $. The First Elevator uses a ball screw snail for the motor and ball screw, a motor, a rack and a small record, or a linear motor solution. For example, the first elevated body uses a linear motor approach. The first two racks 924 are placed at the base member* 500 to abut the other short side of the platform 610, i.e., the second short side of the display panel 11''. The second elevated frame moves the second sealing unit 81 in the Y-axis direction, and the second elevated frame 924_ moves the second sealing unit pair b in the γ-axis direction in the same driving scheme as the first overhead. The third elevated 926 is placed at the base 500 to abut the long side of the platform 610: that is, the second long side of the panel 110 is displayed. The third elevated frame 926 is moved in the X-axis direction to block the unit 81Gc. The third elevated 926 moves the third shelving unit hidden along the X axis by the same driving scheme as the first-high shelf 922 and the second upper shelf 924. 20A and 2B are diagrams for sequentially describing a sealing assembly for forming a display device of a second embodiment of the present invention by using the display device manufacturing apparatus of the third embodiment of the present invention. Schematic diagram. In the following, in conjunction with "FIG. 4", "19th", "20A", "20B", the second embodiment of the present invention is formed by sequentially turning the display device of the third embodiment. A method of smearing a sealed assembly. First, as shown in FIG. 19, the display panel 11 is placed on the platform 610 of the panel branch 4 600. Thereafter, the position of the display panel placed on the platform_ is driven according to the driving of the panel alignment portion 650. quasi. Next, as shown in FIG. 2GA, the display device manufacturing apparatus simultaneously drives the same wood 922, the first truss 924 and the third elevated 926 to move each first sealing unit from its starting position toward the γ-axis direction. _a and the second sealing unit _, thereby forming the sealing assembly 50 at the edge portion corresponding to each of the first and second short sides of the panel 11 同时 while moving from the initial position to the χ axis direction When the unit is sealed, the device manufacturing device is formed as a sealing assembly 250 at the edge portion corresponding to the second long side of the display panel 11A. At this time, during the constant speed period of the moving unit 92, each of the first to third sealing units 810a to 810c transmits the first and second short sides and the second long side of the panel 110 through the use of the coating assembly 712. The respective edge portions are coated with a sealant, and the applied sealant is hardened with the hardening member 713 to form an edge portion corresponding to each of the first and second short sides and the second long side of the display panel 110. Seal assembly 250. Then, as shown in FIG. 20B, each of the first to third sealing units 81A1 to 810c forms a seal at a respective edge portion of the first and second short sides and the second long side of the display panel 11A. The assembly 250, when the display device manufacturing apparatus completes the process, every 36 201241508 • a first to third sealing unit 810a to 810c return to its starting position. Next, the display device manufacturing apparatus removes the display panel 110 in which the edge portion is formed with the sealing member 250 from the platform 610 to the outside, and then places another display panel 110 on the platform 610, and repeats the "2nd A picture". And the operations of "Figure 2B". The display device manufacturing apparatus of the second embodiment forms the sealing member 250 at the edge portion of the display panel 110, thereby avoiding damage of the display panel 110 exposed to the outside, partial detachment of the upper polarizing film 116, penetration of moisture, and the like. And side light leaks. In the display device manufacturing apparatus of the third embodiment, unlike the display device manufacturing apparatus of the second embodiment, each of the first to third sealing units is separately moved to 'therefore, the time taken to form the sealing member 250 is more saved, Thereby increasing productivity. In accordance with an embodiment of the present invention, the (4) missing assembly brings the display surface to the panel branch assembly, removing the upper housing and the cover from the general display device +
