M352679 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種自動點燈測試設備,尤指一種用於 測試小尺寸液晶面板並加以分類的自動點燈測試設備。 【先前技術】 . 一般大尺寸液晶面板的價格較小尺寸液晶面板高,為 .了降低成本,會在進行設置驅動ic的作業之前,先對液晶 Φ面板作點燈測試’檢查液晶面板的好壞,如光點或亮線的 多募等’再依據檢測的數值進行液晶面板的分類,並淘汰 無法出貨的液晶面板’篩選合格的液晶面板則進行設置驅 動1C的作業。 其中’小尺寸液晶面板係指1至8吋的液晶面板,大 多應用於手機或數位相機上,且價格較低,因此在設置驅 動丨C的步驟前,不會特地對小尺寸液晶面板作點燈測試, 所以小尺寸液晶面板成品若在影像呈現品質達無法出貨的 9 程度’損耗的成本除了液晶面板之外,尚包括已設置在小 . 尺寸液晶面板上的驅動ic ’積少成多下,耗材成本成為製 造商的龐大負擔,因此降低此類成本支出是業界急於思考 解決的問題。 為了降低上述耗材成本的支出,便有人對尚未裝設|區 動丨C的小尺寸液晶面板進行檢測’其檢測方式係以人工的 方式對抽樣取出的小尺寸液晶面板 進行點燈測試,在 執行過程中耗費人力,且在人工檢查的方式上是不容易達 成統一檢測標準,人力成本是這個檢測站位最大的開銷, 3 M352679 仁疋在’又有自動化設備的前提之下,面板製造者必需要 全面性的做人工檢測。 【新型内容] 本訇作之主要目的在於提供一種用於小尺寸液晶面板 之自動點燈測試設備,希藉此設計,&善習用小尺寸液晶 面板耗材成本過高或人工成本過高的缺點。M352679 V. New Description: [New Technology Field] This creation is about an automatic lighting test equipment, especially an automatic lighting test equipment for testing and classifying small-size LCD panels. [Prior Art] . The price of a large-size LCD panel is relatively small, and the LCD panel is high. To reduce the cost, it is necessary to test the liquid crystal Φ panel before performing the operation of setting the drive ic. Bad, such as the spot or bright line of the multi-funding, etc., according to the value of the detection of the classification of the liquid crystal panel, and the elimination of the liquid crystal panel that can not be shipped 'screening qualified LCD panel, set the drive 1C operation. The 'small size LCD panel refers to a 1 to 8 inch LCD panel, which is mostly used in mobile phones or digital cameras, and the price is low. Therefore, before the step of setting the drive 丨C, the small-size LCD panel will not be specially made. Light test, so if the small-size LCD panel finished product can not be shipped at the same level of quality, the cost of loss is not only the liquid crystal panel, but also the drive that has been set on the small-size LCD panel. Under the cost of consumables has become a huge burden on manufacturers, so reducing such costs is an issue that the industry is eager to solve. In order to reduce the cost of the above-mentioned consumables, some people have tested the small-size LCD panel that has not been installed. The detection method is to manually test the small-size LCD panel that is taken out and sampled. The process is labor-intensive, and it is not easy to reach a unified inspection standard in the way of manual inspection. The labor cost is the biggest overhead of this inspection station. 3 M352679 Ren Hao is under the premise of 'automation equipment, panel maker A comprehensive manual test is required. [New content] The main purpose of this book is to provide an automatic lighting test device for small-size LCD panels, which is designed to & the disadvantages of high cost or high labor cost for small-size LCD panels. .
