200804892 九、發明說明: 【相關申請案之交互參照】 本申請案主張2007年4月2曰申請之韓國專 利申請案2GG7-GG32533號之優先權,其整體於此 作為參考。 【發明所屬之技術領域】 本發明係有關於一種移除於液晶面板邊緣之 廢玻璃而不損壞液晶面板之系統及其方法,尤其係 有關於一種藉由施加壓力至液晶面板而可以輕易 移除廢玻璃之系統及其方法,其中液晶面板具有形 成有薄膜電晶體(TFTs)之第一玻璃以及形成有濾 色片之第二玻璃相互結合。 。 【先前技術】 將=般而言,當例如用於液晶顯示器(LCD)、電 水顯不面板(PDP)或其他平面顯示器(FPD)之面板 或破璃等脆性材料需要裁切時,則利用刻劃作業於 ,,材料表面延著待裁切線形成微裂痕線 ,而因該 等4痕線產生切口效應藉此切割脆性材料。 -種制微裂痕線之切口效應來切割跪性材 枓的習知方法,係藉由最小尺寸的夾具來夾住脆性 6 200804892 材料之端部,之後拉扯夾具以施加拉力至脆性材 料,藉此沿著微裂痕線(為材料脆弱部位)切割脆性 材料。 舉例而言,配置有TFT之下板與配置有濾色 片之上板相互結合,並具有液晶夾於其間,以藉此 製造液晶面板。下板與上板互相結合後,藉由切判 • 可穿透刻劃(cps)設備,實施刻劃程序與切割巷i 於液晶面板。也就是說,例如,如第丨圖所示,第 一裂痕17與第二裂痕18係藉由刻劃程序形成於廢 玻璃16與液晶面板15之間,其中液晶面板15具 有設置有TFT之第一玻璃及設置有濾色片之第二 玻,相互結合。藉由施壓單元2〇,廢玻璃16與具 有第一裂痕17與第二裂痕18之液晶面板15分 離,如弟2圖所示。 K切副之液晶面板隨即被銜接經手 (trans-hand)機械臂之吸附板舉起而分離,並且轉移 至下一程序。 此類程序將詳述如下。 第3圖係用於CPS設備之吸附板的示意圖。 如第3圖所示’銜接經手機械臂之吸附板1〇包括 7 200804892 用於銜接經手機械臂之軸5、固定於軸5之固定板 8、數個以預定間隔與固定板8卡合的吸附襯墊 Π、以及設置於固定板8邊緣的分離栓梢12。 士吸附板之吸附襯墊11係吸附液晶面板15。此 牯,於預處理流程被刻劃之廢玻璃係呈現於液晶面 板15之邊緣。此類廢玻璃16係藉由向下施力而移 除,而相對於廢玻璃16,液晶面板15係被吸附襯 墊11吸附。 么第3圖所示之移除廢玻璃的裝置,係揭露於例 如韓國專利公開第2006-0005747號(於2006年1 月18日公開)、韓國專利公開第2〇〇6_〇〇78537號 (於2006年7月5日公開)等,將參照第4圖與 弟5圖說明。 第3圖係移除廢玻璃之習知裝置範例的示音 圖。第4圖係第3圖所示之分離栓梢12的放大圖: 其具有於向下移動時施加壓力於廢玻璃16之妗 構。 分離栓梢12具有一圓柱體121以及固定於圓 柱f 之胺曱酸乙酯推進器122。胺甲酸乙酯推 進器122於分離栓梢12向下移動時,以垂直方向 8 200804892 按壓置於液晶面板15邊緣之廢玻璃16,且此壓力 使廢玻璃16與液晶面板15分離。 第5圖係例示於上述第2006-0078537號文件 中揭露的技術,其具有設置於吸附板邊緣之滾輪推 進器112。滾輪推進器112具有能夠結合液晶面板 15之頂面並於旋轉時移動液晶面板15之滾輪 112d、支撐滾輪112d之支撐架112c、卡合支撐架 112c並旋轉待移動之滾輪112d之移動單元112b、 以及對應移動單元112b之固定單元112a。同時, 滾輪推進器Π2之移動單元112b係朝上、下方向, 沿著固定於固定板108之固定單元112的傾斜表面 移動。此時,移動單元112b隨即因為傾斜表面而 可朝水平方向移動,以致即使吸附板於執行吸附時 而使位置偏離或是改變時,滾輪推進器優勢地不會 施加壓力於液晶面板。 然而,依據上述文件,廢玻璃之尺寸很小,大 約為2mm,因此當未正禮設置分離栓梢12,也就 是當液晶面板偏離正確位置時,分離栓梢12可能 施加破壞性壓力於液晶面板15,也因此當吸附液 晶面板15時,就不會於正確位置吸附。因此,依 據第2至第4圖所揭露之技術,當執行吸附時,分 離栓梢之位置以及液晶面板之位置要精確。 9 200804892 此外’力未能有效地轉移至滾輪112d,因為 向上與向下施加於第5圖之滾輪推進器112之力由 於傾斜表面而橫向分散,因此難以調整壓力 時,滾輪推進器m具有複雜結構,因此滚輪 器112之製造效率低。 並且因考慮形成裂痕之玻璃特性,所以在需要 # 拓展衣痕日守,應朝裂痕擴展方向施力。如第1圖所 示之液晶面板具有雙邊表面,因此當進行刻劃時, 雙面皆形成裂痕。因此,應施加斷裂力至雙面。麸 而,依據移除廢玻璃之習知裝置,力僅被施加至廢 玻璃之上表面’如第2圖所示’因此並未拓展 裂痕。 一 •抑再者,依據習知裝置,設置切割基板之蒸汽斷 以斷裂基板,以及拾取裝置拾取基板,使得這 些裝置的尺寸增加並且提高這些裝置的製造成本。 【發明内容】 本發明之一方面係提供一種移除廢玻璃之系 統及其方法’該系統能藉由拓展形成於液晶面板之 頂部與底部裂痕,且不損害液晶面板,來移除廢玻 璃〇 200804892 /本务明之另一方面係提供一種移除廢玻璃之 系統及其方法,該系統能夠藉由直接施加壓力至底 部裂痕,來拓展難以藉由蒸汽斷裂器或推進器形成 之底部裂痕。 本發明之一實施例提供一種移除液晶面板邊 f的廢玻璃之系統,其包括支撐液晶面板之彈性 台,以及拾取液晶面板之拾取單元。彈性台係朝 上、下方向移動。 此系統可進一步包括用於按壓廢玻璃之施壓 構件。 彈欧口 了包括用於傳送液晶面板之傳送帶,以 及用於支撐傳送帶之支撐單元。 支撐單元可包括固定構件,以及設置於固定構 件之可移動構件,以支撐傳送帶。 可移動構件可包括一螺旋彈簧或者一板彈簧。 可移動構件可藉由液壓或者氣壓朝上、下方向 移動。 11 200804892 液晶面板可包括形成有薄膜電晶體(TFT)之第 一玻璃以及形成有渡色片之第二玻璃相互結合,第 一裂痕以及第二裂痕分別形成於第一玻璃以及第 二玻璃。 第一裂痕可藉由施壓構件所施加的壓力而拓 展,而第二裂痕可藉由拾取單元按壓支撐裝置而拓 Φ 展。 施壓構件可包含一傾斜部,且傾斜部接觸且施 加壓力於第一玻璃之廢玻璃的端部。 傾斜部可由胺曱酸乙醋製成。 本發明之另一實施例係提供一種移除液晶面 • 板於邊緣之廢玻璃的方法,包含以下步驟:準備一 液晶面板,具有形成有薄膜電晶體(TFTs)之第一玻 璃以及形成有濾色片之第二玻璃相互結合,且第一 裂痕與第二裂痕分別形成於第—玻璃與第二玻 璃;載置液晶面板於-彈性台上;則拾取裝置按 壓,置之液晶面板;藉由拾取裝置所施加的壓力拓 展第二裂痕;以及藉由一施壓構件拓展第一裂痕。 12 200804892 玻璃之廢玻璃 施壓構件之一傾斜部接觸第一 部份的端部,以拓展第一裂痕。 彈性台包含之用於傳送液晶面板之傳送帶以 ί用於支#傳送帶的支撐裝置下傾,以拓展第二裂 【實施方式】 於後將參照圖式描述本發明配置。 一此外,王篇說明書中類似元件編號參照為類似 元件’將省略重複性說明。 第6圖係依據本發明移除廢玻璃之系統示意 圖。 凊參照第6圖,移除廢玻璃之系統200包括支 撐液晶面板15與廢玻璃16的彈性台210、拾取液 晶面板15之拾取單元23〇、以及施加壓力至廢玻 璃之施壓構件(未顯示)。 同時’提供於廢玻璃16與液晶面板15間具有 第一裂痕17與第二裂痕18之面板,以作為依據本 13 200804892 發明之移除廢玻璃之系統2GG的面板,其中液晶面 板^5具有形成有TFT的第一破璃與形成有濾色片 的第二玻璃於預處理程序(刻劃流程)中相互結 合,如第1圖所示。 再者,彈性台210具有用於傳送液晶面板之傳 =帶2(Π,以及用於支撐並且上、下方向移動傳送 • 帶201之支撐單元2〇2,且支撐單元2〇2係由固定 , 構件以及連揍並設置於固定構件之可移動構件组 成,以便能支撐傳送帶201。 ^另外,可移動構件可具有螺旋彈簧或者板彈 簧,或者可藉由液壓或氣壓自由配置以朝上、下方 向移動。也就是說,依據本發明,當彈性台配 置且心取單元230施加一向下壓力時,拾取單元 230所施加的壓力使傳送帶2〇1以及可移動 ’傾。 此日守,拾取單元230僅施加壓力至廢玻璃w 以外的部份,因此第丨圖中所示形成於下部份之第 二裂痕18向上移動而拓展。 也就是說,於彈性台210施有壓力之部份係朝 内部推進,而其周邊部份試著維持位置,因而拓展 14 200804892 形成有濾色片的下玻璃之第二裂痕ι8。 一液晶面板b形成有TFT之上破璃隨即被拾取 :二謂拾取’而液晶面板15之邊緣部份係被具 有:貝角部份的推進器推進,以拓展形成於上玻璃中 之第一裂痕17,因此得輕易分離廢玻璃16。。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for removing waste glass at the edge of a liquid crystal panel without damaging the liquid crystal panel, and a method thereof, and more particularly to a method for easily removing a liquid crystal panel by applying pressure thereto. A system for waste glass and a method thereof, wherein a liquid crystal panel having a first glass on which thin film transistors (TFTs) are formed and a second glass on which a color filter is formed are bonded to each other. . [Prior Art] In general, when a brittle material such as a panel for liquid crystal display (LCD), electro-hydraulic display panel (PDP), or other flat panel display (FPD) or glass is required to be cut, it is utilized. The scribing operation is such that the surface of the material extends along the line to be cut to form a microcrack line, and the four trace lines cause a slit effect to thereby cut the brittle material. - a conventional method of cutting the crevice material by the slitting effect of the microcrack line, by clamping the end of the brittle 6 200804892 material with a minimum size jig, and then pulling the jig to apply a pulling force to the brittle material, thereby Cut the brittle material along the microcrack line (which is the weak part of the material). For example, a lower plate configured with a TFT and a plate on which a color filter is disposed are combined with a liquid crystal sandwiched therebetween to thereby manufacture a liquid crystal panel. After the lower plate and the upper plate are combined with each other, the scribing procedure and the cutting lane are implemented on the liquid crystal panel by cutting through the perforated scribing (cps) device. That is, for example, as shown in the figure, the first crack 17 and the second crack 18 are formed between the waste glass 16 and the liquid crystal panel 15 by a scribing procedure, wherein the liquid crystal panel 15 has the TFT provided A glass and a second glass provided with a color filter are combined with each other. The waste glass 16 is separated from the liquid crystal panel 15 having the first crack 17 and the second crack 18 by the pressing unit 2, as shown in Fig. 2. The liquid panel of the K-cut pair is then separated by the suction plate of the trans-hand robot arm and transferred to the next procedure. Such procedures will be detailed below. Figure 3 is a schematic illustration of an adsorption plate for a CPS device. As shown in Fig. 3, the suction plate 1 of the articulated manipulator includes 7 200804892 a shaft 5 for engaging the hand arm, a fixing plate 8 fixed to the shaft 5, and a plurality of fixing plates 8 engaged with the fixing plate 8 at predetermined intervals. The absorbing pad Π and the separating spigot 12 disposed at the edge of the fixing plate 8 are provided. The adsorption pad 11 of the adsorption plate adsorbs the