1318677 九、發明說明: 【發明所屬之技術領域】 本發明’係有關於一種設有收納電算機之架體且採用 地板下空調方式之電算機室空調用吹出裝置系統、使滯留 於室内空間上部之熱氣往空調機吸入口移動之排熱輪送裝 置系統、及具有前述空調用吹出裝置系統與排熱輸送裝置 系統之空調系統。 【先前技術】 第11圖係空調系統採用地板下空調方式之先前伺服 器室的立體圖。在設有多數台大型計算機或伺服器之大規 模伺服器室等之中,多採用雙重構造地板丨丨,以使能配線 2 5到伺服器機器。在具有這種雙重構造地板1〗之伺服器 至中,多採用在地板下形成供氣腔體23,使來自空調機21 之冷氣供給到前述供氣腔體23,使前述冷氣藉由設於地板 面之多數小吹出孔11 a放出到室内空間i 5,藉此來空調(冷 钾)至内,同時使來自伺服器架體丨7之熱氣以沿著天花板 13之自然流動而回到空調機21吸入口 21&之所謂地板下 空調方式。 在採用這種地板下空調方式之飼服器冑巾,因為系統 之冋度極中化’在供氣腔體23内拉回祠服器機器之配線條 數會增加’因為場所而配線會重疊,藉此,供氣腔體内之 流路會變窄,㈣空調機之冷氣會被遮斷,而有無法如建 築物設計時的想定般地使冷氣自伺服器室全區域地板面均广 2111-9027-PF1;Ahddub 1318677 ::吹出之問題。在此情形下’一般在空調機21旁 =板面吹出孔有冷氣吹出’所以室内溫度較低,另外 ::空調機21時,來自地板面吹出孔之冷氣會停“成 又,其他問題,有近年來因為飼服器機器發熱量之掩 中,板面戳出冷亂無法充分對應,在室内局部領蜮 會有熱局部集中或熱負荷偏倚之問題。</ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> The heat exhausting wheel system that moves the hot air to the air intake of the air conditioner, and the air conditioning system that has the air blowing blower system and the heat exhaust conveyor system. [Prior Art] Fig. 11 is a perspective view of a prior servo chamber in which an air conditioning system adopts an underfloor air conditioning system. In a large-scale server room with a large number of large computers or servers, a double-structured floor raft is often used to enable wiring 25 to the server machine. In the server to the double structure floor, the air supply chamber 23 is formed under the floor, and the cold air from the air conditioner 21 is supplied to the air supply chamber 23, so that the cold air is provided by Most of the small blow-out holes 11 a of the floor surface are discharged to the indoor space i 5 , whereby the air conditioner (cold potassium) is supplied to the inside, and the hot air from the servo rack body 7 is returned to the air conditioner by the natural flow along the ceiling 13 . Machine 21 suction port 21 & so-called underfloor air conditioning. In the case of the under-floor air conditioner, the number of wiring strips in the air supply chamber 23 is increased because the system is extremely neutral. Therefore, the flow path in the air supply chamber will be narrowed, and (4) the air conditioner of the air conditioner will be blocked, and the floor space of the entire area of the server room will be widened as in the design of the building. 2111-9027-PF1; Ahddub 1318677 :: Blowing out the problem. In this case, 'generally in the air conditioner 21=the surface of the panel is blown out by the cold air, so the room temperature is low. In addition: When the air conditioner 21 is used, the cold air from the floor surface blowing hole will stop and become another problem. In recent years, because of the heat generated by the feeding machine, the board surface is not able to fully correspond to the cold, and there is a problem of local heat concentration or heat load bias in the local collar.
而且其他問題,有當爽白拔^ I 啕田采自搭載有伺服器之架體的執备 被排出時,自架體上表 、“ 、十々法 衣卸嘗強力Ρ人出朝上之氣流,因為兪 沿者伺服器室天花板之熱氣自然流動會被妨礙, ,無法报良好地回到空調機吸入口。先前,為解決 嘁,有使空調機設定溫度降低’或者,增設空調機。 而且其他對策提案有設置使自伺服器排出之埶 引到空調機吸入口之導引器’藉此’能抑制熱氣直接回到 ,服器之短回路(例如參照專利文獻υ。前述短回路之對 菜,提案有有在架體上表面設置空氣簾產生單元,藉此來 抑制短回路(例如參照專利文獻2)。 又’其他對策,提案有使用風管使供氣腔體之冷氣往 室内高溫部直接送風,藉此,削減局部集中或熱負荷偏倚 (例如參照專利文戲;q、 3)。而且,使用風管之空調系統,提 案有》又置使來自空調單元之冷氣分配到複數吹出口之腔 體’在其上設置來自吹出口之風量可變之吹出馬達擋板, Μ $調區域之溫度等環境資訊而加以控制,對於各區域 實施細腻空調之方法(例如參照專利文獻4)。 2Hl-9G27-PFl;Ahddub 6 1318677 而且,其他技術,也提案有設置朝向室内高溫部送風 之吹出裝置,確保往室内高溫部之送風量,藉此,不依賴 由風管配管所致之冷氣直送等手段,而抑制室内既定空 之溫度上升。 【專利文獻1】日本特開2006-64303號公報 【專利文獻2】日本特開2005-308345號公報 【專利文獻3】日本特開2001-272091號公報 【專利文獻4】日本特開2005-1 2 76 36號公報 【發明内容】 【發明所欲解決的課題】 但是’在專利文獻1提案之空調系統中,係藉由整體 性覆蓋伺服器群而吸引自各伺服器排出之熱氣,且將這此 熱氣導引到空調機吸入口之導引器,將熱氣加以誘導,所 以,必須使用伺服器側使形成有排氣口之表面對齊(高度對 齊),在混合有種種規格伺服器的伺服器室中,其报難設 置,或者,因為必須設置大型導引器,設備成本變得很高。 又,在專利文獻2提案之空調系統中,當誘導滯留在 伺服器室天花板附近之來自伺服器的熱氣往空調機吸入口 時,僅以空調機吸力來誘導,所以,有以天花板附近為中 心’室内溫度會上升之問題。 而且,在專利文獻3之使用風管使供氣腔體冷氣直接 送風到室内高溫部之方法中,能使冷氣確實送風到發熱之 機器,能削減伺服器室内之局部集中或熱負荷偏倚,押是, 2111-9027-PF1;Ahddub 7 1318677 必須對各機器實施風管配管,所以,有設備成本很高之問 題。又,因為僅以本裝置無法使滞留在伺服器室天花板附 近之來自伺服器的熱氣回到空調機吸入口,所以,會有有 時無法改善室内上部溫熱環境之問題。 又,在專利文獻4中之檢出空調區域溫度等環境資訊 以可控制風量之複數吹出 而使供給自空調單元之冷氣量 口控制後實施空調之系統中,雖然可對各區域個別控制, 但是,必須對各機器實施配管,所以,有設備成本很高之 問題。又,因為係地板下空調方式之控制來自地板下供氣 腔體之空調,所以,當欲使用此系統時,在地板面全區域 具有吹出開口孔,所以,报難個別地做擋板控制,而且, 當使檢出出口側之靜壓訊號或通過風速而控制轉速且實施 靜壓控制之送風機,設於空調單元側時,往全部出口之靜 壓會增加,因此,有無法對各區域做個別控制之問題。 而且,在最後言及之方法的各吹出裝置分別檢出溫度 而稼動之方法中,室内整體之空調平衡會崩潰,未設置吹 出裝置之領域的溫度會有有時上升之問題,或者,僅以前 述吹出裝置無法使滯留在伺服器室天花板附近之熱氣充分 回到空調機吸入口,所卩,會有無法改善室内上部溫熱環 境之問題。 本發明,係為解決上述問題而研發出之物件,其目的 在於提供一種無須使空調機設定溫度降低到需要以下, 又,無須風管配官等設備,就能使吹出到室内空間之一氣 量相同之空調用吹出裝置系統、使滯留在室内空間上 2lll-9027-PFl;Ahddub 8 1318677 :氣往空調機吸入口移動之排熱輸送裝置系統、以及包括 咬些空調用吹出步署 統。 裝置糸統與排熱輸送裝置系統的空調系 【用於解決課題的手段】 為了解決上述壤《gg Q ,4. / 課題且達成目的,本發明第1之空調用 A X置系統’係包括:空調機,自吸入口吸入空氣,自 ^口吹出冷氣;供氣腔體,使自形成在地板下且自空調 璣%出口吹出之冷 氣机通,同時,自形成於地板之多數吹 出孔使冷氣吹到室内*„ . 間,複數吹出裝置,設於地板且吸 入供氣腔體内之A A , ^ ?氣而ϋ人出到室内空間;氣流測定部,測 疋供氣腔體内之冷惫镇厭4、土 严 乳静塵或風速;以及吹出控制部,對應 氣流測定部之輸出,當 田供氧腔體内既定位置之冷氣靜壓或 風速在門檻值以下時,叙 ^ 動作其位置附近之吹出裝置,而使 供氣腔體内之冷氣吹出到室内空間。 又本發明第2之空調用吹出裝置系統,係包括:空 調機’自吸入口吸入允畜 ,,, 二乳’自%出口吹出冷氣;供氣腔體, 使自形成在地板下且自先维地 目二調機吹出口吹出之冷氣流通,同 時’自形成於地板之多备+山·^丨 夕數人出孔使冷氣吹到室内空間;複 數吹出裝置,設於地板且哄λ视* 及入供氧腔體内之冷氣而吹出到 室内空間;溫度測定部,、、目丨宁它 1 ,則疋至内空間之空氣溫度;以及 吹出控制部,對應溫度測宏邺 反j疋4之輪出,當室内空間既定位 置之空氣溫度面於門禮僅拉,包从 πI值時,動作該溫度較高位置附近之 吹出裝置,而使供氣腔體内之冷氣吹出到室内空間。 而且’本發明第3之空則^裝置系統,係在本發「 2111-9027-PFl;Ahddub 9 1318677 明第1之空調用吹出裝置系統中 空間空氣溫度之严声、目丨—A 且包括測定前述室内 定部之輸$二吹出控制部,係對應溫度測 之輸出,當室内空間既定位置之光 時,動作該π声私古 二瑕^皿度高於門檻值 / 皿又較向位置附近之吹出穿 内之冷氣吹出到室内空間。 冑置’而使供氣腔體 而且本發明第4之排熱輪送裝 以空調機空調之室内”……“,係具有設於 入口移動之… 滞留之熱氣往空調機吸 度測定部之輪出,當室内輪运控制部,對應溫 播值時,動作該溫度較古位…4之…度兩於門 滯留夕“ 較同 <立置附近之排熱輪送裝置,而使 颅留之熱氣回到空調機吸入口。 便 而且,本發明第5之排埶 筮/( ^ ' I裝置系統,係在本發明 弟4之排熱輪送裝置 之芊體,挑鈦鈐 ,、,, 叹有在至内空間收納電算機 體排熱輪送袭置係設於架體上部。 第5而二=發明第6之排熱輸送裝置系、統,係在本發明 之’、’、心裝置系統中’排熱輪送裝置 以使架體内之空氣強如又π木體 調機側傾斜。 饭叹取彺工 又,本發明筮。 7之排熱輸送裴置系統,係在本發 5之排熱輸送裝置系 弟 * ,、統中,在架體上設有使自電算機排出 之熱虱V入二調機側之導引器。 而且,本發明笛 n 第排熱輸送裝置系統,係在本發明 弟7之排熱輸送裝罟 展置系統中,在導引器上設有使架體内埶 氣強制性吐出之送風裝置。 …' 2111-9027-PFl;Ahcidub 10 1318677 而且,本發明第g 之空調用吹出裝置系統 系統。 之空調系統,係包括在本發明第3 及在本發明第8之排熱輸送裝置 【發明效果】 在上述構成之伺服器室中 冷氣靜壓或風速低於門襤值時 到室内空間之冷氣會變少。 ,當供氣腔體内既定場所之 ,可以預測到自該處所吹出 相對於此,當使用本發明 系統時,料A 發月之工調用吹出裝置 靜壓或風速低於門檻值之處所,使用吹 ^㈣制性地使該處所之冷氣吹出到室Μ間,所/ 月b使至内全部處所之吹出冷氣量相同。 又,當使用本發明第2 時動作南溫空氣附近之吹出 氣強制性地吹出到室内空間, 溫度全部相同。 發明之空調用吹出裝置系統 裝置,而使供氣腔體内之冷 所以,能控制使室内空間之 而且’當使用本發明第3發明 β <工凋用吹出裝置系統 時’對於冷氣靜壓或風速低於門檻值之虚 W,使用吹出裝 置來強制性使該處所冷氣吹出到室内空 、 «主二间,同時,動作高 溫空氣附近之吹出裝置而使供氣腔體内之Α 7乳強制性地吹 出到室内空間,所以,能使室内空間全部 θ I處所之吹出冷氣 量相同’同時,能控制使室内空間之溫度全部相同 而且’當使用本發明第4發明之排鈦 热輸送裝置系缺 ’能使滯留在室内空間上部之熱氣往* 二調機吸入口移 動’能良好地實施室内全部空間之溫度營 ,又,當對應 2111-9027-PFl;Ahddub 11 1318677 溫度測定部輸出而室内空間既定位置之空氣溫度在門檻值 以上時,動作溫度較高位置附近之排熱輸送襞置而使滯留 之熱氣回到空調機吸入口,所以,排熱輸送裝置僅在必要 時動作’能良好而經濟地實施室内全部空間之溫度管理。 