為達成前揭目的,本創作所設計之用於小尺寸液晶面 板之自動點燈測試設備,包含有: ,其上定義有一測試區,以及位 以及下載區,所述下載區定義有 ~具有控制器之機台 於該測試區兩端的上載區 數個分級區間; 至少—檢 之檢測裝置皆 板之測試載盤 板之檢測組件 至少—輸 出組件以及一 用以將承載待 ,該下载輪出 於各分級區間 下载區之間, 以及 測裝置’係設置於該機台之測試區中,所述 包括至少-可承載一片以上小尺寸型液晶面 ’以及至少—组可同時檢測一片以上液晶面 送裝置’纟包括一上载輪出組件、一下載輸 輸送組件,該上載輸出短件設於上載區處, 測液晶面板的面板裝載件逐一移送至上載區 組件設於下載區處’用以移送下載區中分位 的面板裝載件,該輸以件Μ於上載區與 用以將上載區的空面板骏载件移至下載區; —取置模組以及一第二 測試區鄰近上載區之一 至少—搬運裝置,其包括一第 取置模組’該第一取置模組裝設於 M352679 側用以將上載區面板裝載件上的待測液晶面板移送至測 減區的測試載顧:_ 科邊,該第二取置模組裝設於測試區鄰近下載區 t側’用以將測試區之測試載盤上完成測試的液晶面板 分別移送至下載區中指定分級區間的面板裝載件上。 又本創作所設計之用於小尺寸液晶面板之自動點燈 測試設備,包含有: 具有控制器之機台,其上定義有一測試區,以及位 鲁;°亥測11式區兩缟的上載區以及下載區,所述下載區定義有 數個分級區間; 至少一檢測裝置,係設置於該機台之測試區中,該檢 剛裝置包括至少一組可同時檢測一片以上液晶面板之檢測 詛件; 至少一輸送裝置,其包括一上載輪出組件、一下載輪 出組件以及一輸送組件,該上載輸出組件設於上載區處, 用以將承載待測液晶面板的測試载盤逐一移送至待測區, • 該下載輸出組件設於下載區處,用以移送下载區中分位於 . 各分級區間的測試載盤,該輸送組件係設於上載區與下載 區之間,用以將測試區的測試載盤移至下載區;以及 至少一搬運裝置,其包括有一取置模組,該取置模組 裝設於下載區之一側,用以將測試區之測試載盤上完成測 試的液晶面板分別移送至下載區中指定分級區間的測試载 盤上。 據上所述’本創作用於小尺寸液晶面板之自動點燈測 試設備係利用所述之檢測裝置、輸送裝置及搬運裝置,達 到自動化測試小尺寸液晶面板的功用,降低點燈測試中所 5 M352679 需要的人力,藉由自動化測試流程簡化測試的時間並提高 點燈測試進行的流暢性,此外,該自動點燈測試設備可檢 測每-片小尺寸液晶面板和確實分級,並確實淘汰瑕疲品 ,進而提高後續製程及成品的良率,並達到有效降低耗材 成本花費的目的,故本創作具有實用性且符合使用者與市 場上的需求。 - 【實施方式】 鲁 請參閱第一、二、四圖,為本創作用於小尺寸液晶面 板之自動點燈測試設備之數種較佳實施例,其包含有一機 台(1〇)、至少一檢測裝置(2〇)、至少一輸送裝置(30)及至 少一搬運裝置(40)。 具有控制益之機台(1 〇 ),其上定義有一測試區(1丄) 、一上載區(12)及一下載區(13),該上載區(12)及下载區 (13)分別位於該測試區(丨丨)兩侧,且該下載區(丨3)中定義 有數個分級區間(14 )。 # 所述之檢測裝置(2〇)係設置於該機台(1〇)的測試區 (11)中,每一檢測裝置(2〇)包括有至少一可承載一片以上 小尺寸型液晶面板之測試載盤(21 ),以及至少一組可同時 檢測一片以上液晶面板之檢測組件(22),所述之測試載盤 (21) 上設有至少一提供小尺寸液晶面板放置之容置部,且 所述之容置部與該測試載盤(21)的外側邊具有一定的距離 ’以便於該檢測組件(22)有空間對應,並對放置於容置部 中的小尺寸液晶面板進行點燈測試,其中,該檢測組件 (22) 可以為探針式的檢測組件(22),或為軟膠膜式的檢測 6 M352679 組件(22)。 其中’檢測結果的判冑可以利用操作人員現場觀看並 判斷,4,該檢測裝置⑽可增設一用於監看點燈測試結 果的鏡頭(23)(如第三、六圖所示),且該鏡頭(23)位於該 測试載盤(21)上方,可將點亮狀況送至一螢幕讓操作人員 判斷液晶面板的分級,或可利用視覺軟體直接進行分級。 ' 每一輪送裝置(30)包括有一上載輸出組件(31)、一下 載輸出組件(32)以及一輪送組件(33),該上載輸出組件 (31) 係設於上載區(12)處,用以將承載待測液晶面板的面 板裝載件(34)逐一移送至上載區(12),該下載輸出組件 (32) 設於下載區(13)處用以移送下載區(13)中分位於各 分級區間(14)的面板裝載件(34),該輸送組件(33)係設於 上載區(12)與下載區(13)之間,用以將上載區(12)的空面 板裝載件(34)移至下載區(13),其中,所述之面板裝載件 (34)可以為載盤或载盒。 籲 每一搬運裝置(40)包括一第一取置模組(41)以及一第 • 二取置模組(42) ’該第一取置模組(41)裝設於測試區(11) . 鄰近上載區(12)之一側,用以將該上載區(12 )面板裝載件 (34)上的待測液晶面板移送至測試區(11)的測試載盤 (21),該第二取置模組(42)裝設於測試區(π )鄰近下載區 (13)之一側’用以將測試區(U)之測試載盤(21)上完成測 試的液晶面板分別移送至下載區(13)中指定分級區間(14) 的面板裝載件(34)上,其中,該第一、第二取置模組(41 、4 2)可以為機械手臂的設計,且可藉由真空吸附的方式 吸取並搬移液晶面板。 7 M352679 請參閱第一、四圖所示,所述之檢測裝置(2〇)進一步 增設有一輸送模組(24),且所述之測試載盤(21)可移動地 設置於該輸送模組(24)上,另如第二圖所示,所述之檢測 裝置(20)具有一固定不動之測試載盤(21)。 另如第四圖所示,所述之檢測裝置(2〇)具有三個以上 的測試載盤(21)及一檢測組件(22),該些測試載盤(21)於 同一輸送杈組(24)上循環移動,其中,該檢測組件(22)對 其中一測试載盤(21)進行點燈測試時,其他測試載盤(21) 分別鄰近該上載區(12)及下載區(13),並可藉由該第一取 置模組(41)將該上載區(12)面板裝載件(34)中的小尺寸液 晶面板搬移至鄰近的測試載盤(21)中,且該第二取置模絚 (42)可將測試載盤(21)上已檢測過的小尺寸液晶面板進行 分類並放入該下載區(13)中的面板裝載件(34)上,該檢剛 裝置(20)藉由循環的方式可同時多方進行檢測、搬動與分 類的作業,提高工作效率。 請參閱第五、六圖所示,該用於小尺寸液晶面板之自 動點燈測試設備之另一較佳實施例,有一機台(1 〇A)、至 少一檢測裝置(20A)、至少一輸送裝置(30A)及至少—搬運 裝置(40A)。 該具有控制器之機台(1〇幻上定義有一測試區(11A), 以及位於§亥測試區(I丨A)兩端的上載區(1 2 A)以及下载區 (13A) ’所述下載區(13A)定義有數個分級區間(14a)。 所述之檢測裝置(20A)係設置於該機台(ι〇Α)之測試區 (11A)中’该檢測裝置(2 〇 a )包括至少一組可同時檢測—片 以上液晶面板之檢測組件(22A)。 8 M352679 、每輪送裝置(30A)包括一上載輸出組件(3iA)、一下 載輸出組件⑽)以及-輸送組件(33A),該上載輸出組件 :31A)設於上载區(12A)處’用以將承載待測液晶面板的測 試載盤(21A)逐-移送至測試區⑴A),該下載輸出組件 (32A)設於下载區(13A)處,用以移送下載區(i3a)中分位 於各分級區間(14A)的測試載盤(2U),該輸送組件(33a) -係設於上載區(12A)與下載區(13A)之間,用以將測試區 ,(11A)的測試载盤(21A)移至下載區(13A)。 鲁每一搬運裝置(40A)包括有-取置模組(41A),該取置 模組(41A)裝設於下載區(13A)之一側,用以將測試區 (11A)之測4载盤(21A)上完成測試之液晶面板分別移送至 下載區(13A)中指定分級區間(14A)的測試載盤(21A)上。 所述之檢測裝置(20A)可增設一用於監看點燈測試結 果的鏡頭(23A)(如第六圖所示且該鏡頭(23A)位於該測 試載盤(21A)上方,可將點亮狀況送至一螢幕讓操作人員 鲁判斷液晶面板的分級,或可利用視覺軟體直接進行分級。 其中,該取置模組(41A)係設置於該測試區(UA)鄰近 該下載區(13 A)處,承載小尺寸液晶面板的測試載盤(21 a ) 由該上載區(12A)移動至該測試區(UA),該檢測組件 (22A)對其進行點燈測試,並可利用人工或電腦自動化將 測試後的小尺寸液晶面板進行分類,檢測後的測試載盤 (21A)藉由該下載輸出組件(32A)移動近該下載區(13A), 並以該取置模組(4i A)將小尺寸液晶面板分別放入適當分 級區間(14A)的測試載盤(21A)上。 