TWI324492B - Supporter abricating method of flat panel display and package of flat panel display - Google Patents

Description

1324492 19163twf.doc/g 九、發明說明： 【發明所屬之技術領域】 本發明是有關於一種有機電激發光面板（〇rganic1324492 19163twf.doc/g IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to an organic electroluminescent panel (〇rganic)

Electroluminescen Panel，〇EL Panel)的製造方法與樂j 造設備，且特別是有關於一種超薄型平面顯示器（ultra_thin flatpanel display)的製造方法與製造設備。 【先前技術】 現今多媒體社會之急速進步，多半受惠於半導體元件 或顯示裝置的快速發展。就顯示器而言，具有高晝質、空 間利用效率佳、低消耗功率、無輻射等優越特性之平面顯 示器（Flat Panel Display)已逐漸成為市場之主流。目前市 面上的平面顯示裔包括液晶顯示器（Liquid Crystal Display，LCD )、有機電激發光顯示器（〇rgankElectroluminescen Panel, 〇EL Panel) manufacturing method and equipment, and in particular, a manufacturing method and manufacturing equipment for an ultra-thin flat panel display. [Prior Art] The rapid advancement of the multimedia society today has mostly benefited from the rapid development of semiconductor components or display devices. In terms of displays, flat panel displays with superior properties such as high quality, good space utilization, low power consumption, and no radiation have gradually become the mainstream in the market. Currently, flat display people on the market include liquid crystal displays (LCDs) and organic electroluminescent displays (〇rgank).

Electro-Luminescence Display，OELD)以及電漿顯示器面 板（Plasma Display Pane卜PDP)等等，且目前各類之平 面顯示器皆朝向輕薄的趨勢發展。 一般來說，平面顯示器主要是由上、下兩片玻璃基板 所構成，為了縮減平面顯示器的厚度，平面顯示器中之玻 璃基板厚度會盡可能的縮減。由於玻璃基板本身相當易 ^且异度愈薄之玻璃基板愈容易有彎曲（ben(jing)的現 ，發生。此外，在整個製造薄玻璃基板的過程中，不當之 f動或碰撞都报容易使薄玻璃基板碎裂，尤其是大尺寸的 薄玻璃基板更容易有此現象發生。如此一來，不但會造成 整個生產良率下降，且製造成本也會跟著上升。 5 1324492 19163twf.doc/g 【發明内容】 本發明之目的是提供一種基板支撐物，以解決習知之 薄玻璃基板於製造過程因不易處理（handling)，即、 運送、檢測等製程中’容易有破片之問題。 本發明之另一目的是提供一種超薄型平面顯示器之 製造方法，以解決習知之製程設備成本過高、良 二 問題。 个住的 以 • 本發明的又一目的是提供一種平面顯示器封骏體 有效保護平面顯示器。 、 為達上述或是其他目的，本發明提出一種基板支撐 物，其適於承载一基板，本發明之基板支撐物包括一支^ 黏著膠體。其中，支撐台具有—凹陷’而黏著膠體 支撐=陷内。上述之基板藉由凹陷内之黏著踢體貼附於 在本發明之—實施例中，上述之_可以為—連續之 陷’錄於連續之環狀凹㈣之料雜會於支撐 13之邊緣處暴露。 之，本發明之-實施例中，上述之凹陷可以為一不連續 ^台:連續之環狀凹陷内之黏著膠體會於 壤上述之凹陷可以為一連續之 切台與基板所包覆長狀凹陷内之黏著膠體會完全被 在本發明之一實施例令，上述之凹陷可以為-不連續 1324492 19163twf.doc/g 之環狀凹陷’且位於不連續之環狀凹陷内之黏著膠體會完 全被支#台與基板所包覆。 在本發明之一實施例中，上述支撐台之機械強度大於 基板之機械強度。 在本發明之一實施例中，上述之支撐台之材料包括高 分子、陶瓷、金屬或是兩種以上之複合材料。 在本發明之一實施例中，上述黏著膠體之材料可使用 熱固化膠（thermal curing adhesive )、紫外線固化朦 (ultraviolet curing adhesive )或可見光固化膠（u凼 curing adhesive )等。 本發明提出一種平面顯示器之製造方法，其包括 步驟：首先’提供-基板支撐物，基板支稽物包括一 一第-凹陷之第-支撐台以及—配置於第—凹陷㈣ ，著膠體。接著，將-基板置於基板支撐物上 = 错由基板黏著膠體與第-支標台接合 部分=與::支=與基板黏著膠體接合之 在本發明之一實施例中， 合之方法可以包括下列步驟=擇台接 著膠體。 ⑽體接觸。然後，固化基板黏 在本發明之一實施例中， 7 1324492 19163twf.doc/g 在本發明之一實施例中，上述提供蓋板之步驟可以包 括a:首先，提供一蓋板支撐物，此蓋板支撐物包括一具有 一弟一凹陷之弟二支樓台以及一配置於第二凹陷内之蓋板 黏著膠體。然後，將蓋板置於蓋板支撐物上，以使蓋板萨 由蓋板黏著膠體與第二支撐台接合。 曰 在本發明之一實施例中，上述之提供蓋板之步驟可以 包括.首先，將蓋板置於一蓋板支撐物上。然後，於蓋板Electro-Luminescence Display (OELD) and Plasma Display Panel (PDP), etc., and all kinds of flat-panel displays are currently trending towards thinness. Generally, a flat panel display is mainly composed of two upper and lower glass substrates. In order to reduce the thickness of the flat display, the thickness of the glass substrate in the flat display is reduced as much as possible. Since the glass substrate itself is quite easy and the thinner the thinner the glass substrate, the more easily it bends (ben (jing) occurs. In addition, in the process of manufacturing the thin glass substrate, improper f motion or collision is easy to report. Fragmentation of thin glass substrates, especially large-sized thin glass substrates, is more likely to occur. As a result, not only will the overall production yield decrease, but also the manufacturing cost will increase. 5 1324492 19163twf.doc/g SUMMARY OF THE INVENTION An object of the present invention is to provide a substrate support for solving the problem that a thin glass substrate of the prior art is easily broken in a manufacturing process due to difficulty in handling, that is, transportation, detection, and the like. Another object of the present invention is to provide a method for manufacturing an ultra-thin flat-panel display to solve the problem of high cost and good quality of the conventional process equipment. A further object of the present invention is to provide an effective protection plane for a flat-panel display. For the above or other purposes, the present invention provides a substrate support suitable for carrying a substrate, the present invention The substrate support comprises a bonding adhesive, wherein the support has a recess and adheres to the colloid support. The substrate is attached to the embodiment of the present invention by an adhesive body in the recess, The material may be continuously entangled in the continuous annular recess (four) and the material is exposed at the edge of the support 13. In the embodiment of the present invention, the recess may be a discontinuous one: The adhesive colloid in the continuous annular depression may be in the above-mentioned depression of the soil, which may be a continuous cutting table and the adhesive colloid in the elongated depression of the substrate is completely exemplified in an embodiment of the present invention. The adhesive colloid which is an annular recess of the discontinuous 13244492 19163 twf.doc/g and which is located in the discontinuous annular recess will be completely covered by the support and the substrate. In one embodiment of the invention, the support The mechanical strength of the table is greater than the mechanical strength of the substrate. In one embodiment of the invention, the material of the support table comprises a polymer, a ceramic, a metal or a composite material of two or more. The material of the above adhesive body may be a thermal curing adhesive, an ultraviolet curing adhesive or a visible curing adhesive, etc. The present invention provides a method for manufacturing a flat display, which comprises Step: First, 'provide-substrate support, the substrate support includes a first-depression first-supporting table, and - disposed in the first-depression (four), colloid. Then, the substrate is placed on the substrate support = wrong In the embodiment of the present invention, the bonding method of the substrate adhesive colloid and the first-supporting plate is combined with the bonding of the substrate to the substrate. In one embodiment of the present invention, the method may include the following steps: selecting a colloid. (10) Body contact. Then, the cured substrate is adhered to an embodiment of the present invention, 7 1324492 19163 twf.doc / g. In an embodiment of the invention, the step of providing the cover may include a: first, providing a cover support, The cover support comprises a second base having a brother and a recess and a cover adhesive disposed in the second recess. The cover is then placed over the cover support such that the cover is adhered to the second support by the cover adhesive. In one embodiment of the invention, the step of providing a cover may include: first, placing the cover on a cover support. Then, on the cover

