200832025 九、發明說明: 【發明所屬之技術領域】 本發明係有關於利用紫外光(UV)之用於圖案電極的接 合設備。更明確地,本發明係有關於利用uv之用於圖案 私極的接合設備,其在電漿顯示面板(pDp)或是液晶顯示 為(LCD)的玻璃面板上形成的圖案電極以及在可彎曲印刷 電路(FPC)上形成的圖案電極之間進行接合,以透過uv硬 化劑在正常溫度下利用UV進行外部連結。 【先前技術】 取近在顯示監視器或是電視領域,pDp或是lcd的利 用已經明顯增加。在製造PDp或是LCD過程中,需要將 在前玻璃面板以及背玻璃面板上形成的圖案電極端子接合 於帶式自動焊接(TABs),以控制前圖案電極端子及背圖案 電極端子’其中前圖案電極端子的圖案電極(位址電極以及 功率電極)在珂玻璃面板上形成並且背圖案電極端子的圖案 電極(位址電極以及功率電極)在背玻璃面板上形成。具有 驅動積體電路(ic)之FPC的圖案電極(在下文稱$ ic端子 圖案電極)以及用作為導線而沒有驅動IC之咖圖案電極 (在下文稱為端子圖案電極)分別在TAB上形成。 在接合前及背圖案電極到TAB的習知技術方法令,廣 泛地利用了一種異方性導電膜(ACF)的熱壓接合方法,在 其中具有導電球的ACF預接合在複數個前及背圖案電極以 及複數個貼附在TAB上的圖案電極之間。 然後,複數個前及背圖案電極以及貼附在tab上的複 8 200832025 數個圖案電極彼此對準並且以發熱器熱加壓在一起。 在另一個習知技術中已經利用塗佈方法,其中前及背 圖案電極以及TAB圖案電極利用非導電膠(Ncp)或是非二 膜(NCF)塗佈,並以熱加壓在一起。 不過,在冑習知技術具有如下熱麼力接合方法 題· υ因為利用了熱壓接合方法,硬化時間是不穩定的, 並且因此同時在電極之間發生了位置決定的錯誤以及由於 不同材料間之熱膨脹產生了位置決定的錯誤。因此最後產 生了一個内應力,損壞電極接觸而使得圖案電極間的精細 線寬很難達成; ' ( 2)當使用一個裝置將熱壓力施加在acf上時, 本身的價格非常高並且必需使用一種全接合方法,其中即 使在TAB以及相鄰ΤΑβ之間的空間也需要接合。因此這 種ACF的熱[方法疋不具成本效率的。當線寬間距變得更 窄時’ ACF中的導電球存在於相鄰上電極或是相鄰下電極 之間’或是在對角放置的上電極及下電極之間,以及在上 電極以及下電極之間。如此存在的導電球可能引起短路, ,此在最終產品中有失效的可能性’並且在圖案電極之間 貫現的線寬精細度是有限的· 3)-個加熱設備例如—個熱柱或是熱塊等等,是加故 以及加壓製程所分別需要的,因此增加了成本。更進一步了 製造PDP或是LCD的工作時間也因為增加的加熱及冷卻 製程而增加;以及 9 200832025 4)萬要很多接合步驟夕 ,, ,w 及很夕工作站以進行ACF貼附 衣程及加壓製程。關於入 茂剎和从壯班 b適3執行ACF貼附製程以及加 反衣転的爰置或工具的 火“ 仏才口相§向而不具成本效率。另 外,因為使用很多工作址 乍站而使工間效率非常不足。 為了解決上述的閉Bg . O An 碭,在2005年11月3日由本發明 的申請人申請的韓國專利 ‘ 01寻利10_20〇5_〇1〇5025號(在下文稱 G25專财4 )、標題為“利用紫外光的圖案電極 (200832025 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a joining apparatus for pattern electrodes using ultraviolet light (UV). More specifically, the present invention relates to a bonding apparatus for patterning a private pole using uv, which is formed on a plasma display panel (pDp) or a liquid crystal display (LCD) glass panel and is bendable The pattern electrodes formed on the printed circuit (FPC) are joined to each other to be externally bonded by UV through a uv hardener at a normal temperature. [Prior Art] The use of pDp or lcd has increased significantly in the field of display monitors or televisions. In the process of manufacturing the PDp or the LCD, the pattern electrode terminals formed on the front glass panel and the back glass panel are bonded to the strip automatic soldering (TABs) to control the front pattern electrode terminal and the back pattern electrode terminal 'the front pattern The pattern electrodes (address electrodes and power electrodes) of the electrode terminals are formed on the bismuth glass panel and the pattern electrodes (address electrodes and power electrodes) of the back pattern electrode terminals are formed on the back glass panel. A pattern electrode having an FPC for driving the integrated circuit (ic) (hereinafter referred to as an "ic terminal pattern electrode") and a coffee pattern electrode (hereinafter referred to as a terminal pattern electrode) which is used as a wiring without a driving IC are respectively formed on the TAB. The prior art method of bonding the front and back pattern electrodes to the TAB makes extensive use of an anisotropic conductive film (ACF) thermocompression bonding method in which the ACF having the conductive balls is pre-joined in a plurality of front and back The pattern electrode and a plurality of pattern electrodes attached to the TAB are interposed. Then, a plurality of front and back pattern electrodes and a plurality of pattern electrodes attached to the tab are aligned with each other and thermally pressed together by a heater. A coating method has been utilized in another conventional technique in which the front and back pattern electrodes and the TAB pattern electrodes are coated with a non-conductive paste (Ncp) or a non-die film (NCF) and are pressed together by heat. However, the conventional technique has the following thermal bonding method. υBecause the thermocompression bonding method is utilized, the hardening time is unstable, and therefore, positional errors between the electrodes occur at the same time and due to different materials. The thermal expansion creates a position-determining error. Therefore, an internal stress is finally generated, which damages the electrode contact and makes the fine line width between the pattern electrodes difficult to achieve; '(2) When a device is used to apply thermal pressure to the acf, the price itself is very high and a kind of necessity must be used. A full bonding method in which a space is required even between the TAB and the adjacent ΤΑβ. Therefore, the heat of this ACF [method is not cost effective. When the line width spacing becomes narrower, 'the conductive ball in the ACF exists between the adjacent upper electrode or the adjacent lower electrode' or between the upper and lower electrodes placed diagonally, and at the upper electrode and Between the lower electrodes. The conductive balls so present may cause a short circuit, which has the possibility of failure in the final product' and the line width fineness that is realized between the pattern electrodes is limited. 