liquid crystal panel 15. In this case, the waste glass which is scored in the pretreatment process is presented on the edge of the liquid crystal panel 15. Such waste glass 16 is removed by applying a downward force, and the liquid crystal panel 15 is adsorbed by the adsorption pad 11 with respect to the waste glass 16. The apparatus for removing waste glass shown in FIG. 3 is disclosed in, for example, Korean Patent Publication No. 2006-0005747 (published on January 18, 2006), and Korean Patent Publication No. 2-6_785735 (published on July 5, 2006), etc., will be described with reference to FIG. 4 and FIG. Figure 3 is a sound diagram of an example of a conventional device for removing waste glass. Fig. 4 is an enlarged view of the split tip 12 shown in Fig. 3: it has a structure for applying pressure to the waste glass 16 when moving downward. The split tip 12 has a cylindrical body 121 and an amine citrate pusher 122 fixed to the cylindrical column f. The urethane pusher 122 presses the waste glass 16 placed at the edge of the liquid crystal panel 15 in the vertical direction 8 200804892 as the separation tip 12 moves downward, and this pressure separates the waste glass 16 from the liquid crystal panel 15. Fig. 5 is a view showing the technique disclosed in the above-mentioned No. 2006-0078537, which has a roller pusher 112 provided at the edge of the suction plate. The roller propeller 112 has a roller 112d capable of moving the top surface of the liquid crystal panel 15 and moving the liquid crystal panel 15 during rotation, a support frame 112c supporting the roller 112d, a snap support frame 112c, and a moving unit 112b for rotating the roller 112d to be moved, And a fixed unit 112a corresponding to the mobile unit 112b. At the same time, the moving unit 112b of the roller pusher 2 moves in the upward and downward directions along the inclined surface of the fixing unit 112 fixed to the fixed plate 108. At this time, the moving unit 112b can be moved in the horizontal direction because of the inclined surface, so that the roller pusher advantageously does not apply pressure to the liquid crystal panel even if the position of the suction plate is shifted or changed while performing the suction. However, according to the above document, the size of the waste glass is small, about 2 mm, so when the split tip 12 is not disposed, that is, when the liquid crystal panel is deviated from the correct position, the split tip 12 may exert destructive pressure on the liquid crystal panel. 15. Therefore, when the liquid crystal panel 15 is adsorbed, it is not adsorbed at the correct position. Therefore, according to the technique disclosed in Figs. 2 to 4, when the adsorption is performed, the position of the separation tip and the position of the liquid crystal panel are accurate. 