從顯示面板之邊界部份移除階梯高度,從而最小化厚度並且增強 設計之美感。 S 另外,透過在顯示面板之邊緣部形成密封組件,從顯示裝置 中移除某些殼體與保護蓋’由此避免顯示面板之損傷、上部膜之 局部脫落、水分滲透以及側光泄露。 另外’密顺件係透過至少—個㈣單元(在面板支標部放 .置的顯示面板之邊緣部上塗佈密封劑,以及硬化密封船以及用 .以移動密封單元之移動單元被形成於顯示面板之邊緣部,由此可 方便地形成密封組件。 37 201241508 另外 件的形狀 ’捕獲組件可即時檢查_面板之邊緣部形成 的密封組 終明;·以前述之實施例揭露如上,然其並翻以限定本 =1 本發明之精神和範_,所為之更動與潤飾,均 拼之專利保護範圍。關於本發明所界定之保護範圍請表考 所附之申請專利範圍。 4 【圖式簡單說明】 第1圖所示係為本發明第一實施例之顯示裝置之示意圖; 第2圖所示係為沿第1圖所示之線A-A之剖面之剖面圖; 第3圖所不係為本發明第二實施例之顯示裝置之示意圖; 第4圖所示係為沿第3圖所示之線之剖面之剖面圖; .第5圖所示係為第3_示之密封組件之第—實施例之示意 圖; 第6圖所示係為第3圖所示之密封組件之第二實施例 之示意 圖; 第7圖所示係為第3圖所示之密封組件之第三 實施例之示意 第8圖所示係為用於形成本發明第二實施例之顯示裝置之密 封組件之本㈣第—實關之顯林置製造設備之透視圖; 第9圖所示係為第8圖所示之本發明第-實施例之顯示袭置 製造設備之側視圖; 第10 圖所不係為第請所示之本發明第一實施 例之顯示裳置 38 201241508 製造設備之平面圖; 第關所示係為第8圖所示之密封單元之第—實施例之示意 圖> ^ 第_所示係為第8圖所示之密封單元之第二實施例之示音 第13圖所示係為根據第8 單元之運動速度之示意圖; 圖所示之運動單元之驅動描述密封 第4A圖與第MB圖所示係為根據第8圖所示之運動單元之 驅動描述密封單元之運動之示意圖; —第15A圖至第15F圖所示係為順序地描述透過使用本發 ,例之顯tf裝置製造設備軸本發明第二實關之顯示裝置 之密封組件之方法之示意圖; ^ 圖所示係為用於形成本發明第二實施例之顯示裝置之 在封組件之本發明第二實施例之顯示裝置製造賴之平面圖; 第π圖所不係為第16圖所示之密封單元之示意圖; —第A圖至第18c圖所示係為順序地描述透過使用本發明第 二實施例之顯示裝置製造設偏彡成本發明第二實_之顯 之密封組件之方法之示意圖; 第19圖所讀為用於形成本發明第三實施例之顯示裝置之 密封組件之本翻第二實施歌顯示裝置製麟備之平面圖;以 及 39 201241508 之密封組件之方法之示意圖 【主要元件符號說明 一第®與苐圖所示係為順序地描述透過使用本發明第 1 ’4τ❹製造設制彡縣發明第二實施例之顯示 10 20 110 112 114 116 118 119a 119b 120 122 124 126 130 131 131a 131b 顯示裝置 顯示装置 顯示面板 下基板 上基板 上偏光膜 ,下偏光膜 .電路膜 .印刷電路板 ,《光早兀 .導光板 •反射片 •光學組件 .支標組件 •保護蓋 .保護板 .保護側壁 201241508 131c...........................第一耦合組件 133 ...........................支撐蓋 135 ...........................引導框 135a...........................耦合組件形成部 135b...........................引導側壁 135c...........................第二轉合組件 140 ...........................面板耦合組件 P1 ...........................速度加速週期 P2 ...........................恆定速度週期 P3 ...........................速度減少週期 250 ...........................密封組件 500 ...........................底座 600 ...........................面板支撐部 610 ...........................平台 612 ...........................工作台 614 ...........................突出部 630 ...........................平台支撐單元 631 ...........................支架 633 ...........................支撐轴 635 ...............:............驅動部 650 ...........................面板對準部 41 201241508 652 ...........................標記偵測單元 652a...........................垂直支座 652b...........................標記捕獲單元 654 ...........................面板對準單元 654a...........................對準導桿 654b...........................面板對準桿 700 ...........................密封組件形成部 710 ...........................密封單元 711 ...........................偵測組件 712 ...........................塗佈組件 712a...........................注射器 713 ...........................硬化組件 714 ...........................支撐模組 714a...........................提升組件 714b...........................支撐托架 714c...........................支撐框架 714d...........................旋轉組件 715 ...........................捕獲組件 720 ...........................移動單元 722 ...........................第一高架 724 ...........................第二高架 42 201241508 800 ...........................密封組件形成部 810a...........................第一密封單元 810b...........................第二密封單元 810c ...........................第三密封單元 814a...........................提升組件 814b...........................支撐托架 820 ...........................移動單元 822 ...........................第一高架 824 ...........................第二高架 826 ...........................第三高架 900 ...........................密封組件形成部 920 ...........................移動單元 922 ...........................第一高架 924 ...........................第二高架 926 ...........................第三高架 43The step height is removed from the boundary portion of the display panel to minimize thickness and enhance the aesthetics of the design. Further, by forming a sealing member at the edge portion of the display panel, some of the casing and the protective cover are removed from the display device, thereby preventing damage of the display panel, partial peeling of the upper film, moisture permeation, and side light leakage. In addition, the 'smoothing member is formed by applying at least one (four) unit to the edge portion of the display panel placed on the panel branch portion, and the sealing unit is hardened, and the moving unit for moving the sealing unit is formed. The edge portion of the display panel, thereby facilitating the formation of the sealing assembly. 37 201241508 The shape of the additional piece 'capture assembly can be immediately checked _ the seal group formed by the edge portion of the panel is finished; · The above embodiment discloses the above, but And to limit the present invention to the spirit and scope of the invention, and to change and protect the scope of the patent protection. The scope of protection defined by the invention is as shown in the attached patent application scope. 