五、新型說明: 【新型所屬之技術領域】 端伺服器機箱。 本創作有關於伺服器結構,特別是—種t 【先前技術】 習知舰器設備的架設方式係於機房中,將複數鋪服器 主機排列設置於機箱中,再進行配線(這些線材往往雜亂散置 於機房内)。在-般情況下’做器主機數量相t龐大,需使 用複數個機箱’再者大量的伺服器主機同時運作時會釋放出大 量的熱能,目此在架設鑛n鋪嗔要__ t大且配備空 調系統的的機房纟容納這些機箱,相當浪費空間及能源。且機 房空間的關加上魏的祕’往往使得舰器讀在新安 裝、搬動或擴充時皆相當不便。 【新型内容】 有鏗於此本創作提出一種雲端伺服器機箱,及相配合之一 種雲端伺服器主機。 雲端伺服器機箱包含:一冷氣箱及複數個區段。冷氣箱供 應冷空氣;各該些區段包含一套接口,套接口於二區段之間成 斜套接,連接二區段。 複數個區段中包含一主機架區段容納複數個雲端伺服器 主機’主機架區段包含:位於主機架區段之二套接口、複數個 主機滑軌及複數個主機鎖孔。 位於主機架區段之二套接口,分別連接另一區段;複數個 -νΤΠ ip. ‘ _ *-..- ' * · .· • * * * 主機滑軌,設於主機架區段之内壁,每一主機滑軌配合位於雲 端伺服器主機之導引結構’引導雲端伺服器主機插入主機架區 段;複數個主機鎖孔則將雲端伺服器主機與主機架區段鎖定。 前述套接口包含一閉鎖裝置,於二套接口套接時將二套接 口氣密及鎖定。前述之各區段包含一閂鎖裝置,於二區段連接 時鎖定二區段。 前述複數個區段更包含:一進氣區段、一換氣區段,其中, 進氣區段可置換為另一換氣區段 進氣區段連接該冷氣箱,將該冷氣箱供應之冷空氣導引入 各區段内,進氣區段包含:位於進氣區段之一套接口,連接另 一區段及一進氣口,連接冷氣箱。 換氣區段包含:位於換氣區段之一套接口,連接另一區段 及一換氣口,交換各區段内之空氣。 前述複數個區段可更包含··一配線架區段或一風扇區段 配線架區段容置預先配置之複數個機箱内部線路,其中機 箱内部線路係對應雲端伺服器主機設置,配線架區段包含:位 於配線架區段之二套接口,相對設於配線架區段之二侧面,連 接另一區段。 風扇區段内部設有複數個風扇,而加強該各區段内冷空氣 之流動,風扇區段包含:位於風扇區段之二套接口,相對設於 風扇區段之二側面,分別套接另一區段》 前述各區段之底面外側設有複數個輪子。 4 雲端伺服器主機’包含:一導引結構,配合主機滑執,可 導雲端伺服器主機插入主機架區段,且可更包含:一鎖定耳及 一快鎖螺絲。鎖定耳與雲端伺服器主機一體成形;快鎖螺絲, 插設於鎖定耳’並鎖入位於主機架區段之主機鎖孔,將雲端伺 服器主機與主機架區段鎖定。 【實施方式】 參閱第1圖’本創作係一種雲端伺服器機箱,由複數個具 有不同功能的模組化區段組合而成,其中該些區段可選擇以不 同的數量及排列方式自由組合,本創作之主要元件至少包含: 一個主機架區段110、一個換氣區段210、一個進氣區段300、 一個冷氣箱400、一個配線架區段500及一個風扇區段9〇〇, 再者各區段間皆可設置隔塵網800以防止吸入灰塵。其中,各 主要元件詳細說明如後。 主機架區段110 參閱第2A圖與第2B圖,主機架區段110為一個具有相 對二端開口之矩形箱體,前後二開口端分別具有一個套接口 111/112,這些套接口 mm2的邊緣經過密封處理,用以與其 他區段套接(例如第2B圖中另一個主機架區段120 ;第1圖中 之換氣區段210、進氣區段300或配線架區段500)。主機架區 段110其餘四面皆由絕熱防水材質101所覆蓋,以阻隔主機架 區段110内部與外部環境之間的熱交換,主機架區段11()底面 外側設有複數個可360°旋轉的輪子710(例如四個輪子710,但 本創作不限於此)以方便運輸。 請繼續參閱第2B圖,前述之套接口 111/112上更設有閉 鎖裝置610於套接時用以鎖定套接口 in/ii2,並確保氣密, 例如本實施例中之閉鎖裝置610採用一種冷凍櫃之門鎖拉柄 構造,但本創作不限於此。主機架區段110内之垂直壁面上設 有複數個主機滑軌114及複數個主機鎖孔115,主機架區段11〇 内部用以容置複數個雲端伺服器主機1〇2。雲端伺服器主機 102上設置之導引結構1〇3搭配主機滑轨U4,使得雲端伺服 器主機102可輕地快速插入主機架區段no ;雲端伺服器主機 102外殻上更設有至少一個一體成型之鎖定耳104,鎖定耳1〇4 上插設一快鎖螺絲105可輕易地快速鎖接這些主機鎖孔115 » 因此,安裝設備時主機架區段110與雲端伺服器主機1〇2分別 運送至安裝地點後可快速組裝。 主機架區段110底部更整合至少一個電源抽屜113,並偏 設於主機架區段110底部侧邊,以便雲端伺服器主機1〇2可以 插入供電。由於電源抽屜113較雲端伺服器主機1〇2重,故設 於主機架區段110底部同時具有配重之功效,可使得主機架區 段110不易傾倒。 參閱第2C圖,前述之閉鎖裝置610包含:把手611及扣 環612二部份,分設於二套接口上,例如主機架區段110與另 一主機架區段120套接,套接口 112上設有一個扣環612,套 接口 121上則設有一個把手611,當套接口 112與套接口 121 套接時 把手611及扣環 612相扣 ,拉上把手611後使得 接口 112/121迫緊保持氣密。 再參閱第2B圖及第2D圖,本創作可更包含閂鎖裝置 620 ’用以鎖定相連接之二區段,閂鎖裝置62〇包含:滑槽62ι 及卡問622二部份,例如主機架區段11〇與另—主機架區段 120套接,套主機架區段110上設有一長條狀滑槽621,此滑 槽621之一端自套接口丨11延伸至套接口 112,滑槽621中再 套設一"^閂622 ;另一主機架區段12〇上則設有另一個滑槽 625 ’滑槽625 —端套延伸至接口 121 ’當套接口 112與套接 口 121套接時,卡閃622推出卡入套滑槽615 ,使得二主機架 區110/120鎖定。 參閱第2E圖,卡閂622上更設有卡榫623,當卡閂622 推出卡入另一個滑槽625時,搭配另一個滑槽625上之定位孔 624加以定位,使得卡閂622不會自滑槽仍中脫出;同樣地, 滑槽621及卡閂622間亦有相同之定位構造使得卡閂622不會 自滑槽621中脫出,而能將二相連接區段鎖定。 換氣區段210 參閱第3A圖,換氣區段210為一個侧面具有開口的矩形 箱體,可對主機架區段110内部進行進氣或排氣,其開口面具 有一個套接口 2U及其頂面設有一個換氣口 212。此套接口 2n 邊緣經過密封處理,用以與其他區段套接(例如第丨圖中之主 機架區段110或配線架區段5〇〇)且套接口 211上更設有閉鎖裝 置610 ’於套接時用以鎖定套接口 211,並確保氣密,且亦可 設置如前述之閃鎖機020構來鎖定二區段;換氣口 212用以供 雲端祠服器機箱之空氣換氣用,各換氣口 212外側較佳地可連 接一抽氣裝置(例诚合不_散熱功率需求連接—個飛碟風 扇201或一個抽氣機)、另一個換氣區段或如第1圖中之冷氣 粕400。換氣區段2丨〇底面外侧設有複數個可36〇。旋轉的輪子 710(例如二個輪子71〇,但本創作不限於此)以方便運輸。 換氣區段210内更設有一個負壓調整管214,自換氣區段 210頂面延伸至底面,此負壓調整管214位於換氣區段21〇頂 面一端連接換氣口 212,且其上開設有複數個開口大小可調整 之節流閥215,這些節流閥215依其距換氣口 212距離遠近按 照大小尺寸排設,距換氣口 212近者開口較小,距換氣口 212 遠者開口較大。再者,節流閥215之開口方向朝向換氣區段 210之側面,無論進氣或排氣,氣流皆會改變方向才可通過換 氣£段210,可使氣流擴散更均勻;尤其是進氣時,冷空氣自 節流閥215吹向換氣區段210侧壁再改變方向如此可必免冷空 氣僅blL過主機架區段110中特定部份。藉由在同一管中不同麗 力處’配合該處壓力開設適當尺寸的節流閥215,使得雲端飼 服器機箱中的氣流可均勻地流入或流出換氣區段21〇。 參閱第3B圖所示,當換氣區段210於頂面設置複數個換 氣口時(例如二換氣口 212/213) ’其結構同於前文所述,唯負 愿調整管214位於換氣區段210頂面一端擴張連接二換氣口 212/213’且各換氣口 212/213外側較佳地可分別連接一: 裝置(例如飛碟風扇201/202或抽氣機)、另一換氣區段或冷氣 箱 400。 進氣區段300 參閱第4圖,進氣區段300為一個一側面具有開口的矩形 箱體,其開口面具有一個套接口 3〇1 ’套接口 3〇1之對側面設 有至少一個進氣口 302。套接口 301邊緣經過密封處理,用以 與其他區段套接(例如主機架區段11〇或配線架區段5〇〇)且套 接口 301上更設有閉鎖裝置61〇,於套接時用以鎖定套接口 301 ’並確保氣密,且亦可設置如前述之閂鎖機62〇構來鎖定 二區段;進氣口 302用以供雲端伺服器機箱進氣用,各進氣口 302外側較佳地可連接-個冷氣箱4〇〇。進氣區段勤底面外 側δ又有複數個可360旋轉的輪子71 〇(例如四個輪子71 〇,但本 創作不限於此)以方便運輸。 配線架區段500 參閱第5圖,配線架區段500為—個具有相對二端開口的 矩形箱體’前後二端分別具有一個套接口 5〇1/5〇2,這些套接 口 501/502邊緣經過贿處理,用以與其他區段套接(例如主機 架區段110、換氣區段210或進氣區段3〇〇),套接口 5〇1/5〇2 上更設有閉鎖裝置610 ’於套接時用以鎖定套接口谓5〇2, 並確保氣密,且亦可設置如前述之閂鎖機62〇構來鎖定二區 段;配線架區段5〇〇底面外侧設有複數個可36〇。旋轉的輪子 710(例如兩個輪子710,但本創作不限於此)以方便運輸。 參閱第5A圖’本創作之配線架區段沿垂直方向設有至少 一個配線槽510,配線槽510為截面概呈U型之一面開口長 管’沿開口之二邊緣上有複數個長條狀之引線槽511,用以將 複數條電線512穿入並容置於配線槽51〇之内部空間内。 一般情況下,主機架區段11〇内的雲端伺服器主機1〇2及 交換器等的配置皆為已知,雲端伺服器主機1〇2與交換器之間 的機箱内部線路皆可預期,故此配線架5〇〇區段可在事先工廠 内依照雲端伺服器主機102之配置將機箱内部線路預先配 線’當配線架500運送至伺服器架設點時,配線人員只需將預 先配線的機箱内部線路接頭插上雲端飼服器主機1〇2及交換 器,再進行聯外線路的配線工作即可,如此可錢減少安裝時 間及佈線出錯機會’機箱内部線路也可以得到最佳化的佈線。 