3) A heating device such as a hot column or It is a heat block, etc., which is required for the addition and the pressurization process, thus increasing the cost. Further, the working time for manufacturing PDPs or LCDs is also increased by the increased heating and cooling process; and 9 200832025 4) A lot of bonding steps, , , and eve workstations for ACF attaching clothes and adding Pressing process. Regarding the entry into the Maosha and the implementation of the ACF attachment process from the Zhuangban b, and the addition of anti-clothing devices or tools, the fire is not cost effective. In addition, because of the use of many sites In order to solve the above-mentioned closed Bg. O An 砀, the Korean patent '01 寻利 10_20〇5_〇1〇5025 applied for by the applicant of the present invention on November 3, 2005 (below Called G25 special wealth 4), titled "Using ultraviolet light pattern electrode (
接口木構以及使用匕將圖案電極接合的方法,,,揭露了一 種接合圖案電極的接合 释口方法,其中在PDP或是lCd玻璃 面板上形成之圖案電極盥 /、在FPC上形成之圖案電極之間的 外部連接接合,係利肖 、一 ‘ 用ϋν在正常的溫度下由UV硬化劑 進行025專利申請的揭露併於此作為參考 【發明内容】 本么明係a又计為透過圖案電極接合設備的提供以解決 習知技術的問題,該裝置可以執# ‘似專射請所揭露 之利用uv的圖案電極接合方法。 更明確地,根據本發明的第一觀點,本發明提供一個 利用紫外射線(UV)之用於圖案電極的接合設備,其包括一 個裝置用來提供在複數個圖案電極上形成的複數個帶式自 ,知接接合(TABS)並將其加壓,其中圖案電極在pDp或 =LCD的前玻璃面板或是背玻璃面板上形成而複數個圖案 电極在稷數個TAB的每-個上面形成;用來將提供複數個 TAB並將其加壓的裝置制動的第一制動器;當提供複數個 TAB並將其加壓的裝置加壓複數個ΤΑΒ的每一個時,一個 10 200832025 詩將每-個複數個ΤΑΒ的一部分固定的夾甜I置, 面置Γ提供複數個TAB並將其加壓之以底部表 面的對面,一個用於Jj客也力 用於將夾鉗裝置制動的第二制 ==包括uv照射袭置以及料送裝置,其中:v 傳送衣置包括一個在:i:頂邱从日日 在”頂⑷的開口並且在玻璃面板加壓裝 置上&供;一個用於將玻璃面板制動的第三制動器;一個 ΟThe interface structure and the method of bonding the pattern electrodes using the crucible, and the method of joining and releasing the joint pattern electrodes, wherein the pattern electrode formed on the PDP or the 1Cd glass panel, or the pattern electrode formed on the FPC is disclosed Between the external connection and the bonding, the disclosure of the 025 patent application by the UV hardener at a normal temperature is disclosed herein by reference. [Invention] The present invention is also considered to be through the pattern electrode. The provision of the bonding apparatus solves the problems of the prior art, and the apparatus can perform the pattern electrode bonding method using uv as disclosed. More specifically, in accordance with a first aspect of the present invention, there is provided a bonding apparatus for a pattern electrode using ultraviolet rays (UV), comprising a device for providing a plurality of strips formed on a plurality of pattern electrodes Self-aligning and bonding (TABS), wherein the pattern electrode is formed on the front glass panel or the back glass panel of the pDp or =LCD and a plurality of pattern electrodes are formed on each of the plurality of TABs. a first brake for braking a device that provides a plurality of TABs and pressurizing them; when each device that supplies a plurality of TABs and pressurizes them is pressed against each of a plurality of cymbals, a 10 200832025 poem will be - A part of the plurality of fixed jaws is placed in a fixed position, the surface is provided with a plurality of TABs and pressed against the opposite side of the bottom surface, and a second system for the JJ is also used to brake the clamping device. ==Including uv irradiation and material feeding device, wherein: v conveying clothing includes one in: i: top qi from the opening of the top (4) on the day and on the glass panel pressurizing device; one for Brake the glass panel Brakes; a Ο