支撐物上形成一蓋板黏著膠體，以使蓋板之邊緣藉由罢 黏著膠體與蓋板支撐物接合。 现 本發明提出一種平面顯示器之製造方法，其包括下列 步驟：首先，將一基板置於一基板支撐物上。接著，於基 板支撐物上形成-基板黏轉體’以使基板之邊緣藉由基 板黏著膠體而與基板支撐物接合。然後，於基板上形成二 顯，元件_。之後，提供—蓋板，域框膠使基板 與盍板接合。接著’切除基板與基板黏著膠體接合之部分， 以使基板與基板支撐物分離。. 之—實關巾’上述之基板黏轉體與基板 的接s方法可以包括熱固化、紫外線固化或可見光固化等 任一可固化之方法。 在本^之-實施财，上狀提·板之步驟可以 〇括.錢，提供—蓋板支稽物，蓋板切物包括一具有 i凹:ίί，台以及—配置於凹陷内之蓋板黏著勝體。然 體與】;蓋板支樓物上，以使蓋板藉由蓋板黏著膠 在本發明之一實施例中，上述之提供蓋板之步驟可以 8 1324492 】9l63twf.doc/g 包括··首先’將蓋板置於—蓋柘去声 支稽物上形成-蓋板黏著踢體，以“ 蓋板 黏著膠體與蓋板支擇物接合。 *之邊緣藉由蓋板 本發明提出-種平面顯示器封褒體，並包括 Π勿與二平_示器。其中’基板讀物包括-第二Ϊί 基板黏著膠體配置於第-凹陷内。：述!; 於第一支樓台上，而平面顯示器具有置 且基板藉由基板黏著膠體而與第一支撐台接合。盖板’ 以更种’上叙平嶋器封裝體可 、+、—盍板支撐物’此蓋板支撐物可以與蓋;^接a。 上述之1板支樓物包括一第—主斤 &amp; 其中，第1心目r 與—蓋板黏著谬體。 载:板第二凹陷，且第二支撐台適於承 3盍板料，盖板黏著職配置於第二凹 可以稭由蓋板黏著膠體與第二支撐台接合。 可以更’上述之平面顯示11封裴體， =適於，。此外，蓋板黏; 以使羞板之邊緣藉由蓋板黏著膠體與蓋板 液晶ΐΐΓ明施例中，上述之平面顯示器可以包括 激發光顯示器或電漿顯示器。 顯示器:-基板支二tr顯之封袭體，其包括一平面 撑物，、-基板黏著勝體。其中，平面顯 9 丄 324492 19163twf.doc/g 示器具有-基板以及-蓋板。此外，基板支撐物適於 基板。另外，基板黏著膠體配置於基板支撐物上，以 ' 板之邊緣藉由基板黏著膠體與基板支撐物接合。 土 、 纟本發明之—實施例巾’上述之平面封裝體 以更包括-蓋板支樓物，此蓋板支標物與蓋板接合 之蓋板支樓物包括-支擇台與一蓋板黏著膠體。其中，^ 撐台具有-凹陷’且支撐台適於承載蓋板。此外，蓋 • 體配置於凹陷内’且蓋板藉由蓋板黏著膠體與支撐台 、在本發，之-實施例中，上述之平面顯示器封裝體可 以更包括一盍板支撐物與一蓋板黏著膠體。其中，蓋 撐物適於承載蓋板。此外’蓋板黏著滕體配置於蓋板 ^ ’以使蓋板之邊緣藉由蓋板黏_體與蓋板支撐物接 在本發明之-實施例中，上述之平面顯示器可以包括 液晶顯示器、有機電激發光顯示器或電漿顯示器。 本發明之平面顯示器之製造方法因制了基板支撐 2，而基板可以貼附於此基板支撐物上而得到支撐與保 義。每樣-來’位於基板支標物上的基板便可以安全地進 行承載、運送、檢測等製程以及後續的顯示元件製作製程。 •目此，本發日狀平面齡H之製造方法可叫效提供超薄 型基板處理（—g)的方法，防止破片，進而提升良 率並節省製造成本。本發明之平面顯示器之製造方法也可 以選擇性地使用盍板支撐物，以提供蓋板支撐與保護。由 j^4492 19l63twf.doc/g 於本發明之平面顯示器封裝體可以有效保護平面顯示器。 為讓本發明之上述和其他目的、特徵和優點能更明顯 易懂，下文特舉較佳實施例，並配合所附圖式，作詳細說 明如下。 【實施方式】 盖一實施例 圖1是本發明之第一實施例之基板支撐物之剖面示意 圖°月參考圖1，本發明之基板支稽物200 (supporter)適 於承載一基板110，以提供基板110支撐與保護。一般較 常見到的基板110例如是製造顯示器用的超薄玻璃基板 (Ultra-thin glass)或是軟性的基板。以超薄玻璃基板為 例，由於玻璃材料本身相當易碎，且超薄玻璃基板之厚度 一般小於0.7mm，這很容易使超薄玻璃基板在整個製造過 程有不良的彎曲現象。本發明之基板u〇可以貼附於基板 支撐物200上，進而避免基板11〇產生不良的彎曲現象。 詳細地說，本發明之基板支撐物2〇〇包括一支樓台 (supP〇rtstage)210與一黏著膠體22〇。其中，支撐台H 具有一凹陷 210a(indentati〇n)，而黏著膠體 22〇( 配置於凹陷210a内。具體而言，支撐台21〇之材料可以是 高分子、陶瓷或、金屬或是兩種材料以上所組成之複合= 料，而支撐台210上的凹陷21〇a可以透過^沙 (sand-blasting)或蝕刻（etching)的方法來形成。値得留 意的是，此支樓台210之機械強度可以大於基板ιι〇之 械強度。 微A cover adhesive is formed on the support so that the edge of the cover engages the cover support by means of a glue. The present invention now provides a method of fabricating a flat panel display comprising the steps of: first, placing a substrate on a substrate support. Next, a substrate-transferring body is formed on the substrate support so that the edge of the substrate is bonded to the substrate support by the substrate adhesive. Then, a binary display, element _, is formed on the substrate. Thereafter, a cover is provided, and the domain seal is bonded to the substrate. Then, the portion where the substrate and the substrate adhesive are bonded is cut off to separate the substrate from the substrate support. The method of connecting the substrate to the substrate and the substrate may include any curing method such as heat curing, ultraviolet curing or visible light curing. In the implementation of the method, the step of lifting the board can include the money, providing the cover sheet, and the cover cut includes a cover having an indentation: ίί, a table, and a cover disposed in the recess. The board sticks to the body. And the cover member, so that the cover plate is adhered by the cover plate. In the embodiment of the present invention, the step of providing the cover can be 8 1324492] 9l63twf.doc/g includes Firstly, the cover is placed on the cover and the cover is formed on the cover. The cover is adhered to the body, and the cover is adhered to the cover. The edge is covered by the cover. The flat-panel display is sealed, and includes a flat-panel display device, wherein the 'substrate reading material includes a second substrate, and the substrate adhesive is disposed in the first recess.: said! The cover plate has a substrate adhered to the first support table by the substrate adhesive. The cover plate can be used to cover the cover support, and the cover support can be covered with the cover; Connected to a. The above-mentioned 1st board building comprises a first main body &amp; wherein the first mind r and the cover plate are adhered to the body. The carrier: the second recess of the plate, and the second supporting table is adapted to receive the 3th plate The cover plate is adhesively disposed in the second recess, and the cover is adhered by the cover adhesive to the second support table. 