M3 59703 五、新型說明: . 【新型所屬之技術領域】 指一種直立式偏光片黏貼設備,特別是 兩侧面上的方式同時黏貼在直立傳輪的基板 【先前技術】 記憶:大,晴積縮小化、運算與影像處理即時化、 示哭:已逐輸速度高速化的趨勢下,陰極射線管顯 ί 代而淘汰,從桌上型監視器等大型顯示器 曰'^!^終端機之顯示器,均已採用液晶面板;因此,液 達到高亮度、低耗電性、高解析度等i 卓 ㈣來,不僅是電子計算機、筆記型電腦、 連電2腦勞幕、PDA和手機會運用到液晶顯示面板,就 顯示^豕電等具備未來潛力的產品,也都是液晶 {應用’使液晶顯示器將可望與人類生活緊密 、’、口口起來’成為日常生活中不可或缺的一部分。 液晶顯示H面板的關鍵點係在㈣光片(抓) 拓了,偏光片疋一種只允許某方向的光線才能透過的光 面夂站•作顯不器面板的過程中,必須在液晶包基板兩側 斑無雷=片’且成交錯方向置入,主要用途係在有電場 顯;二:光源產生相位差而呈現明暗的狀態,用以 然而’偏光片於完成前段生產過程後,皆會在表面黏 赤,離型膜’以保護偏光片表面之完整,並減少因碰撞 5且所產生的到傷或壓傷,且製造商在生產製造、包裝 M359703 及運送上投入大量的人力與金錢,目的無非為了讓偏光片 具有一個完整無刮傷的表面,使其所屬的產品可以完整的 送至客戶或消費者手上;如此,當偏光片欲進行後段加工 或處理時,則需先將偏光片表面之離型膜剝離,且偏光片 於加工時需要無任何灰塵或雜質表面,所以剝除離型膜之 加工步驟皆在無塵室内進行。 - 而'一般彩色液晶顯不斋具有由液晶、定向膜、透明電 . 極、彩色遽光片等失在中間的玻璃基板構成的液晶早元基 • 板;設置在液晶單元基板的第一主表面側與第二主表面側 (即分別為彩色濾光片CF面側及薄膜電晶體TFT面側) 的偏光片。而其製造工序需要經過薄膜電晶體TFT陣列工 序、彩色濾光片製造工序、單元組裝工序、模組組裝工序 等各種工序,而其中就有將偏光片黏貼到液晶單元基板上 去的工序。 - 偏光片黏貼工序是在液晶單元組裝工序之後進行,為 了將偏光片配置在液蟲單元基板的第一主表面側,使黏貼 ❿ 在偏光片的某一個表面上的黏接層露出,因而要將離型膜 從偏光板上剝離下來;之後,使被吸附固定在保持工作台 上的偏光片相液晶單元基板的一側傾斜,邊以黏貼報進行 - 液晶單元基板以及偏光片的輸送,邊經偏光片2緊密貼合 . 在液晶單元基板的第一主表面(CF面)上;之後將液晶單 元基板翻轉過來5將偏光片同樣地黏貼在液晶早元基板的 第二主表面(TFT面)上。 如上所述,液晶早元基板上偏光片的黏貼是在使液晶 單元基板成平面狀配置的狀態下,一邊進行輸送一邊將偏 光片黏貼到第一主表面上,之後將液晶單元基板翻轉過 :M359703 來同樣,邊進行輸送一邊將偏光片黏貼到第二主表面 上三=在製造生產過程中,偏光片必須經由人工搬運搭配 1 ▼夕-人的分段運送、加工,且每一次加工處理程序停 留1機的_亦較長,即會造成㈣續、間斷作業而耗費 工时,無法有效縮短加工時程;再者,因為偏光片於分段 .、、'非連、戈作業時,容易沾黏灰塵或雜質,所以使顯示 • 裔面板表面貼合偏光片後之成品瑕疵率大幅增加,甚至因 . 此,術瓶頸而嚴重影響生產製造的品質與良率;如以目前 • 1價=為高昂且精緻、細腻度要求愈來愈大的液晶面板而 言,當成品瑕疵率無法降低,其成品售價及大量生產上之 種種因素,皆會使整體附加價值大幅降低,亦相對地提高 生產、製造成本。 因此,要如何解決上述習知的缺失,即為本創作亟欲 改善的方向。 【新型内容】 目此,本創作的目的係在於解決上述問題而提供一種 H由偏光片直立裝置與偏光片黏貼裝置,將偏光片以直立 的方式同時黏貼在直立傳輸的基板兩側面上,以縮短加工 時私,並提咼生產良率及降低成本的偏光片黏貼設備。 • 故,為達上述目的,本創作係提出一種直立式偏光片 黏貼設備,用以將二偏光片同時地分別黏貼在一液晶單元 基板的第一主表面側及一第二主表面側,該設備包括: 用以將在直立狀態下的該液晶單元基板朝一傳輸方向上的 一傳輸路徑以進行傳輸的一基板直立傳輸裝置,該傳輸方 向係與該液晶單元基板的一,度方向平行;用以將該等偏 M359703 偏光片轉成垂直直立。 ±較佳者,該第—偏光片黏貼裝置與該第二偏光片黏貼 . 裝置各自的四個側面,各設置有一框架組件以及一偏光片 —保持工作台’该偏光片保持工作台係用以將該偏光片保持 在該框架組件。 較佳者在各自偏光片黏貼裝置的該剝離工序位置配 -置有-剝離機構,用以將保持在該偏光片保持工作台的該 偏光片上的該離型膜剝離。 • 車乂佳者„亥第一偏光片黏貼裝置與該第二偏光片黏貼 裝置的各自該黏貼工序位置設置有一傾斜驅動機構,用以 使各,偏光片保持工作台以該液晶單元基板的該輸送方向 上的前端側,接近該液晶單元基板的方式作傾斜。 >本創作上述之目的及優點’不難從下述所選用實施例 之詳細說明與附圖中,獲得深入瞭解。 田然,補作在某些另件上,或另件之安排上容許有 戶不同,但所選用之實施例,則於本說明 • 說明,並於附圖中展示其構造。 【實施方式】 —關於本創作藉以達到上述目的之技術手段,兹以下列 =配合®示於下文料細說明,俾令肖上深入瞭解 明參考圖1,係表不本創作—較佳實施例的配置圖。 的直立式偏光片黏貼設備丨係包括—基板直立傳 f R —偏以立域置3、4以及二偏光片黏貼裝置 一液料元基板G係基板直立傳輸裝置2朝-傳輸 M359703 方=傳輸路徑P上以進行傳輸,二偏光片立起裝置3、 = 又在傳輪路徑P的兩側,且鄰近傳輸路徑p的入口 晉3 偏光片黏貼裝置5、6係相對二偏光片立起裝 ΐ口端p:置在傳輸路徑P的兩側’且鄰近傳輸路徑P的 、,請同時參考圖2,係表示本創作偏光片立起裒置將偏 光片傳輸到偏光片黏貼裝置的側視圖。偏 、置 4的結構相同,且偏光片黏貼裝置5、6結構相同H二 以偏ίΐΐ起裝置3及偏光片黏貼裝置5進行詳細敘述。 為限.偏裝置3係可為-真空謂單元,但不以此 /置3係將水平置放的偏光片&以真空 而1直立狀ί朝偏光片黏貼裝置5傳輸的同時轉成垂直 光片偏光片PL以垂直直立的狀態傳輸到偏 尤月黏貼裝置5的接受工序位置S51。 黏貼?3及圖4,係分別表示本創作偏光片 。2=:前及黏貼動作時的立體圖。偏光片黏 起白t、i曰單=向A1旋轉的一旋轉輛5a,係與立 拳置:C的立起面平行,相同地,偏光片黏貼 ti曰單:?向Α2旋轉的-旋轉轴6a,係與立起 的液日日早兀基板C的立起面平行。 /光片黏貼裝置5具有以旋轉軸5a為中心旋轉而配 ’在/、四個側面各具有—框架组件51,在—驅動裝 二_下,從液晶單元基板c的輸送方向:的入: 口口端P〇看過去,係以逆時針方向(第一旋轉方 :Ai _,如90度為—旋轉步距進 組件W的四個側面上分別設置有一偏光片保持 M359703 52、53、54、55,用以對偏光片PL進行保持。 在各偏光片保持工作台52、53、54、55上設置有用以 吸附偏光片PL的多個吸附孔。而為了在各偏光片保持工作 台52、53、54、55位於偏光片黏貼工序位置S53的狀態下, 將被吸附的偏光片保持工作台52、53、54、55上的偏光片 PL黏貼到相向的液晶單元基板C的第一主表面上,即設置 有一傾斜驅動機構,用以使各偏光片保持工作台52、53、 54、55進行傾斜動作而使其在液晶單元基板C的輸送方向 • 上的前端侧與液晶單元基板C接近。而在將偏光片PL黏貼 到液晶單元基板C的第一主表面上時,黏貼輥R即跟隨液 晶單元基板C的輸送速度進行旋轉,依次將偏光片PL黏貼 到液晶單元基板C的第一主表面上。 相同地,偏光片黏貼裝置6具有以旋轉軸6a為中心旋 轉而配置,在其四個側面各具有一框架組件61,在一驅動 裝置(圖未示)的驅動下,從液晶單元基板C的輸送方向 A的入口端PI向出口端P0看過去,係以順時針方向(第 φ 二旋轉方向A2)旋轉,並以90度為一旋轉步距進行控制, 在框架組件61的四個側面上分別設置有一偏光片保持工 作台62、63、64、65,用以對偏光片PL進行保持。 在各偏光片保持工作台62、63、64、65上設置有用以 吸附偏光片PL的多個吸附孔。