位置決定裝置用來識別在前玻璃面板或是f玻璃面板上形 成的圖案電極以及在複數個TAB的每―個 極之間的對準狀態;以及-個整合式控制器用來控=1 後數個TAB亚將其加壓之袭置、第—制動器、夾钳裝置、 第二制動器、UV提供裝置、第三制動器以及位置^定裝 置的操作以及功能’其巾提供複數個TAB並將其加壓的裝 置包括至少一個支柱,並且其中在複數個tab的每一個以 及在前玻璃面板或是背玻璃面板上形成的圖案電極之間的 一個接合係在複數個TAB加壓的狀態下製造。 根據本發明的第二觀點,本發明提供一個利用紫外線 (UV)之用於圖案電極的接合設備,其包括一個uv硬化劑 塗佈裝置以將UV硬化劑塗佈在複數個帶式自動焊接接合 (TABs)的每一個上面,其中複數個圖案電極在複數個的 tab每一個上面形成;一個用來提供複數個tab&將其加 壓在複數個圖案電極上的裝置,圖案電極在用於pDp或是 LCD的前玻璃面板或是背玻璃面板上形成;一個tab的進 料裝置用來將複數個TAB進料在塗佈uv硬化劑的每一個 上面,以提供複數個TAB並將其加壓;一個用來將裝置制 11 200832025 動的第-制動器以提供複數個TAB並將其加M ;當提供複 數個TAB並將其加壓的裝置加麼複數個遍的每_個時, -個用於將複數個TAB的每一個的一部分固定的夹鉗裝 置,其中夾钳裝置放置於提供複數個TAB並將其加壓之裝 置底部表面的對面; 一個用於將夾钳裝置制動的第二制動器;一個uv提 供裝置包括UV照射裝置以及…傳送裳置,其中uv傳送 Γ裝置包括一個在其頂部的開口並且在玻璃面板加壓裝置上 提供;-個用於將玻璃面板制動的第三制動器;_個位置 決定裝置用來識別在前玻璃面板或背玻璃面板上形成的圖 案電極及在複數個TAB的每一個上形成的圖案電極之間的 對準狀態H個整合式控制器用來控制提供複數個 TAB並將其加壓之裝置、第―制動器、心裝置、第二制 動器、紫外線提供裝置、第三制動器以及位置決定裝置的 操作及功能,其中用於提供複數個TAB並將其加壓的裝置 〔包括至少一個支柱並且其中一個在複數個TAB的每一個以 及在前玻璃面板或是背玻璃面板上形成的圖案電極之間的 接合係在複數個TAB加壓的狀態下製造。 本發明的更進一步特徵以及優點在參考伴隨附圖時可 以明顯地理解,其中相同或是相似的數字指出相同的構 件0 【實施方式】 在下文,根據本發明的較佳實施例的架構以及功能參 考附圖更詳細地描述。 12 200832025 圖1說明根據本發明利用紫外光之用於圖案電極的接 合設備透視圖以及圖2說明在圖!内顯示的一個利用紫外 光用於圖案黾極接合設備的截面圖解,其係從其右側觀 看。 參考圖1以及2’根據本發明之用於圖案電極的接合 裝置100放在基底105上面。首先,在基底1〇5上面,本 發明之用於圖案電極的接合裝置1〇〇,支撐用來製造pDp或 是LCD的一個前玻璃面板15〇以及一個背玻璃面板。 更進一步,在基底105上顯示了一個用於支撐並且移動前 玻璃面板150及背玻璃面板155的裝置1〇〇,。用於支擇 並且移動前玻璃面板150及背玻璃面板155的裝置1〇〇,可 以相對於接合裝置100,運動。在此,相對運動包括一個朝 X軸以及γ軸方向的線性運動以及一個繞z軸的旋轉運 動,Z軸與X軸以及Y軸垂直。 在下文,用於支撐以及移動前玻璃面板150及背玻璃 面板155的裝置100’之各別構件以及他們的合作關係將更 存細描述。 在基底105上,安裝了用來在又方向移動又軸平台ιι〇 的X軸線運動導執115以及X軸輔助線運動導執。朝 X軸方向之X軸線性運動導軌115的運動由χ軸線性伺服 電動機控制器117控制。 同時,在X軸平台110上安裝了用來在¥軸方向移動 Υ軸平台㈣Υ軸線性運動導軌125以及γ軸辅助線運 13 200832025 Y轴線性運動導執125朝Y軸方向的運動由Y軸線性 飼服電動機控制器127控制。更進一步,在Υ軸平台122 上安裝了用來旋轉玻璃面板135的一個旋轉制動器140。 方疋轉制動器140可以由從直接驅動伺服電動機、典型伺服 私動械、利用空氣的旋轉制動器以及氣密汽缸等等選出的 任何一個實現。玻璃面板平台135安裝在旋轉制動器140 上。在玻璃面板平台135上提供一特定數量的吸盤座137 ζ 、支撐幻破璃面板1 5 0以及背玻璃面板1 5 5。由於旋轉制 動140的旋轉_方向角度由旋轉制動控制器1 47控制,不 一可以控制在玻璃面板平台135的前玻璃面板15〇及背玻 肖面板1 5 5朝X軸以及γ軸方向的線性運動之外也能控制 其碇轉運動。Χ軸線性伺服電動機11 7、Υ軸線性伺服電 動機127及旋轉制動器147每一個的操作及功能由整合式 控制器200控制。 同時,在部分基底1〇5的一側提供了接合裝置1〇〇,以 (將複數個TAB 1 60接合於圖案電極(不顯示),圖案電極在 1玻离面;1 5 G及背玻璃面板! 5 5上形成。根據本發明的 接合1置100,包括一個提供複數個TAB並將其加壓的裂置 17〇、—個用來將裝置170制動以提供複數個TAB並將其 加壓的第一制動器175、一個夾鉗裴置18〇以在進行接合 製程時將複數個在前玻璃面板15〇或是背玻璃面板上 提供的TAB固定以及一個第二制動器185以將夾鉗裝置 18〇制動以固定複㈣TAB。在下文 : 合裝置1〇〇,的構件。 ㈣ 14 200832025 首先,複數個τΑΒ160以uv硬化劑(不顯示)塗佈裝置 進行塗佈,並且然後使用一個TAB進料裝置(不顯示)將其 進料到裝置m以提供複數個TAB並將其加愿。在以圖ι 顯不的-個實施例裡,用來提供複數個TAB並將其加麼的 裝置170包括可旋轉以及十字形四腳支柱171、172、173、The position determining device is configured to identify the pattern electrode formed on the front glass panel or the f glass panel and the alignment state between each pole of the plurality of TABs; and - an integrated controller is used to control the number 1 TAB Asia will provide its multiple pressurizations, and the operation of the pressurization, the first brake, the clamp device, the second brake, the UV supply device, the third brake, and the position determining device. The pressing device includes at least one post, and wherein a joint between each of the plurality of tabs and the pattern electrode formed on the front glass panel or the back glass panel is manufactured in a state in which a plurality of TABs are pressurized. According to a second aspect of the present invention, there is provided a bonding apparatus for a pattern electrode using ultraviolet rays (UV), which comprises a uv hardener coating device for coating a UV hardener on a plurality of ribbon automatic solder joints Each of the (TABs), wherein a plurality of pattern electrodes are formed on each of the plurality of tabs; a means for providing a plurality of tabs; and pressing them on the plurality of pattern electrodes, the pattern electrodes being used for pDp Or a front glass panel or a back glass panel of the LCD; a tab feeding device for feeding a plurality of TABs onto each of the coated uv hardeners to provide a plurality of TABs and pressurizing them a first-brake used to move the device to provide a plurality of TABs and add M; when a device that supplies a plurality of TABs and pressurizes them for each of a plurality of times, - a clamping device for securing a portion of each of the plurality of TABs, wherein the clamping device is placed opposite the bottom surface of the device that provides a plurality of TABs and pressurizes; a second for braking the clamping device a uv providing device comprising a UV illuminating device and a transmitting skirt, wherein the uv transporting device comprises an opening at the top thereof and is provided on the glass panel pressing device; a third for braking the glass panel a brake; a position determining device for identifying an alignment state between the pattern electrode formed on the front glass panel or the back glass panel and the pattern electrode formed on each of the plurality of TABs. H integrated controller for controlling The