風扇區段900 參閱第6圖,風扇區段_為一個具有相對二端開口的矩 形箱體’顺二端分別具有一個套接^ 9〇1/9〇2,這些套接口 901/902邊緣經過密封處理,用以與其他區段套對例如主機架 區段110、換氣區段210或進氣區段3〇〇),套接口 901/902上 更設有閉鎖裝置610,於套接時用以鎖定套接口 901/902,並 確保氣密’且亦可設置如前述之閃鎖機62〇縣鎖定二區段; 風扇區段_設有複數個風扇91〇,吹風方向沿著端概器機 箱内氣赫動方向設置,當區段數量太多時,冷氣箱之風 力可能不足夠將冷空氣吹過所有區段,故可增設至少二 區段900來加強氣流流動;風扇區段9〇〇底面外侧設有複數個 可360旋轉的輪子71〇(例如兩個輪子71〇,但本創作不限於此) 以方便運輸。 再參閱第1圖所示本創作第一實施例,本實施例包含:一 個主機架區段110、一個換氣區段210、一個進氣區段3〇〇、 一個冷氣箱400、一個配線架區段5〇〇及一個隔塵網8〇〇。 主機架區段110内部可容置複數個雲端伺服器主機1〇2, 其中一個套接口 111套接進氣區段300之套接口 301,另一個 套接口 112則套接配線架區段5〇〇的一個套接口 ,配線架 區段500可預先配置雲端伺服器主機1〇2之線路,進氣區段 300與主機架區段11〇間設置一個隔塵網8〇〇以防止吸入灰 塵,配線架區段500的另一個套接口 502再套接換氣區段21〇· 之套接口 211,其中相連之套接口皆以閉鎖裝置61〇鎖定並氣 密(參閱第2C圖)’如此使得雲端伺服器機箱内部與外界環境 絕熱隔離。進氣區段300之進氣口 302連接冷氣箱400 ;換氣 區段210之換氣口 212則連接一個飛碟風扇201。 其中冷氣箱400用以供應冷空氣,以保持雲端伺眼器機箱 内恆溫恆濕,進氣區段300將冷氣箱4〇〇供應之冷空氣導入主 機架區段110,並透過換氣區段21〇之負壓調整管214在雲端 伺服器機箱内產生均勻負壓’使得冷空氣均勻地流過主機架區 段110各部分將雲端伺服器主機102冷卻後,再由飛碟風扇 201抽出雲端伺服器機箱外。當冷氣箱4〇〇之風力不足以將冷 空氣吹過所有區段時,更可增設至少一個風扇區段_來加強 氣流流動,風扇區段900之位置可自由設置(例如第1圖中所 示置於進氣區段3GG與主機架機箱11()之間,或是配線架區段 500與換氣區段210之間)。 參閱第7圖所示本創作第二實施例,本實施例包含:一個 主機架區段110、二個換氣區段210/220、及一個配線架區段 500。主機架區段110内部可容置複數個雲端伺服器主機1〇2, 其中—套接口 112套接換氣區段220之套接口 221,另一套接 口 1U套接配線架區段5〇〇的一個套接口 5〇卜配線架區段5〇〇 可預先配置雲端伺服器主機1〇2之線路;配線架區段5〇〇之另 一套接口 501再套接換氣區段21〇之套接口 211。其中,該些 相連之套接口皆以閉鎖裝置610鎖定並氣密(另參閱第2C 圖),如此使得雲端伺服器機箱内部與外界環境絕熱隔離。 二換氣口 212/222其中之一(例如換氣口 212)連接一個如 月’J文所述之冷氣箱4〇〇,另換氣口 222則連接一個抽氣裝置 (例如别文所述之飛碟風扇2〇1或抽氣機),於此,換氣區段 與主機架區段11G間更可如同舰第-實闕另設置隔塵網 800以防止吸入灰塵。其中’冷氣箱400用以供應冷空氣,以 保持雲端飼服器機箱内恆溫恆濕,.其中一換氣區段210將冷氣 箱400供應之冷空氣透過負壓調整管214均勻導入主機架區段 110’再由抽氣裝置(例如飛碟風扇201或抽氣機)透過另一換氣 12 區段220抽氣’而在雲端伺服器機箱内產生均勻負壓,使得$- 空氣均勻地流過主機架區段no各部分將後雲端伺服器主機 102冷卻後’再抽出雲端伺服器機箱外。於此,用於排氣之換 氣區段220 ’較佳地將其負壓調整管214上之節流閥215開口 縮小’以增加冷空氣在雲端伺服器機箱内的循環時間,而得以 降低耗能》 參閱第8圖所示本創作第三實施例,本實施例包含:二個 換氣區段210/220。本創作之換氣區段21〇/22〇不僅可透過套 接口 211/221進行串聯,如第8圖所示二換氣區段210/220間 更可透過換氣口 212/222進行串聯,二套接口 211/221可再各 自串聯其他區段,因此本創作不限只能沿一直線方向串聯,更 可配合不同的架設空間改變雲端伺服器機箱的排設方向。 參閱第9圖所示作第四實施例示意圖,本實施例包含:四 個主機架區段110/120/130/140,本創作之複數個區段組合方 式,不僅僅限於單層排列,更可以如第9圖中所示呈上下二層 的排列方式,本實施例中以複數個主機架區段11〇/12〇/13〇/14〇 為例,但亦可與其他不同功能之區段混合連接,本創作不限於 此。其中主機架區段110與主機架區段120連結;主機架區段 130與主機架區段14〇連結,二區間的連結方式已於前文之實 施例中敘述’於此不再累述,且主機架區段13〇與主機架區段 140連結後設置於主機架區段11〇與主機架區段12〇之上方。 參閱第10圖所示本創作之導執示意圖,本創作可再更包 —含導軌,設4於各區段之頂面外側以利雲端荷服器主機他之 維護’其中,導軌較佳地可為徑向導轨721,沿著雲端.器 機箱連接之方向設置於雲端飼服器機箱上方,並固定(例如固 疋於牆上或天花板上);至少一横向導執722 A垂直徑向導執 721方向設置於各區段之頂面外側,例如第1〇圖中所示一主 機區段m之頂面外側設置二橫向導軌722,而配線架區段5〇〇 之頂面外侧設置橫向導軌722;雙向接頭723其二端接頭方向 呈90。,分別連接徑向導執721與橫向導軌722。再搭配各區 段底部外側設置的輪子,使得主機區段⑽與配線架區段5⑽ 可自由地沿著控向及橫向移動,當雲端飼服器機箱維修時,可 輕易地將故障之區段之前後二區段沿徑向方向前後推開,再將 故障之區段沿橫向拉出以利維修。 本創作之雲端舰H機箱以模她合方式安裝,形成一個 雄、閉隔離二間’並配備一個冷氣箱直接對雲端祠服器機箱進行 悝溫怪濕㈣。故相習知値ϋ鋪,可放置於任何角 落不再而要没置於特定機房内,不但節省架設佔用空間;冷 氣箱只對雲端飼服器機箱内進行循環也較習知技術使用室内 空調減少大量的耗能。 再者由於本創作之雲端飼服器機箱為模組組合式,將容納 主機配線、換氣、溫濕控制等功能模組化整合,並且可以不 同的排列边方式自纟組合,故擴充、運送及維護皆相當容易, 配線也較習知技術便利。 、雖然本創細她魄已經峨佳實施姻露如上,然其 並非用以限定本創作,任何熟習此.技藝者,在不脫離本創作之 精神所作些許之更動與潤舞,皆應涵蓋於本創作的範嘴内,因 此本創作之保護範圍當視後附之申請專利範圍所界定者為準。 imu 99. I & vV. New description: [New technology field] Terminal server chassis. This creation has a server structure, especially a kind of t [previous technology] The installation method of the conventional ship equipment is in the machine room, and the plurality of shopper main units are arranged in the chassis, and then wiring is performed (the wires are often messy) Scattered in the machine room). In the general case, the number of mainframes is huge, and multiple chassis are required. In addition, a large number of server hosts will release a large amount of heat when they are operated at the same time. Therefore, it is necessary to set up a mine. The computer room with air conditioning system accommodates these chassis, which is a waste of space and energy. And the connection between the space of the machine room and the secret of Wei often makes the ship reading quite inconvenient when it is newly installed, moved or expanded. [New content] In this creation, a cloud server chassis is proposed, and one kind of cloud server host is matched. The cloud server chassis contains: a cold air box and a plurality of sections. The cold air box supplies cold air; each of the sections includes a set of interfaces, and the socket is slanted between the two sections to connect the two sections. A plurality of segments include a mainframe segment to accommodate a plurality of cloud servers. The host shelf segment includes: two interfaces in the main chassis segment, a plurality of host slides, and a plurality of host lock holes. Two sets of interfaces located in the main frame section, respectively connected to another section; a plurality of -νΤΠ ip. ' _ *-..