而且,當使用本發明第5發明之排熱輸送裝置系統 時,在室内空間設有收納電算機之架體’排熱輸送裝置係 設於架體上部,所以,能使自架體往上方排出之熱氣高效 率地往空調機吸入口移動,能良好而經濟地實施室内全部 空間之溫度管理。 而且,當使用本發明第6發明之排熱輸送裝置系朝 時,排熱輪送裝置,係被設置成強制性地排出架體内^ * 乳,而且吹出口係被設成往前述空調機侧傾斜,所以,能 使架體内之熱氣更高效率地往空調機吸入口移動,能良= 而經濟地實施室内全部空間之溫度管理。 又 在架體 導引器 使架體 而經濟 ,當使用本發明第7發明之排熱輸送裝置系統時, 上設有使自電算機排出之熱氣導入前述空調機侧戈 ’所以,能抑制自架體排出之熱氣逆流到架體,歲 内之熱氣更高效率地往空調機吸入口移動,能良女 地實施室内全部空間之溫度管理。 而且,當使用本發明第8發明之排熱輸送裝置系統 時,在導引器上設有使架體内熱氣強制性吐出之送風事 置,所以,能使架體内之熱氣更高效率地往空調機吸入口、 移動,能良好而經濟地實施室内全部空間之溫度管理。 而且,當使用本發明第9發明之空調系統時,其具有 211j.-9027-PF1; Ahddub 12 1318677 發月第3之空調用吹出裝置系統、 排熱輸送裝置丰# ^ 在本發明第8之 值之處所,使用 璺次風速低於門檻 室内1 π/ 使該處所之冷氣強難地吹出到 至内工間’同時’動作高溫空氣附 性地使供氣胖舻如 人出裝置,而強制 仏乱腔體内之冷氣吹出到室内空間,所卩 内空間全部處所之吹出Α褒 把使至 心 之吹出冷W相同’同時,能控制使室内 二間之溫度全部相同。而且, 靶便渾留在至内空間上部之 …乳在空調機吸入口移,動,&良好地實施室内全部空間之 溫度管理。 【實施方式】 參照圖面來詳細說明本發明之實施形態。在以下實施 形態中,將設有空調用吹出裝置系統及排熱輸送裝置系統 之電算機室,舉伺服器室為例做說明。而且,本發明並不 侷限於下述實施形態。 # 實施形態1 第1圖係本發明空調用吹出裝置系統實施形態1的採 用地板下空調方式之伺服器室立體圖。伺服器室(電算機 室)’係具有形成於地板11與天花板13之間的室内空間 1 5。地板11係做成二重構造地板。在伺服器室内,整列設 置有在内部收納伺服器(電算機)之複數伺服器架(架 體)17。而且’前述複數伺服器架17排列成之伺服器架群 係被設置成複數列(在第1圖中僅記載1列)。各伺服器架 17係自形成在底面及正面之吸入口吸入空氣,而自形成於 211±-9027-PFl;Ahcidub 13 1318677 上表面之吹出口,如箭頭A所示地排出熱氣。 ~著伺服器室側壁面設有空調機21。空調機21係自 形成於上表面之吸入口 21a吸入空氣,自形成在底面之吹 出口(未圖示)吹出空調過之空氣(冷氣)。做成二重構造之 地板11下方形成有供氣腔體23。空調機21係使冷氣吹出 到前述供氣腔體23内。 被地板11中之2列伺服器架群夾持之部分係成為通路 部。在前述通路部之地板i i,多數小口徑之吹出孔】^係 形成於全部地板面。自空調機21 ,土出到供氣腔體23内之 冷軋,係如箭頭B所示地流通在供氣腔體23内後,如箭頭 c所示地自各吹出孔Ua往室内空間15吹出。二重地板下 之供氣腔體23 ’係也使用做往各伺服器之配線空間。在供 氣腔體23内佈滿延伸往各伺服器之配線25。 在遠離空調機21之通路部地板Π等間隔設有複數吹 出裝置30。吹出裝置30,係吸入供氣腔體23内之冷氣而 ^箭頭D所示地吹出到室内空間15。自形成於地板11之 人出孔11a及吹出裝置3〇吹出之冷氣,係使室内空間u 里度下降另外,因為伺服器而被溫暖的空氣會上升, 而利用自然流動如箭頭E所示地沿著天花板13,利用自缺 流勒而往空調機21吸入口 2la移動。 卜 圖係表示吹出裝置3 0詳細之側視圖。吹出裝置 係具有馬遠n y 及女裝在馬達31驅動軸之風扇32,自 形成於下表面之吸入 q 严 次入口 33吸入供氣腔體23内之冷氣,而 形成於上表面之吹出口 34吹出到室内空間15。在吹出 2lU'9027-PFl;Ahdciub 14 1318677 裝置30側部設有控制吹出裝置30之控制襞置(a 部)40。在前述控制裝置4〇侧端面凸設有壓力偵♦吹。出控制 測定部)4卜前述壓力債知器41,係測定供氣腔體==流 冷氣靜壓而將結果輸出到控制裝置4 〇。 控制裝置40 ’係對應壓力偵知器41之輪出 腔體23内既定位置之冷氣靜壓低於⑽值時:、氣 之η人出裝置3。而使供氣腔體23内之冷氣吹出到室内 ♦ I5。而且,控制裝置40,係對應壓力偵知器41之輸出, 當供氣腔體心之靜壓大巾f低於㈣值時,使風/32轉 •速加速而增加風量’同時,當僅少許低於門檻值時,使風 扇3 2轉速減慢而減少風量。 如上所述,當使用本實施形態之空調用吹出裝置系統 時,其包括:空調機21,自吸入口 21a吸入空氣,自吹出 口人出冷氣,供氣腔體23,使自形成在地板下且自空調機 21吹出口吹出之冷氣流通,同時,自形成於地板u之多 _數吹出孔1 la使冷氣吹到室内空間】5 ;複數吹出裝置, 設於地板11且吸入供氣腔體23内之冷氣而吹出到室内空 間15,壓力偵知斋4丨,測定供氣腔體2 3内之冷氣靜壓; 以及控制裝置40,對應壓力偵知器41之輸出,當供氣腔 體23内既定位置之冷氣靜壓在門檻值以下時,動作其位置 附近之久出裝置30,而使供氣腔體23内之冷氣吹出到室 内空間1 5。 在各吹出裝置30設有測定流動在供氣腔體23内之空 凋氣々IL靜[的壓力偵知器(氣流測定部)& j、及由前述壓力『 2111-9〇27-PFi;Ahddub 15 1318677 偵^益41之測定結果來控制吹出靜屢之控制裝置(吹出控 制部)40 ’地板下部供氣腔體23内之空調氣流壓力損失係 ^由屢力偵知器41來檢出,對應該該檢出結果,藉由控制 '出裝置30風扇32之轉速’來調整自供氣腔體23内吹出 之冷氣靜壓,使室内空間15全區域冷氣吹出量相同。藉 此’至内空間15之溫度不會偏倚,能有效率地稼動空調機 21。又,當無須嚴密執行對應供氣腔體23内壓力損失之控 制時,也可以使吹出裝置30簡易地做成強中弱等,設定使 其為一定吹出風量。 吹出裝置30之形態並不侷限於第2圖所示,也可以係 使小型螺旋槳風扇i列構成之送風冑,也可以係裝備有多 翼風扇之物件,也可以係裝備有橫流風扇之物件。 而且在本貫施形態中,氣流測定部係設置壓力偵知 測疋供氣腔體23内之空氣靜壓,當該靜壓低於門 襤值時’動作該位置之吹出裝置。但是,靜壓之測定,其 目的係调查冷氣之滯留,在調查冷氣之滞留時,並不偈限 於~氣舒壓,也可以測定冷氣風速而依據其結果來執行控 制。當以冷氣風速來控制吹出裝置3G時,#風速低於門檀 值%’動作該位置之吹出裝置3〇。 實施形態2 第3圖係本發明空調用吹出裝置系統實施形態2的採 用地板下空調方式的祠服器室纟體圖。在本實施形態中, 人出裝置係以細長形橫流風扇來構成之吹出裝置3 〇 b。其 他構成則與實施形態1相同。 16 2111-9027-PFl;Ahddub 1318677 當使用這種構成之空調用吹出 杏也加能1 ^ 双置糸統時,能獲得與 實施形癌1空調用吹 d ^。 略4目同之效果,另外, 彺人出裝置30B供氣腔體23内之突 洛狀栌八βη 大出量會減少’所以,供 軋腔體23内之冷氣滯 入郭考w… 尚Τ更疯y月匕以較少電力使使室内 王邰處所之吹出冷氣量相同。 實施形態3In addition, there are other problems, such as when the white body is pulled out, and I, the field, is discharged from the frame of the rack, and the squatting of the scorpion Because the natural flow of the hot air on the ceiling of the server room will be hindered, it will not be reported to return to the air intake of the air conditioner. In the past, in order to solve the problem, the air conditioner setting temperature is lowered 'or, or an air conditioner is added. In addition, the other countermeasures are provided so that the guide that leads from the discharge of the servo to the suction port of the air conditioner can be used to suppress the direct return of the hot air to the short circuit of the server (for example, refer to the patent document υ. In addition, it is proposed to provide an air curtain generating unit on the upper surface of the frame to suppress short circuits (see, for example, Patent Document 2). In addition, other measures have been proposed to use a duct to heat the air in the air supply chamber to the room. The department directly supplies air, thereby reducing local concentration or heat load bias (for example, refer to the patent language play; q, 3). Moreover, the air conditioning system using the air duct, the proposal has a cooling air conditioner from the air conditioning unit. The cavity that is distributed to the plurality of air outlets is provided with an air conditioner such as a blown motor baffle having a variable air volume from the air outlet, and the temperature of the temperature in the tuned area, and a method of performing fine air conditioning for each area (for example, Refer to Patent Document 4). 2Hl-9G27-PF1; Ahddub 6 1318677 Further, other technologies have proposed to provide a blowing device for supplying air to the indoor high temperature portion, thereby ensuring the amount of air supplied to the high temperature portion in the room, thereby not depending on the air duct. Japanese Patent Laid-Open Publication No. Hei. No. 2005-308345 [Patent Document 3] Japanese Patent Application Laid-Open No. Hei. [Patent Document 4] Japanese Patent Laid-Open Publication No. 2005-1 2 76 36 [Explanation] [The problem to be solved by the invention] However, in the air conditioning system proposed in Patent Document 1, Integrally covering the server group and attracting the hot air discharged from each server, and guiding the hot air to the air conditioner inlet guide to induce the hot air, so it must The surface on which the vent is formed must be aligned (height aligned) using the servo side, which is difficult to set up in a server room mixed with servos of various specifications, or because the large guide must be set, the cost of the equipment becomes Further, in the air conditioning system proposed in Patent Document 2, when the hot air from the server that is trapped in the vicinity of the ceiling of the server room is induced to be sucked into the air conditioner, the air conditioner suction is induced only. In the vicinity of the ceiling, the indoor temperature rises. In the method of using the air duct to directly supply the air in the air supply chamber to the high temperature part of the room, the cold air can be sent to the heat generating machine. Partial concentration or thermal load bias in the server room, 2111-9027-PF1; Ahddub 7 1318677 