200921342 九、發明說明: 【發明所屬之技術領域】 本發明係有關於電腦技術領域,具體而言,係有關於一種刀片式伺服 器系統及其散熱方法。 【先前技術】 目前,刀片式伺服n系統作為舰器中的新星,應網路縱深發展、使 用者組群管理、以及不斷擴展的需求而誕生H高度可用高密度 的低成本伺服器平臺。刀片式伺 服Is系統所具有的高計算魏、最適化目&置、方便管理、龍、分享、高性 價比等明顯優勢’已使其成為伺服器發展的主要方向。 ^刀片式伺服器系統的特點就是在狹小的空間内安裝大量的刀片伺服 Ik著系統功率絲的不斷提高,在與刀片式赌難統的處理能力' :源利用^等關細_散熱問題上,給刀片式伺縣系統提出了嚴苛挑 '可以3兒’刀片式彳g服器系統發展的一個最大瓶頸就是散熱問題。 在保證刀片式概料統處理能力的前提下,系統電熱量—般無法大 二二降,。但藉由合理的散熱設計,可以使刀以伺服器祕具有較好的 散,、、、性能,從而提高系統的能源利用率和處理能力。 在現有刀>|式概料統的散熱設計中,—種f見的方案是採用風冷 •vf j在刀^式伺服料統中設置風扇模組,並設置相應的風道,刀片 的二核刀片伺服_藉由所設置的風扇模組及相應的風道 H政熱。第1圖所示的刀片式伺服器系統1G中具有十個刀片飼服 1署l!至11_1G ’設置了兩個風扇模組12與13,並在_風扇模組的中間 眸,Γ置了 Γ個風道14 ’此刀片式伺服器系統由管理模、组15控制而運作 熱。=可以藉由:^兩個風扇模組和—個風道對所有的刀片伺服器進行散 3同於第2圖中所示,此刀片式伺服器系統2G是由:刀片式飼 的散及風道24所構成,而此刀糊服器系统 散熱上_的各個邱舰器進行 200921342 【發明内容】 以媳,於此,本發賴要解決㈣題在於提供-種刀片式舰器系統, 钕兩刀片式伺服器系統的散熱效率。 f發明同時還提出了—種刀片式舰器系統的散熱方法。 為解決上述問題,本發明提供了以下技術方案: 服哭本Ϊ明種刀片式伺服器系統,此刀片式伺服11系統中包括刀片飼 哭I处1理核組、用於刀片飼服器散熱的風扇模組及風道,此刀片式伺服 ;的靠近刀=晴的風道隔板,且此風道隔板位於風 押制聽確定各個則舰11的運行情況,以及根據運行情況 控制各個刀片伺服器所對應的風道RI板打開或關閉; 風道隔板,用於根據管理模_指示打賊關本風勒高板。 服式伺服Κ统中進—步設有溢度收集模組,用於收集各刀片伺 益的,度,以及_收制的溫度資贿送給此管賴組; 個刀’進―步用練據糾的溫度較歧運行狀態的各 隔=片伺服器的風道隔板的打開角度,以及將打開角度指示給相應賴道 應 的角^風道隔板’進—步用於根據管理模組的指示將本風道隔板開啟相 模組,較溫度最高的刀心服器所對應的風道隔板為全部打 餘溫度與最高溫度的關係確定其餘溫度的則伺服麟對應的 几道^的打開肢,以及將所確定的打_度指示給相應的風道隔板。 魅’進—步用於獲取各個處於運行狀態的刀片値器的功率 =耗得到的功㈣耗資訊較此列魏器的風道隔板的打開角 X以及將打開角度指示給相應的風道隔板; 的角板’進-步脈根據管理模_旨稀本風道隔板開啟相應 應的風道隔板為全 此管理模組,確定功率消耗最高的刀片伺服器所對 200921342 部打開,根據其餘功率消耗與最高功率消耗的關係確定其餘功率 片伺服器所對應的風道隔板的打開角度,以及將所確定的打 的刀 相應的風道隔板。 不給 此風道隔板設置在刀以伺服殼體上,或者設 伺服器上。 合1U刀片 此風道隔板包括驅動馬達和隔板,且驅動馬達根據f理模組的指 開或關閉隔板。 、、 a 7F打 本發,-種刀片式砸料、統的散熱方法,刀以伺服器系統藉由 自身的風扇杈組及風逼為各個刀片飼服器散熱,在刀片式伺服统 置與刀片舰器對應的風道_,且此風道隔板位於風道轉近 側 _, 該方法更包括: a·刀片式伺服器系統確定各個刀片伺服器的運行情況; b.刀片式舰器系統控制處於運行狀態的刀片舰 侧姆獅_編辑物 片伺咖鲍崎集各個刀 二驟巾此刀片式伺服器系統控制處於運行狀、 册 狀態,進—步包括 岸的嶋統控制處於運行狀態_伺服器所對 ,進一步包括:刀片式舰器系統根據此刀片 3制此刀片,器所對應的風道隔板的打開角度。 各個77 tUl二刀丨式饲服&系統中S置風道隔板,使得能夠根據 行情況來合理地動態使用有限_,從而提高= 大何服㈣、統的散熱效率,降低了系統功率消耗。 動所增加的風道隔板很容易實現。且在風道隔板由隔板及驅 動馬達、錢的情況下,其情鶴馬達很便宜,成本很低,幾乎不需要增 200921342 加成本,即可提咼刀片式伺服器系統的散埶效率。 案:進 服器系統的散熱效率’而增加溫歧紐組是非常料實间= 很低。本發明方案根據功率消耗進行控制的實施方 可 步提高刀片式伺服器系統的散熱效率的效果。 mT以達到進- 【實施方式】 由於目前利用風冷技術的刀片式祠服器系 道,所有的刀㈣鮮«由射的風顧減風道進; ,片式饲服器系統中,每個刀片_管是否 散Γ顯然這樣浪費了有限的風道資源,因此,本發明方 =板靠近刀片伺服器侧設置與刀片伺服器對應的風 可心士心關閉某些刀片舰器所對應的風道隔板, 加快散熱。、概11所對應的風道隔板中流通的風的風速,從而可以 及具體實施例對本發明方案作進-步詳細的描述。 多二==ί=::有-個風,也可以有 兩個風扇模組及-個風道的刀__=為=·迷’下面以包括 片統的結構如第3圖所示。第3圖所示的刀 刀括^更刀^^器個31-1至㈣’以及用於控制這些 置在·4的靠近刀,且具體可以設置在 舰二二二设體上’也可以設置在刀片式伺服器系統的每個刀片 〇 - 刀片式伺服态系統更設有兩個風扇模組32與33。 弟圖所不的結構,刀片式飼服器系統中的管理模組確定本刀片 200921342 式伺服器系統中的各個刀片伺服器的運行情況,並根據該運行情況控制各 個刀片伺服器所對應的風道隔板打開或關閉。具體而言, 定本刀片式伺服器系統中有刀片伺服器進入運行狀態時,通:該^^ 器所對應的風道隔板打開;在確定有刀片舰器進人關職態時,通知該 刀片飼服器所對應的風道隔板關閉。 x 刀片式伺服器系統中的風道隔板在收到管理模組的打開隔板的通知 後’打開本隔板,以及在收到管理模組的關閉隔板的通知後,關閉本隔板。 為節約風道資源,可以設置風道隔板在正常狀態下處於關閉狀離。 相應地,管理模組還可以在某個刀片伺服器進入運行狀態,並通知該 刀片伺服ϋ所對應的風道隔板打開隔板後,繼續監控該刀片伺服器,如 由運行狀態轉為停止狀態,則通知該刀片鑛騎對應的風 道隔板關閉隔板;否則,繼續進行監控。 此外’本發明所設置的财隔板具體可以如f 4圖所示,即風道隔板 4〇、由-個_馬達41和—倾板42域,其中,該驅動馬達可以是做 馬達,也可以是其他馬達。福板能夠在鶴馬義㈣下進行開關。驅 動馬達則在管理模組的控制下打開/關隔板。且該隔板具體可以是 有-個轉㈣Η,當簡在轉軸的控制下,與隔板的其_定部分^ 與隔板的其他固定部分成—角度時,該隔板被打開, 顯ΛΛ,如果該角度為90度,則隔板被完全打開。當然,如果是設置般 t1可以將所有的風道隔板設置為—個風道隔板條,具體如第5圖所"示, iitH53服11對應—倾道隔板。如同於第5圖巾所示,各風道隔 扳條52-1、52-2……52-n配置於各驅動馬達5μι、51_2…“七。 上述方案主要是根據各個刀片伺服器的運行與否來控制刀η片飼服器所 對應的風韻板的侧。本個在上述方案的基礎上,還進_ 崎行航控概道驗的開啟肢的转。^對該方ϊ 亡=,日出:控制風道隔板的開啟角度的方案,具體有兩種實施方 式,種方式疋直接根據各個刀片伺服器的溫度進行控 服 器的功率雜與溫度成正比,功率雜越高,溫度也就越高,二片^ 200921342 種方式是根據各個刀片飼服器的功率消耗進行控制。 刀片據則首先需要為刀片式飼服衫 . 步°又置相應的溫度採集模組,該溫度收集模组诵營^·,、/θ 感測^。該溫度收集模組將收集到的溫度資訊發送給管理模組。疋 g理模、_進_步根據得到的溫$ =器的風道隔板的開啟角度。