- ' * · .. • * * * host slide rails, located in the main frame section The inner wall, each host slide rail cooperates with the guiding structure of the cloud server host to guide the cloud server host into the main frame section; the plurality of host keyholes lock the cloud server host and the main frame section. The socket includes a locking device that seals and locks the two sockets when the two sockets are socketed. Each of the aforementioned sections includes a latching device that locks the two sections when the two sections are connected. The plurality of sections further includes: an intake section, a ventilation section, wherein the intake section is replaceable with another intake section, the intake section is connected to the cold air tank, and the cold air tank is supplied The cold air guide is introduced into each section, and the intake section includes: a set of interfaces in the intake section, connecting another section and an air inlet, and connecting the air box. The ventilation section includes: a set of interfaces in the ventilation section, connecting another section and a ventilation port to exchange air in each section. The plurality of segments may further comprise: a patch panel segment or a fan segment patch panel segment accommodating a plurality of pre-configured plurality of chassis internal lines, wherein the internal circuit of the chassis corresponds to a cloud server host setting, and the patch panel area The segment includes: two sets of interfaces located in the patch panel section, oppositely disposed on two sides of the patch panel section, and connected to another section. A plurality of fans are disposed inside the fan section to enhance the flow of the cold air in the sections. The fan section includes: two sets of interfaces located in the fan section, and oppositely disposed on two sides of the fan section, respectively socketed A section" A plurality of wheels are provided on the outer side of the bottom surface of each of the aforementioned sections. 4 The cloud server host includes: a guiding structure, which cooperates with the host sliding, can guide the cloud server host into the main frame section, and can further include: a locking ear and a quick lock screw. The locking ear is integrally formed with the cloud server main body; the quick locking screw is inserted into the locking ear' and locked into the main body locking hole of the main frame section to lock the cloud servo host and the main frame section. [Embodiment] Referring to FIG. 1 'This creation is a cloud server chassis, which is composed of a plurality of modular segments having different functions, wherein the segments can be freely combined in different numbers and arrangements. The main components of the present invention include at least: a main frame section 110, a ventilation section 210, an intake section 300, a cold air box 400, a patch panel section 500, and a fan section 9A. Further, a dust screen 800 may be disposed between each section to prevent dust from being sucked. Among them, the main components are described in detail later. Main frame section 110 Referring to Figures 2A and 2B, the main frame section 110 is a rectangular box having two opposite ends, and the front and rear open ends respectively have a socket 111/112, and the edges of the sleeves mm2 It is sealed for socketing with other sections (e.g., another mainframe section 120 in Figure 2B; the ventilation section 210, the intake section 300 or the patch panel section 500 in Figure 1). The remaining four sides of the main frame section 110 are covered by the heat insulating waterproof material 101 to block the heat exchange between the interior of the main frame section 110 and the external environment, and the outer side of the main frame section 11 () has a plurality of 360° rotations. Wheel 710 (eg four wheels 710, but this creation is not limited to this) to facilitate transportation. Continuing to refer to FIG. 2B, the above-mentioned sockets 111/112 are further provided with a locking device 610 for locking the socket in/ii2 when socketed, and ensuring airtightness. For example, the locking device 610 in this embodiment adopts a kind. The door lock pull handle structure of the freezer, but the