operation and function of a device for providing a plurality of TABs and pressurizing them, a brake, a heart device, a second brake, an ultraviolet ray providing device, a third brake, and a position determining device, wherein a plurality of TABs are provided and added The press device (including at least one post and one of the joints between each of the plurality of TABs and the pattern electrodes formed on the front glass panel or the back glass panel is fabricated in a state in which a plurality of TABs are pressurized. Further features and advantages of the present invention will become apparent when referring to the accompanying drawings in which <RTIgt; This is described in more detail with reference to the drawings. 12 200832025 Figure 1 illustrates a perspective view of a bonding apparatus for patterned electrodes utilizing ultraviolet light in accordance with the present invention and illustrated in Figure 2! A cross-sectional illustration of the use of ultraviolet light for a patterned drain bonding device is shown inside, viewed from the right side thereof. The bonding apparatus 100 for pattern electrodes according to the present invention is placed on the substrate 105 with reference to Figs. 1 and 2'. First, on the substrate 1〇5, the bonding apparatus 1 for pattern electrodes of the present invention supports a front glass panel 15A for manufacturing a pDp or an LCD and a back glass panel. Further, a device 1 for supporting and moving the front glass panel 150 and the back glass panel 155 is shown on the substrate 105. The device 1 for cutting and moving the front glass panel 150 and the back glass panel 155 is movable relative to the joining device 100. Here, the relative motion includes a linear motion toward the X-axis and the γ-axis and a rotational motion about the z-axis, which is perpendicular to the X-axis and the Y-axis. In the following, the individual components of the device 100' for supporting and moving the front glass panel 150 and the back glass panel 155 and their cooperation will be described in more detail. On the base 105, an X-axis motion guide 115 for moving the shaft platform in the other direction and an X-axis auxiliary line motion guide are mounted. The movement of the X-axis linear motion guide 115 toward the X-axis direction is controlled by the X-axis linear servo motor controller 117. At the same time, the X-axis platform 110 is mounted for moving the y-axis platform in the direction of the ¥ axis. (4) The axis-shaped motion guide 125 and the γ-axis auxiliary line 13 200832025 The movement of the Y-axis motion guide 125 in the Y-axis direction is determined by the Y-axis. The feeding machine motor controller 127 controls. Further, a rotary brake 140 for rotating the glass panel 135 is mounted on the yoke platform 122. The square turn brake 140 can be realized by any one selected from a direct drive servo motor, a typical servo private machine, a rotary brake using air, and a hermetic cylinder or the like. The glass panel platform 135 is mounted on the rotary brake 140. A specific number of suction cup holders 137 、 , a phantom glass panel 150 and a back glass panel 15 5 are provided on the glass panel platform 135. Since the rotation_direction angle of the rotary brake 140 is controlled by the rotary brake controller 1 47, it is possible to control the linearity of the front glass panel 15 and the back glass panel 155 of the glass panel platform 135 toward the X-axis and the γ-axis direction. It can also control its twirling movement in addition to exercise. The operation and function of each of the X-axis linear servo motor 117, the X-axis linear servo motor 127, and the rotary brake 147 are controlled by the integrated controller 200. At the same time, a bonding device 1 is provided on one side of the partial substrate 1〇5 to (join the plurality of TABs 1 60 to the pattern electrode (not shown), the pattern electrode is on the 1 glass plane; 1 5 G and the back glass A panel 5 is formed. The joint 1 according to the present invention 100 includes a split 17 that provides a plurality of TABs and pressurizes them, and is used to brake the device 170 to provide a plurality of TABs and add them. Pressing the first brake 175, a clamp device 18〇 to fix a plurality of TABs provided on the front glass panel 15 or the back glass panel and a second brake 185 to perform the clamping device during the bonding process 18〇 brake to fix the complex (IV) TAB. In the following: Components of the device. (4) 14 200832025 First, a plurality of τΑΒ160 are coated with a uv hardener (not shown) coating device, and then a TAB feed is used. The device (not shown) feeds it to the device m to provide a plurality of TABs and adds them. In an embodiment, which is shown in FIG. 1, a device 170 for providing a plurality of TABs and adding them Includes rotatable and cross-shaped four-legged struts 171, 17 2, 173,
