200946898 九、發明說明: 【發明所屬之技術領域】 本發明涉及用於對顯示面板的優良與否進行檢測的顯示面板 檢測裝置用工作臺’尤其是涉及可以在一個工作臺上對不同尺寸 的顯示面板進行檢測,使裝置的利用度最大化的同時,與現有技 術相比能更快地進行檢測的顯示面板檢測裝置用工作臺的多規格 面板支撐裝置。200946898 IX. Description of the Invention: [Technical Field] The present invention relates to a workbench for a display panel detecting device for detecting the excellence of a display panel, particularly relating to display of different sizes on one workbench The multi-standard panel supporting device for the display panel detecting device for detecting the display panel can be detected more quickly than the prior art while the panel is being tested to maximize the utilization of the device.
【先前技術】 近來,顯示器中體積小' 重量輕的平板顯示器(pDp: piasma[Prior Art] Recently, a small-sized flat panel display (pDp: piasma)
Display Panel,LCD: Liquid Crystal Display)被大眾化,因 技術的發達,當前的平板顯示H都是畫面尺寸大、厚雜小重 量變輕。 ❹ 上述平板顯示⑽φ板是經過多個階段的製造工序而製造, 、士過各個製序製造出來醜示面板在經每敝序時都要進行 指定的亮燈峨’只魏—直維持—定標準以上的亮燈狀態的優 良產=才能進人下-個卫序,從而有效防止不良品的出廠。 面;供麻_面板關試财是工作人8將要進侧試的顯示 。純嶋_供應部相對 於地面傾斜-定角度(是项人員可以在測試部最清楚地看到顯 不面板的角度)地旋轉,移送部將供應部的顯示面板移動到測 5 200946898 試部。在測試部’顯示面板和測試部電連接,顯示面板收發電信 號的同時,背光燈被亮燈而向外部散發其光線。在此過程中,工 作人員用肉眼檢查顯示面板’確認顯示面板的顏色、不良圖元等 而判斷顯示面板的優良與否。 並且,對設置攝像頭的封閉空間(chamber )内側進行黑暗處 理後’以自動化方式利用攝像頭檢測設置於工作臺上側的面板。 與如上技術有關的面板檢測裝置中,如圖11所示,工作臺在 ❹ 調准夾片(Alignment Stage :未圖示)上側的内部設置有其中央部 位具有孔(hole)的基板1 ’在基板1的孔上安裝工作臺iq,工 作臺10的尺寸與要檢測的顯示面板的尺寸相應地準備多個在其 上分別設置顯示面板而進行檢測。 但是,這種現有的工作臺為了安裝與顯示面板的尺寸相符的 不同規格的工作臺,必須在調准夾片的上側設置與工作臺尺寸對 應的適配器。從而,準備各種適配器必須還要支付一定的費用, © 還有準備保管各個基板的場地也成為問題。 並且,將工作臺組裝於調准夾片上需要报多時間,因此也存 在著顯示面板的檢測時間被延遲的問題。 為了解決上述問題,目前提出了支標顯示面板的各個邊可調的 方案,如韓國授權專利第786631號“顯示面板或探針塊(沉如 block)的支撐架”。 上述現有的專利’其優點是通過使支樓顯示面板的支撐架移動 200946898 來κ見在個工作$上對各種規格的顯示面板進行測試,但是其 存在的問舰在於:為了保證各個支撐架雜所需的空間,以大 於疋尺寸的尺寸製造工作臺的基板;各個支樓架移動時其一側 端禮乂有破m定,該端部上會發生震動㈣響顯示面板的檢測 工作。 ' 【發明内容】 β 4了解決上賴題’本發明提供—_示面板檢測裝置用工 作臺的多規格面板支撐裝置,其目的在於根細純板的尺寸調 整工作臺,利用-個工作臺對各種不同規格的顯*面板進行檢測。 本發明的另一目的在於,簡化顯示面板的檢測所需的裝置, 以節省根據顯示面板的尺寸調整工作臺所需的時間,節省檢測顯 不面板的不良情況所需的費用,從而節減顯示面板的生產費用。 本發明的又一目的在於,將工作臺操作空間最小化,以提高 ®操作空間的利用度,減少可調工作臺上發生震動,從而準確進行 顯示面板的檢測工作。 為了達到上述目的,本發明提供一種顯示面板檢測裝置用工 作臺的多規格面板支撐裝置,該顯示面板檢測裝置用工作臺裝設 於調准夾片上側的基板上,其特徵在於,該支撐裝置包括:χ轴移 動模組,该X軸移動模組在所述基板的X軸方向兩側向γ轴長度 方向設置,並在所述基板的平面上向χ軸方向移動;γ軸移動模 7 200946898 组,該Y軸糊飯在所述基板的γ軸方向兩側向χ軸長度方向 设置^並在所述基板平面上向γ轴方向移動,移動時與上述X轴 移動模組向ζ轴方向隔離而避免與所述χ轴移動模組發生干涉; 及,固定滑塊(fix bl0ck),該固定滑塊包括第j固定滑塊第2 固定滑塊、第3固定滑塊及第4 @定滑塊,所述映滑塊分別設 置於所述X軸移動模組和γ軸移動模組交又形成的四個角的内 側,在所述X軸移動模組和γ轴移動模組上滑動。 ❿ 上述X軸移動模組包括設置於所述基板的X軸方向一側的第i 移動部和與所述第1移動部對應地妓於基板的X轴方向另一側 的第2移動部’所述第i移動部和第2移動部分別獨立驅動。 上述第1移動部包括:在所述基板一側向γ軸長度方向設置 的第1移動板;將所述第1移動板向所述基板的X軸方向引導的 第1LM導軌(LM guide);將所述第1移動板向χ軸方向移動的第 1滾珠螺桿(ball screw);及,給所述第1滚珠螺桿提供動力的 © 第1驅動電機。所述第2移動部包括:與所述第1移動板對應地 設置於所述基板的另一側的第2移動板;將所述第2移動板向所 述基板的X軸方向引導的第2LM導軌;將所述第2移動板向χ轴 方向移動的第2滾珠螺桿;及,給所述第2滾珠螺桿提供動力的 第2驅動電機。 上述Y轴移動模組包括:在所述基板的Y軸方向的一側向χ 軸長度方向設置的第3移動板;與所述第3移動板對應地設置於 200946898 所述基_ γ财⑽另_側的第4 _板;設置於所述第3移 動板和第4移動板的兩側,將第3移動板和第*移動板向γ轴方 向引導的第腿導轨及第4LM導轨;從兩側將所述第3移動板和 第4移動板向Y軸方向移動,使得第3移動板和帛4移動板互相 靠近或互相遠離的第3滾珠螺桿及第4滾珠螺桿;給所述第3滾 珠螺桿和第4滚珠螺桿提供動力的第3驅動電機。 上述第3滾珠螺桿設置有第1傳動箱(Gear boxes),所述第 © 4滾珠螺桿上設置有第2傳動箱,所述第ι傳動箱和所述第2傳動 箱通過轉動軸連接,在所述第3驅動電機的驅動下所述轉動軸旋 轉,在所述第1傳動箱和帛2傳動箱的帶動下所述第3滾珠螺桿 和第4滾珠螺桿以相同的速度向相同方向旋轉。 上述第1移動板上侧的z軸方向的—定高度上設置有第卜滑 動導執,所述第1滑動導軌上設置有兩側具有第7滑動件和第8 滑動件的第5LM導軌,所述第2移動板上侧向冗轴方向的一定高 ❹度上設置有第2滑動導軌(rail plate),該第2滑動導軌上與所 述第5LM導轨對應地設置有兩側具有第9滑動件和第滑動件的 第6LM導執’所述第7滑動件上連接有第1固定滑塊,所述第8、 /月動件上連接有第2固^滑塊’第9滑動件上連接有第3固定滑 塊,第10滑動件上連接有第4固定滑塊。 上述第3移動板的兩側向χ抽長度方向設置有第7IJ導執和 第導軌’所述第4移動板的兩侧向X軸長度方向設置有第細 9 200946898 導軌和第職導軌’所述第7LM導軌上連接有第丨固定滑塊,所 述第8LM V軌上連接有第2固定滑塊,所述第導執上連接有 第3固找塊,所述第刪導轨上連接有第4 ©定滑塊。 本發明的齡面板制裝置用功臺的多麟面板支標裝置 的效果是:根軸示面_財赃工作臺,_-個工作臺對 各種不同麟軸示面板進行檢測,因此,可㈣紅作臺製作 費用,同時可以減少顯示面板製作費用。 並且,使工作臺操作空間最小化,可以提高操作空間的利用 度,減紅作臺上發生的震動,觀可準確進行顯示面板的檢測 工作。 【實施方式】 以下參照附圖對本發明優選實施例涉及的顯示面板檢測裝置 用工作臺的多規格面板支稽裝置進行詳細說明。 圖1為本發明實施例涉及的顯示面板檢測裝置用工作臺的多 規格面板支撐裝置的立體示意圖;圖2為圖丨中示出的顯示面板 檢測裝置用Ji作臺的多規格φ板支職置的平面示意圖;圖3為 圖1中示出的顯示面板檢測裝置用工作臺的多規格面板支撐裝置 的X軸移賴_平面示意圖;圖4關3巾示出_示面板檢 測裝置用工作臺的多規格面板支_置的x軸移動模組的立體示 意圖;圖5為圖4中示出的顯示面板檢測裝置紅作臺的多規格 200946898 面板支撐裝朗X細城社設置有蚊滑塊的立體示意圖; 圖6為圖1中不出的顯示面板檢測裝置用卫作臺的多規格面板支 樓裝置的y軸移動模組的平面示意圖;圖7為圖6中示出的顯示 面板檢;貝J裝置用工作臺的多規格面板支標裝置的乂軸移動模組的 立體示意圖’·圖8為圖7中示出的顯示面板檢測裝置用工作臺的 夕規格面板支撑较置的丫軸移動模組上設置有固定滑塊的立體示 思Θ S9為圖1中示出的顯示面板檢測裝置用工作臺的多規格 © ©板支雜置的x轴移動模組和y轴移動模組軸部移動的狀態 不心圖’圖1〇為圖9中示出的顯示面板檢測裝置用工作臺的多規 格面板支揮裝置的x軸移動模組和y轴移動模組朝外部移動的狀 態示意圖。 參:、圖1和圖2’本發明實施例涉及的顯示面板檢測裝置用工 作臺的夕規格面板支標裝置包括:内部形成有中空部的基板⑽〇 ; 向以土板900的x輪和y轴方向滑動,並固定要檢測的顯示面板 (未®不)的四肖咖定滑塊_;使_定馳_向X轴方向 移動的X轴移動模組100 ;及,使該固定滑塊800向y轴方向移動 的y軸移動模組400。 參照圖3和圖j 4 ’上述χ軸移動模組100包括:設置於基板 900的左侧的第1软 移動邛200和右側的第2移動部3〇〇。 述第1移動部200包括:在上述基板900的左侧朝y軸方 向設置的第1移叙知01ΛDisplay Panel, LCD: Liquid Crystal Display) has been popularized. Due to the development of technology, the current flat panel display H is large in size, small in thickness, and light in weight. ❹ The above flat panel display (10) φ board is manufactured through a number of stages of manufacturing processes, and the ugly panel is manufactured by each system. The illuminating panel is designated to be illuminated every time. The excellent production of the standard above the lighting state = can enter the next - a guardian order, thus effectively preventing the defective products from leaving the factory. Face; for the hemp _ panel off the test is the display of the work person 8 will enter the side test. The pure 嶋 _ supply section is tilted relative to the ground - the angle (the person can see the angle of the panel clearly seen in the test section), and the transfer section moves the display panel of the supply section to the test section 2009200998. In the test portion, the display panel and the test portion are electrically connected, and while the display panel transmits and receives the electric signal, the backlight is lit to emit light to the outside. In this process, the worker visually checks the display panel 'confirming the color of the display panel, the bad picture element, etc. to judge whether the display panel is excellent or not. Further, after performing dark processing on the inside of the closed space in which the camera is installed, the panel provided on the upper side of the table is detected by an automatic method using a camera. In the panel detecting device according to the above technique, as shown in Fig. 11, the table is provided with a substrate 1 having a hole at a central portion thereof on the upper side of the Alignment Stage (not shown). A table iq is mounted on