而為了在各偏光片保持工作 台62、63、64、65位於偏光片黏貼工序位置S63的狀態下, 將被吸附的偏光片保持工作台62、63、64、65上的偏光片 PL黏貼到相向的液晶單元基板C的第二主表面上,即設置 有一傾斜驅動機構,用以使各偏光片保持工作台62、63、 64、65進行傾斜動作而使其在液晶單元基板C的輸送方向 M359703 液晶單域板c接近。而在將偏光片pL黏貼 曰單:的弟二主表面上時,黏貼輥R即跟隨液 板c的輸送迷度進行旋轉’依次將偏光片pL黏貼 到/夜日日早兀基板C的第二主表面上。 咖裝置5、6更具有—卿J:'序位置S52、 6將偏光m 裝置(圖未示)’當偏光片黏貼裝置5、 將為先# PL由剥離工序位置微、⑽旋轉至待 ^置S54、S64時’即可將在偏光片PL上的離型膜予以剝 :黏=旋轉至黏貼工序位跡—^ 當偏光片PL由偏光片立起裝置3、4 (如圖】所示) 分別傳輸到偏光片黏貼裝置5、6的接收 時,偏光片黏貼裝置5、6即各自以笛A bl 一 4且j 0叫谷自以弟一旋轉方向A1及第 二旋轉方向A2旋轉90度到剝離工序位置沾2、邡2,藉由 剝離裝置使偏光片黏貼裝置5、6再各自以第—旋轉方向 A1及第二旋轉方向A2旋轉9〇度到待機工序位置沾4、8料 的過程中’進行偏光片PL離型膜的剝離;最後,偏光片黏 貼裝置5、6再各自以第一旋轉方向A1及第二旋轉方向八2 旋轉90度到黏貼工序位置咖、咖_,即驅動傾斜機構 ,黏貼輕R’使已_離型膜的偏光片孔分別黏貼到液晶 單元基板C的第一主表面及第二主表面。 因此,藉由上述的結構,以偏光片立起裝置於偏光片 傳輸同時進行垂直直立的卫序,再以偏光片黏貼裝置的旋 轉方式在一疋點完成偏光片接收、剝離以及黏貼的工序, ,在液晶單元基板的兩側面同時進行偏光片的黏貼,不但 能縮減加工時程,減少傳輸時所造成的不良與瑕疵,進而 M359703 提高良率,降低製造及生產成本。 以上所述實施型態之揭示係用以說明本創作,並非用 以限制本創作,故舉凡數值之變更或等效元件之置換仍應 隸屬本創作之範疇。M3 59703 V. New description: . [New technical field] refers to an upright polarizer bonding device, especially the method of simultaneously adhering to the substrate of the vertical bearing on both sides of the surface. [Prior Art] Memory: Large, clear and shrink Realization, calculation and image processing, instantness, crying: Under the trend of high-speed transmission speed, the cathode ray tube is eliminated and replaced, from large monitors such as desktop monitors, 曰'^!^ terminal display, LCD panels have been used; therefore, the liquid achieves high brightness, low power consumption, high resolution, etc. (4), not only electronic computers, notebook computers, connected computers, PDAs, and mobile phones. The display panel displays products with future potential, such as ^豕电, and also the LCD {application' makes the liquid crystal display will be expected to be close to human life, 'mouth, mouth' becomes an indispensable part of daily life. The key point of the liquid crystal display H panel is in (4) light film (grab) extension, polarizer film, a light surface station that only allows light in a certain direction to pass through. In the process of making a panel, it must be in the liquid crystal substrate. The side spot is free of thunder = piece 'and is placed in a staggered direction. The main purpose is to have an electric field. Secondly, the light source produces a phase difference and shows a light and dark state. However, the polarizer will be in the production process before the completion of the production process. The surface is red, the release film' protects the integrity of the surface of the polarizer, and reduces the damage or crush caused by the collision 5, and the manufacturer puts a lot of manpower and money on the manufacturing, packaging M359703 and transportation. The purpose is nothing more than to make the polarizer have a complete and scratch-free surface, so that its products can be completely delivered to the customer or the consumer; thus, when the polarizer is to be processed or processed in the latter stage, the polarized light needs to be polarized first. The release film on the surface of the sheet is peeled off, and the polarizer requires no dust or impurity surface during processing, so the processing steps of stripping the release film are performed in a clean room. - And 'the general color liquid crystal display does not have a liquid crystal early-based base plate composed of a liquid crystal, an alignment film, a transparent electric pole, a color light-emitting sheet, etc., which is