174°用來提供複數個TAB並將其加壓的裝置m為何要 包括複數個支柱的原因是要以很快的速度以複數個TAB進 r j設備將複數個ΤΑΒ⑽進料提供到前玻璃面板15〇或是 月玻离面板1 5 5上。但是,熟習該項技術者可以完全理解 在本發明中用來提供複數個TAB並將其加壓的裝置17〇包 括四腳支柱是-個簡單的範例,因此用來提供複數個TAB 並將其加壓的裝置17〇可以包括至少一個支柱,取決於需 要與否。 旦提供複數個TAB並將其加壓的裝置} 7〇提供了複 數個TAB160到前玻璃面才反15〇或是背玻璃面才反155時, 〔一個位置決定裝置用來識別在複數個TAB160之每一個上 面形成的圖案電極是否與在前玻璃面板15〇或是背玻璃面 板1 55上形成的圖案電極彼此對準。 在本發明的一個實施例中,位置決定裝置特別包括一 對對準照像機176、177以及影像處理器178。在複數個 0之母個上面形成的圖案電極以及在前玻璃面板 150或疋月玻璃面板155上形成的圖案電極之間的對準可 以透過對準照像機176、177將影像數據送到影像處理器【Μ 後到正5式控制器200,並且然後透過整合式控制器2〇〇 15 200832025 將接收的衫像數據作信號處理。如果需要調整對準狀態, 由整合式控制器200調整對準狀態。一旦透過位置決=裝 置識別了對準狀態,那麼在加壓複數個丁AB 160的每一個 的狀況下,一個uv提供裝置19〇從複數個tabi6〇的相 反方向提供uv,其中ΤΑΒ160在前玻璃面板15〇或是背玻 璃面板1 5 5上。 UV提供裝置190包括一個υν照射裝置191、一個υν (傳送裝置192以及一個將UV照射裝置191連結到υν傳 运装置192的UV導引玻璃纖維193。雖然圖1及2顯示UV 提供裝置190使用一個UV導引玻璃纖維193,熟習該項 技術者可以完全理解本發明可以利用一種uv導引設備 190,其中UV照射裝置ι91直接連接在uv傳送裝置192。 UV傳送裝置192裡有一個空腔,並且在其上部形成一個 裂縫型開口 194。在本發明的一個實施例中,開口 194具 有一個大約0.5到20毫米的寬度以及大約5到200毫米的 f 長度是較佳的。更佳的是開口 194具有一個大約1到2〇毫 米的見度以及大約1 〇到200毫米的長度。從UV照射裝置 191照射的UV透過UV導引玻璃纖維193(例如光纖)通過 UV傳送裝置192,然後透過開口 1 94照射到UV硬化劑上, 硬化劑塗佈在複數個TAB 160的每一個上面。這樣,在每 一個複數個TAB 160與圖案電極之間形成一個接合,而圖 案電極在前玻璃面板150或是背玻璃面板155上形成。The reason why the device 174 used to provide a plurality of TABs and pressurize them is to include a plurality of struts is to supply a plurality of ΤΑΒ (10) feeds to the front glass panel 15 at a rapid rate with a plurality of TABs into the rj device. 〇 or the moon glass is off the panel 1 5 5 . However, those skilled in the art can fully understand that the apparatus 17 for arranging and pressurizing a plurality of TABs in the present invention includes a four-legged struts as a simple example, and thus is used to provide a plurality of TABs and The pressurized device 17A can include at least one post, depending on the need or not. A device that provides a plurality of TABs and pressurizes them. 7〇 provides a plurality of TAB160s to the front glass surface to reverse 15〇 or the back glass surface to reverse 155, [a position determining device is used to identify in a plurality of TAB160 Whether the pattern electrodes formed on each of them are aligned with the pattern electrodes formed on the front glass panel 15 or the back glass panel 1 55. In one embodiment of the invention, the position determining device includes a pair of alignment cameras 176, 177 and image processor 178. The alignment between the pattern electrodes formed on the plurality of 0 mothers and the pattern electrodes formed on the front glass panel 150 or the moon glass panel 155 can be used to transmit image data to the image through the alignment cameras 176, 177. The processor [Μ] goes to the positive 5 controller 200 and then signals the received shirt image data through the integrated controller 2〇〇15 200832025. If it is necessary to adjust the alignment state, the alignment state is adjusted by the integrated controller 200. Once the alignment state is recognized by the position determination device, a uv providing device 19 provides uv from the opposite direction of the plurality of tabi6〇 in the condition of pressurizing each of the plurality of Dbs AB 160, wherein the ΤΑΒ160 is in the front glass The panel is 15 〇 or on the back glass panel 155. The UV providing device 190 includes a υν illuminating device 191, a υν (transfer device 192, and a UV guiding glass fiber 193 that connects the UV illuminating device 191 to the υν transport device 192. Although Figures 1 and 2 show the use of the UV providing device 190 A UV-guided glass fiber 193, as is well understood by those skilled in the art, can utilize a uv guiding device 190 in which the UV illumination device ι 91 is directly coupled to the uv delivery device 192. The UV delivery device 192 has a cavity therein. And a slit-shaped opening 194 is formed in the upper portion thereof. In one embodiment of the invention, the opening 194 has a width of about 0.5 to 20 mm and an f-length of about 5 to 200 mm. More preferably, the opening is preferred. 194 has a visibility of about 1 to 2 mm and a length of about 1 to 200 mm. UV-irradiated UV-guided glass fibers 193 (e.g., optical fibers) from UV illumination device 191 pass through UV transfer device 192 and then through the opening. 1 94 is irradiated onto the UV hardener, and a hardener is coated on each of the plurality of TABs 160. Thus, a formation is formed between each of the plurality of TABs 160 and the pattern electrodes. One joint is formed while the pattern electrode is formed on the front glass panel 150 or the back glass panel 155.