9 200804892 Furthermore, the force cannot be effectively transferred to the roller 112d because the force applied to the roller pusher 112 of Fig. 5 upward and downward is laterally dispersed due to the inclined surface, so that it is difficult to adjust the pressure, the roller pusher m is complicated The structure is therefore low in manufacturing efficiency of the roller 112. And because of the characteristics of the glass that forms the crack, it is necessary to extend the direction of the crack in the direction of the crack. The liquid crystal panel as shown in Fig. 1 has a bilateral surface, so that when scribing is performed, both sides are cracked. Therefore, the breaking force should be applied to both sides. However, according to the conventional device for removing waste glass, the force is applied only to the upper surface of the waste glass as shown in Fig. 2, so that the crack is not expanded. Further, according to the conventional device, the steam cut of the cutting substrate is set to break the substrate, and the pick-up device picks up the substrate, so that the size of these devices is increased and the manufacturing cost of these devices is increased. SUMMARY OF THE INVENTION One aspect of the present invention provides a system for removing waste glass and a method thereof. The system can remove waste glass crucible by expanding cracks formed at the top and bottom of the liquid crystal panel without damaging the liquid crystal panel. 200804892 / Another aspect of the present invention is to provide a system for removing waste glass and a method thereof that can expand a bottom crack that is difficult to form by a steam breaker or a propeller by directly applying pressure to the bottom crack. One embodiment of the present invention provides a system for removing waste glass of a liquid crystal panel edge f, which includes an elastic table supporting a liquid crystal panel, and a pickup unit for picking up the liquid crystal panel. The elastic table moves in the up and down direction. The system may further include a pressing member for pressing the waste glass. The port includes a conveyor for conveying the liquid crystal panel, and a support unit for supporting the conveyor. The support unit may include a fixing member and a movable member provided to the fixed member to support the conveyor belt. The movable member may comprise a coil spring or a leaf spring. The movable member can be moved upwards and downwards by hydraulic pressure or air pressure. 11 200804892 The liquid crystal panel may include a first glass formed with a thin film transistor (TFT) and a second glass formed with a color filter, and the first crack and the second crack are formed on the first glass and the second glass, respectively. The first crack can be expanded by the pressure applied by the pressing member, and the second crack can be expanded by the pressing unit pressing the supporting device. The pressing member may include an inclined portion, and the inclined portion contacts and applies pressure to the end of the waste glass of the first glass. The inclined portion may be made of ethylamine acetate. Another embodiment of the present invention provides a method for removing waste glass of a liquid crystal panel at an edge, comprising the steps of: preparing a liquid crystal panel having a first glass formed with thin film transistors (TFTs) and forming a filter The second glass of the color film is combined with each other, and the first crack and the second crack are respectively formed on the first glass and the second glass; and the liquid crystal panel is placed on the elastic table; then the pick-up device presses and sets the liquid crystal panel; The pressure applied by the pick-up device expands the second crack; and the first crack is expanded by a pressing member. 