1324696 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種入口裝置,尤指一種老化室之入口裝置,其可有效 隔絕老化室之内外空氣流通而節省能源並提升老化測試效率。 【先前技術】 按’液晶顯示器(LCD,Liquid Crystal Display)的生産製程通常包括前 段的陣列(Array)製程、中段的組立(Cell)製程及後段的模組(Module)製程。 在後段的模組製程中’已組立的液晶面板搭配驅動1C及電路板,並與背光 源與鐵框組裝而成爲一液晶模組。上述模組製程的整個製程都必須在一無 塵室内的模組生產線上進行,以避免雜質進入液晶模組而影響成品品質。 由於模組製程之需要,該無塵室被設定爲一恒溫、恒壓、恒濕環境,室内 溫度通常設定爲25攝氏度。 ‘液曰曰模組組裝完成後’其需置放於一老化室(Aging R〇〇m)内進行老介 測試(Bum-inTest)。所謂老化測試(或稱爲崩應測試)是指在通電及高選 的狀態或條件下,測試液晶面板成品的極限,因為在長時間之高溫作用下 可使成品原本需要在一至二年的時間才可能發生之缺陷,能在幾小時至幾 天之短時_提早舰。如此,—方面可测試條件與職結果間探知裳 程:所可錄生之問題’另一方面亦得篩選出品質不良的產品,使售出之 産tm維持其一定之品質。液晶模組下線並經過初步調試運行基本正常後, 其被置設於溫度爲5〇攝氏度左右⑷〜%攝氏度)之老化室内並於㈣ 小時内不斷補示畫面峨,明試産品之耐祕等性能。 、 、古3用之老化測試纽而言’係湘—自動輸送帶將液晶模組自益塵 ΞΐϊΓΐΙ化⑼,使絲晶模組在該老紅之高溫環境下進行i時 塵=所示,該老化室爲一具有適#畴空間之建築物,其 液日曰模組私至老化室内,且該待·晶模組係放胁輪送帶上之載具上。 5 惟,在運送液晶模組經過無塵室與老化室之間的該開口 80時,容易發 生如第1圖之兩箭頭所示,老化室的内外空氣產生對流現象。這是因為無 塵室是^溫度奴爲25攝氏度左右且祕鱗較大的—恒舰溫環境, 而老化室爲-個溫度高達5〇攝氏度左右但縫相對較小的—健高溫環 境,故兩者之存在—縫差及溫度差。在運猶晶做進人該開口 80 時由於泄壓的作用’會使無塵室内的冷空氣流入老化室内而降低老化室 的内部恤度’甚至低於所設定之最低測試溫度,而影_受麻晶模組之 老化測試效率與準雜;同時,爲使老化㈣之溫度縣在__設定範圍内, 必2不騎地提供騎、使老化室⑽空調加熱運行,若冷空氣流入老化室 内就會降低老化室的崎溫度,從硫費麟。相對的,老化室内的教空 氣亦會流it無塵",辦無塵錄溫或綠或棘環_,轉,而造 無謂的能源浪#。 是故’習用之老化室開口設計在使用上存有一定之不便與缺陷因此 極有必要設計-種新的老化室人口裝置,以纽_老化室崎之空氣流 通0 【發明内容】 為解決前關題,本發明之目的在於提供_種老化室之人口裝置 在不影響液晶模組之生產線正常運行之前提下,可將老化室内輕氣進行 t限度之隔斷,防止老化室内熱空氣的外泄和外部冷空氣的流入,從而 節省能源並提升老化測試效率。 為達到上述㈣目的,本㈣提供__種老化室之人σ裝置其包含位 於同-橫向中心線上的兩個相對設置之旋轉主體^每—旋轉主體具有一旋 =、至少-凸輪、至少-抵接件以及複數個門面。該旋轉轴相對於該橫 向中心線呈縱向設立以帶動旋轉主體旋轉α輪設於該旋轉軸之至少 部上且該战之側邊分佈複__。抵齡胁健贴輪。 門面係以職轉軸為中心呈放射狀湖U面之-猶接於該旋轉 軸。當入Π裝置處於1合狀態時’該抵接魏接該兩_主體之該凸輪 ,凹槽’限制該兩旋轉主趙的其中各—π面的相對側相互抵靠而隔絕入口 裝置之内外空氣流通。當人口裝置處於―開啓狀態以供—载具進入時,該 兩相對門_各前述相對側皆與該載具側緣保持接合以隔職人口裝置之 内外空氣流通。 依據本發批較佳實補,贴輪_概與每__雖主體的門面數 相等’且該哺的設置位置與朗面相雌雜的分雜置姆應。較佳 =,該凸輪包含-上凸輪及-下凸輪分別設置於該旋轉軸之上下端部。該 每-旋轉軸_心線與該凸輪的中心線同方向,且該兩旋轉轴相隔一特定 間距。 該旋轉主體的門面數量與該載具的縱向侧緣尺寸成一反比關係。依據 t發明之觀實酬’每-_主含呈9G度角度分祕置的四個門面 或呈120度角度分隔配置的三個門面。 本發明之人π裝置進-步包含—外殼壁,該外殼壁設置於該兩旋轉主 體的週邊且包含相對配置的兩弧形壁。該弧形壁之弧度不小於如度。每一 門面上下端緣及與該弧形壁接觸的侧緣皆設有密封體。 依據本_之較佳實_ ’魏接件包含—接卿及—彈簧串設於該 接觸部之-端。當人α裝置處糊合狀麟,減接魏接細旋轉主體 之該凸輪的凹槽’限制該兩旋轉主體的前述相對側皆位於該橫向中 上。而當人口裝置處於開啓狀態時,位於該橫向中心線上的兩旋轉主體 兩相對門面受該載具推動而各自以其旋轉轴爲_心作反向旋轉。 【實施方式】 以=各實關的朗是參相加的賦,用關林 之特定實施例。本發明所提到的方向用語,例如「上」、「下」、「左實士施 「橫:」、「縱向」等,僅是參考附加圖式的方向。因此’使用的方」向用纽」 是用來說明,而非用來限制本發明。 1324696 在以下各實施例中,在不同的圖中,相同部分係以相同標號表示。 請先參閱第2圖,係爲一種依據本發明第一較佳實施例之老化室之入 - 口裝置的簡略上視圖,其顯示該老化室之入口裝置正處於一閉合狀離。該 ,·老化室之入口裝置係設置於老化室與無塵室之間的牆體8的開口°8(^/包 含兩個相對設置之旋轉主體la,lb。該兩旋轉主體la,11?結構相同 '設於一橫向中心線C上,以第3圖所示之其中一旋轉主體la為例,該旋轉 主體la具有一旋轉軸i〇a、至少一凸輪13a、至少一抵接件⑷以 門面11a。 • 如第2圖所示’旋轉主體1a,lb之複數個門面Ha, 11b分別以其旋轉轴 10a,10b為中心呈放射狀均勻排列。該兩旋轉轴⑺屯丨此相對於該橫向中心 線c呈縱向設立以分別帶動其旋轉主體la,lb旋轉,並相隔一特定間距以 供-運送液晶模組之載具9進人。在本發明之第—實_巾 體la,lb之複數個門面lla,llb分別包括四個門面Ua,ub以互呈9〇度角 度分隔的配置方式圍繞該旋轉軸10a,1〇b,每一門面Ua,ub之一側連接於 該旋轉轴10a,10b,如該複數個門面lla,Ub係與該旋轉轴1〇 一體構成。當 該老化室之人π裝置處於—閉合狀態時,每—旋轉主體la,化之四個門面 11a» lib之中的兩左右橫向門面^^比會分別位於橫向中心線c上呈同一 • 直線排列,以及其中的兩前後縱向門面11a,lib會分別與兩條縱向中心線 D’D’呈同一直線排列’藉此該兩旋轉主體Η lb的其中各一橫向門面lla, Ub的相對側li0a,11〇b相互抵靠而可隔絕入口裝置之内外空氣的流通。在 -此閉合狀態下’因為該兩旋轉主體la,lb的相對縱向門面lla> Ub互呈平行 並相隔一間距,該間距即等於兩旋轉轴10a,10b之間的特定間距以構成液 晶模組載具9進入老化室的入口。 該老化室之入口裝置進一步包含一外殼壁,該外殼壁設置於該兩旋轉 主體1lb的週邊’其包含兩弧形壁12a,12b反向配置且與踏體8側緣抵 接。如第2圖所示之第一實施例中,每一娘形壁12a,12b之延伸弧度爲18〇 度’恰與每一旋轉主體1a,lb之兩前後縱向門面lla,Ub及其中一橫向門面 1324696 lla,lib之端緣相抵接。於本發明之其他實施例中,每一狐形壁a木⑶之 延伸弧度亦可設計爲90度,該弧形壁12a,12b可由玻璃材質製成,或可採 用其他裝飾材料製成。 •- 因為該兩旋轉主體la,lb具有相同的結構,因此第3圖僅顯示其中一 •旋轉主體U之縱剖面示意圖為代表,其顯示該旋轉轴1〇a之兩上下末端各 設有一上凸輪13a及一下凸輪13a。該旋轉轴10a還具有一抵接件丨知用以 抵接每一對應凸輪13a。於本發明之其他實施例中,每一旋轉轴1〇&上亦可 僅設有一凸輪13a即可。 Φ 請進一步參閱第3圖及第4圖,其清楚顯示了凸輪i3a與抵接件i4a 之結構及配合關係,其中每一凸輪13a的中心線係與旋轉軸1〇a的轴心線同 方向,且每一凸輪13a中間部位設有一穿孔以供旋轉軸1〇a穿設而結合。該 凸輪13a之側邊曲面周圍分佈有複數個凹槽13〇a,且該等凹槽i3〇a之設置 ^量(如4個)與設置位置(如互呈90度分隔)均相同對應於門面Ua的數量及 分佈位置。該抵接件14a包含一接觸部140a及一彈簧141a串設於該接觸部 140a之一端。 當旋轉軸10a依其轴心線旋轉而帶動該凸輪13a 一併轉動時,就如同使 該抵接件14a之接觸部140a沿著該凸輪13a之侧邊曲面周圍而位移。當旋 • 轉軸1〇a旋轉至如第2圖所示之閉合狀態時,該抵接件1½之接觸部馳 會如第4圖所*恰好抵接於該凸輪13a的其中一凹槽隱在該抵接位置 上,該抵接件14a之彈簀141a係處於一自由長度狀態而未蓄積反彈力),而 • 另一旋轉軸10b也是採用相同作動原理。藉此,如第2圖所示,該兩旋轉 • 主體1a,lb的兩相對橫向門面11¾ lib皆可被限制在橫向中心線c上且其 前述相對侧110a,ll〇b相互抵靠而隔絕入口裝置之内外空氣的流通。 