'The above plane shows 11 裴 ,, = is suitable. In addition, the cover is viscous; so that the edge of the slab is adhered by the cover adhesive and the cover liquid crystal, the above-mentioned flat display may include excitation Light display or plasma display. Display: - Substrate support 2 tramped body, which includes a flat support, - substrate adhesion body. Among them, the plane display 9 丄 324492 19163twf.doc / g display has - The substrate and the cover plate are further provided. The substrate support is adapted to the substrate. In addition, the substrate adhesive is disposed on the substrate support, and the edge of the plate is bonded to the substrate support by the substrate adhesive. The invention relates to the above-mentioned planar package, which further comprises a cover plate, and the cover member of the cover plate and the cover plate comprises a support plate and a cover adhesive body. The support has a recess and the support is adapted to carry the cover. Further, the cover is disposed in the recess and the cover is adhered to the support by the cover, in the present invention, in the embodiment, Flat display package can be more A cover plate support and a cover adhesive body, wherein the cover support is adapted to carry the cover plate. In addition, the cover plate is disposed on the cover plate to make the edge of the cover plate adhere to the cover body. In connection with the cover support in the embodiment of the present invention, the above flat display may include a liquid crystal display, an organic electroluminescent display or a plasma display. The method of manufacturing the flat display of the present invention is based on the substrate support 2 The substrate can be attached to the substrate support to obtain support and security. Each of the substrates located on the substrate support can be safely carried, transported, inspected, and the like, and subsequent display device manufacturing processes. Therefore, the manufacturing method of the hair surface level H can be called to provide an ultra-thin substrate processing (-g) method to prevent fragmentation, thereby improving yield and saving manufacturing costs. The method of fabricating the flat panel display of the present invention can also selectively use a seesaw support to provide cover support and protection. The flat display can be effectively protected by the flat panel display of the present invention by j^4492 19l63twf.doc/g. The above and other objects, features and advantages of the present invention will become more <RTIgt; [Embodiment] FIG. 1 is a schematic cross-sectional view of a substrate support according to a first embodiment of the present invention. Referring to FIG. 1 , the substrate support 200 of the present invention is adapted to carry a substrate 110. The substrate 110 is supported and protected. The substrate 110 which is generally more common is, for example, an ultra-thin glass for manufacturing a display or a flexible substrate. Taking an ultra-thin glass substrate as an example, since the glass material itself is relatively fragile, and the thickness of the ultra-thin glass substrate is generally less than 0.7 mm, it is easy to cause the ultra-thin glass substrate to have poor bending throughout the manufacturing process. The substrate u of the present invention can be attached to the substrate support 200, thereby preventing the substrate 11 from being defective in bending. In detail, the substrate support 2 of the present invention includes a single-station (supP〇rtstage) 210 and an adhesive colloid 22〇. Wherein, the support table H has a recess 210a (indentati〇n), and the adhesive colloid 22〇 (disposed in the recess 210a. Specifically, the material of the support table 21〇 may be polymer, ceramic or metal or both The composite material composed of the above material, and the recess 21〇a on the support table 210 can be formed by a sand-blasting or etching method. It is noted that the mechanical structure of the support tower 210 The strength can be greater than the mechanical strength of the substrate.