12 200804892 Waste glass of glass One of the pressing members touches the end of the first part to expand the first crack. The elastic table includes a conveyor for conveying the liquid crystal panel to tilt down the support device for the support belt to expand the second split. [Embodiment] The configuration of the present invention will be described later with reference to the drawings. In addition, similar element numbers are referred to as like elements in the specification, and the repetitive description will be omitted. Figure 6 is a schematic illustration of a system for removing waste glass in accordance with the present invention. Referring to Fig. 6, the system for removing waste glass 200 includes an elastic stage 210 supporting the liquid crystal panel 15 and the waste glass 16, a pickup unit 23 for picking up the liquid crystal panel 15, and a pressing member for applying pressure to the waste glass (not shown). ). At the same time, a panel having a first crack 17 and a second crack 18 between the waste glass 16 and the liquid crystal panel 15 is provided as a panel for removing the waste glass system 2GG according to the invention of the present invention, wherein the liquid crystal panel has a formation. The first glass having the TFT and the second glass on which the color filter is formed are combined with each other in a pretreatment procedure (scoring flow) as shown in Fig. 1. Furthermore, the elastic stage 210 has a transmission belt 2 for transporting the liquid crystal panel (Π, and a support unit 2〇2 for supporting and moving the transmission belt 201 in the upper and lower directions, and the support unit 2〇2 is fixed by And a member and a movable member that is connected to the fixed member and configured to support the conveyor belt 201. In addition, the movable member may have a coil spring or a leaf spring, or may be freely configured by hydraulic or pneumatic pressure to face up and down In other words, according to the present invention, when the elastic table is disposed and the core unit 230 applies a downward pressure, the pressure applied by the pickup unit 230 causes the belt 2〇1 and the movable 'pour. 230 applies only pressure to a portion other than the waste glass w, so that the second crack 18 formed in the lower portion shown in the second figure is moved upward to expand. That is, the portion of the elastic table 210 that is subjected to pressure is Advancing toward the inside, and the peripheral portion tries to maintain the position, thus expanding 14 200804892 to form the second crack of the lower glass with the color filter ι8. A liquid crystal panel b is formed with the glass above the glass Pickup: two pickup called 'liquid crystal panel and the edge portions of the system 15 has: the corner portion of the shell propulsion propeller, formed on the glass to expand in the first cracks 17, 16 may therefore be easily separated cullet.