UV照射191設備由整合式控制器200透過UV照射裝 置控制器198控制。UV照射裝置控制器198是一個控制UV 16 200832025 能置強度的裝置,而uv從uv照射裝置191照射出來。 雖然本發明的一個實施顯示uv照射裝置控制器198與uv 照射191裝置是分離的(分離型),熟習該項技術者可以完 全理解在本發明的另一選擇實施例中,uv照射裝置控制 器198可以與uv照射裝置191整合(整合型),或是整合 式控制器200可以直接控制uv照射裝置191的操作及功 能,而不利用uv照射裝置控制器198。更進一步,^^照 射裝置191可以從普遍使用之反射型UV照射裝置、光纖 型UV知、射裝置以及混合型裝置的任何一個中選出,混合 型UV照射裝置係包括反射型uv照射裝置或是光纖類型 UV照射裝置接合特定光學系統的uv照射裝置。從本發明 的UV照射裝置191照射出的uv能量強度從1〇〇到1〇,〇〇〇 宅瓦特/cm2。更佳地,從本發明的uv照射裝置191照射 出的UV能量強度從5,000到10,000毫瓦特/cm2。但是, 熟習該項技術者可以完全理解上面描述的uv能量強度範 圍僅僅是範例的並且本發明的範圍不打算限定於此,因為 UV能量強度的多或少可取決於需要而使用。 現在參考回到圖i,在UV傳送裝置192的上面可以 額外使用一個由特定材料做成的窗口丨95,以施加特定的 均勻壓力到接觸面,接觸面在窗口 195以及前玻璃面板15〇 或是背玻璃面板1 55之間,在將接觸面支撐於其間時防止 丽玻璃面板150或是背玻璃面板ι55的破裂。用於窗口 I% 的材料可以從任何可以傳送UV的材料(例如玻璃、石英、 水晶、塑膠以及聚碳酸酯(pc)等等)中選出。這樣,前玻璃 17 200832025 η 面板150或是背玻璃面板155直接與窗口 195接觸,而不 是與具有開口 194❸UV傳送裝置192的上表面接觸。但 是,當前玻璃面板150或是背玻璃面板155具有足夠的厚 度而其沒有破裂的可能時可以不使用窗口 ! 95。另外,在 玻璃面板加壓裝置1 96上提供Uv傳送裝置! %。一個向 上以及向下運動的玻璃面板加壓裝置196由第三制動器 控制。也就是,在玻璃面板加壓裝置196緊緊將窗口 厂、或疋UV傳送I置192的上表面加壓到前玻璃面板15〇或 是背玻璃面板155上的時候完成接合,其中傳送裝置192 具有開口 194(如果沒有窗口 I%的情況下 甚且,整合式控制器200控制第一、第二以及第三制 動器175、185、197、位置決定裝置以及吸盤座137等等 的操作以及功能,取決於傳感器所接收的各別構件(不顯示) 資訊數據。例如,各種類型的控制器如微處理器、可編輯 邏輯控制器(PLC)以及個人電腦(PC)等等可以作為本發明的 整合式控制器200。 f ^ " 在本發明的一個可選擇實施例中,可以在複數個 TAB160的每一個及提供複數個TAB並將其加壓的裝置I” ^間利用一個軟墊材i 72,以在提供複數個TAB並將其加 壓的裝i 170加壓複數個TAB16〇的每一個的時候施加均 勻的壓力。作為軟墊材丨72的一個具體的例子可以使用具 有大約0.3毫米厚度的矽橡皮。更進一步,雖然本發明描 述了 UV硬化劑在複數個TAB丨60的每一個上塗佈,對熟 習該項技術者來說在前玻璃面板15〇或是背玻璃面板155 18 200832025 上塗佈UV硬化劑是顯然的,其中複數個TAB 1 60應該在 其上貼附。 參考回到圖2,在本發明中,在複數個TAB 160的每 一個由複數個TAB提供並將其加壓的裝置1 70加壓的狀態 下,與複數個TAB 160的每一個接觸的前玻璃面板150或 是背玻璃面板155由玻璃面板加壓裝置加壓完成接合。更 進一步,最好是在以下的一種狀態下完成接合,其中不與 前玻璃面板150或是背玻璃面板155接觸的複數個TAB1 60 的母一個側邊由提供複數個TAB並將其加壓1 60的裝置以 及用來固定複數個TAB的夾鉗裝置180固定。也就是,當 提供複數個TAB並將其加壓的裝置丨7〇向下移動以將複數 個TAB 160的每一個提供到前玻璃面板15〇或是背玻璃面 板155上時,用來固定複數個tab的夾鉗裝置18〇同時向 上移動並且將複數個TAB丨6〇的每一個固定到前玻璃面板 150或是背玻璃面板155。雖然圖2顯示本發明的一個實施 ( 例其中複數個TAB 160中不與前玻璃面板150或是背玻 璃面板1 55接觸的每一個側邊係由提供並且加壓複數個 TAB的裝置170以及固定複數個TAB 160的夾鉗裝置18〇 ^固疋,熟習該項技術者可完全理解不與前玻璃面板150 ,疋月玻璃面板1H接觸之複數個TAB16〇的每一個側邊 可以由具有兩個夾子的夹鉗裝置18〇或是吸附型 180以空氣爽因中二 不口疋,而不是使用提供複數個TAB並將其加 壓的裝置170來固定。 ’、 本發明的特點是圖案電極利用紫外線在正常溫度接合 19 200832025 在一起,因此不必分別利用加熱設傷,與利用熱m力接合 方法的習知技術不同。因此,本發明具有成本效率並且減 少了完成整個製程的製造時間。t明確地,在習知技術中 使用熱接“製程需要大約5到2〇秒的加熱(大約2〇〇。〇 I且靶加C力’而在本發明中使用每單位面積則。毫瓦特 W之UV能量的uv ’接合製程只需要花費大約〇·3秒。 因此’本發明可以顯著降低接合時間’另外因為不必使用The UV illumination 191 device is controlled by the integrated controller 200 through the UV illumination device controller 198. The UV irradiation device controller 198 is a device that controls the intensity of the UV 16 200832025, and the uv is illuminated from the UV irradiation device 191. Although one implementation of the present invention shows that the uv illumination device controller 198 is separate from the uv illumination 191 device (separate type), those skilled in the art will fully appreciate that in another alternative embodiment of the present invention, the uv illumination device controller The 198 may be integrated with the uv irradiation device 191 (integrated type), or the integrated controller 200 may directly control the operation and function of the uv irradiation device 191 without using the uv irradiation device controller 198. Further, the illumination device 191 can be selected from any one of a commonly used reflective UV irradiation device, a fiber-optic UV sensor, a radiation device, and a hybrid device, and the hybrid UV irradiation device includes a reflective UV irradiation device or A fiber type UV illumination device engages a uv illumination device of a particular optical system. The uv energy intensity irradiated from the UV irradiation device 191 of the present invention is from 1 Torr to 1 Torr, and is wattage/cm2. More preferably, the UV energy intensity emitted from the uv irradiation device 191 of the present invention is from 5,000 to 10,000 milliwatts/cm2. However, those skilled