the hole of the substrate 1. The size of the table 10 is prepared in accordance with the size of the display panel to be detected, and a plurality of display panels are respectively disposed thereon for detection. However, in order to mount a table of different specifications conforming to the size of the display panel, such an existing workbench must be provided with an adapter corresponding to the size of the table on the upper side of the alignment clip. Therefore, it is necessary to pay a certain fee for preparing various adapters, and it is also a problem to prepare a site for storing each substrate. Further, since it is necessary to report a lot of time for assembling the table to the alignment clip, there is also a problem that the detection time of the display panel is delayed. In order to solve the above problems, a scheme for adjusting the sides of the sub-display panel has been proposed, such as the support panel of the display panel or the probe block (such as a block) of the Korean Patent No. 786631. The above-mentioned existing patent 'has the advantage of testing the display panels of various specifications by moving the support frame of the branch display panel to 200946898, but the existence of the ship is: in order to ensure that each support frame is mixed The required space is to manufacture the substrate of the worktable in a size larger than the size of the crucible; when each of the branch frames moves, the one side end of the branch is broken, and the end portion is vibrated (four) to sound the display panel. [Summary of the Invention] β 4 solves the above problem. The present invention provides a multi-standard panel supporting device for a table for a panel detecting device, the purpose of which is to adjust the size of the table by using a fine plate, and to use a table. Detect various display panels of different specifications. Another object of the present invention is to simplify the apparatus required for the detection of the display panel, to save the time required to adjust the worktable according to the size of the display panel, and to save the cost required for detecting the defective condition of the display panel, thereby reducing the display panel. Production costs. Another object of the present invention is to minimize the operating space of the workbench to improve the utilization of the operating space and reduce the occurrence of vibration on the adjustable worktable, thereby accurately performing the inspection of the display panel. In order to achieve the above object, the present invention provides a multi-standard panel supporting device for a display panel detecting device, which is mounted on a substrate on the upper side of the alignment clip, and is characterized in that the supporting device The utility model comprises: a cymbal movement module, wherein the X-axis movement module is disposed on a longitudinal direction of the γ-axis on both sides of the substrate in the X-axis direction, and moves in a direction of a χ-axis on a plane of the substrate; the γ-axis movement module 7 In the group of 200946898, the Y-axis paste rice is disposed on both sides of the y-axis direction of the substrate in the longitudinal direction of the y-axis, and moves in the γ-axis direction on the substrate plane, and moves to the y-axis with the X-axis moving module The direction is isolated to avoid interference with the pivoting movement module; and, the fixed slider (fix bl0ck), the fixed slider includes the jth fixed slider 2nd fixed slider, the 3rd fixed slider and the 4th @ a slider, the image sliders are respectively disposed inside the four corners formed by the intersection of the X-axis movement module and the γ-axis movement module, on the X-axis movement module and the γ-axis movement module slide. The X-axis moving module includes an i-th moving portion provided on one side of the substrate in the X-axis direction and a second moving portion that is disposed on the other side of the substrate in the X-axis direction corresponding to the first moving portion. The i-th moving unit and the second moving unit are driven independently. The first moving unit includes a first moving plate that is disposed on the substrate side in the longitudinal direction of the γ-axis, and a first LM guide that guides the first moving plate in the X-axis direction of the substrate; a first ball screw that moves the first moving plate in the z-axis direction; and a first driving motor that supplies power to the first ball screw. The second moving unit includes a second moving plate provided on the other side of the substrate corresponding to the first moving plate, and a second moving plate that guides the X-axis direction of the substrate a 2LM guide rail; a second ball screw that moves the second moving plate in the z-axis direction; and a second drive motor that supplies the second ball screw. The Y-axis moving module includes: a third moving plate that is disposed in a longitudinal direction of the y-axis on a side of the substrate in the Y-axis direction; and the base _ γ 财 (10) corresponding to the third moving plate. a fourth plate on the other side, a leg guide that is disposed on both sides of the third moving plate and the fourth moving plate, and guides the third moving plate and the *moving plate in the γ-axis direction, and the fourth LM guide a third ball screw and a fourth ball screw that move the third moving plate and the fourth moving plate in the Y-axis direction from both sides such that the third moving plate and the 帛4 moving plate are close to each other or away from each other; The third ball screw and the fourth ball screw are powered by a third drive motor. The third ball screw is provided with a first gear box (Gear boxes), and the fourth ball screw is provided with a second gear box, and the first power transmission box and the second transmission case are connected by a rotating shaft. The rotation shaft rotates under the driving of the third drive motor, and the third ball screw and the fourth ball screw rotate in the same direction at the same speed by the first transmission case and the 帛2 transmission case. a first sliding guide is provided at a constant height in the z-axis direction on the first moving plate side, and the first sliding guide is provided with a fifth LM guide having a seventh slider and an eighth slider on both sides, a second slide rail is provided on the second movable plate at a certain high degree of lateral direction of the redundant axis, and the second slide rail is provided on both sides corresponding to the fifth LM guide. 