must be piped to each machine, so there is a high cost of equipment. Further, since the hot air from the server which is stuck in the vicinity of the ceiling of the server room cannot be returned to the air-conditioner suction port by the device alone, there is a problem that the indoor upper warm environment cannot be improved at some time. In addition, in the system in which the air-conditioning area temperature is detected in the patent document 4, the air-conditioning system is controlled by the air-conditioning unit, and the air-conditioning system is controlled by the air-conditioning unit, and the air-conditioning system is controlled by the air-conditioning unit. It is necessary to carry out piping for each machine, so there is a problem that equipment costs are high. Moreover, since the control of the underfloor air conditioning mode is from the air conditioning of the underfloor air supply chamber, when the system is to be used, the opening hole is provided in the entire area of the floor surface, so it is difficult to individually control the flapper. Further, when the air blower that detects the static pressure signal on the outlet side or the wind speed is controlled and the static pressure control is performed, when the air conditioner unit side is provided, the static pressure to all the outlets increases, and therefore, it is impossible to Individual control issues. Further, in the method in which the respective blowing devices of the last method are detected and the temperature is detected, the air conditioning balance of the entire room may collapse, and the temperature in the field where the blowing device is not provided may sometimes rise, or only the aforementioned The blowing device cannot return the hot air remaining in the vicinity of the ceiling of the server room to the air intake of the air conditioner, and there is a problem that the indoor warm environment cannot be improved. The present invention is an object developed to solve the above problems, and an object thereof is to provide a gas volume that can be blown out into an indoor space without lowering a set temperature of the air conditioner to a required level, and without requiring a device such as a duct. The same air-conditioning blow-out device system, the heat-discharging conveyor system that keeps the air in the indoor space 2lll-9027-PFl; Ahddub 8 1318677: the air moves to the air intake of the air conditioner, and includes a blow-out system for biting some air conditioners. Air conditioning system of the system and the heat-discharging system of the heat-dissipating system (a means for solving the problem) In order to solve the above-mentioned problem of the "gg Q, 4., and the object, the first AX system for air conditioning of the present invention" includes: The air conditioner sucks in air from the suction port and blows out the cold air from the mouth; the air supply chamber allows the air conditioner that is formed under the floor and blows out from the outlet of the air conditioner to pass through, and at the same time, the air blows from the majority of the blow holes formed in the floor Blowing into the room * „., a plurality of blowing devices, located in the floor and sucked into the air supply chamber AA, ^ gas and smashed out into the indoor space; air flow measurement department, measuring the cold sputum in the air supply chamber Annoying 4, soil moisture or wind speed; and blowing out the control part, corresponding to the output of the airflow measuring part, when the cold air static pressure or the wind speed of the predetermined position in the field oxygen supply chamber is below the threshold value, the position of the action is described In the vicinity of the blowing device, the cold air in the air supply chamber is blown out into the indoor space. The second air conditioning blowing device system of the present invention includes: the air conditioner 'inhaling the animal from the suction port, % outlets blow out air-conditioning; The air supply chamber is made to pass through the cold airflow formed under the floor and blown out from the air outlet of the first-dimension second-order machine, and at the same time 'self-formed on the floor + mountain · ^ 丨 数 数 数 使 使 使 使 使 使 使 使 使Space; a plurality of blowing devices are arranged on the floor and are blown out into the indoor space by the cold air entering the oxygen supply chamber; the temperature measuring unit, and the other is the air temperature of the inner space; And blowing out the control part, corresponding to the temperature measurement Acer anti-j疋4 round, when the air temperature of the predetermined position of the indoor space is only pulled at the door, when the package is from the πI value, the blowing device near the higher temperature position is operated. And the cold air in the air supply chamber is blown out to the indoor space. Moreover, the third system of the present invention is the air conditioner blowing device system of the present invention, which is in the "2111-9027-PF1; Ahddub 9 1318677. The sound of the air temperature in the middle space is the same as that of the A. It includes the measurement of the output of the indoor unit. The output control unit corresponds to the output of the temperature measurement. When the light in the indoor space is fixed, the action is π.瑕^The dish is higher than the threshold / dish In addition, the cold air blown out from the vicinity of the position is blown out to the indoor space. The air supply chamber and the fourth heat-discharging wheel of the present invention are sent to the indoor air conditioner of the air conditioner. Moved at the entrance... The retained hot air goes to the air intake machine's suction measurement unit. When the indoor rotation control unit corresponds to the temperature broadcast value, the temperature is higher than the ancient level... 