II 1324492 19163twf.doc/g 此外，填充於凹陷21〇a内之黏著膠體22〇可以是熱 固化、紫外線固化或可見光固化膠（visible Hght curing • jhesive)等。上述之基板110可以藉由凹陷21〇a内之黏 著膠體220而貼附於支撐台21〇上，因此，在運送基板11〇 時，藉由支撐台210的支撐而能避免基板11〇發生不良的 彎曲現象，並能使基板在透過輸送帶（未繪示）、無 人搬運車（未繪示）或機械手臂（未繪示）運送時，能避 免直接的碰撞而達到保護基板110之功效。上述之凹陷 210a之外形可以對應基板丨之尺寸而作調整，在此並不 刻意限制。 具體而言’凹陷210a之形狀可以如圖2A〜2D所示。 圖2A所示為一具有連續之環狀凹陷21〇b的支撐台21〇， 且位於連續之環狀凹陷21〇b内之黏著膠體220會於支撐台 210之邊緣處暴露。圖2B所示為一具有不連續之環狀凹陷 210c的支撐台210,且位於不連續之環狀凹陷2l〇c内之黏 著膠體220會於支撐台210之邊緣處暴露。 Φ 承上述’圖2C所示為一具有連續之環狀凹陷210d的 支撐台210 ’在基板no貼附於基板支撐物200之後，位 於連續之環狀凹陷210d内之黏著膠體220會完全被支撐台 210與基板110所包覆。圖2D所示為一不連續之環狀凹陷 210e ’在基板11〇貼附於基板支撐物200之後，位於不連 續之環狀凹陷210e内之黏著膠體220也會完全被支撐台 • 210與基板110所包覆。 上述内容已經將本發明之基板支撐物200介紹完，下 12II 1324492 19163twf.doc/g Further, the adhesive colloid 22〇 filled in the recess 21〇a may be heat-cured, ultraviolet-curable or visible light-curing adhesive (visible Hght curing • jhesive). The substrate 110 can be attached to the support table 21 by the adhesive colloid 220 in the recess 21A. Therefore, when the substrate 11 is transported, the substrate 11 can be prevented from being defective by the support of the support table 210. The bending phenomenon can enable the substrate to avoid the direct collision to achieve the effect of protecting the substrate 110 when transported through a conveyor belt (not shown), an automated guided vehicle (not shown) or a robot arm (not shown). The shape of the recess 210a described above may be adjusted corresponding to the size of the substrate, and is not intentionally limited herein. Specifically, the shape of the recess 210a can be as shown in Figs. 2A to 2D. 2A shows a support table 21 having a continuous annular recess 21〇b, and the adhesive colloid 220 located in the continuous annular recess 21〇b is exposed at the edge of the support table 210. 2B shows a support table 210 having a discontinuous annular recess 210c, and the adhesive colloid 220 located in the discontinuous annular recess 21c is exposed at the edge of the support table 210. Φ is shown in Fig. 2C as a support table 210 having a continuous annular recess 210d. After the substrate no is attached to the substrate support 200, the adhesive colloid 220 located in the continuous annular recess 210d is completely supported. The stage 210 is covered with the substrate 110. 2D shows a discontinuous annular recess 210e'. After the substrate 11 is attached to the substrate support 200, the adhesive colloid 220 located in the discontinuous annular recess 210e is also completely supported by the support 210 and the substrate. 110 covered. The above has already introduced the substrate support 200 of the present invention, and the next 12