creation is not limited to this. A plurality of host slides 114 and a plurality of host lock holes 115 are disposed on the vertical wall of the main rack section 110. The main rack section 11 is internally configured to accommodate a plurality of cloud server hosts 1〇2. The guiding structure 1〇3 disposed on the cloud server host 102 is matched with the host rail U4, so that the cloud server host 102 can be quickly and quickly inserted into the main frame section no; the cloud server host 102 has at least one outer casing. The integrally formed locking ear 104, the locking ear 1〇4 is inserted with a quick locking screw 105 to quickly and easily lock the main body locking holes 115. Therefore, when the device is installed, the main frame section 110 and the cloud server main unit 1〇2 Quickly assembled after transport to the installation site. The bottom of the main rack section 110 is further integrated with at least one power drawer 113 and is disposed on the bottom side of the main rack section 110 so that the cloud server host 1〇2 can be plugged into the power supply. Since the power drawer 113 is heavier than the cloud server host 1 〇 2, it has the effect of having a counterweight at the bottom of the main frame section 110, so that the main frame section 110 is not easily dumped. Referring to FIG. 2C, the foregoing locking device 610 includes two parts, a handle 611 and a buckle 612, which are respectively disposed on two sets of interfaces. For example, the main frame section 110 is sleeved with another main frame section 120, and the socket 112 is connected. A buckle 612 is disposed on the sleeve 121, and a handle 611 is disposed on the socket 121. When the socket 112 is sleeved with the socket 121, the handle 611 and the buckle 612 are interlocked, and the handle 611 is pulled to make the interface 112/121 forced. Keep tightly airtight. Referring to FIGS. 2B and 2D, the present invention may further include a latching device 620' for locking the two connected segments, and the latching device 62 includes: a chute 62i and a card 622, for example, a host The frame section 11 is sleeved with the other main frame section 120. The main frame section 110 is provided with a long strip chute 621. One end of the slot 621 extends from the sleeve interface 11 to the socket 112, and slides. The slot 621 is further provided with a "^ latch 622; the other main frame section 12 is provided with another sliding slot 625 'slot 625 - the end sleeve extends to the interface 121 ' when the socket 112 and the socket 121 When the socket is spliced, the card flash 622 is pushed into the sleeve chute 615 to lock the two main frame areas 110/120. Referring to FIG. 2E, the latch 622 is further provided with a latch 623. When the latch 622 is pushed into the other slot 625, it is positioned with the positioning hole 624 of the other slot 625, so that the latch 622 does not The sliding slot 621 and the latch 622 also have the same positioning structure, so that the latch 622 does not escape from the sliding slot 621, and the two-phase connecting section can be locked. Ventilation section 210 Referring to FIG. 3A, the ventilation section 210 is a rectangular box having an opening on the side, which can inhale or vent the inside of the main frame section 110, and has a socket 2U on the opening surface thereof. The top surface is provided with a venting port 212. The sleeve 2n edge is sealed for socketing with other segments (for example, the main frame section 110 or the patch panel section 5〇〇 in the figure) and the latching device 211 is further provided with a locking device 610' It is used to lock the socket 211 during socketing, and to ensure airtightness, and can also be configured to lock the two sections as described above; the air exchange port 212 is used for air ventilation of the cloud server chassis. Preferably, each of the ventilation ports 212 is externally connectable to an air suction device (for example, the heat dissipation power requirement connection - a flying saucer fan 201 or an air extractor), another ventilation section or as shown in FIG. 1 The air-conditioning in the air is 400. There are a plurality of 36 外侧 outside the bottom surface of the ventilation section 2 . The rotating wheel 710 (for example, two wheels 71 〇, but this creation is not limited to this) is convenient for transportation. The ventilation