請參閱第5圖與第6圖,係顯示老化室之入口裝置處於一開啓狀態, 而該載具9正處於一初始進入的位置。當液晶模組之載具9隨著一自動輸 送帶(未顯示)的運載而開始抵觸到該入口裝置的各兩相對橫向門面lla,llb 時’該兩相對橫向門面lla,llb會被推動並同時以反向角度(如+14度與_14 ί該截且9 2 Χί,具9位於—初始進人的位置;在此初始進人位置上,因 故^隔^入90或角部仍與該兩相對橫向門面叫lib保持接觸, 之Γ]時之内外空氣流通。在該兩崎橫向門面11Mlb被推動 Z = 6=_^,編a,的各凸輪進 逐漸脫離與凸輪ub的2==*= 抵接件14b的接觸部觸 廉上,並順勢使抵接件14=12= 13Gb的鄰近曲面輪 一 干牝之彈簧141b被擠壓,進而使該彈簧141b蓄積 直方向進行滑t位移過程中’該抵接件_可於一滑槽(未顯示)中沿豎 而心第》1 _第8圖’其顯示老化室之人口裝置處於—開啓狀態, 間進入位置’此時前述兩相對橫向門面lla,llb被持 立 :’.·反向旋轉的角度持續擴大(如+45度與·45度),使該載具9之 ,一,的前後兩側緣90或角部皆同時與其中兩個横向門面Ua iib及與前 乂兩k向門面11a, 11b成90度角設置的兩縱向門面山,仙相接觸,而隔 ’邑〜入口裝置之内外空氣流通。在該門面⑴,iib被推動之同時,會再度帶 10a,l〇b及設於旋轉軸1Ga,1Gb上的各凸輪進行旋轉,如以第8 _示之旋轉m〇b為例’抵接件14b的接卿14%雜移直_抵於凹 槽130b的鄰近曲面中間’並使彈簧塵被擠壓到具有最大的反彈力。 凊參閱第9圖與第1G圖’其顯示老化室之人口裝置祕—開啓狀態, 而該載具9正處於-最後進入位置,此時前述兩相對橫向門面ua,nb被持 續推動且反向旋轉的角度再度持續擴大(如+76度與_76度),使該載具9之 側緣90或角部係仍與前述兩相對橫向門面lla之兩相對側相接合而隔絕該 入口裝置之内外空氣流通。此時,亦帶動各旋轉軸1〇a,1〇b及設於旋轉轴 l〇a,10b上的各凸輪進行旋轉,如第1〇圖所示旋轉轴1%為例抵接件⑽ 的接觸部140b係已逐漸脫離與凸輪13b曲面之頂抵而進一步位移到下一凹 槽13〇b的端緣’且彈簧141b處於一即將釋放彈力之態勢。隨著載具9的 繼續進入,從而使抵接件14b滑入凸輪1此的下一凹槽130b,且抵接件14b 藉由彈簧141b蓄積之彈力釋放而使其上之接觸部140b有效地抵接於該下 1324696 一凹槽130b之底部,從而限制凸輪13b及旋轉軸10b作進一步轉動,而該 另一%轉軸10a亦是基於相同原理而被限制轉動。最後如第9圖所示,與 前述兩相對橫向門面11a,llb互成9〇度角設置的另兩縱向門面11\ lib的 相對側110¾ 110b即將相互接近直到抵靠,故能隔絕該入口裝置之内外空氣 流通’亦即該兩横向門面lla,llb又將回到於橫向中心線c上而使入口裝 置回復至第2圖所示之閉合狀態。 請參閱第11圖’其爲一種依據本發明第二實施例之老化室之入口裝置 處於一閉合狀態時的簡略上視圖,其與第2圖至第1〇圖所示之第一實施例 的不同之處在於.在該第二實施例中’前述兩相對橫向門面lla, 11b的相對 侧110a,110b係沿縱向相互疊合,如此可使本發明之入口裝置具有更佳之隔 絕内外空氣流通之效果。 請參閱第12圖,其爲一種依據本發明第三實施例之老化室之入口袭置 處於一閉合狀態時的簡略上視圖,其與第一及第二實施例的不同之處在 於:在該第三實施例中,每一旋轉主體la, lb分別包含三個門面lla,仙 互呈120度角度分隔配置’而非呈9〇度角度分隔配置的四個門面。相應地, 其每一弧形壁12a,12b之延伸弧度可爲120度。可以理解的是,該旋轉主 體la, lb的門面11+ lib的設置數量係與載具9的縱向側緣9〇尺寸成一反 比關係,並由360度均勻分割設置。如以第12圖所示之旋轉主體比為例, 採用三個門面lib之設計可允許長度較長之載具9通過。相應地,如第13 圖所示,在該第三實施例中,凸輪13b係對應設有三個凹槽n〇b,而抵接 件14b相應地爲斜向設置而非豎直向設置。 經由上述結構說明後可知’本發明老化室之入口裝置係實質爲一無動 力裝置,其僅需位於自動輸送帶上的載具9對兩相對橫向門面 -推力,即可使該入口裝置的兩旋轉主體la,lb繞其相應旋轉轴收,⑽ 同步反向旋轉而使該人π裝置由常棚合狀_換至_狀態,以供該載 具9之通行。而本發明人口裝置由上關雜紅閉合狀態的回復,、則藉 由凸輪13a,13b與抵接件14a,14b的彈性抵接配合即可達成而無需任何外力 11 1324696 驅動。 一爲達成更佳之隔斷老化室内外空氣對流之效果,本發明入口裝置之每 -[旋轉主體la,lb的弧形壁12aj必與職及地面接合的頂緣及底緣可設置 •.=封體或保護型條。每—旋轉主體la,lb的各門面lla Ub上下端緣及與弧 .,12a’ 12b接觸的側緣亦皆可設有密封體。該㈣體可採用密封條或密 封刷均勻安裝在門面相應的端面。 較佳地,本發明老化室之人口裝置可進—步包括—頂部,該頂部可採 用多種型材封裝構成具有雜隔熱功效的人口裝置頂部。該頂部與地面之 • 間安裝前述兩旋轉主體1a,lb。藉由均勻分佈的複數個門面lla,llb及與載 具9之配合’可將老化室内外之空氣完全隔離,起到隔絕室内外空氣對流 的密閉作用。 综上所述,相較於習用技藝,本發明老化室之人口裝置的結構設置可 有效隔絕老化室内外空氣之流通4論在閉合狀態奴開啓狀態下兩旋 轉主體的兩相對門面與載具侧緣始終保持接合而可隔絕入口内外空氣之流 通。即,本發明人口裝置在任何位置,都可保持老化室㈣外密閉,故無 熱氣不必要外泄情事而可節約電能並進而提升老化測試效率。另,本發明 人口裝置爲-織力裝置’除節㈣能外,亦可保證載具之糊通行而並 # 不會影響到液晶模組流水線的正常運行。 雖然本發明已用較佳實施例揭露如上,然其並非用以限定本發明,任 何熟習此技藝者,在不脫離本發明之精神和範圍内,當可作各種之更動與 修改,因此本發明之保護範圍當視後附之申請專利範圍所界定者為準。” 【圖式簡單說明】 第1圖爲習用之老化室入口示意圖。 第2圖爲本發明第-實施例之老化室之人口裝置處於—閉合狀態 簡略上視圖。 第3圖爲本發明老化室之入口裝置的縱剖面示意圖。 12 1324696 第4圖爲第3圖所示之凸輪與抵接件的抵接位置示意圖,其對應於第2 圖所示之閉合狀態。 ,第5圖爲本發明第—實施例之老化室之人口裝置處於—開啓狀態的初 始進入位置時的簡略上視圖。 第6圖爲對應於第5騎示之狀態的初始進人位置時,凸輪 接件的抵接示意圖。 、_ 件的應於第7圖所示之開啓狀態料間進入位置,凸輪與抵接 後進職㈣雜態的最 接件9騎示之狀躺最㈣场置時,凸輪與抵 第11圖爲本發明第二眘 簡略上視圖。 彳之老化室之入口裝置處於-閉合狀態時的 第12圖爲本發明第三實施例 簡略上視圖》 老化至之入口裝置處於一閉合狀態時的 第13圖爲第12圖所示 結構及位置示意圖。 乇化至之入口裝置所採用的凸輪與抵接件的1324696 IX. Description of the Invention: [Technical Field] The present invention relates to an inlet device, and more particularly to an inlet device for an aging chamber, which can effectively isolate air circulation inside and outside the aging chamber to save energy and improve aging test efficiency. [Prior Art] The production process of 'LCD (Liquid Crystal Display) usually includes a front-end array process, a middle-stage cell process, and a rear-stage module process. In the module process of the latter stage, the assembled LCD panel is used to drive the 1C and the circuit board, and is assembled with the backlight and the iron frame to form a liquid crystal module. The entire process of the above module process must be carried out on a module production line in a clean room to prevent impurities from entering the liquid crystal module and affecting the quality of the finished product. Due to the needs