201222218 [0001] [0002] [0003] ❹ [0004] [0005] 〇 [0006] 發明說明: 【發明所屬之技術領域】 本發明涉及一種貨櫃資料中心。 【先前彳支術】 資料中心是大型的集中運算設施,通常包括多組伺服器 系統,每組伺服器系統包括機架及放置於機架中複數伺 服器,故資料中心整體的散熱方案變得相當重要。 常見的散熱方式是在資料中心内部設置空調系統,雖然 空調系統可以提供溫度較低的冷氣流給資料中心的伺服 器進行散熱,但空調系統會消耗大量的電能。 【發明内容】 鑒於以上内容,有必要提供一種貨櫃資料中心,其直接 將外界空氣引入為伺服器系統進行散熱。 一種貨櫃資料中心,包括一貨櫃及並排設置於該貨櫃内 的兩組伺服器系統,該貨櫃的頂壁開設送風口,該貨櫃 於該兩組伺服器的下方設有排風口,外部空氣自該送風 口進入貨櫃吸收該等伺服器系統產生的熱量後經該貨櫃 的排風口排出該貨櫃。 相較先前技術,本發明貨櫃資料中心透過將外部空氣自 貨櫃上部的送風口引入貨櫃用於冷卻伺服器系統,再將 熱空氣自貨櫃下部的排風口排出貨櫃,不需要使用耗電 量巨大的空調設備來進行散熱,節省了電能。 【實施方式】 請參考圖1,本發明貨櫃資料中心的較佳實施方式包括一 099140684 表單編號Α0101 第3頁/共8頁 0992070819-0 [0007] 201222218 可由交通工具運送的貨櫃10及並排設置設於該貨櫃1〇内 的兩組伺服器系統20。 [0008] 該貨櫃丨〇包括一頂壁、一底壁及兩侧壁,其内於靠近底 壁處設有一用於支撐這兩組伺服器系統2 〇的高架地板i i 。該高架地板11於該兩組伺服器系統2〇之間開設—開口 112。該貨櫃10的頂壁於每一組伺服器系統2〇的上方分別 設有一送風口 13,該貨櫃1〇的兩側壁於該高架地板11的 下方設有複數排風口 14。兩組伺服器系統2〇與貨櫃1〇的 兩側壁之間勿別形成一冷風通道2 3,該兩組飼服器系統 20之間的區域為熱風通道24.’為了使該兩冷風通道23與 熱風通道24之間互不干擾,該兩組伺服器系統2〇的頂部 之間連接有一隔熱板25。 [0009] 本發明貨櫃資料中心的較佳實施方式還包括—散熱系统 200。該散熱系統200包括兩設置於該貨櫃1〇的頂壁的外 側並分別對正該兩送風口 13的送風裝置3〇、兩分別安装 於的貨櫃10的頂壁的内侧並分別對正兩送風口丨3的的冷 卻裝置4 0及一設置於該高架地板11下方並對正該高架地 板11的開口 112的排風裝置50。 [0010] 工作時,該送風裝置30將外界空氣自該貨榧1〇的送風口 13引入該兩冷卻裝置40後進入該貨櫃1〇 ^空氣被該兩冷 卻裝置40冷卻而形成冷空氣並流入冷風通道23。冷空氣 流經該兩組伺服器系統2 〇吸收伺服器產生的熱量後進入 該熱風通道24 ’該排風裝置50將該將熱風通道24内的熱 空氣向下抽出並自該貨櫃1〇的排風口 14排出。如此揭環 往復,實現散熱。 099140684 表單編號A0101 第4頁/共8頁 0992070819-0 201222218 [0011] [0012] ο [0013] ο [0014] 在本實施方式中,該貨櫃 ,該過遽網131用於過遽=風口〗3内&有過濾網131 塵。每-送風裝置30上方1上乳’減少進入貨櫃10的灰 過送風口u進入該貨櫃1{)4 —遮雨棚32 ’防止雨水通 本發明貨櫃資料中心透過 入貨檀10«料冷卿Γ送縣置30料部空氣引 词服器祕2〇,再透料4G冷卻成冷空氣後用於冷卻 出的熱空氣排出貨櫃10二風裝置50將飼服器系統20排 調設備來進行散熱,如此,=要使祕電量巨大的空 部的空氣中的灰塵較少,姻比 由於上 此,將送風口 13設置於貨櫃 10頂壁可吸入更潔淨的空氣。 貝悝 综上所述,本發明確已符a 〇發明專利之要件,遂依法提 出專利申請。惟,以上所诚 考僅為本發明之較佳實施方 式,自不能以此限制本索乏Λ 〈申請專利範圍。舉凡熟悉本 案技藝之人士爰依本發明之接 〜積神所作之等效修飾或變化 ,皆應涵蓋於以下申請專利範圍内。 【圖式簡單說明】 ^ 圖1為本發明貨櫃資料中心的較佳實施方式的結構示意圖 【主要元件符號說明】 [0015] 貨櫃:1〇 [0016] 高架地板:11 [0017] [0018] 開口 : 11 2 送風口 : 13 099140684 表單塢號Α0101 第5頁/共8頁 0992070819-0 過濾網:131 排風口 : 14 散熱系統:200 伺服器系統:2 0 冷風通道:2 3 熱風通道:24 隔熱板· 2 5 送風裝置:30 遮雨棚:32 冷卻裝置:40 排風裝置:50 201222218 [0019] [0020] .[0002] [0004] [0003] [0006] [0006] Description of the Invention: [Technical Field] The present invention relates to a container data center. [Previous 彳 】 】 The data center is a large centralized computing facility, usually consisting of multiple sets of server systems. Each set of server systems includes a rack and multiple servers placed in the rack, so the overall heat dissipation scheme of the data center becomes Quite important. A common way to dissipate heat is to install an air conditioning system inside the data center. Although the air conditioning system can provide a cold air with a lower temperature to dissipate heat from the data center server, the air conditioning system consumes a lot of power. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a container data center that directly introduces outside air into a server system for heat dissipation. A container data center includes a container and two sets of server systems disposed side by side in the container, the top wall of the container is provided with an air supply opening, and the container is provided with an air outlet below the two sets of servers, and the external air is from the After the air inlet enters the container to absorb the heat generated by the server system, the container is discharged through the air outlet of the container. Compared with the prior art, the container data center of the present invention uses the air supply port from the upper part of the container to the container for cooling the server system, and then discharges the hot air from the air outlet of the lower part of the container to the container, without using a large power consumption. Air conditioning equipment to dissipate heat and save energy. [Embodiment] Referring to Figure 1, a preferred embodiment of the container data center of the present invention includes a 099140684 form number Α 0101 page 3 / a total of 8 pages 0992070819-0 [0007] 201222218 Containers 10 that can be transported by vehicles and side by side Two sets of server systems 20 within the container. The container 丨〇 includes a top wall, a bottom wall and two side