具體而言,管理模組; 的風道隔板打聞-中沾“ ▲ 其餘刀片伺服器所對應 刀片伺服器所對庳的風、首具體實現時,即為管理模組向溫度最高的 對應的風道隔全部㈣的信號,向其餘則槪器所 丁㈣顺(W板發物難定肢所對應的信號。 舰他11輪1咖_鱗,可以設刀片 度減小-定二声二疋值’則該刀片飼服器所對應的風道隔板的打開角 刀片飼服哭所斟Γ 刀片飼服器的溫度每低於當前最高溫度1<5c,該 示。孤4對應的風道隔板的打開角度減小3度。該計算如公式⑴所 打開角度3x (Tmax-Tn) ⑴ T2、舉例來=溫,收集模組收集了十個刀片飼服器的溫度,分別為T1、 这心.声次其中’ T1為5〇t,Τ2為46°C、Τ3為贼,.··..·,並將 度最XiC理模組。假設管理模組確定出其中的τι為當前的溫 组向刀片飼服^ /此’刀片伺服111所對應的風道隔板應為全開,管理模 計料餘各個=f對應的風_板發送全部打開的信號,並根據公式(1) ^對:公式⑴計算得到,刀片舰器 開角度為90〜3x 148^(45〇:;46) =78 ’刀片伺服器3所對應的打 度,並根據4,_地可得出絲刀片舰11的打開角 打開相應_=的㈣肢向各個刀片值11所錢顧道隔板發送 設置本發明的—種較佳實施例,也可以根據需要 述子根據溫度調整各個刀片伺服器的風道隔板的打開角度的實現方 200921342 200921342 風道隔板的 現:S各個·服器的功率消耗調整 消耗由理模組可以得到每個刀片飼服器的功率 率消耗,並娜得到的運行狀態的刀片伺服器的功 啟角度。且體而力,〜貝5叙各個77片伺服11的風道隔板的開 — —穴W口J月良益所對; 道=:打=模=率_高_細所 bn—— 1 侧5 #u,向其餘刀片伺服器所對應的風道隔 的風道隔板為全;制f消耗最高的刀片伺服器所對應 〜^…·叫並控制其餘刀片舰器所對應的Jil道隔板打開一 管理模組向功率消耘 信號,向装給77 H /tei 板發送打開特定角度所對應的信號 飼服㈣功率雜ί 的風道_的打開角度時,可以設刀片 開角度減小一定的角度。比如,刀 于每 率消耗5W,則該刀片伺服写所對廄㈣音二=祕母低於當別最尚功 曾一 所對應的風颇板的打開肖度減小1度。該計 並且 算如公式(2)所示 打開角度=90— (pmax—pn) /5 (2) 菖然,上述公式(2)也只是本發明的一個^ 要設置其他的打開角度計算方案。發月的姻乂佳貝把例’也可以根據需 打開理模組即可得出每個服器的風道隔板的 又 4再向各個風逼隔板發送相應的信號即可。 後,统中設置了與每個刀片伺服器對應的風道隔板之 灸柄明方法的貫現流程如第6圖所示,其包括步驟6〇ι㈣2。風 板的J體設置如前此’ «不雜述。該實黯雜體龍町步驟: 步驟、刀片式他器系統確定各個刀片錬器的運行情況。 刀片細㈣統控制處於運行狀態_伺服器所對應的 ΪΐΓί ^態’並控制處於未運概態的刀⑽服器所對應的風 道隔板處於關閉狀態。 以上即為本發明方法的實現流程。 為保證風道資源被充分利用,還可以根據刀片伺服器的運行情況控制 200921342 度,即在上述步驟602中’刀片式伺服器系統在控制處 狐騎對應的風道隔板處於打開狀態時,具體可以根 道隔板的打門或者功率消耗來確定各個刀片祠服器所對應的風 、^開角度,並控制這些風道隔板打開相應的角度。 产,據Γί來確定各個刀片伺服器所對應的風道隔板的打開角 二I 式佩器系統中增加溫度收集模組。之後,在上述步驟 隔板卢器系統在控制處於運行狀態的刀片飼服器所對應的風道 =處於打開狀態時,可以進—步根據溫度收集模 二 號實現 風道隔板發騎f打_度所對應的信 隔板舰器所對應的風道 ί===度為!0父其他刀片舰器所對應的風道隔板的打開角 拉由盆制’ό 1) 6十异得到。當然,這只是—個較佳實施例,也可以 猎由”他類似演算法制其他風道隔板的打開角度。 条声如ίΐ根ϊ功率絲來確定各個刀片舰11騎應的風道驗的打開 則可以直接由刀片式舰器系統獲取各個刀片飼服器的功率消耗, Γ’刀片式伺服器系統在控制處於運行狀態的刀片伺服 ϋίΐΓ板處於打開狀態時,可以進—步藉由獲取這些刀片伺服 控制這些刀片飼服器所對應的風道板的打開角度。該 ^制同樣可叹猎由向這些風道隔紐送所需打_度所對應的信號實 在控制處於運行狀態的刀片伺服器所對應的顺隔 板的打開角度時’具體可以是設定當前功率雜最大的刀片伺服器 ===,㈣度,其_伺服器所對應的猶隔板的“ 據上逃公式⑵計算得到。同樣,這只是—做佳實施例,也可 以猎由其他類似演算法得到其他風道隔板的打開角度。 此外’請參考第7圖’如同於第7圖中所示,刀片式舰器系統%包 12 200921342 括:祠服器71-1至71·10,以及風扇72。由第7圖可以看出,現有的 式伺服器系統由於不管刀片伺服器是否運行,都對其進行散熱,藉由運疒 狀態的刀片伺服器的風與未運行的刀片伺服器的風—樣,因此對“ 狀態的刀片值器的散熱效果-般。最後,請參考第8圖,如同於第8 ^ 中所不’此刀片式伺服器系統80包括:刀片伺服器81-1至81_10、風扇8 以及隔板83-2'83-4、83-6、83-8、以及83-10。*由第8圖則可以看出,、 本發明方絲由在刀片式錬H系統中設置風道隔板,使得未運 二 風通過,因而加大了藉由運行狀態的刀片舰器的風的風 速’進而使仔處於運行狀態的刀片服務ϋ具有更好的散熱效果。 固以上雌為本發财_雛實現方式,料用嫌定本發明的保護 【圖式簡單說明】 f1圖為,有刀片式伺服器系統的結構概要圖 ==第1圖所示刀片·服器系統的散熱概要圖,· 弟圖為本發明刀片式舰器系統的結構概要圖; ^ 54圖圖統中增加™隔板的結構概要圖; 第6圖為本發增峨伽觀轉概要圖; 第7圖為現有77片相《魏的風路Β ;以及 第8圖為本發明刀収伺職祕的風關。 【主要元件符號說明】 10 11-1 12 13 14 15 11-10 刀片式伺服器系統 刀片伺服器 風扇模纽 風扇模組 風道· 管理模組 13 200921342 21 刀片伺服器 '22 風扇模組 23 風扇模組 24 風道 30 刀片式伺服器系統 31-1 〜31-10 刀片伺服器 32 風扇模組 33 風扇模組 34 風道 35 管理模組 36 風道隔板 40 風道隔板 41 驅動馬達 42 隔板 51-1 〜51-n 驅動馬達 52-1〜52-n 風道隔板條 601 步驟 602 步驟 70 刀片式伺服器系統 71-1 〜71-10 刀片伺服器 72 風扇 80 刀片式伺服器系統 81-1 〜81-10 刀片伺服器 82 風扇 83-2、83-4 隔板 83-6、83-8 隔板 83-10 隔板 14200921342 IX. INSTRUCTIONS: TECHNICAL FIELD OF THE INVENTION The present invention relates to the field of computer technology, and more particularly to a blade server system and a heat dissipation method therefor. [Prior Art] At present, the blade servo n system, as a new star in the ship, has created a highly available and high-density low-cost server platform for the development of the network, the management of the user group, and the ever-expanding demand. The blade servo IS system has the advantages of high computing, optimal positioning, convenient management, dragon, sharing, high