9th sliding member and 6th LM guide of the sliding member. The seventh fixed slider is connected to the first fixed slider, and the second fixed/sliding member is connected with the second fixed slider '9th sliding A third fixed slider is connected to the member, and a fourth fixed slider is connected to the tenth slider. Both sides of the third moving plate are provided with a 7th IJ guide and a guide rail. The both sides of the fourth moving plate are provided with a thinner 9 200946898 guide rail and a first guide rail. a seventh fixed rail is connected to the seventh LM rail, a second fixed slider is connected to the eighth LM V rail, and a third fixed block is connected to the first guide, and the third fixed rail is connected. There is a 4th © fixed slider. The effect of the multi-lining panel sizing device for the slab of the aging panel device of the present invention is: the root axis display surface _ 赃 赃 赃 , _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The cost of making a table can also reduce the cost of display panel production. Moreover, by minimizing the operating space of the table, the utilization of the operating space can be improved, and the vibration occurring on the table can be reduced, and the display panel can be accurately detected. [Embodiment] Hereinafter, a multi-standard panel arranging device for a workbench for a display panel detecting device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of a multi-standard panel supporting device for a workbench for a display panel detecting device according to an embodiment of the present invention; FIG. 2 is a multi-standard φ plate supporting device for a display panel detecting device shown in FIG. FIG. 3 is a schematic diagram of the X-axis _ plane of the multi-standard panel supporting device of the working table for the display panel detecting device shown in FIG. 1; FIG. 4 is a closed view showing the panel detecting device The multi-specification panel of the table is a three-dimensional schematic diagram of the x-axis moving module; FIG. 5 is a multi-standard 200946898 of the display panel detecting device shown in FIG. FIG. 6 is a schematic plan view of the y-axis moving module of the multi-standard panel supporting device of the display panel detecting device shown in FIG. 1; FIG. 7 is the display panel shown in FIG. Inspection; FIG. 8 is a perspective view of the multi-standard panel support device of the workbench for the J-device, and FIG. 8 is a support for the display panel of the display panel detection device shown in FIG. On the 移动 axis moving module Stereoscopic display with a fixed slider Θ S9 is a multi-specification of the table for the display panel detecting device shown in Fig. 1 © © x-axis moving module and y-axis moving module FIG. 1 is a schematic diagram showing a state in which the x-axis moving module and the y-axis moving module of the multi-standard panel supporting device of the table for the display panel detecting device shown in FIG. 9 are moved outward. </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> <RTIgt; Sliding in the y-axis direction, and fixing the four-chao-sliding slider _ of the display panel to be inspected (not ®); the X-axis moving module 100 that moves the _calding_ to the X-axis direction; and, makes the fixed sliding The block 800 moves the module 400 in the y-axis moving in the y-axis direction. Referring to Fig. 3 and Fig. 4 4', the above-described reel movement module 100 includes a first soft moving jaw 200 disposed on the left side of the substrate 900 and a second moving portion 3〇〇 disposed on the right side. The first moving unit 200 includes a first shifting guide 01 provided on the left side of the substrate 900 in the y-axis direction.
板210,將該第1移動板210向基板900的X 200946898 軸方向引導的第1LM導軌23G ;將該第1移動板21G向基板900 的X轴方向移動的第丨滾珠螺桿220;及給該第丨滾珠螺桿22〇 提供動力的第1驅動電機223。 上述第1LM導執230是用於支樓上述第!移動板的兩側, 包括:在基板900的兩側朝X軸方向設置的第i導執231和沿著 該第1導軌231滑動的第1滑動件(runner) 232,該第1滑動件 232連接於上述第1移動板21〇的兩側端部。 上述第1滾珠螺桿220設置於基板9〇〇平面上的左側下方, 包括:可單向旋轉地形成有螺紋的第丨螺桿(s⑽)221和可根 據第1螺桿221上的螺紋移動的第i承重塊(bearingbi〇ck)222。 上述第1承重塊222的一侧連接於上述第!移動板21〇的下 端部’第1螺桿221的左側端部與上述第丨驅動電機哪連接, 當第1驅動電機223正/逆向旋轉時,使得第i承重塊2没向χ轴 方向的左側或者右側移動。 上述第2移動部3〇〇與上述第丨移動部2〇〇相對設置包括: 在上述基板900的右側朝γ軸方向設置的第2移動板將該第 2移動板310向基板900的X轴方向引導的第2LM導軌33〇;使得 該第2移動板310向基板900的X轴方向移動的第2滾珠螺桿 320;及’給上述第2滾珠螺桿320提供動力的第2驅動電機323。 上述第2LM導執330用於支樓上述第2移動板31〇的兩侧, 包括在基板900的兩側朝X軸方向設置的第2導軌331和沿著該 200946898 第^導轨331移動的第2滑動件332,該第2滑動件微結合於上 述第2移動板310的兩側端部。 上述第⑽朱螺桿320設置於基板_平面上的右側下方, 包括形成有可向一方向旋轉的螺紋的第2螺桿321和沿著該第2 螺桿的螺紋移動的第2承重塊322。 t述第2承重塊322 #一側與上述第2移動板的端部結 第2螺~ 321的左側端部與上述第2驅動電機323連接,當 參第2驅動電機323正/逆向旋轉時,使得第2承重續向X轴方 向的左側或者右側移動。 一參照圖5,上述第1移動板210和第2移動板310的上側設置 有一定南度的間隔塊110,該間隔塊110的上側分別設置有第丨 ::::Γ°和第2滑動導軌340。即’在第1移動板210的上側 汉置有第1滑動導軌24〇,在第2移動板灿的上側設置 滑動導軌340。The plate 210, the first LM guide 23G that guides the first moving plate 210 in the X 200946898 axis direction of the substrate 900, and the second ball screw 220 that moves the first moving plate 21G in the X-axis direction of the substrate 900; The first drive motor 223 that supplies the second ball screw 22 is powered. The first LM guide 230 described above is for the above-mentioned section of the branch building! Both sides of the moving plate include an i-th guide 231 disposed on the both sides of the substrate 900 in the X-axis direction, and a first slider 232 sliding along the first guide 231, the first slider 232 It is connected to both end portions of the first moving plate 21A. The first ball screw 220 is disposed on the lower left side of the plane of the substrate 9 and includes a second screw (s(10)) 221 that is rotatably formed in a unidirectional direction and an ith that can be moved according to the thread on the first screw 221 Bearings (bearingbi〇ck) 222. One side of the first load-bearing block 222 is connected to the above-mentioned