4 degrees... With the heat-discharging device in the vicinity of the < standing, the hot air left by the skull is returned to the air intake of the air conditioner. Moreover, the fifth row / ( ^ ' I device system of the present invention is the body of the heat-discharging device of the younger brother of the present invention, picking up the titanium crucible, and, sighing and accommodating the calculation in the inner space. The body heat-dissipating wheel is placed on the upper part of the frame body. The fifth and second=the sixth-stage heat-discharging device system and system are the heat-discharging device in the ',' and the heart device system of the present invention. In order to make the air in the frame strong as the π wood body adjusts the side of the machine tilt. The rice sigh is completed and the invention is 筮. 7 The heat transfer system is the system of the heat transfer device of the hair 5 * , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , In the exhaust heat transfer mounting system, the air guiding device for forcibly discharging the helium gas in the rack is provided on the guide. ... 2111-9027-PF1; Ahcidub 10 1318677 Moreover, the air conditioner of the present invention The air conditioning system of the present invention is included in the third embodiment of the present invention and the heat transfer device of the eighth aspect of the present invention. Effect: When the cold air static pressure or the wind speed is lower than the threshold value in the above-mentioned server room, the air-conditioning to the indoor space will be less. When the air supply chamber is in a predetermined place, it can be predicted that the air is blown from the space. Therefore, when the system of the present invention is used, the work of the material A is called to blow the device to a static pressure or the wind speed is lower than the threshold value, and the cold air of the space is blown out to the chamber by using the blowing method. b. The same amount of air is blown out from all the spaces in the interior. When the second invention is used, the blown gas in the vicinity of the southerly air is forcibly blown into the indoor space, and the temperatures are all the same. Therefore, if the inside of the air supply chamber is cooled, it is possible to control the indoor space and 'when using the third invention of the present invention β < work with the blowout device system' for the cold air static pressure or the wind speed is lower than the threshold value Using a blowing device to force the cold air of the space to be blown out into the indoor space, the main room, and at the same time, the blowing device near the high-temperature air is operated to force the 乳 7 milk in the air supply chamber to be forcibly blown out. Since the indoor space is such that the amount of cold air blown in all the spaces of the interior space is the same, the temperature of the indoor space can be controlled to be the same, and the 'titanium heat transfer device according to the fourth invention of the present invention can be used. The hot air that stays in the upper part of the indoor space moves to the suction port of the second-tone machine. It can perform the temperature camp of all the indoor spaces well. When it corresponds to the 2111-9027-PF1; the Ahddub 11 1318677 temperature measurement unit outputs the indoor space. When the air temperature is equal to or higher than the threshold value, the exhaust heat transfer device near the higher operating temperature position returns the retained hot air to the air intake of the air conditioner, so that the heat exhausting device operates only when necessary, 'can be implemented economically and economically Temperature management of all spaces in the room. Further, when the heat-discharging and transporting device system according to the fifth aspect of the present invention is used, the rack-mounted heat-discharging device for accommodating the computer in the indoor space is provided on the upper portion of the frame body, so that the frame body can be discharged upward. The heat is efficiently moved to the air intake of the air conditioner, and the temperature management of all the spaces in the room can be performed in a good and economical manner. Further, when the heat-discharging conveying device according to the sixth aspect of the present invention is used, the heat-discharging and conveying device is configured to forcibly discharge the body of the body, and the outlet is provided to the air conditioner. The side is inclined, so that the hot air in the frame can be moved more efficiently to the air intake of the air conditioner, and the temperature management of the entire space in the room can be economically implemented. Further, when the rack guide is used to make the rack body economical, when the heat exhausting conveyor system according to the seventh aspect of the present invention is used, the hot air discharged from the computer is introduced into the air conditioner side, so that it can be suppressed. The hot air discharged from the frame flows back to the frame body, and the hot air in the old year moves to the air intake of the air conditioner more efficiently, and the temperature management of all the indoor spaces can be implemented. Further, when the heat exhausting conveyor system of the eighth aspect of the present invention is used, the air guiding device for forcibly discharging the hot air in the rack is provided on the guide, so that the hot air in the rack body can be more efficiently The air conditioner is sucked into the mouth and moved, and the temperature management of all the indoor spaces can be performed in a good and economical manner. Further, when the air conditioning system according to the ninth invention of the present invention is used, it has 211j.-9027-PF1; Ahddub 12 1318677 is the third air-conditioning blowing device system, and the heat-discharging conveying device is abundant #^ in the eighth aspect of the present invention. In the case of the value, the wind speed is lower than 1 π in the door sill. The cold air of the space is blown hard to the inside of the work room. At the same time, the high temperature air attaches the gas to the device. The cold air in the turbulent cavity is blown out into the indoor space, and the blown out of all the spaces in the squatting space will make the heart blow out the same as the cold W. At the same time, it can control the temperature of the two rooms to be the same. Moreover, the target toilet is left in the upper part of the inner space. The milk is moved in the air intake of the air conditioner, and the temperature management of the entire space in the room is well performed. [Embodiment] Embodiments of the present invention will be described in detail with reference to the drawings. In the following embodiments, a computer room in which an air-conditioning blowing device system and a heat-discharging device system are provided will