price-performance ratio, etc., which has made it the main direction of server development. ^The blade server system is characterized by the installation of a large number of blade servos in a small space. The system power wire is continuously improved, and the processing power of the blade-type gambling is difficult: 'source utilization ^ and so on _ heat dissipation problem One of the biggest bottlenecks for the development of the blade-type servo system is the heat dissipation problem. Under the premise of ensuring the processing capacity of the blade-type system, the system's electric heat can't be reduced by two or two. However, with reasonable heat dissipation design, the knife can have better dispersion, performance, and performance, so as to improve the energy utilization and processing capacity of the system. In the heat dissipation design of the existing knives, the solution of the type is to use air-cooling and vf j to set the fan module in the knife-type servo system, and set the corresponding air duct, the blade The two-core blade servo_ is heated by the fan module and the corresponding air duct. In the blade server system 1G shown in Fig. 1, there are ten blade feeding devices 1 to 1_1G. Two fan modules 12 and 13 are provided, and in the middle of the fan module, the device is disposed. One air duct 14' This blade server system is controlled by the management module and group 15 and operates hot. = It is possible to disperse all the blade servers by two fan modules and one air duct. As shown in Fig. 2, the blade server system 2G is made up of: The air duct 24 is composed, and the various buckets of the knife-and-applicator system are heat-dissipated. 200921342 [Abstract] In this case, the problem is to provide a blade-type ship system.散热The heat dissipation efficiency of the two-blade server system. The invention also proposes a heat dissipation method for a blade type ship system. In order to solve the above problems, the present invention provides the following technical solutions: Serving the crying machine, the blade servo system, the blade servo 11 system includes a blade crying I, a nuclear group, and a blade feeding device for heat dissipation. The fan module and the air duct, the blade servo; the air duct partition near the knife=clear, and the air duct partition is located at the wind control system to determine the operation of each of the ships 11, and control each according to the operation situation The air duct RI board corresponding to the blade server is opened or closed; the air duct partition is used to slap the thief off the wind according to the management mode. In the service servo system, there is an overflow collection module, which is used to collect the benefits of each blade, and the temperature of the collection is given to the management group; the knife is used in advance. The angle of opening of the air duct partition of each of the partitioned servo servers in the temperature-corrected operating state, and the angle of the opening angle to the corresponding angle of the air duct partitions are further used for management. The indication of the module will open the phase module of the air duct partition, and the air duct partition corresponding to the highest temperature knives is the relationship between the residual temperature