in the art will fully appreciate that the uv energy intensity ranges described above are merely exemplary and that the scope of the present invention is not intended to be limited thereto, as the UV energy intensity may be used more or less depending on the needs. Referring now back to Figure i, a window 丨 95 of a particular material may be additionally applied over the UV transfer device 192 to apply a specific uniform pressure to the contact surface at the window 195 and the front glass panel 15 or It is between the back glass panels 1 55 that prevents the glazing panel 150 or the back glass panel ι55 from being broken when the contact surface is supported therebetween. The material used for window I% can be selected from any material that can deliver UV (such as glass, quartz, crystal, plastic, and polycarbonate (PC), etc.). Thus, the front glass 17 200832025 η panel 150 or the back glass panel 155 is in direct contact with the window 195 rather than the upper surface having the opening 194 ❸ UV transport 192. However, the current glass panel 150 or the back glass panel 155 may have a sufficient thickness and may not be used when it is not broken! 95. In addition, a Uv transfer device is provided on the glass panel pressurizing device 96. %. A glass panel pressurizing device 196 that moves up and down is controlled by a third brake. That is, the bonding is completed when the glass panel pressing device 196 presses the upper surface of the window factory or the 疋UV transport I 192 to the front glass panel 15 〇 or the back glass panel 155, wherein the transfer device 192 is completed. Having an opening 194 (even if there is no window I%, the integrated controller 200 controls the operations and functions of the first, second, and third brakes 175, 185, 197, the position determining device, the chuck holder 137, and the like, Depending on the individual components (not shown) received by the sensor, for example, various types of controllers such as microprocessors, editable logic controllers (PLCs), and personal computers (PCs) can be used as integration of the present invention. Controller 200. f ^ " In an alternative embodiment of the invention, a soft pad may be utilized between each of the plurality of TABs 160 and the device I" that provides a plurality of TABs and pressurizes them. 72, applying a uniform pressure when each of the plurality of TABs 16 that pressurizes the plurality of TABs and pressurizes them is applied. As a specific example of the cushioning material 72, a specific example can be used. There is a enamel rubber having a thickness of about 0.3 mm. Further, although the present invention describes that a UV hardener is applied to each of a plurality of TAB 丨 60, for those skilled in the art, the front glass panel is 15 〇 or back. It is apparent that the glass panel 155 18 200832025 is coated with a UV hardener in which a plurality of TABs 1 60 should be attached. Referring back to Figure 2, in the present invention, each of the plurality of TABs 160 is composed of a plurality of In a state in which the TAB is supplied and pressurized, the front glass panel 150 or the back glass panel 155 which is in contact with each of the plurality of TABs 160 is press-fitted by the glass panel pressurizing device to complete the joining. Further Preferably, the joining is completed in a state in which a parent side of a plurality of TABs 60 that are not in contact with the front glass panel 150 or the back glass panel 155 is provided with a plurality of TABs and pressurizes them by 1600. The device and the clamp device 180 for securing the plurality of TABs are fixed. That is, when a plurality of TABs are provided and pressurized, the device 丨7〇 is moved downward to provide each of the plurality of TABs 160 to the front glass panel. 