201122764 六、發明說明: 【發明所屬之技術領域】 -[0001] 本發明係涉及一種機櫃,尤係一種伺服器機櫃及其伺服 器。 【先前彳如标】 [0002] 伺服器作為網路之節點,存儲、處理網路中80%以上之 數據、資訊,故亦被稱為網路之靈魂。網路終端設備, 如家庭與企業中之電腦上網、獲取資訊、與外界溝通等 ,都必須經過伺服器。 Ο [0003] 伺服器係一種為用戶端電腦提供各種服務之高性能電腦 ,其高性能主要體現在其高速度之運算能力、長時間之 可靠運行、強大之外部資料吞吐能力等方面,故,伺服 器在運行中產生大量之熱量,尤其係隨著資訊技術之進 步,網路之作用越來越明顯,人們對伺服器之資料處理 能力、安全性等要求亦越來越高,導致伺服器之發熱量 與曰倶增。 ^ [0004] 習知之伺服器通常藉由在其内部設置散熱風扇之方式來 散熱,然而,伺服器之内部空間有限,通常難以容納較 大尺寸之風扇以滿足其較大之散熱需求,這種矛盾在尺 寸相對較小之刀片式伺服器中更顯突出。 【發明内容】 [0005] 有鑒於此,實有必要提供一種具有較強散熱性能之伺服 器及伺服器機櫃。 [0006] —種伺服器,包括一殼體,該殼體包括一側板,該殼體 098144010 表單編號A0101 第3頁/共20頁 0982075340-0 201122764 之側板上設有複數通風孔,該侧板之外側對準所述通風 孔處設有一風扇模組,該風扇模組包括一托盤及固定於 該托盤上之至少一風扇,該托盤枢轉固定於該殼體之側 板之外側,使該風扇模組可在水平狀態與垂直狀態之間 轉換。 [0007] [0008] [0009] [0010] 098144010 一種伺服器機櫃,包括一箱體及設於該箱體内之複數伺 服器,所述伺服器堆疊排列於該箱體中,每一飼服器包 括一殼體,該殼體包括一側板,該殼體之侧板上設有複 數通風孔,部分伺服器於所述殼體之侧板之外側設有一 風扇模組,該風扇模組包括二托盤及固定於該托盤上之 至少一風扇,該托盤樞轉固定於該殼體之側板之外側, 使該風扇模組可在水平狀態與垂直狀態之間轉換,當該 風扇模組處在垂直狀態時,所述風扇之高度為該伺服器 之高度之複數倍,使該風扇模組可同時對多個伺服器散 熱。 與習知技術相比,上述實縛例中之飼脤器之外部設置風 扇模組,有利於該扇模組使用較大尺寸之散熱風扇以 提供較強之散熱性能,從而滿足伺服器日益增大之散熱 需求,其次,該風扇模組可重複使用於不同伺服器之外 侧,從而減少了每一伺服器之更換成本,提高了能源之 利用率。 【實施方式】 下面參照附圖結合實施例對本發明作進一步之說明。 圖1所示為本發明一較佳實施例中之伺服器機櫃,該伺服 器 0982075340-0 器機櫃包括一箱體10、收容於該箱體10中之複數伺服 表單編號Α0101 第4頁/共20頁 20 ° 201122764 [0011] Ο [0012] Ο [0013] 098144010 該箱體10大致呈中空之長方體形,在圖】中,該箱體1〇前 端之前面板被移去,從而於該箱體10之前端形成一安裝 口 11,每-伺服器20呈爲平狀,所述飼服器2〇自該安裝 口 11插入該箱體10内,且相互平行上下堆疊於該箱體1〇 中。該箱體ίο之頂部設有兩個通風窗12,所述通風窗12 將該箱體10之内部與外部環境連通,以便該箱體1〇内部 之熱氣流由此逸散至外部環境中,所述通風窗12處可設 置複數風扇(圖未示),以加速該箱體丨〇内部與外部環 境之間之氣流交換。 请參照圖2,該箱體1〇内部設有一支架13,用於承載所述 伺服器20。該支架13遠離該安裝口 u之後端設有兩導引 架14,該兩導引架14相對設置於該支架之兩側,為方 便查看,圖2中移除了該支架13前側(以圖2中之視角看 )之一導引架14 »每一導引架14大致呈長條狀且沿所述 祠服器20之上下堆疊方:向延:伸。 請參照圖3,每一導引架14包括一長條狀之導引板141、 自該導引板141之兩長侧邊分別垂直向後延伸之兩折邊 143及自該兩折邊143分別垂直向外延伸之兩固定端緣 145。該導引板141沿所述伺服器2〇之上下堆疊方向延伸 ’且該導引板141所在之平面平行於伺服器2〇插入該箱體 10之方向。