上述中,該自動點燈測試設備可將小尺寸液晶面板分 9 M352679 類成良品與淘汰品,或可以依照亮點或亮線的多寡分為A 、B、C三級以及淘汰品,此外,該檢測組件(22A)可以係 利用轉動下壓或直接下壓的方式對應測試載盤(21A)上的 小尺寸液晶面板,或該檢測組件(2 2 A )可以傾斜設置,且 測试載盤(21A )傾斜對應至該檢測組件(2 2 A )以進行點燈測 試。 - 綜上所述’本創作用於小尺寸液晶面板之自動點燈測 -試設備係利用上述之檢測裝置(20、20A)、輸送裝置(30、 > 30A)及搬運裝置(40、40A),達到小尺寸液晶面板之點燈 測試的自動化,進而節省人力,且自動化測試可提高點燈 測試進行的流暢性及縮短耗費的時間,又,該自動點燈測 試設備確實檢測每一片小尺寸液晶面板並依照品質作分級 ,可有效達到淘汰瑕疵品的目的,進而提高後續製程及成 品的良率,以及降低耗材成本花費,故本創作具有實用性 並符合經濟效益,且可促進產業上的利用。 【圖式簡單說明】 ί 第一圖.為本創作用於小尺寸液晶面板之自動點燈測 試設備之第一較佳實施例之俯視平面示意圖。 第一圖,為本創作用於小尺寸液晶面板之自動點燈測 試設備之第二較佳實施例之俯視平面示意圖。 第二圖·為本創作用於小尺寸液晶面板之自動點燈測 忒”又備之第較佳貫施例之後側視平面示意圖。 第四圖’為本創作用於小尺寸液晶面板之自動點燈測 試設備之第三較佳實施例之俯視平面示意圖。 M352679 第五圖:為本創作用於小尺寸液晶面板之自動點燈測 試設備之第四較佳實施例之俯視平面示意圖。 1 第六圖:為本創作用於小尺寸液晶面板之自動點燈測 試設備之第四較佳實施例之後側視平面示意圖。 【主要元件符號說明】 (10)機台 (12)上載區 (14)分級區間 (11A)測試區 (13A)下载區 (20)檢測裝置 (2 2)檢測組件 (11)測試區 (13)下載區 (10A)機台 (12A)上載區 (14A)分級區間 (21)測試載盤 (23)鏡頭 (24)輸送模組 (2 0 A )檢測裝置 (21A)測試载盤 (22A)檢測組件 (23A)鏡頭 (30)輸送裝置 (31)上載輸出組件 (3 2)下載輸出組件 (3 3)輸送組件 (3 4)面板裝載件 (30A)輸送裝置 (31A)上載輸出組件 (32A)下載輸出組件 (3 3 A)輸送組件 (40)搬運裝置 (41)弟一取置模組 (42)第二取置模組 (41A)取置模組 (40A)搬運裝置 11In order to achieve the pre-existing purpose, the automatic lighting test device for the small-size liquid crystal panel designed by the present invention comprises: a test area defined thereon, and a bit and a download area, the download area is defined with ~ control The machine platform has a plurality of grading intervals in the uploading area at both ends of the test area; at least the detecting device of the testing device is at least the detecting component of the test carrier board, at least the output component and one for carrying the load, the downloading wheel is out of Between each of the grading interval download areas, and the measuring device is disposed in the test area of the machine, the at least - can carry more than one small-sized liquid crystal surface 'and at least - the group can simultaneously detect more than one liquid crystal surface The device 纟 includes an uploading wheeling component, a downloading and conveying component, the uploading output component is disposed at the loading area, and the panel loading component of the liquid crystal panel is transferred one by one to the uploading zone component at the downloading area for transferring the downloading a panel loader in the middle of the zone, the input component is located in the uploading area and the empty panel carrying member for moving the loading zone is moved to the downloading area; And a second test area adjacent to one of the uploading areas, at least the carrying device, comprising a first pick-up module, the first pick-up mold is assembled on the M352679 side for the liquid crystal to be tested on the loading area panel loading member The test panel of the panel is transferred to the measurement and reduction zone: _ Kebian, the second modulo module is assembled in the test area adjacent to the download area t side to transfer the liquid crystal panels on the test tray of the test area to be tested respectively. Go to the panel loader that specifies the staging interval in the download area. The automatic lighting test device for the small-size liquid crystal panel designed by the present invention comprises: a machine with a controller, a test area