formed in the middle; a first main body disposed on the liquid crystal cell substrate A polarizer on the surface side and the second main surface side (that is, the color filter CF surface side and the thin film transistor TFT surface side, respectively). The manufacturing process requires a process such as a thin film transistor TFT array process, a color filter manufacturing process, a cell assembly process, and a module assembly process, and a process of adhering the polarizer to the liquid crystal cell substrate. - the polarizer attaching step is performed after the liquid crystal cell assembly step, and in order to dispose the polarizer on the first main surface side of the liquid worm unit substrate, the adhesive layer adhered to one surface of the polarizer is exposed, thereby The release film is peeled off from the polarizing plate; after that, one side of the liquid crystal cell substrate to be adsorbed and fixed on the holding table is tilted, and the liquid crystal cell substrate and the polarizer are transported while being adhered. The polarizer 2 is closely adhered to the first main surface (CF surface) of the liquid crystal cell substrate; then the liquid crystal cell substrate is turned over 5 and the polarizer is similarly adhered to the second main surface of the liquid crystal early substrate (TFT surface) )on. As described above, in the state in which the polarizer of the liquid crystal cell substrate is placed in a planar state, the polarizer is adhered to the first main surface while being conveyed, and then the liquid crystal cell substrate is turned over: M359703 Similarly, the polarizer is adhered to the second main surface while being conveyed. 3. In the manufacturing process, the polarizer must be transported by hand, and the processing of each step is performed. The program stays 1 machine _ is also longer, which will cause (four) continuous, intermittent operation and labor time, can not effectively shorten the processing time; further, because the polarizer is in the segmentation,, 'non-connected, Ge work, easy Sticking to dust or impurities, the yield of finished products after the surface of the display panel is attached to the polarizer is greatly increased, and even because of this, the bottleneck seriously affects the quality and yield of the manufacturing; for example, the current price = For LCD panels that are high, delicate, and delicate, and require more and more, when the yield of the finished product cannot be reduced, the price of the finished product and various factors in mass production will make Body added value greatly reduced, but also relatively increased production and manufacturing costs. Therefore, how to solve the above-mentioned lack of conventional knowledge is the direction for the creative desire to improve. [New content] Therefore, the purpose of the present invention is to solve the above problems and provide a polarizing device for polarizing sheets and a polarizing plate for attaching the polarizing film to the both sides of the substrate for upright transmission at the same time in an upright manner. Reduce the flexibility of processing, and improve the production yield and cost reduction of polarizer bonding equipment. Therefore, in order to achieve the above object, the present invention proposes an upright polarizer bonding device for simultaneously bonding two polarizers to a first main surface side