first! The lower end portion of the movable plate 21A' is connected to the third drive end of the first screw 221, and when the first drive motor 223 is rotated in the forward/reverse direction, the i-th load-bearing block 2 is not turned to the left side in the x-axis direction. Or move to the right. The second moving portion 3A is disposed opposite to the second moving portion 2A, and includes a second moving plate provided on the right side of the substrate 900 in the γ-axis direction, and the second moving plate 310 is oriented to the X-axis of the substrate 900. The second LM guide 33 that guides the direction, the second ball screw 320 that moves the second moving plate 310 in the X-axis direction of the substrate 900, and the second drive motor 323 that supplies the second ball screw 320. The second LM guide 330 is used for both sides of the second moving plate 31A of the branch building, and includes a second guide rail 331 that is disposed on both sides of the substrate 900 in the X-axis direction and a second guide rail 331 that moves along the 200946898 second guide rail 331. The second slider 332 is micro-bonded to both end portions of the second moving plate 310. The (10)th screw 320 is disposed on the lower right side of the substrate_plane, and includes a second screw 321 formed with a thread that can rotate in one direction, and a second load block 322 that moves along the thread of the second screw. The second bearing end of the second load-bearing block 322 # is connected to the second drive motor 323 at the end of the second movable plate, and the second drive motor 323 is rotated in the forward/reverse direction. The second load is moved to the left or right in the X-axis direction. Referring to Fig. 5, a spacer block 110 having a certain south degree is provided on the upper side of the first moving plate 210 and the second moving plate 310, and the upper side of the spacer block 110 is respectively provided with a third::::Γ° and a second sliding Guide rail 340. That is, the first slide rail 24 is placed on the upper side of the first movable panel 210, and the slide rail 340 is provided on the upper side of the second movable panel.
在上述第1滑動導軌240上,在固定顯示面板的方向的側面 著向設置有第5料轨25G。該㈣導_包括·· Γ述第動導軌240側面的第5導軌251和可移動地設置於 251兩側的第7滑動件252及第8滑動件253。 5LM導轨卿'月動導軌340設置有與上述第1滑動導軌240的第 設置於第2向設置的第ω導轨聊該第6LM導轨咖包括: ''月導軌340的側面的第6導軌351和可移動地設置 200946898 於所述第6導轨351兩侧的第9滑動件352及第1〇滑動件353。 上述第1滑動導轨240和第2滑動導執340的第7滑動件252 至第H)滑動件353上連接有用於固定顯示面板的固定滑塊腦。 上述固定滑塊800壓迫顯示面板的四個角而固定顯示面板, 與對向設置的顯示面板的各個角相應地形成有s,字形狀的第 1固定滑塊⑽、第2蚊滑塊㈣、第3狀滑塊_及第4固 定滑塊840。 β 如上結構的固定滑塊咖中,第1固定滑塊_的左側面與 第7滑動件252連接,並沿第5導軌251移動,第2固定滑塊820 的左侧面與第8滑動件253連接,並沿著第5導軌251移動第3 固定滑塊83G的右側面與第9滑動件啦連接並沿著第6導軌 351移動,第4固定滑塊⑽的右侧面與第㈣動件咖連接, 並沿著第6導軌351移動。 即’在X軸移動模組1〇〇中的第1移動部200上可向γ轴方 向移動地連接有第1固定滑塊81〇和第2固定滑塊,在第2 移動部300上可向Y轴方向移動地連接有第3固定滑塊830和第4 固定滑塊840,根據第!移動部2〇〇和第2移動部3〇〇的移動,固 定滑塊800整體向X軸方向移動。 參照圖6、圖7,γ轴移動模組獅包括:設置於上述基板_ 的Υ軸方向上側的第3移動板51〇;與該第3移動板⑽相對地設 置於基板900的Υ軸方向下方的第4移動板61〇 ;設置於該第3 200946898 移動板510和第4移動板610的兩側’將第3移動板510和第4 移動板610引導到Y軸方向的第3LM導轨530及第4LM導執63〇 ; 從兩側將該第3移動板510和第4移動板610向Y軸方向移動, 使得第3移動板510和第4移動板610互相遠離或接近的第3穿 珠螺桿520及第4滾珠螺桿620 ;向上述第3滾珠螺桿52〇和第4 滾珠螺桿620提供動力的第3驅動電機430。On the first slide rail 240, a fifth rail 25G is provided on the side surface in the direction in which the display panel is fixed. The fourth guide _ includes a fifth guide rail 251 on the side of the movable guide rail 240 and a seventh slider 252 and an eighth slider 253 which are movably provided on both sides of the 251. The 5LM guide clerk 'moon rail 340 is provided with the ω rail disposed on the second direction of the first slide rail 240. The sixth LM rail includes: '6th side of the side rail 340 The guide rail 351 and the ninth slider 352 and the first jaw slider 353 on the two sides of the sixth rail 351 are movably provided. A fixed slider brain for fixing the display panel is connected to the seventh slider 252 to the H) slider 353 of the first slide rail 240 and the second slide guide 340. The fixed slider 800 presses the four corners of the display panel to fix the display panel, and forms a first fixed slider (10) and a second mosquito slider (four) in the shape of a s, corresponding to each corner of the oppositely disposed display panel. The third slider _ and the fourth fixed slider 840. In the fixed slider of the above configuration, the left side of the first fixed slider _ is connected to the seventh slider 252 and moves along the fifth rail 251, and the left side of the second fixed slider 820 and the eighth slider 253 is connected, and the right side surface of the third fixed slider 83G is moved along the fifth rail 251 to be connected to the ninth slider and moved along the sixth rail 351, and the right side and the fourth side of the fourth fixed slider (10) are moved. The coffee is connected and moved along the sixth rail 351. In other words, the first fixed slider 81 〇 and the second fixed slider can be connected to the first moving portion 200 of the X-axis moving module 1 移动 in the γ-axis direction, and can be connected to the second moving portion 300. The third fixed slider 830 and the fourth fixed slider 840 are connected to the Y-axis direction, according to the first! The movement of the moving portion 2A and the second moving portion 3A moves the entire slider 800 in the X-axis direction. Referring to FIGS. 6 and 7, the γ-axis moving module lion includes a third moving plate 51〇 disposed on the upper side in the z-axis direction of the substrate _, and a y-axis direction disposed on the substrate 900 opposite to the third moving plate (10). The lower fourth moving plate 61 is disposed on both sides of the third 200946898 moving plate 510 and the fourth moving plate 610. The third moving plate 510 and the fourth moving plate 610 are guided to the third LM guide in the Y-axis direction. 530 and the 4th LM guide 63A; the third moving plate 510 and the fourth moving plate 610 are moved in the Y-axis direction from both sides, so that the third moving plate 510 and the fourth moving plate 610 are apart from or close to each other. The bead screw 520 and the fourth ball screw 620; and a third drive motor 430 that supplies power to the third ball screw 52A and the fourth ball screw 620.