of the module process, the clean room is set to a constant temperature, constant pressure, and constant humidity environment, and the indoor temperature is usually set to 25 degrees Celsius. After the assembly of the liquid helium module is completed, it needs to be placed in an aging chamber (Aging R〇〇m) for Bum-inTest. The so-called aging test (or called collapse test) refers to the limit of testing the finished liquid crystal panel under the condition of power supply and high-selection, because the long-term high temperature can make the finished product originally take one to two years. Defects that can happen, can be in the short time of hours to days _ early ship. In this way, the test can be carried out between the conditions and the job results: the problem of the recordable work. On the other hand, it is also necessary to screen out the products of poor quality, so that the tm produced can maintain its certain quality. After the LCD module is offline and after the initial commissioning operation is basically normal, it is placed in the aging room with a temperature of about 5 ° C (4) ~ % Celsius) and the screen is continuously replenished within (4) hours. performance. In the case of the aging test of the ancient 3, the 'Xiang Xiang-automatic conveyor belt will self-clean the liquid crystal module (9), so that the silk crystal module can be used in the high temperature environment of the old red. The aging chamber is a building having a suitable space for the domain, and the liquid enthalpy module is privately conditioned into the aging chamber, and the waiting module is placed on the carrier on the rim belt. 5 However, when the liquid crystal module is transported through the opening 80 between the clean room and the aging chamber, it is easy to cause convection of the inside and outside air of the aging chamber as indicated by the two arrows in Fig. 1. This is because the clean room is a temperature slave with a temperature of about 25 degrees Celsius and a large scale, the constant ship temperature environment, and the aging room is a high temperature environment with a temperature of up to 5 〇 Celsius but a relatively small seam. The existence of both - seam difference and temperature difference. When Yunyujing enters the opening 80, the effect of pressure relief will cause the cold air in the clean room to flow into the aging room and reduce the internal tempering degree of the aging room even lower than the set minimum test temperature. Affected by the aging test efficiency and quasi-hoc of the crystallization module; at the same time, in order to make the aging (4) temperature county within the __ setting range, it is necessary to provide riding without riding the ground, and to make the aging room (10) air-conditioning heating operation, if the cold air flows into the aging The indoors will reduce the temperature of the aging chamber, from the sulphur fee. In contrast, the teaching air in the aging room will also flow it without dust, and it will be dust-free recording or green or ratchet ring _, turn, and create unnecessary energy waves #. Therefore, the conventional aging chamber opening design has certain inconvenience and defects in use, so it is extremely necessary to design - a new aging room population device, to the new _ aging room air circulation 0 [invention content] To solve the front The object of the present invention is to provide a population device for the aging chamber to be lifted before the normal operation of the production line of the liquid crystal module, and to cut off the light gas in the aging room to prevent the leakage of hot air in the aging room. Inflow of external cold air saves energy and improves aging test efficiency. In order to achieve the above (4) purpose, the present invention provides a σ device for aging chambers comprising