I3244VZ 19163twf.doc/g 200如何應用於平面 文中將繼續介紹本發明之基板支撐物 顯示器之製造方法中。 第二實施例How to apply I3244VZ 19163twf.doc/g 200 to the plane The method of manufacturing the substrate support display of the present invention will be further described. Second embodiment

1ΠΑ〜3E疋本發明之第二實施例之平面顯示器之製 造流程示意圖。請參考圖3A，首先，提供一基板支標物 300 ’此基板支標物3〇〇包括一具有一第一凹陷遍之第 -支撐台31G以及一配置於第一凹陷遍内之基板黏著膠 體320。這裡要說明的是，此基板支樓物300之外形可以 如圖2A〜2D所示之形狀’在此並不刻意侷限。接著請參 考圖+3B，將一基板11〇置於基板支撐物3〇〇上，以使基板 11〇藉由基板黏著膠體320而與接合。如此一來，第—支 撐台31〇便可以提供基板110支撐與保護，以避免基板11〇 有不良的彎曲現象。在整個製造過程中，可以避免基板ιι〇 因直接被碰撞或因不良的彎曲而產生碎裂的現象，這樣不 僅能利用現有機台技術製作超薄型顯示器並能省製造成 詳細地說，基板110與第一支撐台31〇接合之方法可 以包括下列步驟：請先參考圖4A，首先將基板no置於第 一支撐台310上’以使基板與基板黏著膠體32〇接觸。 之後請參考圖4B，固化基板黏著膠體320。一般來說，基 板黏著勝體320的固化方法可以包括熱固化或紫外線固 化。 然後請參考圖3C，於基板no上形成一顯示元件陣 列112。具體而言，顯示元件陣列112可以根據欲製作出 顯不器的種類而有所不同，若欲製作出液晶顯示器（Liquid 13 1324492 19163twf.doc/g1 to 3E is a schematic view showing a manufacturing process of a flat panel display according to a second embodiment of the present invention. Referring to FIG. 3A, first, a substrate support 300' is provided. The substrate support 3 includes a first support table 31G having a first recess and a substrate adhesive disposed in the first recess. 320. It is to be noted that the shape of the substrate support 300 may be as shown in Figs. 2A to 2D', and is not intentionally limited herein. Next, referring to FIG. 3B, a substrate 11 is placed on the substrate support 3A so that the substrate 11 is bonded to the substrate adhesive 320. In this way, the first support table 31 can provide support and protection for the substrate 110 to prevent the substrate 11 from being poorly bent. Throughout the manufacturing process, it is possible to avoid the phenomenon that the substrate ιι is broken due to direct collision or poor bending, so that not only the ultra-thin display can be fabricated by using the existing machine technology, but also the manufacturing can be omitted. The method of bonding 110 to the first support table 31 may include the following steps: Referring first to FIG. 4A, first, the substrate no is placed on the first support table 310' to bring the substrate into contact with the substrate adhesive 32. Referring to FIG. 4B, the substrate adhesive 320 is cured. In general, the curing method of the substrate adhesive body 320 may include thermal curing or ultraviolet curing. Referring to Figure 3C, a display element array 112 is formed on the substrate no. Specifically, the display element array 112 may be different depending on the type of the display to be produced, if a liquid crystal display is to be produced (Liquid 13 1324492 19163 twf.doc/g)

Crystal Display Panel，LCD)，則此顯示元件陣列 112 至 少包括主動元件陣列。若欲製作出有機電激發光顯示器 (organic electro-luminescence display，OEL display )，則 此顯示元件陣列112至少包括有機電激發光元件（〇rganic Electro-Luminescence device )’在此並不刻意限制所欲製作 顯示器的種類。Crystal Display Panel (LCD), then the display element array 112 includes at least an active device array. If the organic electro-luminescence display (OEL display) is to be produced, the display element array 112 includes at least an organic electro-luminescence device (not including the organic electro-luminescence device). Make the type of display.

接著請參考圖3D，提供一蓋板12〇,並藉由一框膠 130使基板110與蓋板12〇接合，這樣一來，已經初步形 成了本發明之平面顯示器封裝體9〇〇。之後請參考圖3E， 切除基板110與基板黏著膠體32〇接合之部分（沿著虛線 A-A’與B-B’切割），而使基板11〇與第一支撐台31〇可以 分離’以分割出平面顯示器1 〇〇。 馮了進· y’咽娜卞囟顯示器1〇〇之整體厚度，蓋板1〇( 也可以選財度較薄的材料。請先參考圖5A，為了使蓋板 120也能得到適當的讀與保護，上述提供蓋板12〇之步 驟可以包括：首先提供-蓋板支撐物權 =括:具有一第二凹陷4103之第二支推台4 置於驗支撐物上， ,ιη 使盍板120糟由盍板黏著膠體 420與弟一支撐台41〇接合。如此—笔 貼附於蓋板支撐物上而得射^ :板便叮 到支撐與保護。接著進行如 成如円5^所, 與蓋板120接合步驟後，便可以形 成如圖5Β所不之—平面顯示器魏體_a。 Η ^ ΓΓί樓蓋板m之切物也可以選擇另一種 开^式”月先參考圖6 A，首春，腺裳』 1 口 W先’將盖板120置於-蓋板支樓 1324492 19163twf.doc/g 物500上。然後於蓋板支撐物500上形成一蓋板黏著膠 510,以使蓋板120之邊緣藉由蓋板黏著膠體51〇而與蓋板 支撑物500接合。這樣也可以使蓋板12〇透過黏著膠體μ〇 而與蓋板支撐物500接合，進而使蓋板12〇得到支撐與 護。之後再進行如圖3D所示之基板110與蓋板12〇接丄 步驟後，便可以形成如圖6B所示之另一平面顯示器= 體910b。 展Referring to FIG. 3D, a cover 12 is provided, and the substrate 110 is bonded to the cover 12 by a sealant 130. Thus, the flat display package 9 of the present invention has been initially formed. Then, referring to FIG. 3E, the portion where the substrate 110 is bonded to the substrate adhesive 32 ( (cut along the broken lines A-A' and BB') is cut, so that the substrate 11 〇 can be separated from the first support 31 ' Split the flat panel display 1 〇〇. Feng Chengjin · y' throat 卞囟 卞囟 display 1 〇〇 the overall thickness, cover 1 〇 (can also choose a thinner material. Please refer to Figure 5A first, in order to make the cover 120 can also be read properly And the protection, the step of providing the cover 12〇 may include: first providing a cover support weight=including: a second push table 4 having a second recess 4103 is placed on the test support, and 120 盍 盍 盍 盍 盍 盍 盍 盍 盍 盍 盍 盍 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 120 After the step of bonding with the cover 120, it can be formed as shown in FIG. 5 - the flat display display body _a. Η ^ ΓΓί floor cover m can also be selected as another type of open type" A, the first spring, the gland skirt 』 1 port W first 'place the cover 120 on the cover plate 1324492 19163twf.doc / g object 500. Then form a cover adhesive 510 on the cover support 500, So that the edge of the cover 120 is engaged with the cover support 500 by the cover adhesive 51. This also allows the cover 12 to pass through the adhesive. The body is bonded to the cover support 500 to support and protect the cover 12, and then the substrate 110 and the cover 12 are connected as shown in FIG. 3D, and then can be formed as shown in FIG. 6B. Another flat display shown = body 910b.