上述第3移動板510設置於基板900的上側,沿著χ轴方向 左右延長而設置。上述第4移動板610也如第3移動板51〇,設置 於基板900的下側沿著X軸方向左右延長,並與第3移動板 相對設置。 上述第3LM導執530設置於所述第3移動板51〇和第$移動 板610的右側端部,在基板900右側的γ輛方向上設置有第3導 執531,上述第3導軌531的上側設置有第3滑動件诹,第 軌531的下側設置有第4滑動件533。 在上面’第3LM導軌530的第3滑動件532連接於第3移動 板510的右侧端部,第4滑動件533連接於第4移動板⑽ 侧端部’使得第3移動板510和第4移動板_向γ轴方、 上述第4LM導軌630設置於上述第3移動板51〇和第 板議的左侧端部,第4導軌631在基板_的左側γ轴 設置,該第4導執咖的上侧設置有第5滑動件啦 631的下侧設置有第6滑動件633。 軌 200946898 如上結構的第4LM導軌630的第5滑動件娜連接於第3移 動板510的左側端部’第6滑動件咖連接於第4移動板_的 左侧端部,餅第3移純⑽和第4 _板_向γ轴方向移 動。 上述第3滾珠螺桿52G設置在娜於第3移動板51Q和第4 移動板⑽的右側的基板900上面,包括:沿¥抽方向設置且形 成有螺紋的第3螺桿521和設置於第3螺桿521的上下方的第3 〇 承重塊522及第4承重塊523。 在這裏’形成於第3螺桿521上的螺紋,是以在¥軸方向上 將第3螺# 521 -分為二的位置為中心,上側和下側螺紋逆向旋 轉地形成,隨著該第3螺桿521的旋轉,與第3螺桿521連接的 第3承重塊522和第4承重塊523互相靠近地移動或者互相遠離 地移動。 上述第4滾珠螺桿咖與上述第3滾珠螺桿52Q相對設置, ©設置在鄰接於第3移動板51〇和第4移動板61〇左側的基板咖 的上面,包括:沿著γ軸方向設置且形成有螺紋的第4螺桿吻 和設置於上述第4螺桿621的上下方的第5承重塊622及第 重塊623 *> 上述第4螺桿621上的螺紋與第3螺桿521上的螺紋相同, 以將γ轴-分為二的位置作為中心,將第4螺桿621的螺紋分為 上下兩部分相互逆向旋轉地形成,隨著該第4螺桿621的旋轉: 16 200946898 第5承重塊622和第6承重塊623互相靠近地移動或者互相遠離 地移動。 上述第3滾珠螺桿520和第4滾珠螺桿620是由第3驅動電 機430驅動’第3驅動電機430的動力被設置於第3驅動電機43〇 上的驅動滑輪(pulley) 431傳遞到傳動帶432,該傳動帶432使 知從動滑輪433旋轉,該從動滑輪433將動力傳遞給第1傳動箱 410。 ❹ 上述第1傳動箱41〇旋轉鄰近的第3滾珠螺桿520的同時, 通過轉動軸(shaft) 411 ’與設置於基板9〇〇左侧的第2傳動箱 420連接並進行動力傳遞,通過該轉動軸411將動力傳遞給第2 傳動箱420 » 接收到第1傳動箱41〇傳送的動力的第2傳動箱42〇轉動連 接於下侧的第4滾珠螺桿62〇。 此時’上述第1傳動箱41〇和第2傳動箱420以相同的方向 和速度旋轉第3滾珠螺桿52〇和第4滾珠螺桿62〇,因此,第3 承重填522和第5承重塊622始終位於γ轴上的相同位置,第4 承重塊523和第6承重塊623也始終位於γ軸上的相同位置隨 著第3響521和第4螺桿621的旋轉方向在γ轴上移動。 這樣移動的第3滾珠螺桿52〇和第4滾珠螺桿620與第3移 動板510和第4移動板_連接。首先,第3移動板_的左側 與第5承重塊622連接,右侧與第3承重塊522連接。 17 200946898 第4移動板610的左側與第6承重塊623連接,右侧與第4 承重塊523連接。由此’隨著第3滾珠螺桿520和第4滾珠螺桿 620的運行,第3移動板510和第4移動板610互相靠近地移動或 者互相遠離地移動。 參照圖8’在上述第3移動板510的上側向X軸方向的左側設 置有第7LM導軌440,右側設置有第8LM導軌450 ;上述第4移動 板610的上侧沿著X轴方向的左側設置有第9LM導軌46〇,右側設 ❹ 置有第10LM導執470。 首先,第7U導轨440包括:在第3移動板51〇的左側上側 向X轴方向設置的第7導軌441和沿著該第7導軌441移動的第 11滑動件442。第8LM導軌450包括:在第3移動板510的右侧 上側向X軸方向設置的第8導轨451和沿著該第8導軌451移動 的第12滑動件452。 ❽ 上述第7導執441和第8導軌451設置於第3移動板510的 内側面為佳。但並不限定於此,根據情況,可以設置在上部平面 上,也可以同時設置在侧面和平面上。The third moving plate 510 is provided on the upper side of the substrate 900 and is provided to extend left and right along the z-axis direction. Similarly to the third moving plate 51, the fourth moving plate 610 is provided on the lower side of the substrate 900 so as to extend left and right along the X-axis direction, and is provided to face the third moving plate. The third LM guide 530 is disposed at the right end of the third moving plate 51 and the first moving plate 610, and the third guide 531 is provided in the γ direction of the right side of the substrate 900, and the third guide 531 is provided. A third slider 设置 is provided on the upper side, and a fourth slider 533 is provided on the lower side of the rail 531. The third slider 532 of the third LM rail 530 is connected to the right end portion of the third moving plate 510, and the fourth slider 533 is connected to the fourth moving plate (10) side end portion so that the third moving plate 510 and the third 4 moving plate _ to the γ axis, the fourth LM rail 630 is provided on the left side end of the third moving plate 51 第 and the third plate, and the fourth rail 631 is disposed on the left γ axis of the substrate _, the fourth guide A sixth slider 633 is provided on the lower side of the fifth slider 631 on the upper side of the coffee maker. Rail 200946898 The fifth slider of the fourth LM rail 630 having the above structure is connected to the left end of the third moving plate 510. The sixth slider is connected to the left end of the fourth moving plate _, and the third shift is pure. (10) and the 4th_plate_ move in the γ-axis direction. The third ball screw 52G is disposed on the upper surface of the substrate 900 on the right side of the third moving plate 51Q and the fourth moving plate (10), and includes a third screw 521 which is provided in the pumping direction and is formed with a thread, and is provided on the third screw. The third load bearing block 522 and the fourth load bearing block 523 at the upper and lower sides of the 521. Here, the thread formed on the third screw 521 is formed by centering the position where the third screw #521 is divided into two in the direction of the ¥ axis, and the upper and lower threads are reversely rotated, and the third thread is formed. The rotation of the screw 521 causes the third load-bearing block 522 and the fourth load-bearing block 523 connected to the third screw 521 to move toward each other or move away from each other. The fourth ball screw is disposed opposite to the third ball screw 52Q, and is disposed on the upper surface of the substrate adjacent to the left side of the third moving plate 51A and the fourth moving plate 61〇, and includes: The fourth screw grip formed with the thread and the fifth load-bearing block 622 and the weight 623 provided on the upper and lower sides of the fourth screw 621 are the same as the thread on the third screw 521 The center of the γ-axis is divided into two, and the thread of the fourth screw 621 is divided into upper and lower portions to be reversely rotated with each other. With the rotation of the fourth screw 621: 16 200946898 The fifth load-bearing block 622 and The sixth load-bearing blocks 623 move closer to each other or move away from each other. The third ball screw 520 and the fourth ball screw 620 are transmitted to the belt 432 by a drive pulley 431 provided on the third drive motor 43A by the third drive motor 430. The belt 432 rotates the driven pulley 433, and the driven pulley 433 transmits power to the first transmission case 410. ❹ The first transmission case 41 rotates the adjacent third ball screw 520, and is connected to the second transmission case 420 provided on the left side of the substrate 9 by a rotating shaft 411' to transmit power. The rotating shaft 411 transmits power to the second transmission case 420. The second transmission case 42 that receives the power transmitted from the first transmission case 41 is rotationally coupled to the lower fourth ball screw 62'. At this time, the first transmission case 41〇 and the second transmission case 420 rotate the third ball screw 52〇 and the fourth ball screw 62〇 in the same direction and speed, and therefore, the third load-bearing 522 and the fifth load-bearing block 622. Always at the same position on the γ-axis, the fourth load bearing block 523 and the sixth load-bearing block 623 are also always moved at the same position on the γ-axis as the rotation directions of the third ring 521 and the fourth screw 621 move on the γ-axis. The third ball screw 52A and the fourth ball screw 620 thus moved are connected to the third moving plate 510 and the fourth moving plate_. First, the left side of the third moving plate_ is connected to the fifth load-bearing block 622, and the right side is connected to the third load-bearing block 522. 