walls, and an elevated floor i i for supporting the two sets of server systems 2 设有 is disposed adjacent to the bottom wall. The raised floor 11 defines an opening 112 between the two sets of server systems 2A. The top wall of the container 10 is provided with an air supply port 13 above each of the server systems 2, and two side walls of the container 1 are provided with a plurality of air outlets 14 below the elevated floor 11. A cold air passage 23 is not formed between the two sets of server systems 2 and the two side walls of the container 1 , and the area between the two sets of the feeder systems 20 is a hot air passage 24. 'In order to make the two cold air passages 23 A heat shield 25 is connected between the tops of the two sets of servo systems 2 without interfering with the hot air passage 24. The preferred embodiment of the container data center of the present invention further includes a heat dissipation system 200. The heat dissipation system 200 includes two outer sides of the top wall of the container 1 并 and respectively respectively facing the air supply device 3 正 of the two air supply ports 13 and the inner side of the top wall of the container 10 respectively installed and respectively aligning the air supply The cooling device 40 of the mouthpiece 3 and an air exhausting device 50 disposed below the raised floor panel 11 and facing the opening 112 of the raised floor panel 11. [0010] During operation, the air blowing device 30 introduces outside air from the air supply port 13 of the magazine 1 into the two cooling devices 40 and enters the container 1 . The air is cooled by the two cooling devices 40 to form cold air and flows in. Cold air passage 23. The cold air flows through the two sets of servo systems 2 to absorb the heat generated by the servo and enters the hot air passage 24'. The exhaust device 50 draws the hot air in the hot air passage 24 downward and from the container 1 The exhaust vent 14 is discharged. This revolves around the ring to achieve heat dissipation. 099140684 Form No. A0101 Page 4 / Total 8 Page 0992070819-0 201222218 [0012] [0014] In the present embodiment, the container, the over-the-top net 131 is used for 遽 风 = tuyere 3 inside & has filter 131 dust. Above the air supply device 30, the upper milk 'reduces the gray through air vents entering the container 10 and enters the container 1{) 4 - shelters 32' to prevent rainwater from passing through the container data center of the invention through the incoming sandalwood 10 «material cold Γ 县 县 县 县 料 料 料 料 料 料 料 料 料 料 料 料 料 料 料 料 料 料 料 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县 县The heat is dissipated, so that the dust in the air of the empty part with a large amount of secret electricity is less, and the air ratio is provided on the top wall of the container 10 to absorb the cleaner air. In summary, the present invention has indeed met the requirements of a patent for invention, and has filed a patent application in accordance with the law. However, the above test is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application. Any equivalent modifications or variations made by those who are familiar with the subject matter of the present invention in accordance with the present invention should be covered by the following claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic structural view of a preferred embodiment of a container data center according to the present invention. [Main component symbol description] [0015] Container: 1〇[0016] Raised floor: 11 [0017] [0018] Opening : 11 2 Air supply port: 13 099140684 Form dock number Α0101 Page 5 / Total 8 page 0992070819-0 Filter: 131 Air vent: 14 Cooling system: 200 Server system: 2 0 Cold air channel: 2 3 Hot air channel: 24 Hot plate · 2 5 Air supply device: 30 shelter: 32 Cooling device: 40 Exhaust device: 50 201222218 [0019] [0020] .
[0021] [0022] [0023] [0024] [0025] [0026] [0027] [0028] [0029] 099140684 表單編號A0101 第6頁/共8頁 0992070819-0[0023] [0023] [0023] [0024] [0024] [0028] [0029] [0029] 099140684 Form number A0101 Page 6 / Total 8 pages 0992070819-0