is defined thereon, and a position tester; The area and the download area, the download area defines a plurality of grading intervals; at least one detecting device is disposed in the testing area of the machine, and the detecting device comprises at least one set of detecting elements capable of simultaneously detecting more than one liquid crystal panel At least one conveying device, comprising an uploading wheeling assembly, a downloading wheeling assembly and a conveying assembly, the loading and outputting component being disposed at the loading area for transferring the test carriers carrying the liquid crystal panel to be tested one by one to the The test area, the download output component is disposed at the download area for transferring the test carrier located in each of the grading intervals in the download area, and the transport component is disposed between the upload area and the download area for using the test area The test carrier is moved to the download area; and at least one handling device includes a take-up module assembled on one side of the download area for testing the test area The LCD panels that have completed the test on the carrier are transferred to the test trays of the specified grading interval in the download area. According to the above description, the automatic lighting test equipment for small-sized liquid crystal panels utilizes the above-mentioned detecting device, conveying device and carrying device to achieve the function of automatically testing small-sized liquid crystal panels, and to reduce the lighting test. M352679 requires manpower to simplify the testing time and improve the fluency of the lighting test by automating the testing process. In addition, the automatic lighting test equipment can detect each small-size LCD panel and the actual grading, and indeed eliminate fatigue. The product, in turn, improves the yield of subsequent processes and finished products, and achieves the purpose of effectively reducing the cost of consumables. Therefore, the creation is practical and meets the needs of users and the market. - [Embodiment] Please refer to the first, second and fourth figures, which are several preferred embodiments for the automatic lighting test equipment for small-size LCD panels, which include a machine (1〇), at least A detecting device (2), at least one conveying device (30) and at least one handling device (40). The control unit (1 〇) has a test area (1丄), an upload area (12) and a download area (13), and the upload area (12) and the download area (13) are respectively located There are several grading intervals (14) defined in the download area (丨3) on both sides of the test area (丨丨). # The detection device (2〇) is disposed in the test area (11) of the machine (1〇), and each detection device (2〇) includes at least one liquid crystal panel capable of carrying more than one small-sized liquid crystal panel. a test carrier (21), and at least one set of detecting components (22) capable of simultaneously detecting more than one liquid crystal panel, wherein the test carrier (21) is provided with at least one receiving portion for providing a small-sized liquid crystal panel. And the accommodating portion has a certain distance