17 200946898 The left side of the fourth moving plate 610 is connected to the sixth load-bearing block 623, and the right side is connected to the fourth load-bearing block 523. Thus, as the third ball screw 520 and the fourth ball screw 620 operate, the third moving plate 510 and the fourth moving plate 610 move closer to each other or move away from each other. Referring to Fig. 8', a seventh LM guide 440 is provided on the upper side in the X-axis direction on the upper side of the third moving plate 510, and an eighth LM guide 450 is provided on the right side, and the upper side of the fourth moving plate 610 is along the left side in the X-axis direction. The 9th LM guide 46 is provided, and the 10th LM guide 470 is disposed on the right side. First, the 7U rail 440 includes a seventh rail 441 provided on the left side of the third moving plate 51A in the X-axis direction, and an eleventh slider 442 that moves along the seventh rail 441. The eighth LM guide 450 includes an eighth rail 451 that is provided on the upper right side of the third moving plate 510 in the X-axis direction, and a twelfth slider 452 that moves along the eighth rail 451. Preferably, the seventh guide 441 and the eighth guide rail 451 are provided on the inner side surface of the third moving plate 510. However, the present invention is not limited thereto, and may be provided on the upper plane or on the side and the plane, depending on the situation.
第9LM導轨460包括:在第4移動板61〇的左側上側向X軸 方向設置的第9導軌461和沿該第9導軌461移動的第13滑動件 462。第i〇LM導軌470包括:在第4移動板610的右側上部向X 軸方向設置的第10導執和沿著該第1〇導軌移動的第14滑動件 472 〇 200946898 如第8導執451和第i π道批 0導執’上述第9導執461和第1〇導 執設置於第4雜板61G的彳_佳。但並不蚊於此,根據情 况可以D又置在上部平面上’也可以同時設置在侧面和平面上。 如上結構的Y軸移動模組棚的第3移動板⑽和第4移動 板610的第11滑動件442至第14滑動件472上連接有用於固定 顯示面板的固定滑塊8〇〇。The ninth LM guide 460 includes a ninth guide rail 461 that is provided in the X-axis direction on the upper left side of the fourth moving plate 61A, and a thirteenth slide 462 that moves along the ninth guide rail 461. The i-th LM guide 470 includes a tenth guide disposed in the X-axis direction on the right upper portion of the fourth moving plate 610 and a 14th slider 472 〇200946898 moving along the first 〇 guide rail as the eighth guide 451 It is 彳 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ However, it is not a mosquito, and depending on the situation, D can be placed on the upper plane again. It can also be placed on the side and the plane at the same time. A fixed slider 8 for fixing the display panel is connected to the third moving plate (10) of the Y-axis moving module booth and the eleventh sliding member 442 to the fourth sliding member 472 of the fourth moving plate 610.
如上所述,上述固定滑塊_包括第1固定滑塊_、第2 ^定滑謂、第3敗滑請及第4㈣滑請,該第i固 疋滑塊810與第Η滑動件祕連接,第2固定滑_與第η 滑動件462連接’第3固定滑塊83〇與第12滑動件脱連接第 4固定滑塊830與第14滑動件472連接。 上述第1固定滑塊⑽沿著第7導轨441向χ轴方向移動, 第2固定滑塊820沿著第9導軌461向χ轴方向移動第3固定 2830沿著第8導馳向X軸方向移動,第4固定滑綱 /〇著第ίο導軌向X軸方向移動。 參顧1 Η),在X軸移動模竭和γ軸移動模組伽 不干涉的情況下,上述X軸移動模組1()()㈣i移動板_和 =移動板_的上侧設置有γ軸移動模組的請動請 和第4移動板610。 19 200946898 導軌470在z軸方向上互相隔離一定距離地設置因此,χ柏移動 核組1 〇〇和Y軸移動模組400在移動時也不會產生互相干涉的情 況。 以下、’Ό合附圖’對上述本發明中的顯示面板檢測裝置用工作 臺的少規格面板支撐裝置的運行情況進行詳細說明。 參…圖1至圖1〇,本發明涉及的顯作臺 的夕規格域裝置是細示面板的四個肖糊固定雜_進行 魯 固定。 為了檢測特定尺寸的顯示面板,應用固定滑塊8GG固定顯示 面板的四個角’為此,運行!轴移動模組⑽和Y軸移動模組藝 首先說月X軸移動模組1〇〇的運行情況,為了使得第^固定滑 塊810和第2固疋滑塊82〇位於顯示面板的左側,旋轉第!移動 部200的第1驅動電機223。 當第1驅動電機223旋轉,則第1滾珠螺桿220的第1螺桿 ❹221旋轉’可旋轉地連接於第i螺桿221的第ι承重塊微沿著第 1螺桿221移動。此時,與第1承重塊222連接的第丨移動板21〇 被設置於兩侧的第1LM導軌23〇引導而向X軸方向移動,绪人於 設置在第1移動板210上部第_導軌_第爾執250 的第1固定滑塊810和第2固定滑塊其内部-側面接觸於顯 示面板的左側。 如上述第1移動部2GG運行而移動第1固定滑塊_和第2 20 200946898 固定滑塊,第3固定滑塊咖和第4固定滑塊84〇也隨著第2 移動部300運行而移動。說明第2移動部3〇〇的運行,則設置於 基板900的左側下端的第2驅動電機323運行,同時娜運行第2 滾珠螺桿320的第2螺桿321。 當上述第2螺桿321旋轉,則可旋轉地設置於第2螺桿321 上的第2承重塊322沿著第2螺桿321移動,與第2承重塊322 連接的第2移動板310被兩側的第灿導轨33〇引導而向χ轴方 φ 向移動。 此時’結合於設置在第2移動板上部第2滑動導軌34〇 的第6LM導執350的第3固定滑塊830和第4固定滑塊84〇,其内 部一側面接觸於顯示面板的右側。 第1移動部200和第2移動部300如上所述地運行,因此, 要檢測的顯示面板的摘和右侧碰第丨滑塊训至第4 固定滑塊840所固定。 ❹ Y軸移動模組400 #運行情況,是隨著第3驅動電機430正/ 逆向旋轉,第3驅動電機43〇的動力通過驅動滑輪431和傳動帶 432及從動滑輪433傳遞到第丨傳動箱41〇,通過轉動轴411,與 第1傳動箱410連接的第2傳動箱420也接收到與第i傳動箱41〇 相同的動力。 接收到上述的由第3驅動電機430產生的動力的第丨傳動箱 410和第2傳動箱420旋轉設置於基板9〇〇的右側和左侧的第3 21 200946898 滾珠螺杯520和第4滾珠螺桿620的第 ,Q r 半'^螺^521 和第 4螺桿621。 上述第3螺榫521和第4螺桿621 詈於m物心 疋轉’則可分別旋轉地設 述弟3螺杯521和第4螺桿621的第3承重塊522和第4 =塊:第5承重塊622和第6承重塊 近地移動 或互相遠離地移動。 此時,第3移動板510的左側固定於第4滚珠螺請的第5 承重塊622,右侧固定於第3滾珠螺桿52〇的第3承重塊娜,第 ® 4移動板⑽也是左側固定於第4滚珠螺桿咖的第6承重塊哪, 右姻定於第3滾珠螺桿520的第4承重塊呦,因此,當上述第 3滾珠螺桿520和第4滚珠螺桿620運行,則第3移動板51 〇和第 4移動板610互相靠近地或互相遠離地移動。 如此,第3移動板510和第4移動板610移動’則設置於第3 移動板上的第7LM導軌的第1固定滑塊810和第聊導軌45〇的 第3固定滑塊830與顯示面板上侧接觸,設置於第4移動板61〇 ❹上的第9LM導軌460的第2固定滑塊820和第1 〇LM導執470的第 4固定滑塊840與顯示面板的下側接觸。 由此,隨著上述X轴移動模組1〇〇和γ軸移動模組4〇〇的移 動’第1固定滑塊810至第4固定滑塊840也進行移動而固定顯 示面板。 如上所述的本發明中的顯示面板檢測裝置用工作臺的多規格 面板支撐裝置,以基板900為准,作為X轴移動模組1〇〇的第i 22 200946898 移動板210和第2移動板310在基板900的範圍内移動運f 端部被第1LM導軌230和第2U導軌330支樓,田+ 订兩 L4此,可以防止 在移動時產生振動。 並且’第3移動板510和第4移動板610也如上、,十 通第1移動 兩端部 可以防止在運 板210和第2移動板310,在基板900範圍内運行,並且 被第3LM導軌530和第4LM導軌630支撐,因此, 行過程中產生振動。 因此’本發明中的顯示面板檢測裝置用工作臺的多規格面板 支樓裝置具有其尺寸比現有的工作臺更小的優點。 【圖式簡單說明】 圖1為本發明實施例涉及的顯示面板檢測裝置用工作臺的少規格 面板支撐裝置的立體示意圖; 圖2為圖1中示出的顯示面板檢測裝置用工作臺的多規格面板支 © 撐裝置的平面示意圖; 圖3為圖1巾示出的顯示面板檢赚置i作臺的多規格面板支 撐裝置的X軸移動模組的平面示意圖; 圖4為圖3中示出的顯示面板檢測裝置用工作臺的多規格面板支 撐裝置的X軸移動模組的立體示意圖; 圖5為圖4中示出的顯示面板檢測裝置用工作臺的多規格面板支 撑裝置的X軸移動模組上設置有固定滑塊的立體示意圖. 