接著=由減的f—與第二裂痕來移除廢玻 瑪16之程序將參照第7圖來說明。 _ # 18首^丨’如f 7a圖所示,第—裂痕17與第二裂 痕刀別形成於第一玻璃與第二玻璃内,其中具 處理程二m與具有濾色片之第二玻璃於預 、、二預處理之液晶面板1 5藉由傳送帶1僂 戈者藉由拾取單元230穩定地載置於彈性台專 如第7b圖所示,拾取單元23〇僅施加一向下 15:穩定-地置於彈性台210之部份液晶面板 «取單7L 230所施加壓力使可移動構件向下移 動,因而使傳送帶201向下移動。因此,廢玻璃 200804892 16係維持於向下移 位置之可移動構件之間。㈣構件…維持其原始 加壓t第:C圖所示,拾取單元230進-步向下施 向上移動,成有慮色片之下玻璃的第二裂痕W 移動,因而開始拓展第二裂痕18。 拾取Ϊ第^圖所示’當拾取單元23(>向上移動時, 二t疋2 0所吸附之液晶面板15亦向上移動, 侍次日日面板15接觸廢玻璃16之一端部以及置於 廢玻璃16上的施壓構件240。 、Next, the procedure for removing the waste glass 16 from the reduced f- and the second crack will be explained with reference to FIG. _ # 18首^丨' As shown in Figure f 7a, the first crack and the second crack are formed in the first glass and the second glass, wherein the treatment process is two m and the second glass with the color filter The liquid crystal panel 15 pre-processed and pre-processed by the conveyor belt 1 is stably placed on the elastic table by the pick-up unit 230, as shown in Fig. 7b, and the pick-up unit 23 is only applied with a downward 15: stable - Part of the liquid crystal panel that is placed on the elastic stage 210. The pressure applied by the sheet 7L 230 causes the movable member to move downward, thereby moving the conveyor belt 201 downward. Therefore, the waste glass 200804892 16 is maintained between the movable members in the downwardly displaced position. (4) The member ... maintains its original pressure t: Figure C, the pick-up unit 230 moves upward and downward, moving to the second crack W of the glass under the colored film, thereby starting to expand the second crack 18 . When the picking unit 23 (> moves upward, the liquid crystal panel 15 adsorbed by the second screen is also moved upward, and the service day panel 15 contacts one end of the waste glass 16 and is placed. A pressing member 240 on the waste glass 16 .
如第7d圖所示,施壓構件24〇於一表面上具 有彳員斜°卩,且傾斜部係接觸並施加壓力於形成有 TFT之第一玻璃的廢玻璃16端部,因而拓展 裂痕。 土同時,依據本發明之施壓構件24〇的傾斜部較 佳地係由例如胺甲酸乙酯或者橡膠之材料製成,以 防止傾斜部接觸第一玻璃時損害第一玻璃。 ^ 也就是說,依據上述實施例,第二裂痕18係 藉由拾取單元230與彈性彈21〇拓展,而第_裂痕 16 200804892 17係藉由施壓構件24〇拓展;然而,本發明未受 限於此,且可適用於以相反方式拓展第一與第二裂 痕之實施例。 同時,依據上述實施例,雖只繪示並說明應用 一個施壓構件240於廢玻璃;然而,當待移除之廢 玻璃很長時,可設置複數個施壓構件以移除廢玻 璃。 依據上述移除液晶面板之廢玻璃的系統及其 方法,壓力可直接施加於下玻璃以拓展所致結構中 的裂痕,該結構具有形成有TFT的第一玻璃與形 成有濾色片之第二玻璃相互結合,因此可較輕易地 移除廢玻璃。 同時,依據移除液晶面板之廢玻璃的系統及其 方法,形成於第一玻璃之裂痕以及形成於第二玻璃 =裂痕二可於形成冑TFT之第一玻璃與形成有遽 片之第二玻璃相互結合時個別地拓展,因此可確 保移除廢玻璃,以提高液晶面板之產量。 此外,習知技術設置蒸汽斷裂器以斷裂基板, ::3取單元拾取基板’然而本發明不需要此類 個別的域斷裂器’而可同時拾取並斷裂基板,因 17 200804892 此可節省設備尺寸與製造成本。 以上所述僅為本發明之較佳實施例而已,並非 用以限定本發明之申請專利範圍;凡其它未脫離本 發明所揭示之精神下所完成之等效改變或修飾,均 應包含在下述之申請專利範圍内。 _ 【圖式簡單說明】 本發明上述及其他目的、特性及優點將配合附 圖,詳細解釋於下列說明中,其中: 第1圖係液晶面板示意圖,顯示形成有薄膜電 晶體(TFT)的第一玻璃以及形成有濾色片之第二玻 璃相互結合且有裂痕形成於個別玻璃; 第2圖係施壓單元範例之示意圖; 第3圖係用於CPS設備之吸附板的示意圖; • 第4圖與第5圖係用於移除廢玻璃之習知裝置 示意圖; 第6圖係依據本發明移除廢玻璃之系統示意 圖;以及 第7圖係依據本發明移除廢玻璃之系統操作 示意圖。 18 200804892 【主要元件符號說明】 5 轴 8 固定板 10 吸附板 11 吸附襯塾 12 分離检梢 15 液晶面板 16 廢玻璃 17 第一裂痕 18 第二裂痕 20 施壓單元 108 固定板 112 滾輪推進器 112a 固定單元 112b 移動單元 112c 支撐架 112d 滾輪 121 圓柱體 122 胺甲酸乙酯推進器 200 移除廢玻璃之系統 201 傳送帶 202 支撐單元 210 彈性台 230 拾取單元 240 施壓構件As shown in Fig. 7d, the pressing member 24 has a slanting angle on one surface, and the inclined portion contacts and applies pressure to the end portion of the waste glass 16 on which the first glass of the TFT is formed, thereby expanding the crack. Meanwhile, the inclined portion of the pressing member 24A according to the present invention is preferably made of a material such as urethane or rubber to prevent the first glass from being damaged when the inclined portion contacts the first glass. That is, according to the above embodiment, the second