be described as an example of a server room. Further, the present invention is not limited to the following embodiments. [Embodiment 1] Fig. 1 is a perspective view of a server room using an underfloor air conditioning system according to Embodiment 1 of the air-conditioning blowing device system of the present invention. The server room (computer room) has an indoor space 15 formed between the floor 11 and the ceiling 13. The floor panel 11 is made of a double-structured floor. In the server room, a plurality of servo racks (frames) 17 for storing servos (computers) therein are provided in the entire column. Further, the server rack group in which the plurality of servo racks 17 are arranged is arranged in a plurality of columns (only one column is shown in Fig. 1). Each of the servo racks 17 draws in air from the suction ports formed at the bottom surface and the front surface, and discharges the hot air as indicated by an arrow A from the air outlet formed on the upper surface of 211±-9027-PF1; Ahcidub 13 1318677. The air conditioner 21 is provided on the side wall surface of the server room. The air conditioner 21 takes in air from the suction port 21a formed on the upper surface, and blows air (air-cooled air) that has been conditioned from the air outlet (not shown) formed on the bottom surface. An air supply chamber 23 is formed below the floor 11 which is formed into a double structure. The air conditioner (21) blows cold air into the air supply chamber (23). The portion sandwiched by the two column servo frames in the floor 11 serves as a passage portion. In the floor i i of the passage portion, a plurality of small-diameter blow holes are formed on the entire floor surface. The air conditioner 21, the cold rolling of the soil out into the air supply chamber 23, flows through the air supply chamber 23 as indicated by an arrow B, and then blows out from the respective blowing holes Ua to the indoor space 15 as indicated by an arrow c. . The air supply chamber 23' under the double floor is also used as a wiring space for each server. The wiring 25 extending to the respective servos is filled in the air supply chamber 23. A plurality of blowing devices 30 are provided at equal intervals from the floor portion of the passage portion of the air conditioner 21. The blowing device 30 is sucked into the indoor space 15 by the cold air sucked into the air supply chamber 23 as indicated by an arrow D. Since the air outlet 11a formed in the floor panel 11 and the air-cooling air blown out by the blowing device 3 reduce the indoor space u, the warm air is raised by the servo, and the natural flow is indicated by the arrow E. The air conditioner 21 suction port 2la is moved along the ceiling 13 by the self-defense flow. The figure shows a detailed side view of the blowing device 30. The blowing device is a fan 32 having a motor and a motorized motor 31 on the drive shaft of the motor 31. The air is sucked into the air supply chamber 23 from the suction inlet 7 formed on the lower surface, and the air outlet 34 is formed on the upper surface. Go to the indoor space 15. A control device (a portion) 40 for controlling the blowing device 30 is provided at the side of the apparatus 30 for blowing out 2lU'9027-PF1; Ahdciub 14 1318677. A pressure detecting blow is protruded from the end surface of the front side of the control device 4. The control unit 4 is configured to measure the air supply chamber == flow cold air pressure and output the result to the control unit 4 〇. The control device 40' corresponds to when the cold air pressure at a predetermined position in the wheel chamber 23 of the pressure detector 41 is lower than the value of (10): The cold air in the air supply chamber 23 is blown out into the room ♦ I5. Moreover, the control device 40 corresponds to the output of the pressure detector 41. When the static pressure of the air supply chamber is lower than the (four) value, the wind/32 speed is accelerated to increase the air volume' while only When the threshold value is lower than the threshold value, the fan 32 speed is slowed down to reduce the air volume. As described above, when the air-conditioning blowing device system of the present embodiment is used, it includes an air conditioner 21 that takes in air from the suction port 21a, and supplies air from the outlet person to supply the air chamber 23 so as to be self-formed under the floor. And the cold air flow blown from the air outlet of the air conditioner 21 is blown, and at the same time, the cold air is blown into the indoor space from the plurality of blow holes 1 la formed on the floor u. 5; the plurality of blowout devices are provided on the floor 11 and suck in the air supply chamber The air inside 23 is blown out to the indoor space 15, the pressure is detected, the cold air static pressure in the air supply chamber 23 is measured, and the control device 40 corresponds to the output of the pressure detector 41, when the air supply chamber When the cold air static pressure at the predetermined position in 23 is below the threshold value, the device 30 near the position is operated, and the cold air in the air supply chamber 23 is blown out to the indoor space 15. Each of the blowing devices 30 is provided with a pressure detector (air flow measuring unit) & j that measures the flow of air in the air supply chamber 23, and the pressure "2111-9〇27-PFi". ; Ahddub 15 1318677 The detection result of the detection of the benefit 41 to control the blowing control device (blowing control unit) 40 'floor air supply air pressure in the lower air supply chamber 23 is detected by the force detector 41 In response to the detection result, the cold air static pressure blown from the air supply chamber 23 is adjusted by controlling the "rotation speed of the fan 32 of the discharge device 30", so that the amount of cold air blown in the entire area of the indoor space 15 is the same. By this, the temperature in the inner space 15 is not biased, and the air conditioner 21 can be efficiently mobilized. Further, when it is not necessary to strictly control the pressure loss in the air supply chamber 23, the blowing device 30 can be easily made strong, medium, or the like, and set to a constant blown air volume. The form of the blowing device 30 is not limited to that shown in Fig. 2, and may be a blowing device formed by a small propeller fan i. It may be an object equipped with a multi-blade