and the maximum temperature, and the remaining temperature is corresponding to the servo lining. ^ Open the limb and indicate the determined hit _ degree to the corresponding air duct partition. The enchantment step is used to obtain the power of each blade device in the running state. The power consumption is obtained. (4) The power consumption information is compared with the opening angle X of the air duct partition of the column and the opening angle is indicated to the corresponding air channel. The gusset 'in-step of the slab; according to the management mode _ the thin air duct partition to open the corresponding air duct partition for the entire management module, to determine the highest power consumption of the blade server open 200921342 And determining, according to the relationship between the remaining power consumption and the highest power consumption, an opening angle of the air channel partition corresponding to the remaining power chip servers, and a corresponding air channel partition of the determined knife. Do not place this duct spacer on the servo housing or on the servo. 1U blade This air duct partition includes a drive motor and a partition, and the drive motor opens or closes the partition according to the finger of the module. , a 7F hit the hair, a kind of blade type material, the system of heat dissipation, the knife is used by the server system to heat the individual blade feeders by its own fan set and wind, in the blade type servo system and The air duct corresponding to the blade ship _, and the air duct partition is located on the near side of the air duct _, the method further comprises: a) the blade server system determines the operation of each blade server; b. the blade type The system control is in the running state of the blade side of the blade _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The operating state_server pair, further comprising: the blade type system according to the blade 3, the opening angle of the air duct partition corresponding to the blade. Each of the 77 tUl two-blade feeding service & system has an air duct partition, which makes it possible to dynamically use the limited _ according to the line condition, thereby improving the heat dissipation efficiency of the large-scale (four) system and reducing the system power. Consumption. The increased air duct partitions are easily implemented. And in the case that the air duct partition is made up of partitions and drive motors and money, the crane crane motor is very cheap and the cost is very low, and it is almost unnecessary to increase the cost of 200921342, so that the efficiency of the blade server system can be improved. . Case: The heat dissipation efficiency of the feeder system' and the increase in the temperature profile is very realistic = very low. The implementation of the present invention in accordance with the power consumption control can further improve the heat dissipation efficiency of the blade server system. mT to achieve - [Embodiment] Due to the current blade-type servo system using air-cooling technology, all the knives (four) fresh «by the wind of the wind to reduce the wind; into the slice feeding system, each Whether the blade_tube is dimmed is obviously a waste of limited airway resources. Therefore, the present invention=the board is disposed