值得留意的是，在考量經濟效益下，一般顯示元 列之製造方式會先於大片之基板m上定義出多個主 動區UetiVeregiGn)(树示），並在這些主動區内形 成所需之顯*元件_ 112 ’織使基板1ω *蓋板 ，合。最後騎接合狀大絲板11G與蓋板12G進行切 割，以分割出數個任一尺寸之平面顯示器。 拒暇^里要特別說明的是，上述基板110與蓋板120透過 二“老即構成本發明之平面顯示器封裝體_。It is worth noting that, considering the economic benefits, the general display of the manufacturing method of the meta-column will define a plurality of active regions UetiVeregiGn) (trees) on the large substrate m, and form the required display in these active regions. * Element _ 112 'Weaving substrate 1ω * Cover, combined. Finally, the jointed large wire plate 11G is cut with the cover 12G to divide a plurality of flat displays of any size. Specifically, it is to be noted that the substrate 110 and the cover 120 are permeable to the "flat display package _ of the present invention."

本發明之平面顯示器封裝體_内有-平 示器::，著欲製作顯示器之種類不同’此平面顯 顯；器。；晶=器、有機電激發光顯示器賴 物顯示器100。其中，基板支樓 弟 支撐台310盘一其把贫:装m 第一支撐么3】0且古咕 /、基扳黏者膠體320。此 配置於第^陷31t内凹陷伽，而基板黏著膠體320 平二=有示_器：：於第3，训上，而 韦基板110、一顯示元件陣列112、一 15 1324492 19163twf.doc/g 130 ’且基板110藉由基板黏著膠體 320與第一支撐台310接合。 封=蓋板12〇=_護，本發明之平面顯示器 封裝體900a可以更包括一與蓋板12〇接合之蓋板支樓物 4〇〇,此蓋板支標物崔包括一第二支撐台—蓋板界 I::二其中，第二支撐？410具有一第二凹陷·， 體4二二r雜承載錢m。此外，蓋板黏著膠 體物配置於第二凹陷41〇a内，且蓋板12〇可以藉 黏著膠體420與第二支撐台41〇接合。 板 此外，本發明也提供了另一種平面顯示器封農 _b ’請再參考6B ’本發明之平面顯示器封 可以^包括-蓋板支撐物500與一蓋板黏著膠體训。其 中，盍板支撐物5〇〇適於承載蓋板12〇。此外，罢 缪體510配置於蓋板支撐物500上，以使蓋板 藉，黏著膠體510與蓋板支撐物500接合。這樣一透來緣 不淪是本發明之平面顯示器封裝體9〇〇、9〇〇a或卯郁处 有效保護平面顯示器⑽，以利於運送至不同地點= 再對平面顯示器封裝體9〇〇、9〇〇a或9〇〇b進行切 ^ 割出數個任—尺寸的平面顯示器⑽。 ° 刀 _苐二貫施你丨 圖7A〜7E是本發明之第三實施例之平面 二流程示意圖。請參考圖7A，首先，將一基板^ =製 ，=撐物60。h接著請參考圖7B，於基板切物二 基板黏著勝體61〇 ’以使基板11〇之邊 黏著膠體61G與基板支撐物6GG接合。-般而言f美^ 16 1324492 19163twf.doc/g 黏者膠體610與基板110的接合方法可以包括埶固化或紫 外線固化。如此一來，基板支撐物600便可以提供基板n〇 支揮，以避免基板110有不良的彎曲現象。 然後請參考圖7C，於基板11Q切成—顯示元件陣 列112。具體而言，顯示元件陣列112可以根據欲製作出 顯示器的種類而有所不同，若欲製作出液晶顯示器，則此 顯不元件_ 112至少包括主動元件陣列。若欲製作出有 機電激發光顯示器，則此顯示元件陣列112至少包括有機 電激發光元件，在此並纽細欲製作顯示^祿類。 之後請參考圖7D，提供-蓋板m，並藉由一框膠 130使基板11〇錢板120接合，這樣一來，^經初步形 成了本發明之平面顯示器封裝體91〇。接著請參考圖7£， ϋ ’以使餘11G與基板支撐物_可以 刀割出數個任—尺寸之平面顯示器⑽。上述内 谷已經將本發明之平面顯示器之製造方法介紹完。 也可降?平面顯示器100之整體厚度，蓋板⑽ G二ΐ ίίίΓ⑽料。為了使蓋板12°也能得到支 以包括：首先，提Γ一 供盖板120之步驟也可 包括-具f歧樓物7⑼ 710a内之蓋板黏著勝n 72〇。= 丨配置於凹陷 支樓物7〇〇上，以使罢板12二:將盍板120置於蓋板 撐台_合。如板黏著膠體720與支 700 盍板120便可以貼附於蓋板支 按物·上而付到支撐與保護。接著，進行如圖7D所示 17 1324492 19163twf.doc/g 二”，與蓋板120接合步驟後，便可以 所不之一平面顯示器封裝體910a。 口 此外1以支撐蓋板⑽之切物也可The flat-panel display package of the present invention has a flat-panel::, and the type of display to be produced is different. Crystallizer, organic electroluminescent display monitor display 100. Among them, the substrate support tower 310 support plate is poor: install m first support 3] 0 and the old 咕 /, base visor colloid 320. This configuration is recessed in the third recess 31t, and the substrate adhesive colloid 320 is flat = there is a device: in the third, training, and the Wei substrate 110, a display element array 112, a 15 1324492 19163twf.doc / g 130 ' and the substrate 110 is joined to the first support table 310 by the substrate adhesive 320. The cover device cover 900a of the present invention may further include a cover member 4〇〇 joined to the cover 12〇, the cover member Cui includes a second support Taiwan - cover sector I:: two of them, the second support? 410 has a second depression, and the body 4 is a binary carrier. In addition, the cover adhesive is disposed in the second recess 41a, and the cover 12b can be joined to the second support 41 by the adhesive 420. In addition, the present invention also provides another flat panel display _b'. Please refer to 6B'. The flat panel display of the present invention can include a cover support 500 and a cover adhesive. Among them, the seesaw support 5〇〇 is adapted to carry the cover 12〇. Further, the striker body 510 is disposed on the cover support 500 such that the cover member borrows and the adhesive colloid 510 is engaged with the cover support 500. Such a transparent edge is that the flat-panel display package 9〇〇, 9〇〇a or the depression of the present invention effectively protects the flat-panel display (10), so as to facilitate transportation to different locations = then to the flat-panel display package, 9〇〇a or 9〇〇b cuts and cuts out several-size flat-panel displays (10). ° 刀 苐 苐 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 。 。 。 Referring to FIG. 7A, first, a substrate is formed, and the support 60 is formed. h Next, referring to Fig. 7B, the substrate 61 is adhered to the substrate 2 to adhere the edge of the substrate 11 to the substrate support 6GG. - Generally speaking, the method of bonding the adhesive colloid 610 to the substrate 110 may include enamel curing or ultraviolet curing. In this way, the substrate support 600 can provide the substrate n〇 to avoid the substrate 110 from having a poor bending phenomenon. Then, referring to Fig. 7C, the substrate 11Q is cut into a display element array 112. Specifically, the display element array 112 may vary depending on the type of display to be produced. If a liquid crystal display is to be produced, the display element_112 includes at least an active device array. If an electromechanical excitation light display is to be produced, the display element array 112 includes at least an organic electroluminescence element, and the display is intended to be a display. Referring to FIG. 7D, a cover plate m is provided, and the substrate 11 of the substrate 120 is joined by a frame glue 130. Thus, the flat display package 91 of the present invention is initially formed. Next, please refer to FIG. 7 , ϋ ' so that the remaining 11G and the substrate support _ can cut a number of any size flat display (10). The above-mentioned inner valley has already introduced the manufacturing method of the flat panel display of the present invention. It is also possible to reduce the overall thickness of the flat panel display 100, the cover (10) G ΐ ίίίΓ (10) material. In order to enable the cover 12° to be supported, the first step of the step of providing the cover 120 may also include: the cover in the slab 7(9) 710a is adhered to n 72 〇. = 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 丨 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷 凹陷For example, the plate adhesive 720 and the 700 gusset 120 can be attached to the cover and supported and protected. Then, as shown in FIG. 7D, 17 1324492 19163 twf.doc/g 2", after the bonding step with the cover 120, one of the flat display package bodies 910a can be used. The mouth 1 also supports the cover plate (10). can