fan or an article equipped with a cross-flow fan. Further, in the present embodiment, the airflow measuring unit is provided with a pressure detecting unit for measuring the static air pressure in the air supply chamber 23, and when the static pressure is lower than the threshold value, the blowing means for operating the position is operated. However, the purpose of static pressure measurement is to investigate the retention of cold air. When investigating the retention of cold air, it is not limited to the gas pressure, but the air temperature can be measured and the control can be performed based on the results. When the blowing device 3G is controlled at the cooling air velocity, the #wind speed is lower than the door value %' and the blowing device 3 is operated at the position. (Embodiment 2) Fig. 3 is a perspective view of a server room under the floor air-conditioning system according to Embodiment 2 of the air-conditioning blowing device system of the present invention. In the present embodiment, the human-out device is a blowing device 3 〇 b which is constituted by an elongated cross-flow fan. The other configuration is the same as that of the first embodiment. 16 2111-9027-PFl; Ahddub 1318677 When using this type of air-conditioning to blow out apricots and also add 1 ^ double-tethered system, it can be obtained with the implementation of the cancer type 1 air-conditioning blow d ^. The effect is the same as that of the same item. In addition, the large amount of the spurs of the sputum in the air supply chamber 23 is reduced. Therefore, the cold air in the rolling chamber 23 is stagnate into Guo Kao... ΤMore crazy yue 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕Embodiment 3
:®係本發明空調用吹出裝置系統實施形態3的採 用地板下空調方式的飼服器室立體圖。在本實施形態中, 如第4圖所不’設有檢出室内複數處所溫度之溫度偵知器 (溫度測定部)43。而且,前述溫度读知_ 43係以電線^ 連接到吹出裝置30。又,吹出裝置3〇係以電線45連接到 空調機21。在吹出裝置設有與實施形態"目同的吹出 控制部(未圖示)。其他構成則與實施形態1相同。 而且’在本實施形態中,空調機21之冷氣吹出量及室 内=數處所之溫度資訊,係透過電線44, &傳遞到未圖示 一 控制°卩。而且,吹出控制部,係對應空調機21之冷 氣出量” 度偵知器43之輸出,當室内空間丨5既定位 置之二氣度大於門檻值時,動作溫度較高位置附近之吹 出裝置30’而使供氣腔體23内之冷氣吹出到室内空間15。 而且,未圖不之吹出控制部,也可以係使對應前述溫度偵 知器43輸出之控制,與實施形態1之由靜壓或風速所致之 控制平行實施。 虽使用本實施形態時’室内空間1 5内既定領域之溫度 會上升到超過想定溫度,對於熱氣局部集中或熱負荷偏「 17 2111-9027-PFl;Ahddub 1318677 倚3b邊實施放出風量之*用黎 之室内空調。n周整—邊稼動,能實施高效率 而且’吹出裝置30之形態,與 侷限於第2圖斛-^ 、也办心1相同地並不 列構成之迭n ,也可以係使小型螺旋紫風扇並 以係裝備右h 乂係裝備有夕翼風扇之物件,也可 係裝備有横流風扇之物件。 實施形態4 地板二本發明排熱輸送裝置系統實施形態4的採用 第5圖:-伺服器室立體圖。在本實施形態中,如 第圖所不,在以空調機21空調之室内*門邝μ μ 士 排熱輸送裝置 至内^ 15上部設有 置50别逑排熱輸送裝置5〇,係使滞留在天花 附近之熱氣往空調機21吸入口 21a移動。 :飼服器室内,搭載有伺服器之架體17,係為了降低 木體内之溫度’使㈣熱氣往上方或後方 形態中,使自前述架體17排出之埶皮古 在本貝施 排出之熱乳有效率地回到空調機 路部的J排熱輸送裝置5°’係在被架體群包圍之通 β 、天钯板1 3中,設於遠離空調機2 1 ^ 13處,以被鄰接架體群列夹持。 々天化板 而且,當使排熱輸送裝置5〇畤罟古 戒罝50 °又置阿度設於比架體17 表面运要高0·5公尺時,能最有效率地抑制架體Η附近 之溫度上升。而且,此時排熱輸送裝置5〇之生成氣流卜 二自通路空間上部熱氣滞留之領域,往空調機21吸入口 2U方向形成。而且,在到達目的地之空調機…及入口… 附近之氣流風速,係在無外部干擾之狀態下,調整吹出風 18 2111-9〇27-PFl;Ahddub [S ] 018677 - 迷到 〇. 5m/s〜1. Om/s。 而且,當剛述到達目的地之氣流較弱時,自離開空調 機21第1台排熱輪送裝置50至空調機21吸入口 21a為止 之間,更設置1台或複數台排熱輸送裝置5〇,能形成既定 強度之氣流。 如此一來,在來自架體17之排熱氣流影響較少的通路 及架體17附近之天花板13附近設置排熱輪送裝置5〇,藉 春此,能使滯留在架體17上部附近之熱氣有效率地回到空; 機21吸入口 21ae藉此’能抑制熱氣往伺服器逆流而形成 抄近路,而且,能抑制空調機21之冷氣直接回到空調機 21之冷氣短回路,空調機21能高效率地運轉。 實施形態5 本實施形態之排熱輸送裝置系 輪送裝置系統之外,另m遠離Γ *讲 为外叹有SX於遠離空調機21之位置 檢出溫度之未圖示溫度檢出部、及依據前述溫度檢出部 輸出來控制排熱輪送裝置5◦之隨F的控制裝置⑽ 制部)。而且,控制穿晉(於w 、 J裝置(輸运控制部),係當以溫度檢出 :定之溫度達到—定值以上時,使設於當 = 域的1台或複數台的排熱輸送農置5〇運轉。…; 21雖然未稼動,但是,當以溫度檢出部測定之 ★ 〇 W斷在δ又有空調機21之附近處,办詷 流係成短回路’又’當空調機21雖然在稼 : 溫度檢出部測定之、、w择、去χ, —疋备」 J疋之皿度達到一定值以上時, 有伺服器之架體的發埶量 乂判斷搭1 發,、,、里很大,所以,即使對於任何狀況 2111-9027-PFl;Ahdclub 19 1318677 藉由使來自搭載有伺服器之 ^ 木ml?的熱軋回到空調機21 吸入口 21a’能改善空調 半如此一來,能由室内溫度 來判斷空調狀況,而動作排 併”、、鞠迭裝置50,藉此,能更有 效率地稼動。 實施形態6 ★第6圖係採用本發明排熱輸送裝置系統實施形態6的 工調方式的飼服器室立體圖。在本實施形態中,如第6圖 所不,在搭載有伺服考之靼駚 ㈤ 盗之木體17上部設有排熱輸送裝置 50B。而且,自最遠離空調 周機第1台排熱輸送裝置5〇β 至空調機21吸入口 2laAiV々pq s 马止之間,更設置第2台、第3 a 排熱輸送裝置50,使能輸送熱氣。㈣17内部〇_ 然自搭載有伺服器之架體17上部往上方吹出,但是,排熱 輸送裝置50B係被設置成一宕門眩 OTL α 、 χ ^ 疋間隔,以戰勝此上吹埶氣, 使滯留在伺服器上部與天花板之間的熱氣強制性地回到空 調機21吸入口 21a。而且,排熱輸送裝置5〇β,係可以在 使架體Π設置在伺服器室後再安也可以在架體製作時 組入架體17 ’當作具有排熱輸送裝置之架體設置到伺服器 室。 實施形態7 第7圖係採用本發明排熱輸送裝置系統實施形態7的 空調方式的伺服器室立體圖。在本實施形態中,如第7圖 所不’架體1 7上部係以蓋體53覆蓋,巾且,在蓋體53開 口部設有排熱輸送裝置50Cd而且,排熱輸送裝置5〇c係 被没置成以既定角度傾斜,以使設於開口部之排熱輸送裝 2111-9027-PF1;Ahddub 20 '1318677:® is a perspective view of a feeding device chamber using an underfloor air conditioning system according to a third embodiment of the present invention. In the present embodiment, as shown in Fig. 4, a temperature detector (temperature measuring unit) 43 for detecting the temperature of the plurality of indoor spaces is provided. Further, the aforementioned temperature reading _43 is connected to the blowing device 30 by wires. Further, the blowing device 3 is connected to the air conditioner 21 by a wire 45. The blowing device is provided with a blowing control unit (not shown) similar to the embodiment. The other configuration is the same as that of the first embodiment. Further, in the present embodiment, the amount of cold air blown by the air conditioner (21) and the temperature information of the indoor unit are transmitted through the electric wires 44 and & Further, the blow-out control unit corresponds to the output of the cold air discharge amount detector 43 of the air conditioner 21, and when the two air chambers of the predetermined position of the indoor space 丨5 are larger than the threshold value, the blowing device 30' near the higher operating temperature position The cold air in the air supply chamber 23 is blown out into the indoor space 15. Further, the control unit is not shown, and the control corresponding to the output of the temperature detector 43 may be controlled by static pressure or in the first embodiment. The control due to wind speed is carried out in parallel. When using this embodiment, the temperature in the predetermined area of the indoor space 15 will rise above the desired temperature, and the local concentration or thermal load of the hot air will be "17 2111-9027-PFl; Ahddub 1318677 In the case of 3b, the air volume is released. The column composition n can also be used to make a small spiral-violet fan and equipped with a right-handed fan with an object of the eve wing fan, or an article equipped with a cross-flow fan. Embodiment 4 Floor 2 The fourth embodiment of the heat transfer device system according to the fourth embodiment is a perspective view of the server chamber. In the present embodiment, as shown in the figure, the air conditioner 21 is air-conditioned and the door is ventilated to the heat transfer device to The upper part of the inner portion 15 is provided with a 