and a second main surface side of a liquid crystal cell substrate, respectively. The device includes: a substrate vertical transmission device for transmitting the liquid crystal cell substrate in an upright state to a transmission path in a transmission direction, the transmission direction being parallel to a one-degree direction of the liquid crystal cell substrate; Turn the partial M359703 polarizer into a vertical upright. Preferably, the first polarizer bonding device is adhered to the second polarizer. Each of the four sides of the device is provided with a frame assembly and a polarizer-holding table. The polarizer is used to hold the table. The polarizer is held in the frame assembly. Preferably, a peeling mechanism is disposed at the peeling step of the respective polarizer attaching means for peeling off the release film held on the polarizer of the polarizer holding table.乂 者 „ 亥 亥 亥 亥 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一The front end side in the transport direction is inclined in a manner close to the liquid crystal cell substrate. The above-mentioned objects and advantages of the present invention are not difficult to understand from the detailed description of the selected embodiments and the drawings below. , supplements may allow different households on certain parts, or arrangements of parts, but the selected examples are described in the description and in the drawings. [Embodiment] - About this The technical means by which the above-mentioned objects are achieved by the following is indicated by the following = Couplings, which are explained in detail below with reference to FIG. 1, which is a schematic diagram of the configuration of the preferred embodiment. Polarizing film bonding equipment includes: substrate vertical transmission f R - partial field setting 3, 4 and two polarizer bonding device - liquid material substrate G system substrate vertical transmission device 2 toward - transmission M359703 Square = transmission path P for transmission, two polarizer erecting devices 3, = on both sides of the transmission path P, and adjacent to the transmission path p, the entrance of the polarizer bonding device 5, 6 is relative to the two polarizers The erecting port end p: is disposed on both sides of the transmission path P and adjacent to the transmission path P, please refer to FIG. 2 at the same time, which indicates that the polarizing plate is erected to transmit the polarizer to the polarizer bonding device. The side view of the polarizer and the polarizer bonding device 5 and the structure of the polarizer bonding device 5 are described in detail. The vacuum is a unit, but the polarizer & which is placed horizontally without this is placed in a vacuum and 1 upright, and is transferred to the vertical sheet polarizer PL while being vertically erected while being transported toward the polarizer attaching device 5. It is transferred to the receiving process position S51 of the partial moon bonding device 5. Adhesive 3 and Fig. 4 respectively show the polarizing plate of the present invention. 