該導引板141上設有複數導引槽丨42,所述導 引槽142之形狀相同,均呈弧狀且分為兩列,每一列導引 槽142形成於該導引板丨41之靠近其中一長側邊之位置上 ’每一導引槽142自該導引板141之一長側邊向該導引板 表單編號 A0101 第 5 頁/共 2〇 s 0982075340-0 201122764 之頂端呈弧形傾斜向上延伸’同一列中之導引槽I42 等距分佈,本實施例中’同一列中相鄰兩導引槽142之間 之距離等於該伺服器20之高度之三倍。所述兩列導引槽 142對稱分佈,該導引架14上對稱設置兩列導引槽142 ’ 可以增強該導引架14在安裝時之便利性,即每一導引架 14既可以固定於該支架13之前側(以圖2中之視角看)’ 亦可以固定於該支架13之後側,無需辯認哪一導引架14 需安裝於該支架13之前側,哪一導引架14需安裝於該支 架13之後侧。該折邊143正對每一導引槽142處設有一導 引入口 144,每一導引入口 H4與對應之一導引槽142連 通。每一固定端緣145上設有:複數穿孔146,所述穿孔 146用以將該導引架14固定於該箱體10内。 [0014] 請參照圖4,該伺服器20包括一殼體21及收容於該殼體21 内之一電路板22與複數電子元件23。讓殼體21呈中空扁 平之長方體狀,該殼體21皂括一方形之底板211及自該底 板211周緣垂直向上延伸之多個側板212,其中一對相對 之侧板212上均設有複數通風孔213,該伺服器20於其設 有通風孔213之一側板212之外側設有一風扇模組30。 [0015] 請參照圖5,該風扇模組30包括一托盤31、固定於該托盤 31上之三顆風扇32、將該托盤31固定於該飼服器20上之 一固定架33、兩柩接件34及複數固定件35。所述三顆風 扇32並排固定於該托盤31上’該托盤31樞接於該固定架 33上,該固定架33固定於該伺服器20設有通風孔213之 侧板212之外側。 [0016] 該托盤31大致呈中空之長方體形’其包括一長方形之承 0982075340-0 098144010 表單編號A0101 第6頁/共20頁 201122764 ❹ [0017] 載板311、自該承載板311之一對長側邊垂直延伸之兩折 邊312及自該承載板3U之-對短側邊垂直延伸之兩連接 板313 °該承載板311上設有複數通孔314,所述通孔314 供所述固定件35穿S,以將該風扇3211]定於該承載板3ιι 上,該承栽板311正對每一風扇32處設有一通風窗316, 相鄰兩通風窗316之間凸設有複數肋條31?,該肋條31? 垂直於該折邊312,該肋條317及所述折邊312可加強該 承载板3U,以便該承載板311能承載尺寸較大之風扇犯 。每一連接板313之一端部設有一樞择孔315,每一連接 板313於其中部且靠近該承載板311處設有自該連接板 313向外垂直凸伸之一導向柱318。 該固定架33大致呈“u”形,其包括一橫樑331及自該橫 樑331之兩端垂直向外延伸之兩固定板332,該兩固定板 332面向設置,每一固定板332遠離該.服器2〇之端部對 應该托盤31之連接板313上之柩接孔315亦設有一樞接孔 Ο 335 ’該兩固定板332上之樞接孔335分別對準該托盤31 之兩連接板313上之秦接孔315以分別供該兩枢接件34穿 設,從而將該托盤31樞轉連接於該固定架33上。該橫樑 331及該固疋板332靠近該飼服器2〇之側邊向該固定架33 之内侧垂直延伸形成複數凸耳333,每一凸耳333上設有 一固定孔334,該伺服器20設有通風孔213之側板212正 對每一凸耳333之固定孔334之位置設有一螺孔214,該 固定孔334及該螺孔214用於將該風扇模組3〇固定於該伺 服器20設有通風孔213之側板212上。 [0018] 將該伺服器20裝入該機櫃之箱體1〇内時,該伺服器20及 098144010 表單編號A0101 第7頁/共20頁 0982075340-0 201122764 該風扇模組3 0同時處於水平狀態且位於同一平面内,即 圖4所示之狀態,以方便該伺服器2 〇自該箱體1 〇之安裝口 11插入該支架13中,插入時,該伺服器2〇上之風扇模組 30先進入該箱體10,該伺服器2〇在插入該支架13之過程 中,該風扇模組30之托盤31上之兩導向柱318分別自該箱 體10後端之兩導弓丨架14之折邊143上對應之導引入口 144 進入該兩導引架14之導引板141上之導引槽142中,隨著 該伺服器20之推進,該風扇模組3〇之托盤31由於兩導向 柱318在該導引架14之導引槽142中之導引而立起,直至 .V. .... ....... 