形式’請先參考圖9A，首先，將蓋板12〇置於U =〇〇上於蓋板支撐物_上形成-蓋板黏著‘ f Γ二=0之邊緣藉由蓋板黏著膠體81〇盘蓋 =支禮物_接合。這樣也可以健板u =:與蓋板支禮物800接合，進而使蓋板12〇 =護。之後再進行如圖7D所示之基板110與蓋二: 接5步驟後，便可以形成如圖9B所示之另 封裝體910b。 十面,，，、員不口口 noH里ft說明的是，基板U〇與蓋板120透過框勝 = 所示)，即構成本發明之平面顯示器 1 = 參考圖8B，本發明之平面顯示器封裝體 910内有-平面顯示n ，隨著欲製作顯 ==器100可以是液晶顯示器'有機電激發ί 顯不态或電漿顯示器。 詳細地說’本發明之平面顯示器封裳體910包括 2不器⑽、-基板支職_與—基板_謬體⑽。 /、中，平面顯示器具有一基板110、一顯示元件陣列112、 m以及-_ 13G。此外，基板支撐物_適於 ^載基板110。另外，基板黏著膠體61〇配置於基板支撐 6〇,上，以使基板110之邊緣藉由基板黏著膠體 基板支撐物600接合。 … 為了使蓋板120也能得到保護，本發明之平面顯示器 1324492 19163twf.doc/g 封裝體fl〇a可以更包括一與蓋板12〇接合之蓋板支撐物 7〇〇’此蓋板支撐物700包括一支撐台71〇與一蓋板黏著膠 體720。其中，支撐台710具有一凹陷710a，且第二支撐 σ 710適於承載蓋板120。此外，蓋板黏著膠體72〇配置 於凹陷71〇a内，且蓋板12〇藉由蓋板黏著膠體72〇盥 台710接合。 此外本發明也提供了另一種平面顯示器封裝體 91〇b，凊再參考圖9B，本發明之平面顯示器封裝體91〇b 可以^包括-蓋板支撐物_與〜蓋板黏轉體81〇。其 中，蓋板支撐物800適於承载蓋板12〇。此外，蓋 膠體810配置於蓋板支撐物_上，以使蓋板120之^緣 藉由蓋板黏著膠體81〇與蓋板支撐物8〇〇接合。 综上所述，本發明之平面顯示器之製造方法因採用了 基板支擇物’而基板可以貼附於此基板支撐物上而得 撐與保護，以避免基板有不良的彎曲與或因碰撞而碎裂。 這樣-來，位於基板支撐物上的基板便可以安全地進. 載、運送、檢測等製程以及後續的顯示元件製 而可有效避免基板則。因此，本㈣之平面_^ 造方法可以有效提供超薄型基板處理（handIing) “衣 提升良率並節省製造成本。本發明之平面顯示器之 法也可以選擇性地使用蓋板支撐物，以進 f保護。由於本發明之平面顯示器封襄體可以^ = =顯示器’進而能使平面顯示器能被安全地運送至不= 的地點’之後再對平面辭H封裝體騎⑽價程，以； 19 1324492 19163twf.doc/g 割出數個任一尺之平面顯示器。 雖然本發明已以較佳實施例揭露如上，然其並非用以 限定本發明，任何熟習此技藝者，在不脫離本發明之精神 和範圍内，當可作些許之更動與潤飾，因此本發明之保護 範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 圖1是本發明之第一實施例之基板支撐物之剖面示意 圖。 圖2A〜2D是本發明之第二實施例之各種凹陷形狀之 示意圖。 圖3A〜3E是本發明之第二實施例之平面顯示器之製 造流程示意圖。 圖4A〜4B是本發明之第二實施例基板與第一支撐台 接合之流程示意圖。 圖5A是本發明之第二實施例之蓋板示意圖。 圖5B是本發明之第二實施例之平面顯示器封裝體之 示意圖。 圖6A是本發明之第二實施例之另一蓋板示意圖。 圖6B是本發明之第二實施例之另一平面顯示器封裝 體之示意圖。 圖7A〜7E是本發明之第三實施例之平面顯示器之製 造流程示意圖。 圖8A是本發明之第三實施例之蓋板示意圖。 圖8B是本發明之第三實施例之平面顯示器封裝體之 20 1324492 19163twf.doc/g 示意圖。 圖9A是本發明之第三實施例之另一蓋板示意圖。 . 圖9B是本發明之第三實施例之另一平面顯示器封裝 體之示意圖。 ' 【主要元件符號說明】 100 :平面顯示器 110 :基板 112 :顯示元件陣列 ® 120 :蓋板 130 :框膠 200、300、500 :基板支撐物 210 :支撐台 220 :黏著膠體 210a :凹陷 210b :連續之環狀凹陷 210c :不連續之環狀凹陷 • 210d:連續之環狀凹陷 210e :不連續之環狀凹陷 310 :第一支撐台 310a :第一凹陷 320:基板黏著膠體 400、500、700 :蓋板支撐物 410 :第二支撐台 420、510、720、810 :蓋板黏著膠體 21 1324492 19163twf.doc/g 600 :基板支撐物 610、720 :基板黏著膠體 700、800 :蓋板支撐物 710 :支撐台 710a :凹陷 900、900a、900b、910、910a、910b :平面顯示器封 裝體Form 'Please refer to Figure 9A first. First, place the cover 12〇 on U=〇〇 on the cover support_form-cover-adhesive' f Γ2=0 edge by the cover adhesive 81〇 Cover = support gift _ joint. In this way, the board u =: is engaged with the cover card gift 800, so that the cover 12 is protected. Then, the substrate 110 and the cover 2 as shown in Fig. 7D are further processed. After the fifth step, a further package 910b as shown in Fig. 9B can be formed. Ten sides,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, The package 910 has a - plane display n, and the device 100 can be a liquid crystal display 'organic electric excitation \\" or a plasma display. DETAILED DESCRIPTION OF THE INVENTION The flat panel display body 910 of the present invention comprises a device (10), a substrate holder, and a substrate_body (10). In the middle, the flat panel display has a substrate 110, a display element array 112, m, and - 13G. Further, the substrate support_ is adapted to carry the substrate 110. Further, the substrate adhesive 61a is disposed on the substrate support 6A so that the edge of the substrate 110 is bonded by the substrate adhesive substrate support 600. In order to protect the cover 120, the flat panel display 1324492 19163twf.doc/g package fl〇a of the present invention may further comprise a cover support 7 〇〇 'this cover support engaged with the cover 12 〇 The article 700 includes a support table 71 and a cover adhesive 720. The support table 710 has a recess 710a, and the second support σ 710 is adapted to carry the cover 120. Further, the cover adhesive 72 〇 is disposed in the recess 71 〇 a, and the cover 12 接合 is joined by the cover adhesive 72 710. In addition, the present invention also provides another flat display package 91b, and referring to FIG. 9B, the flat display package 91b of the present invention can include a cover support _ and a cover opener 81 〇 . Among them, the cover support 800 is adapted to carry the cover 12 〇. Further, the cover rubber 810 is disposed on the cover support_ such that the cover 120 is engaged with the cover support 8 by the cover adhesive 81. In summary, the manufacturing method of the flat panel display of the present invention can be adhered and protected by using the substrate support ' while the substrate can be attached to the substrate support to avoid poor bending or collision of the substrate. Fragmentation. In this way, the substrate on the substrate support can be safely loaded, transported, inspected, and the like, and subsequent display elements can be effectively avoided. Therefore, the planar method of the present invention can effectively provide an ultra-thin substrate handling (handIing) "clothing improvement yield and save manufacturing cost. The flat panel display method of the present invention can also selectively use the cover support to Into the f protection. Since the flat panel display of the present invention can ^ = = display 'and thus enable the flat panel display can be safely transported to the location of not = ' and then the plane word H package riding (10) price range; 19 1324492 19163 twf.doc/g A planar display of any one of the dimensions is cut out. Although the invention has been disclosed in the preferred embodiments as above, it is not intended to limit the invention, and those skilled in the art, without departing from the invention In the spirit and scope, the scope of protection of the present invention is defined by the scope of the appended claims. [FIG. 1 is a first embodiment of the present invention. 2A to 2D are schematic views showing various recessed shapes of a second embodiment of the present invention. Figs. 3A to 3E are plan views showing a second embodiment of the present invention. 4A to 4B are schematic views showing the process of joining a substrate to a first support table according to a second embodiment of the present invention. Fig. 5A is a schematic view of a cover plate according to a second embodiment of the present invention. Figure 2A is a schematic view of another cover plate of a second embodiment of the present invention. Figure 6B is a schematic view of another flat-panel display package according to a second embodiment of the present invention. 7A is a schematic diagram of a manufacturing process of a flat panel display according to a third embodiment of the present invention. Fig. 8A is a schematic view of a cover plate according to a third embodiment of the present invention. Fig. 8B is a plan view of a flat display package according to a third embodiment of the present invention. 1324492 19163twf.doc/g Fig. 9A is a schematic view of another cover plate according to a third embodiment of the present invention. Fig. 9B is a schematic view of another flat display package according to a third embodiment of the present invention. DESCRIPTION OF SYMBOLS 100: Flat panel display 110: Substrate 112: Display element array® 120: Cover 130: Frame glue 200, 300, 500: Substrate support 210: Support table 220: Adhesive 210a: Concave 210b: continuous annular recess 210c: discontinuous annular recess 210d: continuous annular recess 210e: discontinuous annular recess 310: first support table 310a: first recess 320: substrate adhesive colloid 400, 500 700: cover support 410: second support table 420, 510, 720, 810: cover adhesive 21 2124492 19163twf.doc / g 600: substrate support 610, 720: substrate adhesive colloid 700, 800: cover Support 710: support table 710a: recesses 900, 900a, 900b, 910, 910a, 910b: flat display package