4 [Simple diagram BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a display device according to a first embodiment of the present invention; Fig. 2 is a cross-sectional view taken along line AA shown in Fig. 1; A schematic view of a display device according to a second embodiment of the present invention; FIG. 4 is a cross-sectional view taken along a line shown in FIG. 3; and FIG. 5 is a third embodiment of the sealing assembly. - Schematic of the embodiment Figure 6 is a schematic view showing a second embodiment of the sealing assembly shown in Figure 3; and Figure 7 is a schematic view showing the third embodiment of the sealing assembly shown in Figure 3; It is a perspective view of the manufacturing apparatus of the present invention for forming the sealing assembly of the display device of the second embodiment of the present invention; and FIG. 9 is the first embodiment of the present invention shown in FIG. - a side view showing the manufacturing equipment of the embodiment; FIG. 10 is not a plan view of the manufacturing apparatus of the first embodiment of the present invention shown in the first embodiment; 201241508; The schematic view of the first embodiment of the sealing unit shown in the figure is shown in Fig. 13 of the second embodiment of the sealing unit shown in Fig. 8. FIG. 15A to Figure 15F is a sequential description of the use of the present invention, the example of tf BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a method of forming a seal assembly of a second display device of the present invention; FIG. 2 is a second embodiment of the present invention for forming a package assembly for forming a display device according to a second embodiment of the present invention. A plan view of the display device manufacturing; a π diagram is not a schematic view of the sealing unit shown in FIG. 16; - FIGS. A to 18c are diagrams sequentially describing the use of the second embodiment of the present invention. A schematic diagram of a method for manufacturing a display device that is biased to the second embodiment of the invention; FIG. 19 is read as a second implementation song for forming a sealing assembly for the display device of the third embodiment of the present invention A plan view of a display device; and a schematic view of a method of sealing a component of the assembly of the Japanese Patent Application No. PCT-A No. Display of the second embodiment 10 20 110 112 114 116 118 119a 119b 120 122 124 126 130 131 131a 131b display device display device display panel lower substrate substrate polarizing film Lower polarizing film. Circuit film. Printed circuit board, "Light early. Light guide plate · Reflective sheet • Optical components. Support components • Protective cover. Protective plate. Protective side wall 201241508 131c........... ................first coupling assembly 133 ........................... support cover 135 ...........................Guide box 135a................... ........Coupling component forming portion 135b........................... guiding side wall 135c....... ....................Second Turning Assembly 140 ........................ ... panel coupling assembly P1 ........................... speed acceleration period P2 ............ ...............Constant speed period P3 ........................... Speed reduction period 250 ........................... Sealing assembly 500 .................... .......Base 600 ........................... Panel support 610 .......... ................. Platform 612 ........................... Workbench 614. ..........................Jump 630 ..................... ... platform support unit 631 ........................... bracket 633 ........... ........... .....Support shaft 635 ...............:............Drive unit 650 ........... ................ panel alignment section 41 201241508 652 ........................... Marker detection unit 652a...........................vertical support 652b.............. .............mark capture unit 654 ..................... panel alignment unit 654a. ..........................Alignment guide 654b.................. ........ Panel Alignment Rod 700 ........................... Sealing Assembly Forming Section 710 ..... ......................seal unit 711 ......................... ..Detection component 712 ........................... Coating component 712a............. ..............Syringe 713 ........................... Hardened component 714 .... .......................Support module 714a....................... .... lifting assembly 714b...........................Support bracket 714c............ ...............Support frame 714d...........................Rotating component 715.. .........................Capture component 720 ...................... .....mobile unit 722 ................ ...........The first elevated 724 ...........................The second elevated 42 201241508 800 .. ......................... Sealing assembly forming portion 810a................... . . . first sealing unit 810b ..................... second sealing unit 810c ... .....................The third sealing unit 814a........................ ...lifting assembly 814b...........................Support bracket 820 ............. ..............mobile unit 822 ...........................first elevated 824 .. .........................The second elevated 826 ..................... ...the third elevated 900 ........................... Sealing assembly forming portion 920 ........ ...................Mobile unit 922 ........................... An elevated 924 ........................... second elevated 926 ................ ........... third elevated 43