50-inch heat-discharging device 5, and the hot air remaining in the vicinity of the ceiling is moved to the air inlet 21a of the air conditioner 21. The inside of the feeding device is equipped with a frame 17 for the server. In order to reduce the temperature in the wood, the heat in the upper or the rear of the air conditioner is efficiently returned to the J-discharge of the air-conditioning machine. The conveying device 5°' is placed in the through-belt and the palladium plate 13 surrounded by the frame group, and is disposed away from the air conditioner 2 1 ^ 13 and is held by the adjacent frame group. When the heat-dissipating conveyor 5 is set at a temperature of 50 ° and the height is 0.5 m higher than that of the surface of the frame 17, the temperature rise near the frame body can be most effectively suppressed. Moreover, at this time, the heat generation device 5 generates a flow of air, and the heat gas stays in the upper portion of the passage space. It is formed in the direction of the suction port 2U of the air conditioner 21. Moreover, the airflow speed in the vicinity of the air conditioner and the entrance to the destination is adjusted in the state without external disturbance, and the blown air is adjusted 18 2111-9〇27-PFl; Ahddub [S ] 018677 - 迷到〇. 5m/s~1. Om/s. Moreover, when the airflow to the destination is weak, the first heat-discharging device 50 from the air conditioner 21 is removed to the air conditioner. Between 21 suction ports 21a, one or a plurality of heat transfer devices 5 〇 are provided to form a gas stream of a predetermined strength. Thus, the passage and the frame body having less influence on the exhaust heat flow from the frame body 17 A heat-discharging device 5 is arranged near the ceiling 13 near the 17th, so that the hot gas staying near the upper portion of the frame body 17 can be efficiently returned to the air; the suction port 21ae of the machine 21 can thereby suppress the hot gas to the servo. The device is reversed to form a short-cut path, and the cold air of the air conditioner 21 can be directly returned to the cold air short circuit of the air conditioner 21, and the air conditioner 21 can operate efficiently. (Embodiment 5) The heat-discharging and conveying device of the present embodiment is a non-illustrated temperature detecting unit that is outside the system of the wheel-feeding device, and is further sighed by a temperature at which the SX is detected at a position away from the air conditioner 21, and The control unit (10) of the heat-discharging device 5 is controlled in accordance with the output of the temperature detecting unit. Moreover, the control of the Jinjin (in the w, J device (transportation control department), when the temperature is detected: when the temperature reaches - the fixed value or more, the heat transfer of one or more units set in the = domain Farming 5 〇 operation....; 21 Although it is not moving, but when measured by the temperature detection department, 〇W is broken at δ and there is air conditioner 21 nearby, and the turbulence system is short circuit 'also' when air conditioning Although the machine 21 is measured in the crop: temperature detection unit, w select, go to χ, 疋 」 」 疋 疋 疋 疋 疋 疋 疋 疋 疋 疋 疋 疋 疋 疋 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服 伺服, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , In the case of the air conditioner, the air conditioning condition can be judged from the indoor temperature, and the operation is arranged in parallel with the device 50, whereby the device can be moved more efficiently. Embodiment 6 ★ Figure 6 is the heat removal of the present invention. Stereo view of the feeding device chamber of the transfer mode system according to the sixth embodiment of the transport device system. In the state, as shown in Fig. 6, a heat-dissipating conveyor 50B is provided in the upper portion of the wooden body 17 equipped with the servo test (5). Moreover, the first heat-discharging device 5 is the farthest from the air-conditioning peripheral. Between β and air intake unit 21 suction port 2laAiV々pq s, the second and third a heat-discharging devices 50 are installed to enable the delivery of hot air. (4) 17 internal 〇 _ However, the rack body 17 is equipped with a servo. The upper part is blown upwards, but the heat transfer conveying device 50B is set to be a door glare OTL α, χ ^ 疋 interval to overcome the upper blowing of the helium gas, so that the hot air remaining between the upper portion of the server and the ceiling is forcibly Returning to the air inlet 21a of the air conditioner 21. Further, the heat exhausting device 5〇β can be set up after the frame body is placed in the server room, or can be incorporated into the frame body 17' when the frame body is manufactured. The frame of the heat-dissipating conveyor is installed in the server room. Embodiment 7 Fig. 7 is a perspective view of a server room of an air-conditioning system according to Embodiment 7 of the heat-discharging device system of the present invention. In the present embodiment, as shown in FIG. The upper part of the frame body 1 is covered with a cover 53 The heat transfer device 50Cd is provided in the opening of the lid body 53 and the heat transfer device 5〇c is not inclined at a predetermined angle so that the heat transfer device 2111-9027-PF1 is provided in the opening portion; Ahddub 20 '1318677
置50C氣流吹出方向朝向空調機21吸入口 2ia。藉此,架 體17内之熱氣會被引誘,此排熱氣流會朝向空調機21吸 入口 21a,所以,能抑制熱氣流動在架體17周圍,能實施 更有效率之室内空調。 實施形態8 和第8圖係採用本發明排熱輸送裝置系統實施形態8的 空調方式的伺服器室立體圖。在本實施形態中,如第8圖The 50C airflow direction is directed toward the air inlet 21 of the air conditioner 21. Thereby, the hot air in the frame body 17 is attracted, and the exhaust heat flow is sucked into the inlet 21a toward the air conditioner 21. Therefore, it is possible to suppress the flow of hot air around the frame body 17, and it is possible to carry out more efficient indoor air conditioning. Embodiments 8 and 8 are perspective views of a server chamber of an air conditioning system according to a eighth embodiment of the present invention. In this embodiment, as shown in FIG.