23 200946898 圖6為圖1中示出的顯示面板檢測裝置用工作臺的多規格面板支 樓裝置的y軸移動模組的平面示意圖; 圖7為圖6中示出的顯示面板檢測裝置用工作臺的多規格面板支 撐裝置的y軸移動模組的立體示意圖; 圖8為圖7中示出的顯示面板檢測裝置用工作臺的多規格面板支 撐裝置的y軸移動模組上設置有固定滑塊的立體示意圖; 圖9為圖1中示出的顯示面板檢測裝置用工作臺的多規格面板支 ® 樓裝置的X軸移動模組和y#移動模組朝内部移動的狀態示意圖; 圖10為圖9中示出的顯示面板檢測裝置用工作臺的多規格面板支 撐裝置的平面示意圖; 圖11為現有技術涉及的工作臺的立體示意圖。 〇 【主要元件符號說明】 1〇〇·_χ轴移動模組 210 ·第1移動板 221 :第1螺桿 223 :第1驅動電機 231 :第1導軌 240 :第2滑動導轨 251 :第5導轨 253 :第8滑動件 200 第1驅動部 220 第1滾珠螺桿 222 第1承重塊 230 第1 LM導轨 232 第1滑動件 250 第5LM導轨 252 第7滑動件 300 第2驅動部 24 200946898As described above, the fixed slider _ includes the first fixed slider _, the second fixed slider, the third defeated slip, and the fourth (fourth) slip, and the i-th solid slider 810 is connected to the third slider The second fixed slider _ is connected to the nth slider 462. The third fixed slider 83 is disconnected from the 12th slider. The fourth fixed slider 830 is connected to the 14th slider 472. The first fixed slider (10) moves in the z-axis direction along the seventh rail 441, and the second fixed slider 820 moves the third fixed 2830 in the z-axis direction along the ninth rail 461 along the eighth guide to the X-axis. The direction moves, and the 4th fixed slide/movement moves toward the X-axis. Referring to 1 Η), in the case where the X-axis moving module and the γ-axis moving module do not interfere, the X-axis moving module 1 () () (4) i moving board _ and = moving board _ are provided on the upper side The movement of the γ-axis moving module and the fourth moving plate 610. 19 200946898 The guide rails 470 are spaced apart from each other by a certain distance in the z-axis direction. Therefore, the cypress moving core group 1 〇〇 and the Y-axis moving module 400 do not interfere with each other when moving. Hereinafter, the operation of the small-sized panel supporting device for the table for a display panel detecting device according to the present invention will be described in detail below. Referring to Fig. 1 to Fig. 1, the eve specification field device of the display station of the present invention is a four-figure fixed _ fixing of the panel. In order to detect a display panel of a specific size, the fixed slider 8GG is applied to fix the four corners of the display panel. The axis moving module (10) and the Y-axis moving module first describe the operation of the month X-axis moving module 1〇〇, so that the second fixed slider 810 and the second fixed slider 82 are located on the left side of the display panel. Rotate the first! The first drive motor 223 of the moving unit 200. When the first drive motor 223 rotates, the first screw 221 of the first ball screw 220 rotates, and the first load-bearing block rotatably coupled to the i-th screw 221 moves slightly along the first screw 221. At this time, the third moving plate 21A connected to the first load-bearing block 222 is guided by the first LM rails 23 provided on both sides and moved in the X-axis direction, and the ergo is placed on the upper portion of the first moving plate 210. The first fixed slider 810 and the second fixed slider of the Dirsch 250 are in contact with the left side of the display panel. When the first moving portion 2GG is operated, the first fixed slider _ and the second 20 200946898 fixed slider are moved, and the third fixed slider and the fourth fixed slider 84 are moved as the second moving portion 300 operates. . When the operation of the second moving unit 3 is described, the second drive motor 323 provided at the lower left end of the substrate 900 is operated, and the second screw 321 of the second ball screw 320 is operated. When the second screw 321 rotates, the second load-bearing block 322 rotatably provided on the second screw 321 moves along the second screw 321 , and the second moving plate 310 connected to the second load-bearing block 322 is flanked by the two sides. The second can guide 33 is guided to move toward the x-axis φ. At this time, the third fixed slider 830 and the fourth fixed slider 84A that are coupled to the sixth LM guide 350 provided on the second moving guide 34 of the second moving upper plate are in contact with the right side of the display panel. . Since the first moving unit 200 and the second moving unit 300 are operated as described above, the pick-up of the display panel to be detected and the right-side hitting of the second slider are fixed to the fourth fixed slider 840. ❹ The Y-axis movement module 400 # operates in the forward/reverse rotation of the third drive motor 430, and the power of the third drive motor 43 is transmitted to the third transmission case 41 through the drive pulley 431 and the transmission belt 432 and the driven pulley 433. That is, the second transmission case 420 connected to the first transmission case 410 receives the same power as the i-th transmission case 41 by the rotation shaft 411. The third transmission case 410 and the second transmission case 420 that have received the above-described power generated by the third drive motor 430 are rotatably disposed on the right side and the left side of the substrate 9A, and the third 21 200946898 ball screw cup 520 and the fourth ball The first part of the screw 620, the Q r half '^ screw ^ 521 and the fourth screw 621. When the third screw 521 and the fourth screw 621 are turned on, the third load bearing block 522 and the fourth weight block 522 of the fourth screw cup 521 and the fourth screw 621 can be respectively rotated to rotate: Block 622 and the sixth load bearing block move proximally or away from each other. At this time, the left side of the third moving plate 510 is fixed to the fifth bearing block 622 of the fourth ball screw, and the right side is fixed to the third bearing block of the third ball screw 52A, and the 4th moving plate (10) is also fixed to the left side. In the sixth load-bearing block of the fourth ball screwer, the right ball is fixed to the fourth load-bearing block 第 of the third ball screw 520. Therefore, when the third ball screw 520 and the fourth