section 210 further includes a negative pressure adjusting tube 214 extending from the top surface of the ventilation section 210 to the bottom surface. The negative pressure adjusting tube 214 is located at one end of the top surface of the ventilation section 21 and is connected to the ventilation port 212. And a plurality of throttle valves 215 having adjustable opening sizes are arranged on the air. The throttle valves 215 are arranged according to the distance from the air inlet 212, and the opening is smaller than the air inlet 212. The port 212 is far larger than the opening. Moreover, the opening direction of the throttle valve 215 is directed to the side of the ventilation section 210. Regardless of the intake or exhaust, the airflow will change direction to pass the ventilation section 210, so that the airflow can be more evenly spread; especially At the time of the air, the cold air is blown from the throttle valve 215 to the side wall of the ventilation section 210 and then changed direction so that the cold air is only blL through a specific portion of the main frame section 110. The airflow in the cloud feeder housing can flow into or out of the ventilation section 21〇 evenly by opening the appropriately sized throttle valve 215 at different pressures in the same tube. Referring to FIG. 3B, when the ventilation section 210 is provided with a plurality of ventilation ports on the top surface (for example, the two ventilation ports 212/213), the structure is the same as that described above, and only the negative adjustment pipe 214 is located. One end of the top surface of the gas section 210 is expanded and connected to the two gas exchange ports 212/213' and the outer sides of the respective gas exchange ports 212/213 are preferably respectively connected to one device: a device (for example, a flying saucer fan 201/202 or an air extractor), and another The ventilation section or the air box 400. Intake section 300 Referring to Fig. 4, the intake section 300 is a rectangular box having an opening on one side, the opening surface of which has a socket 3〇1 'the side of the socket 3〇1 is provided with at least one side Air port 302. The edge of the socket 301 is sealed to be socketed with other sections (for example, the main frame section 11 or the patch panel section 5), and the socket 301 is further provided with a locking device 61 〇 for the socket. The utility model is used for locking the socket 301 ′ and ensuring airtightness, and can also be provided with the latching mechanism 62 as described above to lock the two sections; the air inlet 302 is used for the air intake of the cloud server chassis, and each air inlet The outer side of the 302 is preferably connectable to a cold air tank 4〇〇. The outer side of the air intake section has a plurality of 360-rotating wheels 71 〇 (for example, four wheels 71 〇, but this creation is not limited to this) for convenient transportation. Patch panel section 500 Referring to Figure 5, the patch panel section 500 is a rectangular box having two opposite ends. The front and rear ends have a socket 5〇1/5〇2, respectively. These sockets 501/502 The edge is bribed to be used for socketing with other sections (for example, the main frame section 110, the ventilation section 210 or the intake section 3〇〇), and the socket 5〇1/5〇2 is further blocked. The device 610' is used to lock the socket when the socket is connected, and ensures airtightness, and can also be provided with the latching mechanism 62 as described above to lock the two sections; the patch panel section 5 is outside the bottom surface of the frame There are a plurality of 36 〇. The rotating wheel 710 (e.g., two wheels 710, but this creation is not limited to this) is convenient for transportation. Referring to FIG. 5A, the distribution frame section of the present invention is provided with at least one wiring groove 510 in the vertical direction, and the wiring groove 510 is a U-shaped one-side open long tube. There are a plurality of strips along the edge of the opening. The lead slot 511 is configured to penetrate and house the plurality of wires 512 in the inner space of the wiring groove 51. In general, the configuration of the cloud server host 1〇2 and the switch in the main frame section 11〇 is known, and the internal circuit of the chassis between the cloud server host 1〇2 and the switch can be