22twenty two

Claims (1)

1324492 8. 如申請專利範圍第1項所述之基板支撐物，其中該 黏著膠體之材料包括熱固化膠、紫外線固化膠或可見光固 . 化膠等任一方式可固化之膠。 9. 一種平面顯示器之製造方法，包括： 提供一基板支撐物，該基板支撐物包括一具有一第一 凹fe之第一支撐台以及一配置於該第一凹陷内之基板黏著 膠體； φ 將一基板置於該基板支撐物上，以使該基板藉由該基 板黏著朦體與該第一支撑台接合； 於該基板上形成一顯示元件陣列； 提供一蓋板； 藉由一框膠使該基板與該蓋板接合丨以及 切除該基板與該基板黏著膠體接合之部分，以使該基 板與該第一支撐台分離。 以土 10.如申請專利範圍第9項所述之平面顯示器之製造 方法，其中該基板與該第一支撐台接合之方法包括： 將該基板置於該第一支撐台上， 黏著膠體接觸；以及 固化該基板黏著膠體。 以使該基板與該基板The substrate support according to claim 1, wherein the adhesive material comprises a curable adhesive such as a heat curing adhesive, a UV curable adhesive or a visible light solidifying adhesive. A method of manufacturing a flat panel display, comprising: providing a substrate support, the substrate support comprising a first support table having a first recess and a substrate adhesive colloid disposed in the first recess; a substrate is placed on the substrate support such that the substrate is bonded to the first support by the substrate adhesive body; an array of display elements is formed on the substrate; a cover is provided; The substrate is bonded to the cover and the portion of the substrate bonded to the substrate adhesive is removed to separate the substrate from the first support. The method of manufacturing a flat panel display according to claim 9, wherein the method of bonding the substrate to the first support table comprises: placing the substrate on the first support table, and contacting the adhesive; And curing the substrate adhesive. To make the substrate and the substrate 12.如申請專利範圍第1〇 示器之製造 的固化方法包括熱固化、紫外 〇項所述之平面顯示器之製造 方法’其中提供該蓋板之步驟包括： 提供一蓋板支撐物，該蓋板支撐物包括— 具有一第二 24 19163twf.doc/g 2之第—支心以及—g己置於該第二凹 膠體；以及 搞』ΐίΪί，蓋板支樓物上，以使該蓋板藉由該蓋 板黏者膠體與该弟二支樓台接合。 圍第10項所述之平面顯示器之製造 方法，其中提供該盍板之步驟包括： 將該蓋板置於一蓋板支撐物上；以及 於，蓋板支樓物上形成一蓋板黏著膠體，以使該蓋 之邊緣精㈣蓋板轉賴與該蓋板支撐物接合。… 14·一種平面顯示器之製造方法，包括：口 將一基板置於一基板支撐物上； 於該基板支撑物上形成一基板黏著膠體，以使該 之邊緣藉由該基板黏著膠體與該基板支撐物接合；土 於该基板上形成一顯示元件陣列； 提供一蓋板； 藉由一框膠使該基板與該蓋板接合；以及 切除該基板與該基板黏著膠體接合之 板與該基板支獅分離。 π 15. 如申請專利範圍第14項所述之平面顯示哭之 方法，其巾祕_著賴_基㈣接 轨 化、紫外線固化或可見光固化。 无匕括熱固 16. 如申請專利範圍第14項所述之平面顯示 方法，其中提供該蓋板之步驟包括： 衣以 提供-蓋板支樓物，該蓋板支撐物包括_具有一 之支樓台以及-配置於該凹陷内之蓋板黏著龍·以及43 25 1324492 19163twf.doc/g 將該蓋板置於該蓋板支撐物上，以使該蓋板藉由哕罢 板黏著膠體與該支撐台接合。 、17.如申請專利範圍第14項所述之平面顯示器之製 方法，其中提供該蓋板之步驟包括： 。 將該盍板置於一蓋板支樓物上；以及 於，蓋板支撐物上形成一蓋板黏著膠體，以使該蓋板 之邊緣藉由該蓋板黏著膠體與該蓋板支撐物接合。12. The curing method of the manufacture of the first display of the patent application, comprising the method of manufacturing a flat panel display according to the invention, wherein the step of providing the cover comprises: providing a cover support, the cover The plate support comprises - having a second center of 24 19163 twf.doc / g 2 - and a - g has been placed on the second concave body; and engaging in the cover member to make the cover The cover glue colloid is engaged with the two towers. The method of manufacturing the flat panel display of claim 10, wherein the step of providing the fascia comprises: placing the cover on a cover support; and forming a cover adhesive on the cover slab So that the edge (4) cover of the cover is coupled to the cover support. 14) A method for manufacturing a flat panel display, comprising: placing a substrate on a substrate support; forming a substrate adhesive on the substrate support, so that the edge is adhered to the substrate by the substrate; Supporting the substrate; forming an array of display elements on the substrate; providing a cover plate; bonding the substrate to the cover plate by a sealant; and cutting off the substrate and the substrate adhesive bonded to the substrate The lion is separated. π 15. The method of displaying the crying in the plane described in claim 14 of the patent application is based on the symmetry, the ultraviolet curing or the visible light curing. The flat display method of claim 14, wherein the step of providing the cover comprises: providing a cover-covering structure, the cover support comprising_ a support tower and a cover plate disposed in the recess, and a cover plate, 43 25 1324492 19163 twf.doc/g, the cover plate is placed on the cover support so that the cover plate is adhered to the cover by means of a smashing plate The support table is joined. The method of manufacturing a flat panel display according to claim 14, wherein the step of providing the cover comprises: Laminating the fascia on a cover member; and forming a cover adhesive on the cover support such that the edge of the cover engages the cover support by the cover adhesive . 18. —種平面顯示器封裝體，包括： 一基板支撐物，包括： 苐一支樓台，具有一第一凹陷； 、基板黏著膠體，配置於該第一凹陷内；以及 -平面顯示器，配置於該第—支撑台上，其中該平 具有-基板以及—蓋板，且錄板藉由該基板 膠體與該第一支撑台接合。18. A flat display package, comprising: a substrate support comprising: a stack of a first recess; a substrate adhesive, disposed in the first recess; and a flat display disposed on the The first support table, wherein the flat plate has a substrate and a cover plate, and the recording plate is joined to the first support table by the substrate glue. 19.如申請專利範圍第 體’更包括一蓋板支撐物， 撐物包括： W項所述之平面顯示器封裂 與該蓋板接合，其中該蓋板^ 第 凹陷，其中該第二支樓台 —第二支撐台，具有 適於承載該蓋板；以及 一蓋板黏著躍·體，配署 由該蓋板黏著膠體與該第二:陷内’且該蓋板藉 體，專利18項所狀平面顯示器封裝 一 ί板支_，適蓋板；以及 一盖板黏著職，配私妓板支撐物上，以使該蓋 26 1324492 19163twf.doc/g 板之邊緣藉由該蓋板黏著膠體與該蓋板支撐物接合。 21·如申請專利範圍第18項所述之平面顯示器封裝 體，其中該平面顯示器包括液晶顯示器、有機電激發光^ 示器或電漿顯示器。 〜 22. —種平面顯示器封裝體，包括： 一平面顯示器，具有一基板以及一蓋板； 一基板支撐物’適於承載該基板；以及19. The scope of claim 1 further includes a cover support, the support comprising: the flat display closure of the item W is engaged with the cover, wherein the cover is recessed, wherein the second support a second support table having a cover plate adapted to carry the cover plate; and a cover plate adhered to the body, the cover plate being adhered to the cover body and the second cover portion and the cover plate being borrowed, the patent 18 item The flat-panel display is provided with a cover plate, and a cover plate is adhered to the cover plate, so that the edge of the cover 26 1324492 19163twf.doc/g plate is adhered by the cover plate. Engaged with the cover support. The flat-panel display package of claim 18, wherein the flat-panel display comprises a liquid crystal display, an organic electroluminescent device, or a plasma display. ~ 22. A flat display package comprising: a flat panel display having a substrate and a cover; a substrate support ' adapted to carry the substrate; 基板黏著膠體，配置於該基板支撐物上，以使該基 板之邊緣藉由該基板黏著膠體與該基板支撐物接合。 23. 如申請專利範圍第22項所述之平面顯示器封裝 體’更包括-I板支撐物’與該蓋板接合，其中該蓋 撐物包括： 支撐台，具有一凹陷，其中該支撐台適於承載該 板；以及 —-盍板黏著賴’配置於該凹_，且該蓋板藉由言 蓋板黏著膠體與該支撐台接合。 24.如申明專利範圍第22項所述之平面顯示 體，更包括： 一蓋板支撐物，適於承载該蓋板；以及 -蓋板黏著賴’配置於該蓋板支撐物上，以垄 板之邊緣藉由該隸黏著膠體與該蓋板支擇物接合。- 俨專利範圍第22項所述之平面顯示器封韻 示_ = 了器包括液晶顯示器、錢_^ 27The substrate is adhered to the substrate support so that the edge of the substrate is bonded to the substrate support by the substrate adhesive. 23. The flat-panel display package as described in claim 22, further comprising: an I-plate support engaged with the cover, wherein the cover comprises: a support having a recess, wherein the support is adapted And carrying the plate; and the slab is attached to the concave _, and the cover is engaged with the support by the cover adhesive. 24. The flat display body of claim 22, further comprising: a cover support adapted to carry the cover; and - a cover attached to the cover support, ridged The edge of the panel is joined to the cover by the adhesive. - The flat panel display shown in item 22 of the patent scope _ = The device includes a liquid crystal display, money _^ 27