two oppositely disposed rotating bodies located on the same-transverse centerline. Each of the rotating bodies has a rotation=, at least-cam, at least- Abutments and a number of facades. The rotating shaft is longitudinally disposed with respect to the transverse center line to drive the rotating body to rotate, the alpha wheel is disposed on at least a portion of the rotating shaft, and the side of the war is distributed. The age of the threatening health stickers. The facade is a radial lake U-center centered on the axis of rotation. It is connected to the axis of rotation. When the inlet device is in the 1st state, the abutment connects the cams of the two bodies, and the groove limits the opposite sides of the two sides of the two rotating main cameras to abut each other to isolate the inside and outside of the inlet device. Air circulation. When the population device is in the "on" state for the vehicle to enter, the opposing doors - each of the opposing sides are held in engagement with the side edges of the carrier to circulate the air inside and outside the device. According to the present invention, the sticking wheel _ is almost equal to each __ although the number of facades of the main body is equal' and the setting position of the feeding is the same as that of the scallop. Preferably, the cam includes an upper cam and a lower cam respectively disposed at a lower end portion of the rotating shaft. The per-rotation axis_heart line is in the same direction as the centerline of the cam, and the two axes of rotation are separated by a specific spacing. The number of facades of the rotating body is inversely proportional to the longitudinal side edge dimensions of the carrier. According to the invention of t, the 'every-_ main consists of four facades with a 9G degree angle or three facades separated by a 120 degree angle. The human π device of the present invention further includes a housing wall disposed at a periphery of the two rotating bodies and including two arcuate walls disposed opposite each other. The curvature of the curved wall is not less than the degree. A sealing body is provided on each of the upper and lower edges of the facade and the side edges that are in contact with the curved wall. According to the present invention, the _ wei connector includes a splicing and a spring string disposed at the end of the contact portion. When the human alpha device is pasted, the recesses of the cam that reduce the length of the rotating body are limited to the opposite sides of the two rotating bodies. When the population device is in the open state, the two opposite bodies of the two rotating bodies located on the lateral center line are pushed by the carrier and each rotates in the opposite direction with its rotation axis. [Embodiment] The lang, which is the actual value of each of the real-times, is a specific example of Guanlin. The directional terms mentioned in the present invention, such as "upper", "lower", "left shishishi", "horizontal", "longitudinal", etc., are merely directions referring to the additional schema. Therefore, the term "used" is used to describe rather than limit the invention. 1324696 In the following embodiments, the same portions are denoted by the same reference numerals in the different drawings. Please refer to Fig. 2, which is a schematic top view of an inlet device of an aging chamber according to a first preferred embodiment of the present invention, showing that the inlet device of the aging chamber is in a closed position. The inlet device of the aging chamber is disposed at an opening 8 of the wall 8 between the aging chamber and the clean room (^/ comprises two oppositely disposed rotating bodies la, lb. The two rotating bodies la, 11? The same structure is disposed on a transverse center line C. Taking one of the rotating bodies 1a