close to the blade server side and the wind corresponding to the blade server can be closed to the corresponding blade. Air duct partitions to speed up heat dissipation. The wind speed of the wind circulating in the air duct partition corresponding to the eleventh, and the detailed description of the present invention can be made in detail with the specific embodiment. More than two == ί=:: There is a wind, you can also have two fan modules and a knife for the air duct __= == fans. The structure below includes the structure of the film as shown in Figure 3. The cutter shown in Fig. 3 includes the 31-1 to (4)' of the cutters and the proximity cutters for controlling these 4, and can be set on the ship 22 or 2'. Each blade set in the blade server system - the blade servo system is further provided with two fan modules 32 and 33. According to the structure of the younger brother, the management module in the blade-type feeder system determines the operation of each blade server in the blade system of the 200921342 type, and controls the wind corresponding to each blade server according to the operation condition. The track partition opens or closes. Specifically, when the blade server enters the running state in the blade server system, the air channel partition corresponding to the ^^ device is opened; when it is determined that the blade ship enters the official position, the notification is notified. The air duct partition corresponding to the blade feeder is closed. x The air duct partition in the blade server system opens the partition after receiving the notification of the opening of the management module, and closes the partition after receiving the notice of closing the partition of the management module. . In order to save the wind channel resources, the air duct partition can be set to be closed in a normal state. Correspondingly, the management module can continue to monitor the blade server after the blade server enters the running state and notify the corresponding air channel partition of the blade servo to open the partition, and if the blade server is continuously stopped, In the state, the blade mine is notified to ride the corresponding air duct partition to close the partition; otherwise, the monitoring is continued. In addition, the financial partition provided by the present invention may specifically be as shown in FIG. 4, that is, the air duct partition 4, the motor_41 and the tilting plate 42, wherein the driving motor may be a motor. It can also be another motor. Fu board can be switched under Hemayi (four). The drive motor opens/closes the diaphragm under the control of the management module. And the partition plate may specifically have a turn (four) turn, and when the control is under the control of the rotating shaft, and the partition portion of the partition plate is at an angle to the other fixed portions of the partition plate, the partition plate is opened, and the partition plate is opened. If the angle is 90 degrees, the partition is fully opened. Of course, if it is set t1, all the air duct partitions can be set as one air duct partition strip, as shown in Fig. 5, the iitH53 service 11 corresponds to the dumping partition. As shown in the fifth figure, each of the air passage bars 52-1, 52-2, ..., 52-n is disposed in each of the drive motors 5μι, 