expected. Therefore, the patch panel 5〇〇 section can pre-wire the internal wiring of the chassis according to the configuration of the cloud server host 102 in the prior factory. When the patch panel 500 is transported to the server racking point, the wiring personnel only need to pre-wire the inside of the chassis. The line connector is plugged into the cloud feeding device host 1〇2 and the switch, and then the wiring work of the external line can be performed, so that the installation time and the wiring error opportunity can be reduced, and the internal wiring of the chassis can also be optimized. Fan section 900 Referring to Figure 6, the fan section _ is a rectangular box with two opposite ends. The two ends of the fan have a socket ^ 9 〇 1 / 9 〇 2, and these sockets 901 / 902 edge pass Sealing treatment for pairing with other sections such as the main frame section 110, the ventilation section 210 or the intake section 3), the socket 901/902 is further provided with a locking device 610 for splicing It is used to lock the socket 901/902 and ensure airtightness 'and can also be set as the aforementioned flash lock machine 62 〇 county lock two sections; the fan section _ is provided with a plurality of fans 91 〇, the blowing direction is along the end In the airboxing direction of the cabinet, when the number of sections is too large, the wind of the cold air box may not be enough to blow cold air through all the sections, so at least two sections 900 may be added to enhance the airflow; the fan section 9 A plurality of 360-rotatable wheels 71〇 are provided on the outer side of the bottom surface of the crucible (for example, two wheels 71〇, but the present invention is not limited to this) for convenient transportation. Referring again to the first embodiment of the present invention shown in FIG. 1, the embodiment includes: a main frame section 110, a ventilation section 210, an intake section 3A, an air box 400, and a distribution frame. Section 5〇〇 and a dust screen 8〇〇. A plurality of cloud server hosts 1 2 can be accommodated in the main rack section 110. One socket 111 sleeves the socket 301 of the air intake section 300, and the other socket 112 sleeves the patch panel section 5〇. A socket interface of the router, the patch panel section 500 can pre-configure the line of the cloud server host 1〇2, and a dust-proof net 8〇〇 is arranged between the air intake section 300 and the main frame section 11 to prevent dust from being sucked. The other socket 502 of the patch panel section 500 is further sleeved with the socket section 211 of the ventilation section 21, wherein the connected sockets are all locked and airtight by the locking device 61 (see FIG. 2C). The inside of the cloud server chassis is insulated from the outside environment. The air inlet 302 of the air intake section 300 is connected to the air box 400; the air inlet 212 of the air exchange section 210 is connected to a flying saucer fan 201. The air-conditioning box 400 is used for supplying cold air to maintain the constant temperature and humidity in the cloud eye-catching device, and the air-intake section 300 introduces the cold air supplied by the air-conditioning box 4 into the main frame section 110 and through the ventilation section. The 21〇 negative pressure regulating tube 214 generates a uniform negative pressure in the cloud server chassis, so that the cold air uniformly flows through the main frame section 110 to cool the cloud server host 102, and then the flying saucer fan 201 extracts the cloud servo. Outside the chassis. When the air of the air box 4 is insufficient to blow cold air through all the sections, at least one fan section _ can be added to enhance the airflow, and the position of the fan section 900 can be freely set (for example, in FIG. 1 It is shown between the intake section 3GG and the main chassis 11 () or between the distribution frame section 500 and the ventilation section 210). Referring to the second embodiment of the present invention shown in Fig. 7, the embodiment includes: a main frame section 110, two ventilation sections 210/220, and a patch panel section 500. The main rack section 110 can accommodate a plurality of cloud server hosts 1 〇 2, wherein the socket 112 is sleeved to the socket 221 of the ventilating section 220, and the other set of 1U sockets are arranged. A set of interfaces 5 配线 配线 