shown in FIG. 3 as an example, the rotating body 1a has a rotating axis i〇a, at least one cam 13a, and at least one abutting member (4). With the facade 11a. • As shown in Fig. 2, the plurality of facades Ha, 11b of the rotating body 1a, lb are radially arranged uniformly around the rotation axes 10a, 10b. The two rotation axes (7) are opposite to each other. The transverse center line c is longitudinally set to drive the rotating body 1a, 1b, respectively, and is separated by a specific distance for the carrier 9 to transport the liquid crystal module. In the first embodiment of the present invention, The plurality of facades lla and llb of the lb respectively comprise four facades Ua, and the ubs surround the rotating shafts 10a, 1〇b in a configuration separated by an angle of 9 degrees, and one side of each of the facades Ua, ub is connected to the rotation The shafts 10a, 10b, such as the plurality of facades 11a, Ub, are integrally formed with the rotating shaft 1〇. When the π device of the chemical chamber is in the closed state, each of the two lateral facades 11a»lib of the rotating body la, the two lateral façades are arranged on the horizontal center line c in the same line. And the two front and rear longitudinal facades 11a, lib are respectively arranged in line with the two longitudinal centerlines D'D', respectively, whereby the opposite sides of the lateral facades 11a, Ub of the two rotating bodies lb lb The 〇b abut each other to isolate the flow of air inside and outside the inlet device. In the closed state, the distance between the two rotating bodies la, lb is parallel and separated by a distance, which is equal to The specific spacing between the two rotating shafts 10a, 10b is to form an entrance of the liquid crystal module carrier 9 into the aging chamber. The inlet device of the aging chamber further includes a casing wall, the casing wall being disposed at the periphery of the two rotating bodies 11b The two curved walls 12a, 12b are arranged in opposite directions and abut against the side edges of the step body 8. As in the first embodiment shown in Fig. 2, each of the female walls 12a, 12b has an arc of 18 degrees. 'Exactly with each rotating body 1a, lb of the front and rear longitudinal facades lla, Ub and one of the lateral façades 1324696 lla, lib end edge abut. In other embodiments of the invention, the arc of each fox wall a (3) can also be designed as At 90 degrees, the curved walls 12a, 12b may be made of glass material or may be made of other decorative materials. - - Since the two rotating bodies la, lb have the same structure, FIG. 3 only shows one of the rotations A schematic diagram of a longitudinal section of the main body U is representative, and it is shown that an upper cam 13a and a lower cam 13a are respectively provided at the upper and lower ends of the rotating shaft 1a. The rotating shaft 10a also has an abutment member for abutting each corresponding cam 13a. In other embodiments of the present invention, only one cam 13a may be provided on each of the rotating shafts 1 〇 & Φ Please refer to FIG. 3 and FIG. 4 further, which clearly shows the structure and cooperation relationship between the cam i3a and the abutting member i4a, wherein the center line of each cam 13a is in the same direction as the axis of the rotating shaft 1〇a. And a punching is provided in the middle portion of each cam 13a for the rotating shaft 1A to be worn and combined. A plurality of grooves 13〇a are distributed around the side curved surface of the cam 13a, and the setting amounts (such as four) of the grooves i3〇a are the same as the setting positions (such as 90 degrees apart from each other). The number and location of the facade Ua. The abutting member 14a includes a contact portion 140a and a spring 141a serially disposed at one end of the contact portion 