51_2, ... "seven. The above solution is mainly based on the operation of each blade server. Whether or not to control the side of the rhyme board corresponding to the knife-negative feeding device. On the basis of the above-mentioned scheme, this is also the turning of the open limb of the Qiqihang navigation control road test. ^对该方亡死= , Sunrise: The scheme of controlling the opening angle of the air duct partition, there are two implementation methods. The method is based on the temperature of each blade servo. The power of the controller is proportional to the temperature, and the power is higher. The higher the temperature, the two pieces ^ 200921342 are controlled according to the power consumption of each blade feeder. The blade first needs to be a blade-type feeding shirt. Step ° and corresponding temperature acquisition module, the temperature The collection module camps ^·, , θ sense ^. The temperature collection module sends the collected temperature information to the management module. 疋g modulo, _ _ step according to the obtained temperature $ = wind The opening angle of the road partition. Specifically, the management module; the air duct partition “ ▲ The wind of the blade server corresponding to the remaining blade servers is the first specific implementation, that is, the management module is separated from the corresponding air channel with the highest temperature (four), and the rest is the device. (W signal is difficult to determine the limbs of the board. Ship 11 rounds 1 coffee _ scales, you can set the blade to reduce - the second sound two 疋 value, then the corresponding blade of the blade feeder Open the angle blade feeding service to cry 斟Γ The temperature of the blade feeding device is lower than the current maximum temperature 1 < 5c, the indication. The opening angle of the air channel partition corresponding to the lone 4 is reduced by 3 degrees. The calculation is as shown in formula (1) Open angle 3x (Tmax-Tn) (1) T2, for example = temperature, the collection module collects the temperature of ten blade feeders, respectively T1, the heart. The sound is 'T1 is 5〇t, Τ2 is 46 °C, Τ3 is a thief, .··..·, and will be the most XiC module. Suppose the management module determines that τι is the current temperature group to the blade feeding service ^ / this 'blade servo 111 corresponds The air duct partition should be fully open, and the wind _ board corresponding to each of the control dies can be sent to all the open signals, and according to formula (1) ^: Equation (1) calculates that the blade angle of the blade is 90~3x 148^(45〇:;46)=78' the degree of the blade servo 3, and according to the 4,_ ground, the blade blade 11 can be obtained. Opening the corner to open the corresponding _= (four) limbs to each blade value 11 money to send the partition to set up a preferred embodiment of the present invention, you can also adjust the air duct partition of each blade server according to the temperature according to the need The realization of the opening angle 200921342 200921342 The current situation of the air duct partition: S power consumption adjustment of each service unit can be obtained by the rational module, the power rate consumption of each blade feeder, and the blade servo of the running state The power angle of the device. And the body is strong, ~ Bei 5, each 77 pieces of servo 11 air duct partition opening - hole W mouth J Yue Liangyi; road =: hit = mode = rate _ high _ fine bn - 1 Side 5 #u, the air duct partition corresponding to the air duct corresponding to the remaining blade servers is full; the blade server with the highest f consumption corresponds to ^^...