2=: a perspective view of the front and the pasting action. The polarizing plate is whitened, i. = a rotating car 5a rotating to A1, which is parallel to the vertical punch: C's rising face Similarly, the polarizer is adhered to the θ : : : 旋转 旋转 旋转 旋转 旋转 旋转 旋转 旋转 旋转 旋转 旋转 旋转 旋转 旋转 / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / / The center rotates with the 'frame assembly 51' on each of the four sides, and the drive unit 2 is driven from the direction of the liquid crystal unit substrate c: the mouth end P〇 is counterclockwise The direction (the first rotation side: Ai _, such as 90 degrees is - the rotation step of the four sides of the assembly W is respectively provided with a polarizer holding M359703 52, 53, 54, 55 for holding the polarizer PL. A plurality of adsorption holes for adsorbing the polarizer PL are provided on the respective polarizer holding stages 52, 53, 54, and 55. In order to position the polarizer sustaining stages 52, 53, 54, 55 at the polarizer attaching step S53, the polarizer PL on the adsorbed polarizer holding stages 52, 53, 54, 55 is pasted to On the first main surface of the opposite liquid crystal cell substrate C, a tilt driving mechanism is provided for causing each of the polarizer holding stages 52, 53, 54, 55 to be tilted to be in the transport direction of the liquid crystal cell substrate C. • The front end side of the upper side is close to the liquid crystal cell substrate C. When the polarizer PL is adhered to the first main surface of the liquid crystal cell substrate C, the adhesive roller R is rotated following the transport speed of the liquid crystal cell substrate C, and the polarizer PL is sequentially pasted to the first main body of the liquid crystal cell substrate C. On the surface. Similarly, the polarizer attaching device 6 is disposed to rotate around the rotating shaft 6a, and has a frame assembly 61 on each of its four sides, driven by a driving device (not shown), from the liquid crystal cell substrate C. The inlet end PI of the conveying direction A is viewed from the outlet end P0, rotated in the clockwise direction (the second φ rotation direction A2), and controlled by a rotation step of 90 degrees, on the four sides of the frame assembly 61. A polarizer holding table 62, 63, 64, 65 is provided to hold the polarizer PL, respectively. A plurality of adsorption holes for adsorbing the polarizer PL are provided on the respective polarizer holding stages 62, 63, 64, and 65. In order to position the polarizer sustaining stages 62, 63, 64, 65 at the polarizer attaching step S63, the polarizer PL on the adsorbed polarizer holding stages 62, 63, 64, 65 is pasted to On the second main surface of the opposite liquid crystal cell substrate C, a tilt driving mechanism is provided for causing each of the polarizer holding stages 62, 63, 64, 65 to be tilted to be in the transport direction of the liquid crystal cell substrate C. M359703 LCD single domain board c is close. When the polarizer pL is pasted on the main surface of the second member, the adhesive roller R is rotated following the conveyance of the liquid plate c. The adhesive sheet pL is sequentially pasted to the front of the substrate C. On the main surface. The coffee machine 5, 6 further has - Qing J: 'sequential position S52, 6 polarized m device (not shown) 'When the polarizer bonding device 5, will be the first #PL from the peeling process position micro, (10) rotated to be ^ When S54 and S64 are set, the release film on the polarizer PL can be peeled off: sticky = rotated to the adhesive process track - ^ when the polarizer PL is erected by the polarizer 3, 4 (as shown) When respectively transmitted to the polarizer bonding devices 5, 6, the polarizer bonding devices 