140a. When the rotary shaft 10a is rotated by its axis, the cam 13a is rotated together, as if the contact portion 140a of the abutting member 14a is displaced around the curved surface of the side of the cam 13a. When the rotary shaft 1〇a is rotated to the closed state as shown in FIG. 2, the contact portion of the abutting member 11⁄2 will abut against one of the grooves of the cam 13a as shown in FIG. In the abutting position, the magazine 141a of the abutting member 14a is in a free length state without accumulating a rebounding force), and the other rotating shaft 10b is also operated by the same principle. Thereby, as shown in Fig. 2, the two opposite lateral facades 113a lib of the two rotating bodies 1a, 1b can be restrained on the transverse centerline c and the aforementioned opposite sides 110a, 11bb are abutted against each other. The circulation of air inside and outside the inlet device. Referring to Figures 5 and 6, it is shown that the inlet device of the aging chamber is in an open state and the carrier 9 is in an initial entry position. When the carrier 9 of the liquid crystal module begins to interfere with the two opposite lateral facades 11a, 11b of the inlet device with the carriage of an automatic conveyor belt (not shown), the two opposite lateral facades 11a, 11b are pushed and At the same time, in the opposite direction (such as +14 degrees and _14 ί, and 9 2 Χί, with 9 in - initial entry position; in this initial entry position, for so ^ ^ into the 90 or the corner still The two opposite lateral facades are called lib to keep in contact with each other, and then the air flows inside and outside. In the two-story lateral facade 11Mlb is pushed Z = 6 = _^, a, the cams are gradually separated from the cam ub 2 ==*= The contact portion of the abutting member 14b is contacted, and the spring 141b of the adjacent curved wheel of the abutting member 14=12=13Gb is pressed, so that the spring 141b accumulates in the straight direction. During the displacement process, the 'abutment piece _ can be in a chute (not shown) along the vertical and the center of the heart. 1 _ 8th picture 'the population device showing the aging room is in the -open state, the intervening position' The two opposite lateral facades lla, llb are held: '.· the angle of the reverse rotation continues to expand (eg +45 degrees and ·45 degrees), so that The front and rear side edges 90 or corners of the carrier 9 are simultaneously provided with two lateral facades Ua iib and two longitudinal facades at a 90 degree angle to the front and rear k-directions 11a, 11b. In contact with each other, the air is circulated inside and outside the '邑~ inlet device. At the same time as the facade (1), iib is pushed, the belts 10a, l〇b and the cams provided on the rotating shafts 1Ga, 1Gb are rotated again, such as Taking the rotation m〇b of the eighth embodiment as an example, the junction of the abutting member 14b is 14% miscellaneously straddles the middle of the adjacent curved surface of the groove 130b and causes the spring dust to be squeezed to have the maximum repulsive force.第 Refer to Figure 9 and Figure 1G, which shows the population of the aging chamber, the open state, and the vehicle 9 is in the - final entry position, at which time the two opposite lateral façades ua, nb are continuously pushed and reversed. The angle of rotation continues to expand again (e.g., +76 degrees and _76 degrees) such that the side edges 90 or corners of the carrier 9 are still engaged with the opposite sides of the two opposing lateral facades 11a to isolate the inlet device. The inside and outside air circulate. At this time, the rotating shafts 1〇a, 1〇b and the rotating shafts l〇a, 10b are also driven. Each of the cams rotates. As shown in Fig. 1 , the rotating shaft 1% is an example. The contact portion 140b of