所不,作為使通常安裝於架體17上部之排熱風扇功能合併 之排熱風扇兼用排熱輸送裝置,排熱輸送裝置_係設於 、_ 7上础述排熱輪送裝置5 0 D,係使架體1 γ内部 ‘、、、氣自架體17往斜上方吹出。而且,吹出之熱氣係往空調 機21吸入口 21a。藉此,無須另外設置排熱輸送裝置,能 成為價廉之構造。 實施形態9 *第9圖係採用本發明排熱輪送裝置系統實施形態9的 空調方式的伺服器室立體圖。在本實施形態中,如第9圖 在架體17上部安裳有導引器57,以導引使架體17 内熱氣往斜上方吹出。而且,在架體η上部設有合併排熱 風:功能之排熱輸送裝i 5〇Ε。如此一來,使兼用做安裝 於架體17上部之排熱風扇的排入輸送裝置5〇ε被設置成與 導引器57協同運作’藉此,無須另外設置排熱輸送裝置, 能成為價廉之構造。 實施形態1 0 第 1 〇圖係採用本發明 空調系統實施形態 1 〇的地板下 2lU-9〇27-PF1;Ahddub 1318677 "方式的伺服器室立體圖。在本實施形態之空調系統 如第10圖所示,係組合第1圖所示實施形態1空調用 人出裴置系統與第5圖所示實施形態4排熱輸送裝置系統 士構成。藉此,能強制性地生成橫跨伺服器室全區域的氣 二循%,所以’能抑制空調機21附近之冷氣短回路,消除 逖離空調機21領域之冷氣吹出不足,能防止架體17上部 留’也抑制架冑i 7㈤近之熱氣抄捷徑,能使空調機 21高效率地運轉。 在採用本實施形態空調系統之伺服器室處,於產生熱 負:偏倚之通路内’當系統停止時,實際測試系統稼動: 之溫度的結果,在平均溫度29. rc〜26. 2。。之地點能降低 C 25· 7 C,而且,相對於系統停止時,在系統稼動 時’室内空間15能被良好地空調,能確認熱氣不滯留。 【產業上可利用性】 如上所述,本發明之空調用吹出裝置系統,係非常適 用於例如設有收納電算機之架體且㈣純下空調方式之 祠服器室’尤其’非常適用於隨著系統高度集中化之推進 在供氣腔體内往伺服器機器配置之配線條數增加而供氣腔 體内之流路變狹窄的伺服器室…本發明之排熱輸送裝 置系統’係非常適用於設有多㈣如收納t算機之架體, 在室内空間上部有熱氣滯留之伺服器室。 【圖式簡單說明】 211i-9027-PFl;Ahddub 22 1^677 第1圖係本發明空調 體圖。 人出裝置系統之實施形態1立 圖吹φ & 出裝置詳細之側視圖。 第2圖係表示第1 第3圖係本發明空調 體圖。 人出裝置糸統之實施形態2立 第4圖係本發明空調 體圖。 人出裝置系統之實施形態3立 統之實施形態4立體 • 第5圖係本發明排熱輪送襞 0 圖 第6圖係本發明排熱輪送裝置系 統之實施形態6立體 圖 第7圖係本發明排熱輪送裝置系統之實施形態7立體 圖 圖 第8圖係本發明排熱輸送襞置系 第9圖係本發明排熱輸送裝置系 統之實施形態8立體 統之實施形態9立體 第10圖係本發明空調用吹出奘罢 m装置糸統之實施形態1 〇 立體圖。 弟11圖係置於地板下空調方式的止am 祖如 八的先前伺服器架立體 圖。 【主要元件符號說明】 11〜地板; 11a〜吹出孔· 2111-9027-PFl;Ahddub 23 1318677 1 3〜天花板; 1 5〜室内空間; 17〜伺服器架; 21〜空調機; 2la〜空調機吸入口; 23〜供氣腔體; 2 5〜配線; 30, 30B〜吹出裝置; 31〜馬達; 3 2〜風扇; 33〜吹出裝置吸入口; 34〜吹出裝置吹出口; 44, 45〜電線; 40〜控制裝置(吹出控制部); 53〜蓋體; 41 ~壓力偵知器(氣流測定部) 57〜導引器; 43〜溫度偵知器(溫度測定部) 50,50B,50C,50D,50E〜排熱輸送裝置。 2111-9027-PFl;AhddubNo, as a heat-dissipating fan combined heat-discharging device that combines the functions of the heat-dissipating fan that is usually mounted on the upper portion of the frame body 17, the heat-discharging and transporting device is disposed on the _7. The air inside the frame 1 γ is blown out from the frame body 17 obliquely upward. Further, the blown hot air is supplied to the air intake 21 suction port 21a. Thereby, it is not necessary to separately provide a heat exhaust conveying device, and it can be an inexpensive structure. (Embodiment 9) Fig. 9 is a perspective view of a server room of an air conditioning system according to a ninth embodiment of the heat-discharging device system of the present invention. In the present embodiment, as shown in Fig. 9, an introducer 57 is mounted on the upper portion of the frame body 17 to guide the hot air in the frame body 17 to be blown upward obliquely. Moreover, in the upper part of the frame body η, there is a combined heat exhausting air: a function of the heat exhausting conveyor. In this way, the discharge conveying device 5 〇 ε which is also used as the heat-dissipating fan attached to the upper portion of the frame body 17 is provided to operate in cooperation with the guide 57. Thus, it is possible to obtain a price without separately providing a heat-discharging conveying device. Lianzhi construction. Embodiment 1 0 The first diagram is a perspective view of a server room of an air conditioning system according to an embodiment of the present invention. 1AU-9〇27-PF1; Ahddub 1318677 " In the air-conditioning system according to the present embodiment, as shown in Fig. 10, the air-conditioning person exiting system of the first embodiment shown in Fig. 1 and the fourth-stage heat transporting device system of the fourth embodiment shown in Fig. 5 are combined. In this way, it is possible to forcibly generate the gas circumstance across the entire area of the server chamber, so that the cold air short circuit in the vicinity of the air conditioner 21 can be suppressed, and the cold air blowing in the field of the air conditioner 21 can be eliminated, and the frame can be prevented. The upper part of the 17 leaves 'suppresses the 热i 7 (5) near the hot air to cut the shortcut, enabling the air conditioner 21 to operate efficiently. In the case of the server chamber of the air conditioning system of the present embodiment, in the path of generating a heat-reducing: biased path, when the system is stopped, the actual temperature of the test system is as follows: the average temperature is 29. rc~26.2. . The location can reduce C 25· 7 C, and the indoor space 15 can be air-conditioned well when the system is stopped relative to the system stop, and it can be confirmed that the hot air is not retained. [Industrial Applicability] As described above, the air-conditioning blowing device system of the present invention is very suitable for, for example, a rack body in which a computer is housed and (4) a pure air-conditioning system is particularly suitable for use. As the system is highly centralized, the number of wiring strips arranged in the air supply chamber to the server machine is increased, and the flow path in the air supply chamber is narrowed... The heat exhausting conveyor system of the present invention is It is very suitable for a server room with multiple (four) storage cabinets and hot air in the upper part of the indoor space. [Simple description of the drawing] 211i-9027-PF1; Ahddub 22 1^677 Fig. 1 is a view of the air conditioner of the present invention. Embodiment 1 of the human-out device system is a vertical view of the φ & Fig. 2 is a view showing the air conditioner of the present invention in the first and third drawings. Embodiment 2 of the human device system Fig. 4 is a view of the air conditioner of the present invention. Embodiment 3 of the human-out device system Embodiment 3 is stereoscopically provided. FIG. 5 is a heat-dissipating wheel of the present invention. FIG. 6 is a perspective view of the embodiment of the heat-discharging device of the present invention. FIG. Embodiment 7 of the heat-discharging device system of the present invention is a perspective view of the eighth embodiment of the present invention. FIG. 8 is a diagram of the heat-dissipating conveyor system of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a first embodiment of the air-conditioning blow-out device of the present invention. The brother 11 is a three-dimensional view of the previous server rack placed in the air conditioning mode of the floor. [Main component symbol description] 11~floor; 11a~ blowout hole · 2111-9027-PFl; Ahddub 23 1318677 1 3~ ceiling; 1 5~ indoor space; 17~ server rack; 21~ air conditioner; 2la~ air conditioner Suction port; 23~ air supply chamber; 2 5~ wiring; 30, 30B~ blowing device; 31~ motor; 3 2~ fan; 33~ blowing device suction port; 34~ blowing device blowing outlet; 44, 45~ wire 40~Control device (blowing control unit); 53~cover body; 41~pressure detector (airflow measuring unit) 57~guide; 43~temperature detector (temperature measuring unit) 50, 50B, 50C, 50D, 50E ~ heat transfer device. 2111-9027-PFl; Ahddub