5, 6 are each rotated by a flute A bl 4 and j 0 is called a valley rotation direction A1 and a second rotation direction A2 90 To the position of the peeling process, 2, 邡2, the polarizing film sticking devices 5, 6 are rotated by 9 degrees in the first rotation direction A1 and the second rotation direction A2 to the standby process position. During the process of performing the peeling of the polarizing film PL release film; finally, the polarizer bonding devices 5 and 6 are respectively rotated by 90 degrees in the first rotation direction A1 and the second rotation direction 八2 to the pasting process position coffee, coffee _, That is, the tilt mechanism is driven, and the light R' is adhered to adhere the polarizer holes of the _ release film to the liquid crystal cell substrate C, respectively. A main surface and a second major surface. Therefore, according to the above configuration, the polarizer is erected on the polarizer to simultaneously perform the vertical upright order, and then the polarizer is rotated, and the polarizer is received, peeled, and pasted at a point. Simultaneous bonding of the polarizers on both sides of the liquid crystal cell substrate not only reduces the processing time, but also reduces the defects and defects caused by the transmission, and the M359703 improves the yield and reduces the manufacturing and production costs. The above description of the embodiments is intended to be illustrative of the present invention and is not intended to limit the present invention, so any change in value or replacement of equivalent elements should still fall within the scope of the present invention.
11 M35970311 M359703
式簡單說明】 - 係表示本創作一較佳實施例的配置圖; 乍偏光片立起裝置將偏光片傳輸到偏 光片黏貼裝置的側視圖; 係表示本創作偏光片黏貼裝置於黏貼動作前的立 體圖;以及 係表不本創作偏光片黏貼裝置於黏貼動作時的立 主要元件符號說明】 1 直立式偏光片黏貼設備 2 基板直立傳輸裝置 3 偏光片立起裝置 4 偏光片立起裝置 5 偏光片黏貼裝置 5a 旋轉軸 51 框架組件 52 偏光片保持工作台 53 偏光片保持工作台 54 偏光片保持工作台 55 偏光片保持工作台 6 偏光片黏貼裝置 6a 旋轉軸 61 框架組件 62 偏光片保持工作台 63 偏光片保持工作台 12 M359703BRIEF DESCRIPTION OF THE DRAWINGS - a configuration diagram showing a preferred embodiment of the present invention; a side view of the polarizing plate erecting device for transmitting the polarizer to the polarizing film pasting device; Three-dimensional diagram; and the main component symbol description of the polarizing film sticking device in the pasting action] 1 vertical polarizer sticking device 2 substrate upright transfer device 3 polarizer stand up device 4 polarizer stand up device 5 polarizer Adhesive device 5a Rotary shaft 51 Frame assembly 52 Polarizer holding table 53 Polarizer holding table 54 Polarizer holding table 55 Polarizer holding table 6 Polarizing plate bonding device 6a Rotating shaft 61 Frame assembly 62 Polarizing plate holding table 63 Polarizer holding table 12 M359703
64 偏光片保持工作台 65 偏光片保持工作台 A 傳輸方向 A1 第一旋轉方向 A2 第二旋轉方向 C 液晶單元基板 P 傳輸路徑 PL 偏光片 PI 入口端 PO 出口端 S51 接受工序位置 S52 剝離工序位置 S53 黏貼工序位置 S54 待機工序位置 S61 接受工序位置 S62 剝离_工序位置 S63 黏貼工序位置 S64 剝離工序位置 1364 Polarizer holding table 65 Polarizer holding table A Transmission direction A1 First rotation direction A2 Second rotation direction C Liquid crystal unit substrate P Transmission path PL Polarizer PI Entrance end PO Exit end S51 Accepting process position S52 Peeling process position S53 Adhesion process position S54 Standby process position S61 Acceptance process position S62 Peeling_Process position S63 Adhesion process position S64 Peeling process position 13