from the outer side of the test carrier (21) so as to have a space corresponding to the detecting component (22), and the small-sized liquid crystal panel placed in the accommodating portion is performed. The lighting test, wherein the detecting component (22) can be a probe type detecting component (22) or a soft film type detecting 6 M352679 component (22). The judgment of the detection result can be observed and judged by the operator on the spot, 4. The detection device (10) can add a lens (23) for monitoring the lighting test result (as shown in the third and sixth figures), and The lens (23) is located above the test carrier (21), and can send the lighting condition to a screen for the operator to judge the classification of the liquid crystal panel, or can be directly classified by the visual software. Each of the transfer devices (30) includes an upload output assembly (31), a download output assembly (32), and a transfer assembly (33). The upload output assembly (31) is disposed at the upload area (12). The panel loader (34) carrying the liquid crystal panel to be tested is transferred to the upload area (12) one by one, and the download output component (32) is disposed at the download area (13) for transferring the download area (13). a panel loading member (34) of the grading interval (14), the conveying assembly (33) being disposed between the loading area (12) and the downloading area (13) for loading the empty panel loading member of the loading area (12) 34) Moving to the download area (13), wherein the panel loader (34) can be a carrier or a carrier. Each of the handling devices (40) includes a first accommodating module (41) and a second accommodating module (42). The first accommodating module (41) is mounted in the test area (11) a test tray (21) for transporting the liquid crystal panel to be tested on the loading area (12) panel loading member (34) to the test area (11), one of the second side adjacent to the loading area (12), the second The accommodating module (42) is installed on the side of the test area (π) adjacent to the download area (13) to transfer the liquid crystal panels on the test tray (21) of the test area (U) to the download. In the panel (13), the panel loading member (34) of the grading interval (14) is specified, wherein the first and second accommodating modules (41, 42) can be designed as a robot arm, and can be vacuumed Absorb and remove the LCD panel. 7 M352679 Please refer to the first and fourth figures. The detection device (2〇) is further provided with a transport module (24), and the test carrier (21) is movably disposed on the transport module. (24) Further, as shown in the second figure, the detecting device (20) has a stationary test carrier (21). As shown in the fourth figure, the detecting device (2) has three or more test carriers (21) and a detecting component (22), and the test carriers (21) are in the same transport group (2). 