the abutting member (10) has gradually disengaged from the top surface of the cam 13b and is further displaced to the next recess 13b. The end edge 'and the spring 141b is in a state of releasing the elastic force. As the carrier 9 continues to enter, the abutting member 14b is slid into the next groove 130b of the cam 1, and the abutting member 14b is supported by the spring 141b. The accumulated elastic force is released such that the upper contact portion 140b is abutted against the bottom of the lower portion 1324696 of the recess 130b, thereby restricting the cam 13b and the rotating shaft 10b from further rotating, and the other % rotating shaft 10a is also based on the same The principle is limited to rotate. Finally, as shown in Fig. 9, the opposite sides 1103⁄4 110b of the other two longitudinal facades 11\lib which are disposed at a mutually different angles of the two opposite lateral facades 11a, 11b are about to approach each other until they abut, so that the inlet device can be isolated. The inner and outer air flows 'that is, the two lateral facades 11a, 11b will return to the transverse centerline c to return the inlet means to the closed state shown in FIG. Please refer to FIG. 11 ' is a schematic top view of the inlet device of the aging chamber according to the second embodiment of the present invention in a closed state, and the first embodiment shown in FIGS. 2 to 1 The difference is that in the second embodiment, the opposite sides 110a, 110b of the two opposite lateral fascias 11a, 11b are superposed on each other in the longitudinal direction, so that the inlet device of the present invention can better isolate the inside and outside air circulation. effect. Referring to FIG. 12, it is a schematic top view of an entrance of an aging chamber according to a third embodiment of the present invention in a closed state, which is different from the first and second embodiments in that In the third embodiment, each of the rotating bodies 1a, 1b includes three facades 11a, which are arranged at an angle of 120 degrees to each other instead of four facades arranged at a 9 degree angle. Accordingly, each of the curved walls 12a, 12b may have an arc of 120 degrees. It can be understood that the number of the facades 11+ lib of the rotating bodies la, lb is inversely proportional to the size of the longitudinal side edges 9 of the carrier 9, and is evenly divided by 360 degrees. As an example of the rotating body ratio shown in Fig. 12, the design of the three facades lib allows the carrier 9 having a longer length to pass. Accordingly, as shown in Fig. 13, in the third embodiment, the cam 13b is provided with three recesses n〇b correspondingly, and the abutting members 14b are correspondingly disposed obliquely instead of vertically. Through the above description of the structure, it can be seen that the inlet device of the aging chamber of the present invention is substantially a non-powered device, which only needs to be placed on the automatic conveyor belt 9 pairs of two opposite lateral facades - thrust, so that the two inlet devices can be The rotating body la, lb is wound around its corresponding rotating shaft, and (10) synchronously reversely rotates to cause the person π device to change from the normal shed to the _ state for the passage of the carrier 9. However, the resetter of the present invention can be achieved by the elastic abutment of the cams 13a, 13b and the abutting members 14a, 14b without any external force 11 1324696 being driven. In order to achieve better partition aging indoor and outdoor air convection effect, each of the [inlet device of the present invention] [the curved wall 12aj of the rotating body la, lb must be placed on the top edge and the bottom edge of the ground and the ground can be set. Body or protective strip. Each of the upper