crack 18 is expanded by the picking unit 230 and the elastic elastic member 21, and the first crack 16 200804892 17 is extended by the pressing member 24; however, the present invention is not affected by Limited thereto, and may be applied to embodiments in which the first and second cracks are expanded in the opposite manner. Meanwhile, according to the above embodiment, only one pressing member 240 is applied to the waste glass; however, when the waste glass to be removed is long, a plurality of pressing members may be provided to remove the waste glass. According to the above system and method for removing waste glass of a liquid crystal panel, pressure can be directly applied to the lower glass to expand cracks in the resulting structure, the structure having a first glass formed with a TFT and a second formed with a color filter The glass is bonded to each other so that the waste glass can be removed relatively easily. Meanwhile, according to the system for removing the waste glass of the liquid crystal panel and the method thereof, the crack formed in the first glass and the second glass formed in the second glass=crack 2 can form the first glass of the germanium TFT and the second glass formed with the germanium film Individually expanded when combined with each other, thus ensuring the removal of waste glass to increase the yield of the liquid crystal panel. In addition, the prior art provides a steam breaker to break the substrate, and the :3 takes the unit to pick up the substrate. However, the present invention does not require such an individual domain breaker, and can simultaneously pick up and break the substrate, since 17 200804892 can save equipment size. And manufacturing costs. The above is only the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention; all other equivalent changes or modifications which are not departing from the spirit of the present invention should be included in the following. Within the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be explained in the following description in conjunction with the accompanying drawings in which: FIG. 1 is a schematic view of a liquid crystal panel showing the formation of a thin film transistor (TFT). A glass and a second glass formed with a color filter are combined with each other and cracked in individual glass; FIG. 2 is a schematic view of an example of a pressure applying unit; and FIG. 3 is a schematic view of an adsorption plate for a CPS device; Figure 5 and Figure 5 are schematic views of a conventional apparatus for removing waste glass; Figure 6 is a schematic view of a system for removing waste glass according to the present invention; and Figure 7 is a schematic view of the operation of the system for removing waste glass according to the present invention. 18 200804892 [Description of main component symbols] 5 Axis 8 Fixing plate 10 Adsorption plate 11 Adhesive lining 12 Separating tip 15 Liquid crystal panel 16 Waste glass 17 First crack 18 Second crack 20 Pressure unit 108 Fixing plate 112 Roller thruster 112a Fixing unit 112b moving unit 112c support frame 112d roller 121 cylinder 122 urethane pusher 200 system for removing waste glass 201 conveyor belt 202 support unit 210 elastic table 230 picking unit 240 pressing member