24) an upper loop movement, wherein when the detecting component (22) performs a lighting test on one of the test trays (21), the other test trays (21) are adjacent to the uploading area (12) and the downloading area (13), respectively. And moving the small-sized liquid crystal panel in the loading area (12) of the loading area (12) to the adjacent test carrier (21) by the first accommodating module (41), and the The second pick-up module (42) can classify the small-sized liquid crystal panels that have been detected on the test carrier (21) and place them on the panel loader (34) in the download area (13). (20) By means of circulation, multiple inspection, moving and sorting operations can be performed at the same time to improve work efficiency. Referring to FIG. 5 and FIG. 6 , another preferred embodiment of the automatic lighting test apparatus for a small-sized liquid crystal panel has a machine (1 〇 A), at least one detecting device (20A), and at least one. Conveying device (30A) and at least - handling device (40A). The machine with the controller (1A is defined with a test area (11A), and the upload area (1 2 A) and the download area (13A) located at both ends of the § Hai test area (I丨A) The area (13A) defines a plurality of grading intervals (14a). The detecting device (20A) is disposed in the test area (11A) of the machine ("A"), and the detecting device (2 〇a) includes at least A set of detection components (22A) capable of simultaneously detecting more than one liquid crystal panel. 8 M352679, each of the transfer devices (30A) includes an upload output component (3iA), a download output component (10), and a transport component (33A). The upload output component: 31A) is disposed at the uploading area (12A) to transfer the test carrier (21A) carrying the liquid crystal panel to be tested to the test area (1) A), and the download output component (32A) is provided for downloading. At the area (13A), a test carrier (2U) located in each of the hierarchical sections (14A) is transferred to the download area (i3a), and the transport component (33a) is disposed in the upload area (12A) and the download area ( Between 13A), the test tray (21A) of the test area, (11A) is moved to the download area (13A). Each of the handling devices (40A) includes a pick-and-place module (41A) mounted on one side of the download area (13A) for testing the test area (11A). The liquid crystal panels that have been tested on the carrier (21A) are respectively transferred to the test carrier (21A) of the designated classification section (14A) in the download area (13A). The detecting device (20A) may add a lens (23A) for monitoring the lighting test result (as shown in the sixth figure and the lens (23A) is located above the test carrier (21A), and the point can be The bright condition is sent to a screen for the operator to judge the grading of the liquid crystal panel, or can be directly classified by using the visual software. The detaching module (41A) is disposed in the test area (UA) adjacent to the download area (13). A), a test carrier (21a) carrying a small-sized liquid crystal panel is moved from the loading area (12A) to the test area (UA), and the detecting component (22A) performs lighting test and can utilize artificial Or computer automation classifies the tested small-size LCD panel, and the tested test carrier (21A) moves near the download area (13A) by the download output component (32A), and uses the acquisition module (4i) A) Place the small-size LCD panels on the test tray (21A) of