and lower end edges of each of the rotating bodies la, lb, lla Ub, and the side edges in contact with the arc, 12a' 12b may also be provided with a sealing body. The (four) body may be uniformly mounted on the corresponding end surface of the facade by using a sealing strip or a sealing brush. Preferably, the population device of the aging chamber of the present invention can further comprise a top portion which can be packaged with a plurality of profiles to form a top of a population device having a heterogeneous insulating effect. The aforementioned two rotating bodies 1a, 1b are mounted between the top and the ground. By uniformly distributing the plurality of facades 11a, 11b and the cooperation with the carrier 9, the air inside the aging chamber can be completely isolated, thereby shielding the air convection between the indoor and outdoor air. In summary, compared with the conventional technique, the structure of the population device of the aging chamber of the present invention can effectively isolate the circulation of the air inside and outside the room. The two opposite facades and the carrier side of the two rotating bodies in the closed state slave state. The rim always remains engaged to isolate the flow of air inside and outside the inlet. That is to say, the population device of the present invention can keep the aging chamber (4) sealed at any position, so that no heat is necessary to leak out, and energy can be saved and the aging test efficiency can be improved. In addition, the population device of the present invention is a weaving device, and in addition to the section (4), it can also ensure that the paste of the vehicle passes and does not affect the normal operation of the liquid crystal module assembly line. While the present invention has been described in its preferred embodiments, the present invention is not intended to limit the invention, and the invention may be variously modified and modified without departing from the spirit and scope of the invention. The scope of protection is subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view of a conventional aging chamber inlet. Fig. 2 is a schematic top view of a population device of an aging chamber according to a first embodiment of the present invention. Fig. 3 is an aging chamber of the present invention. Schematic diagram of the longitudinal section of the inlet device. 12 1324696 Fig. 4 is a schematic view showing the abutting position of the cam and the abutting member shown in Fig. 3, which corresponds to the closed state shown in Fig. 2. Fig. 5 is the present invention A brief upper view of the population device of the aging chamber of the first embodiment in the initial entry position of the open state. Fig. 6 is a schematic view of the abutment of the cam connector when the initial entry position corresponding to the state of the fifth ride is shown. _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Figure 2 is a second schematic view of the present invention. The 12th figure of the inlet device of the aging chamber is in a closed state. The first embodiment of the present invention is a schematic view of the third embodiment of the invention. Figure 13 is shown in Figure 12. Schematic diagram of structure and position. The cam and abutment used in the inlet device
13 1324696 【主要元件符號說明】 旋轉主體 la, lb 旋轉軸 10a, 10b 門面 11a、lib 弧形壁 12a, 12b 凸輪 13a, 13b 凹槽 130a, 130b 抵接件 14a, 14b 接觸部 140a, 140b 彈簧 141a, 141b 牆體 8 開口 80 載具 9 側緣 90 相對側 110a, 110b 橫向中心線 C 縱向中心線 D,D,13 1324696 [Description of main component symbols] Rotating body la, lb Rotary shaft 10a, 10b Facade 11a, lib Curved wall 12a, 12b Cam 13a, 13b Groove 130a, 130b Abutment 14a, 14b Contact 140a, 140b Spring 141a , 141b wall 8 opening 80 carrier 9 side edge 90 opposite side 110a, 110b transverse centerline C longitudinal centerline D, D,