15〇 or On the back glass panel 155, the clamp device 18 for fixing a plurality of tabs simultaneously moves upward and fixes each of the plurality of TABs 6〇 to the front glass panel 150 or the back glass panel 155. Although FIG. 2 shows One embodiment of the present invention (wherein each of the plurality of TABs 160 that is not in contact with the front glass panel 150 or the back glass panel 1 55 is comprised of a device 170 that provides and presses a plurality of TABs and a plurality of TABs 160 The clamp device is 18 疋 疋 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Instead of using a device 170 that provides a plurality of TABs and pressurizes them, the device 18 or the adsorption type 180 is air-tight. The present invention is characterized in that the pattern electrodes are joined together by ultraviolet rays at a normal temperature, and thus it is not necessary to separately use the heat insulting, unlike the conventional technique using the thermal m-force bonding method. Therefore, the present invention is cost effective and reduces the manufacturing time to complete the entire process. Specifically, the use of thermal bonding in the prior art process requires approximately 5 to 2 seconds of heating (approximately 2 Torr. 且I and target plus C force) and is used per unit area in the present invention. Milliwatts The uv' bonding process of W's UV energy takes only about 〇3 seconds. Therefore, 'the invention can significantly reduce the bonding time' and because it is not necessary to use
Ο 加熱設備而提升了空間效率。 具優點的效果 根據本發明利用紫外線之用於圖案電極的接合設備, 取得下列優點是可能的: 1·在正常溫度加壓並完成穩定的硬化,因此防止了電 極之間的位置決定錯誤以及因不同材料間不同熱膨脹產生 的位置決定錯誤,因此容易實現精細的線寬。 2·由於利用低價的UV硬化劑並且在TAB並且由於 在個TAB與相鄰TAB之間的空間不必利用uv硬化劑 而卩牛低了總成本,該空間係不需接合的。 3·透過不使用加熱設備而降低成本,而且pDp或是 LCD的製造也因為不需要加熱及冷卻而使得工作時間顯著 減少。 因為在結構方面及在此描述之方法中可以進行各種修 改而不脫離本發明的範圍,所有在上面描述或是在伴隨附 圖顯示的事情應該理解為說明性而不是限制性的。因此, 本發明的廣度以及範圍不應該限制在上述範例實施中的任 20 200832025 何一項,而應該只根據下列附加申請專利範圍及它們的等 同決定。 【圖式簡單說明】 圖1說明根據本發明利用紫外光之用於圖案電極的接 合設備透視圖。 圖2說明在圖1内顯示之利用紫外光的圖案電極接合 設備截面圖解,從其右侧觀看。 【主要元件符號說明】 Γ 1〇〇’ :接合裝置 I 0 5 ·基底 II 0 · X轴平台 11 5 · X轴線運動導軌 11 7 : X軸線性伺服電動機控制器 12〇 : X軸輔助線運動導軌 122 : Y軸平台 125 : Y軸線性運動導軌 I 127 : Y軸線性伺服電動機控制器加热 Heating equipment for increased space efficiency. Advantageous Effects According to the bonding apparatus for pattern electrodes using ultraviolet rays according to the present invention, it is possible to obtain the following advantages: 1. Pressurize at a normal temperature and complete stable hardening, thereby preventing positional determination errors between electrodes and The position resulting from the different thermal expansion between different materials determines the error, so it is easy to achieve a fine line width. 2. The space is not required to be joined due to the use of a low-cost UV hardener and in the TAB and because the space between the TAB and the adjacent TAB does not have to utilize the uv hardener and the calf has a low total cost. 3. Cost reduction by not using heating equipment, and the manufacture of pDp or LCD also significantly reduces the working time because heating and cooling are not required. It is to be understood that the invention may be construed as illustrative and not restrictive. Therefore, the breadth and scope of the present invention should not be limited to any of the above-mentioned exemplary embodiments of any of the above-mentioned examples of the present invention, but only the scope of the appended claims and their equivalents. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a joining apparatus for pattern electrodes using ultraviolet light according to the present invention. Fig. 2 is a cross-sectional view showing the pattern electrode bonding apparatus using ultraviolet light shown in Fig. 1, as viewed from the right side thereof. [Description of main component symbols] Γ 1〇〇' : Engagement device I 0 5 · Base II 0 · X-axis platform 11 5 · X-axis motion guide 11 7 : X-axis servo motor controller 12 〇: X-axis guide Motion guide 122: Y-axis platform 125: Y-axis motion guide I 127 : Y-axis servo motor controller
1 3 0 : Υ軸輔助線運動導軌 13 5 :玻璃面板 140 :旋轉制動器 147 :旋轉制動控制器 150·前玻璃面板 155 :背玻璃面板 160 : TAB 21 200832025 170 :裝置 172 :軟墊材 171、172、173、174 :十字形四腳支柱 175 :第一制動器 176、177 :對準照像機 178 ··影像處理器 180 :夾鉗裝置 185 :第二制動器 190 : UV提供裝置 1 9 1 UV照射裝置 192 : UV傳送裝置 193 : UV導引玻璃纖維 194 :裂縫型開口 195 ··窗口 196 :玻璃面板加壓裝置 197 :第三制動器 198 : UV照射裝置控制器 200 :整合式控制器 221 3 0 : Υ axis auxiliary line motion guide 13 5 : glass panel 140 : rotary brake 147 : rotary brake controller 150 · front glass panel 155 : back glass panel 160 : TAB 21 200832025 170 : device 172 : cushion 171 , 172, 173, 174: cruciform four-legged post 175: first brake 176, 177: alignment camera 178 · image processor 180: clamping device 185: second brake 190: UV providing device 1 9 1 UV Irradiation device 192 : UV transfer device 193 : UV guide glass fiber 194 : Crack type opening 195 · Window 196 : Glass panel pressurizing device 197 : Third brake 198 : UV irradiation device controller 200 : Integrated controller 22