the appropriate classification section (14A). In the above, the automatic lighting test equipment can classify the small-size LCD panels into 9 M352679 into good and eliminated products. Or can be divided into A, B according to the number of bright spots or bright lines C level 3 and eliminated products, in addition, the detecting component (22A) can be corresponding to the small-sized liquid crystal panel on the test carrier (21A) by means of rotary pressing or direct pressing, or the detecting component (2 2 A) The setting can be tilted, and the test carrier (21A) is tilted to correspond to the detecting component (2 2 A ) for the lighting test. - In summary, the present invention is used for automatic lighting test of small-sized liquid crystal panel The equipment utilizes the above-mentioned detecting device (20, 20A), conveying device (30, > 30A) and carrying device (40, 40A) to achieve automation of lighting test of small-sized liquid crystal panel, thereby saving manpower and automating testing. It can improve the fluency of the lighting test and shorten the time spent. Moreover, the automatic lighting test equipment does detect each small-sized liquid crystal panel and grades according to the quality, which can effectively achieve the purpose of eliminating defective products, thereby improving the subsequent process. And the yield of the finished product, as well as the cost of consumables, so the creation is practical and economical, and can promote the use of the industry. [Simple description] ί Figure 1 is a top plan view of a first preferred embodiment of an automatic lighting test device for creating a small-sized liquid crystal panel. The first figure is the first automatic light test device for creating a small-sized liquid crystal panel. 2 is a schematic plan view of a second preferred embodiment of the present invention. The second figure is a schematic view of a side view of the preferred embodiment of the present invention. The present invention is a top plan view of a third preferred embodiment of an automatic lighting test device for a small-sized liquid crystal panel. M352679 Fig. 5: The fourth comparison of the automatic lighting test device for creating a small-sized liquid crystal panel A top plan view of a preferred embodiment. 1 Fig. 6 is a side plan view showing the fourth preferred embodiment of the automatic lighting test apparatus for creating a small-sized liquid crystal panel. [Description of main component symbols] (10) Machine station (12) Upload area (14) Classification section (11A) Test area (13A) Download area (20) Detection device (2 2) Detection component (11) Test area (13) Download area (10A) machine (12A) upload area (14A) classification section (21) test carrier (23) lens (24) transport module (20 A) detection device (21A) test carrier (22A) detection Assembly (23A) lens (30) conveying device (31) uploading output assembly (3 2) downloading output assembly (3 3) conveying assembly (3 4) panel loading member (30A) conveying device (31A) uploading output assembly (32A) Download output component (3 3 A) transport component (40) transport device (41) brother one take-up module (42) second pick-up module (41A) take-out module (40A) transport device 11