ball screw 620 are operated, the third movement is performed. The plate 51 and the fourth moving plate 610 move closer to each other or away from each other. In this manner, the third moving plate 510 and the fourth moving plate 610 are moved to the third fixed slider 810 and the third fixed slider 830 of the seventh LM rail provided on the third moving plate, and the display panel The second fixed slider 820 of the ninth LM guide 460 and the fourth fixed slider 840 of the first LM guide 470 which are provided on the fourth movable plate 61A are in contact with the lower side of the display panel. As a result, the first fixed slider 810 to the fourth fixed slider 840 move along with the X-axis movement module 1A and the γ-axis movement module 4A to fix the display panel. The multi-standard panel supporting device for the display panel detecting device of the present invention as described above is based on the substrate 900, and is the i-22 200946898 moving plate 210 and the second moving plate of the X-axis moving module 1〇〇. The end portion of the substrate 310 is moved by the first LM rail 230 and the second U rail 330 in the range of the substrate 900, and the field L 2 is bound to the L4 to prevent vibration from occurring during movement. Further, the third moving plate 510 and the fourth moving plate 610 are also as described above, and the ten-pass first moving end portions can prevent the running plate 210 and the second moving plate 310 from operating in the range of the substrate 900, and are guided by the third LM guide. The 530 and the 4th LM guide 630 are supported, so that vibration occurs during the line. Therefore, the multi-standard panel fulcing device of the work table for a display panel detecting device of the present invention has an advantage that its size is smaller than that of the conventional table. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a small-sized panel supporting device for a table for a display panel detecting device according to an embodiment of the present invention; FIG. 2 is a view showing a plurality of working tables for a display panel detecting device shown in FIG. FIG. 3 is a plan view of the X-axis moving module of the multi-standard panel supporting device of the display panel of the display panel of FIG. 1; FIG. 4 is a schematic view of the X-axis moving module of the multi-standard panel supporting device of the display panel; 3 is a schematic view of an X-axis moving module of a multi-standard panel supporting device for a display panel detecting device; FIG. 5 is an X-axis of a multi-standard panel supporting device for a working table for a display panel detecting device shown in FIG. A schematic diagram of a fixed slider is provided on the mobile module. 23 200946898 FIG. 6 is a schematic plan view of the y-axis moving module of the multi-standard panel supporting device of the working table for the display panel detecting device shown in FIG. 1; FIG. 8 is a perspective view of the y-axis moving module of the multi-standard panel supporting device of the display panel for the display panel shown in FIG. 6; FIG. 8 is a view showing the working of the display panel detecting device shown in FIG. The y-axis moving module of the multi-standard panel supporting device of the table is provided with a stereoscopic schematic diagram of the fixed slider; FIG. 9 is the X-axis of the multi-special panel supporting device of the working table for the display panel detecting device shown in FIG. FIG. 10 is a schematic plan view showing a multi-standard panel supporting device of the working table for the display panel detecting device shown in FIG. 9; FIG. 11 is a view showing the work involved in the prior art; A three-dimensional diagram of the station. 〇 [Main component symbol description] 1〇〇·_χ axis movement module 210 • First moving plate 221 : First screw 223 : First drive motor 231 : First guide rail 240 : Second slide guide 251 : 5th guide Rail 253: eighth slider 200 first driving portion 220 first ball screw 222 first load bearing block 230 first LM rail 232 first slider 250 fifth LM rail 252 seventh slider 300 second driving portion 24 200946898
310 :第1移動板 320 : 第2滾珠螺桿 321 :第2螺桿 322 : 第2承重塊 323 :第2驅動電機 330 : 第2LM導軌 331 ··第2導軌 332 : 第2滑動件 340 :第2滑動導轨 350 : 第6LM導轨 351 :第6導執 352 : 第9滑動件 353 :第10滑動件 400 : y軸移動模組 410 :第1傳動箱 411 : 轉動軸 420 :第2傳動箱 430 : 第3驅動電機 431 :驅動滑輪 432 : 傳動帶 433 :從動滑輪 440 : 第7LM導軌 441 :第7導轨 442 : 第11滑動件 450 :第8LM導軌 451 : 第8導執 452 :第12滑動件 460 : 第9LM導執 461 :第9導軌 462 : 第13滑動件 470 :第10LM導轨 472 : 第14滑動件 510 :第3移動板 520 : 第3滾珠螺桿 521 :第3螺桿 522 : 第3承重塊 523 :第4承重塊 530 : 第3LM導軌 531 :第3導軌 532 : 第3滑動件 533 :第4滑動件 610 : 第4移動板 25 200946898 620 :第4滾珠螺桿 622 :第5承重塊 630 :第4LM導轨 632 :第5滑動件 800 :固定滑塊 820 ·•第2固定滑塊 840 :第4固定滑塊 621 :第4螺桿 623 :第6承重塊 631 :第4導軌 633 :第6滑動件 810 :第1固定滑塊 830 :第3固定滑塊 900 :基板310: first moving plate 320: second ball screw 321 : second screw 322 : second load bearing block 323 : second drive motor 330 : second LM guide 331 · second guide 332 : second slide 340 : second Slide rail 350: 6LM guide 351: 6th guide 352: 9th slider 353: 10th slider 400: y-axis movement module 410: 1st gearbox 411: Rotary shaft 420: 2nd gearbox 430 : 3rd drive motor 431 : drive pulley 432 : drive belt 433 : driven pulley 440 : 7th LM guide 441 : 7th guide rail 442 : 11th slide 450 : 8th LM guide 451 : 8th guide 452 : 12th slide 460: 9LM guide 461: 9th rail 462: 13th slider 470: 10th LM rail 472: 14th slider 510: 3rd moving plate 520: 3rd ball screw 521: 3rd screw 522 : 3 load-bearing block 523: 4th load-bearing block 530: 3rd LM guide 531: 3rd guide rail 532: 3rd slide member 533: 4th slide member 610 : 4th moving plate 25 200946898 620 : 4th ball screw 622 : 5th load-bearing Block 630: 4th LM Guide 632: 5th Slider 800: Fixed Slider 820 ·• 2nd Fixed Slider 84 0 : 4th fixed slider 621 : 4th screw 623 : 6th load bearing block 631 : 4th guide rail 633 : 6th sliding member 810 : 1st fixed slider 830 : 3rd fixed slider 900 : Substrate