配线 配线 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 〇〇 云 云 云 云 云 云 云 云 云 云 云 云 云 云 云 云 云 云 云 云 云 云 云Socket 211. Wherein, the connected sockets are locked and airtight by the locking device 610 (see also FIG. 2C), so that the interior of the cloud server chassis is insulated from the external environment. One of the two air exchange ports 212/222 (for example, the air exchange port 212) is connected to a cold air tank 4〇〇 as described in the 'JD', and the other air exchange port 222 is connected to an air suction device (for example, as described in the text) The flying saucer fan 2〇1 or the air extractor), here, between the ventilation section and the main frame section 11G, a dust-proof net 800 may be further provided as the ship-solid to prevent the dust from being sucked. The 'air-cooling box 400 is used to supply cold air to maintain constant temperature and humidity in the cloud-feeding device case. One of the ventilation sections 210 uniformly introduces the cold air supplied from the cold-air tank 400 into the main frame area through the negative pressure adjusting tube 214. The segment 110' is again pumped by the air extracting device (such as the flying saucer fan 201 or the air extractor through the other ventilation 12 section 220) to generate a uniform negative pressure in the cloud server chassis, so that the $- air flows evenly. Each part of the main rack section no will be cooled by the cloud server host 102 and then extracted out of the cloud server chassis. Here, the venting section 220' for exhausting preferably reduces the opening of the throttle valve 215 on the negative pressure regulating tube 214 to increase the circulation time of the cold air in the cloud server chassis, thereby being reduced. Energy Dissipation Referring to the third embodiment of the present invention shown in FIG. 8, the embodiment includes: two ventilation sections 210/220. The ventilation section 21〇/22〇 of the present invention can be connected in series through the sockets 211/221, and as shown in Fig. 8, the two ventilation sections 210/220 can be connected in series through the ventilation ports 212/222. The two sets of interfaces 211/221 can be connected to other sections in series, so the creation is not limited to being connected in series in the direction of the line, and the direction of arrangement of the cloud server chassis can be changed with different erection spaces. Referring to FIG. 9, a schematic diagram of a fourth embodiment is shown. The embodiment includes four mainframe segments 110/120/130/140. The multiple segment combination modes of the present invention are not limited to a single layer arrangement. The arrangement of the upper and lower layers can be as shown in FIG. 9 . In this embodiment, a plurality of main frame segments 11 〇 / 12 〇 / 13 〇 / 14 〇 are taken as an example, but can also be combined with other different functional areas. Segment mixing connection, this creation is not limited to this. The main frame section 110 is connected to the main frame section 120; the main frame section 130 is connected to the main frame section 14〇, and the connection manner of the two sections is described in the foregoing embodiment, and the description is not repeated here, and The main frame section 13 is coupled to the main frame section 140 and disposed above the main frame section 11 and the main frame section 12A. Referring to the schematic diagram of the creation of the creation shown in Figure 10, the creation can be further packaged - including the guide rails, set 4 on the outer side of each section to facilitate the maintenance of the cloud feeder host. The radial rail 721 can be disposed above the cloud feeder chassis along the direction of the cloud chassis connection and fixed (for example, on a wall or a ceiling); at least one lateral guide 722 A vertical radial guide The direction of the 721 is disposed outside the top surface of each section. For example, two lateral rails 722 are disposed on the outer side of the top surface of the mainframe section m shown in FIG. 1 , and the lateral rails are disposed on the outer side of the top surface of the patch panel section 5 722; the two-way joint 723 has a two-end joint direction of 90. , the radial guide 721 and the lateral rail 722 are respectively connected. Combined with the wheels on the outside of the bottom of each section, the