·called and controls the Jil channel corresponding to the remaining blade players. When the partition opens a power-dissipation signal of the management module, and sends the opening angle of the air channel _ of the signal feeding device (4) power supply corresponding to the specific angle to the 77 H / tei board, the blade opening angle can be set. Small to a certain angle. For example, if the knife consumes 5W per rate, then the blade servo writes the pair (four) tone two = the secret mother is lower than the most outstanding work. The opening degree of the corresponding wind plate is reduced by 1 degree. The calculation is as shown in the formula (2). Opening angle = 90 - (pmax - pn) /5 (2) Of course, the above formula (2) is only one of the present inventions. The inauguration of the month of the month, the case can also be opened according to the need to open the module to get the air duct partition of each server and then send the corresponding signal to each wind forced partition. Thereafter, the flow of the method of setting the moxibustion handle of the air duct partition corresponding to each blade server is as shown in Fig. 6, which includes the step 6〇(4)2. The J body of the windshield is set as before. The step of the scorpion scorpion dragon: Step, the blade type system determines the operation of each blade smasher. The blade fine (four) system control is in the running state _ 对应 ί ^ state corresponding to the server and controls the air damper corresponding to the knife (10) server in the unsported state to be closed. The above is the implementation flow of the method of the present invention. In order to ensure that the air channel resources are fully utilized, it is also possible to control the 200921342 degree according to the operation of the blade server, that is, in the above step 602, when the blade server system is in the state where the corresponding air channel partition of the fox riding is in the open state, Specifically, the wind and the opening angle of each blade server can be determined by the door opening or power consumption of the root partition, and the corresponding angles of the air channel partitions are controlled. According to Γί, the opening angle of the air duct partition corresponding to each blade servo is determined. The temperature collecting module is added to the second type I-type device. After that, in the above-mentioned step, the partitioning device is controlled to be in the operating state of the blade feeding device corresponding to the air duct = in the open state, can be further stepped according to the temperature collecting mold No. 2 to achieve the air duct partition riding f playing The wind channel corresponding to the letter breaker ship corresponding to _ degree is ί=== degrees! 