mainframe section (10) and the patch panel section 5 (10) can be freely moved along the control and lateral directions. When the cloud feeder chassis is repaired, the faulty section can be easily removed. Before and after the second section is pushed back and forth in the radial direction, the faulty section is pulled out in the lateral direction for maintenance. The creation of the Cloud Ship H chassis is installed in a modular manner, forming a male and a closed isolation room and equipped with a cold air box to directly smash the cloud server chassis (4). Therefore, the familiar know-how shop can be placed in any corner and no longer placed in a specific machine room, not only saves space for erection; the air-conditioning box only circulates inside the cloud-feeding machine case and uses indoor air-conditioning more than conventional technology. Reduce a lot of energy. In addition, since the cloud-feeding device chassis of the present invention is a modular combination type, the functions of the host wiring, ventilation, temperature and humidity control and the like are modularized and integrated, and can be combined and arranged in different ways, so that the expansion and transportation are carried out. And maintenance is quite easy, and wiring is more convenient than conventional technology. Although this is a fine example, she has already implemented the Marriage As above, but it is not intended to limit the creation. Anyone who is familiar with this technique will be covered by a few changes and dances that do not deviate from the spirit of this creation. Within the scope of this creation, the scope of protection of this creation is subject to the definition of the scope of the patent application attached. Imu 99. I & v
【圖式簡單說明】 第1圖為本創作第一實施例示意圖。 第2A圖為本創作之主機架區段示意圖(一)。 第2B圖為本創作之主機架區段示意圖(二)。 第2C圖為第2B圖中閉鎖裝置放大示意圖。 第2D圖為第2B圖中閂鎖裝置放大示意圖。 第2E圖為第2D圖中A-A剖面圖。 第3A圖為本創作之換氣區段示意圖(一)。 第3B圖為本創作之換氣區段示意圖(二)。 第4圖為本創作之進氣區段示意圖。 第5圖為本創作之配線區段示意圖。 第5A圖為第5圖中配線槽放大示意圖。 第6圖為本創作之風扇區段示意圖。 第7圖為本創作第二實施例示意圖。 第8圖為本創作第三實施例示意圖。 第9圖為本創作第四實施例示意圖。 第10圖為本創作之導執示意圖。 16 M393132 【主要元件符號說明】BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a first embodiment of the creation. Figure 2A is a schematic diagram of the main frame section of the creation (1). Figure 2B is a schematic diagram of the main frame section of the creation (2). Figure 2C is an enlarged schematic view of the locking device in Figure 2B. Figure 2D is an enlarged schematic view of the latch device of Figure 2B. Fig. 2E is a cross-sectional view taken along line A-A in Fig. 2D. Figure 3A is a schematic diagram of the ventilation section of the creation (1). Figure 3B is a schematic diagram of the ventilation section of the creation (2). Figure 4 is a schematic view of the intake section of the creation. Figure 5 is a schematic diagram of the wiring section of the creation. Fig. 5A is an enlarged schematic view of the wiring trench in Fig. 5. Figure 6 is a schematic diagram of the fan section of the creation. Figure 7 is a schematic view of the second embodiment of the creation. Figure 8 is a schematic view of a third embodiment of the creation. Figure 9 is a schematic view of the fourth embodiment of the creation. Figure 10 is a schematic diagram of the guidance of the creation. 16 M393132 [Main component symbol description]
101 102 103 104 105 110/120/130/140 111/112/121/ 211/221/301/ 501/901/902 113 114 115 201/202 210/220 212/213/222 214 215 300 302 400 500 絶熱材質 雲端伺器主機 導引結構 鎖定耳 快鎖螺絲 主機架區段 套接口 電源抽履 主機滑軌 主機鎖孔 飛碟風扇 換氣區段 換氣口 負壓調整管 節流閥 進氣區段 進氣口 冷氣箱 配線架區段101 102 103 104 105 110/120/130/140 111/112/121/ 211/221/301/ 501/901/902 113 114 115 201/202 210/220 212/213/222 214 215 300 302 400 500 Thermal material cloud server host guiding structure locking ear fast locking screw main frame section socket power supply pumping host slide host lock hole UFO fan ventilation section air exchange port negative pressure adjustment tube throttle valve intake section Air outlet air box distribution frame section
610 611 612 620 621/625 622 623 624 710 721 722 723 800 900 910 配線槽 引線槽 電線 閉鎖裝置 把手 扣環 閂鎖裝置 滑槽 卡閂 卡榫 定位孔 輪子 徑向導執 橫向導執 雙向接頭 隔塵網 風扇區段 風扇 18610 611 612 620 621/625 622 623 624 710 721 722 723 800 900 910 Wiring slot lead slot wire locking device handle buckle ring latch device chute card latch card locating hole wheel radial guide lateral guide bidirectional connector dust net Fan section fan 18