0 The opening angle of the air duct partition corresponding to the other blade of the blade is obtained by the basin system 'ό 1). Of course, this is only a preferred embodiment, and it can also be hunted by the opening angle of other air duct partitions similar to the algorithm. The sound is determined by the power cord to determine the wind tunnel test of each blade ship 11 When opened, the power consumption of each blade feeder can be obtained directly by the blade system. Γ 'The blade server system can further obtain these when the blade servo ϋ ΐΓ 控制 is in the open state. The blade servo controls the opening angle of the air duct plate corresponding to the blade feeders. The system is also capable of controlling the blade servos in the running state by sending signals corresponding to the required speeds to the air channel partitions. The opening angle of the corresponding baffle plate corresponding to the device can be specifically set to the blade servo with the largest current power mismatch ===, (four) degrees, and the calculation of the escaping plate corresponding to the server is calculated according to the equation (2) . Again, this is just a good example of how to get the opening angle of other air ducts by other similar algorithms. Further, 'Please refer to Fig. 7'. As shown in Fig. 7, the blade type system package 12 200921342 includes: servers 71-1 to 71·10, and a fan 72. As can be seen from Fig. 7, the existing server system dissipates the blade server regardless of whether the blade server is running or not, and the wind of the blade server in the running state and the wind of the blade server that is not running. Therefore, the heat dissipation effect of the "state blade value-like. Finally, please refer to Figure 8, as in the 8th ^." The blade server system 80 includes: blade servers 81-1 to 81_10, Fan 8 and partitions 83-2'83-4, 83-6, 83-8, and 83-10. * As can be seen from Fig. 8, the square wire of the present invention is set in the blade type H system. The air duct partition makes the second wind pass, thus increasing the wind speed of the wind of the blade ship in the running state, so that the blade service in the running state has better heat dissipation effect. The present invention is based on the protection of the present invention. [Fundamental description of the drawings] The f1 diagram shows the outline of the structure of the blade server system == The outline of the heat dissipation of the blade and server system shown in Fig. 1 Figure, · Brother diagram is a schematic diagram of the structure of the blade type ship system of the present invention; ^ 54 The schematic diagram of the structure of the TM partition is added to the figure; the sixth figure is a schematic diagram of the observation of the increase of the Sangha; the seventh picture shows the existing 77 pieces of the "Wei's wind path; and the eighth picture is the knife of the invention. The secret of the service. [Main component symbol description] 10 11-1 12 13 14 15 11-10 Blade server system blade servo fan module fan module air duct · management module 13 200921342 21 blade server '22 Fan Module 23 Fan Module 24 Air Channel 30 Blade Server System 31-1 ~ 31-10 Blade Server 32 Fan Module 33 Fan Module 34 Air Duct 35 Management Module 36 Air Duct 40 Wind Track separator 41 Drive motor 42 Separator 51-1 ~ 51-n Drive motor 52-1~52-n Air duct strip 601 Step 602 Step 70 Blade server system 71-1 ~ 71-10 Blade server 72 Fan 80 Blade Server System 81-1 ~ 81-10 Blade Server 82 Fan 83-2, 83-4 Partition 83-6, 83-8 Partition 83-10 Partition 14