該托盤31與該伺服器20相垂直,即圖6所示之狀態,此時 ,該風扇模組30處於與該伺服器20相垂直之狀態,該托 盤31上之風扇32正對該伺服器20設有通風孔213之侧板 212及該伺服器20之上方空間,如此’插入該伺服器2〇上 方之其他伺服器20無需再安裝該風扇模組30,即可實現 多個伺服器20共用一個風扇模組30,直至後續插入之伺 服器20之高度超出該風扇模組30中之風扇32之高度,才 需要再配置風扇模組3〇。本實施例中,由於該風扇32之 高度為該伺服器2 0之高度之三倍’故,每一風扇模組3 〇 可供三台相鄰疊置之伺服器20共同散熱(如圖2所示)。 可以理解,其他實施例中,風扇32之尺寸可根據需要選 擇,較佳為風扇32之尺寸大於一個伺服器20之高度,以 便於在風扇模組30處於垂直於伺服器20之位置時可以對 一個以上之伺服器20進行更好之散熱。 [0019] 上述實施例中,風扇模組30設置於飼服器20之外部,從 而有利於該風扇模組30使用較大尺寸之散熱風扇32,以 098144010 表單編號Α0101 第8頁/共20頁 0982( 201122764 提供較強之散熱性能來滿足伺服器2〇日益増大之散熱需 求。其次,所述風扇模組3 0之風扇3 2之高度大於該伺服 • 器20之高度,所述風扇32可同時對疊置在—起之多個祠 服器20散熱’不必使每一伺服器2〇都設置風扇模組30或 風扇32,從而減少了每一伺服器2〇之組裝成本及零件成 本。再者,當伺服器20需要更換時,該風扇模組3〇不必 一起更換’該風扇模組3 0可以多次使用,從而提高了資 源之利用率。 〇 _综上所述,本發明符合發替_件,纽法提出專利 申請。惟,以上所述者僅為本發明之她實施例,舉凡 Μ本案技藝之人士’在f依本則精神所作之等效修 飾或變化,皆應涵蓋於以下之申請專利範圍内。 【圖式簡單說明】 [_ ®1所示為本發明-較佳實施例中之伺服器機櫃之立體圖 〇 [0022] 圖2所示為圖1中之伺服器機櫃之内部結構示意圖。 [0023] 圖3所示為圖2中之導引架之立體圖。 [0024] 圖4所示為圖2中之伺服器處於初始狀態之立體圖。 [0025] 圖5所示為圖4中之伺服器之立體分解圖。 [0026] 圖6所示為圖4中之伺服器於另一狀態下之立體圖。 【主要元件符號說明】 [0027] 箱體·· 1 0 [0028] 安裝口 : 11 098144010 表單編號A0101 第9頁/共20頁 0982075340-0. 201122764 [0029] 通風窗:12、316 4 [0030] 支架:13 [0031] 導引架:14 [0032] 導引板:141 [0033] 導引槽:142 [0034] 折邊:143 [0035] 引入口 : 144 ί [0036] 固定端緣:145 [0037] 穿孔:146 [0038] 伺服器:20 [0039] 殼體:21 [0040] 底板:211 [0041] 侧板:212 i < [0042] 通風孔:213 [0043] 螺孔:214 [0044] 電路板:22 [0045] 電子元件:23 [0046] 風扇模組:30 [0047] 托盤:31 098144010 表單編號A0101 第10頁/共20頁 0982075340-0 201122764 [0048]承載板:311 [0049] 折邊:312 [0050] 連接板:313 [0051] 通孔:314 [0052] 樞接孔:315、335 [0053] 肋條:317 [0054] 導向柱:318 [0055] 風扇:3 2 [0056] 固定架:33 [0057] 橫樑:331 [0058] 固定板:332 [0059] 凸耳:333 [0060] ❹ 固定孔:334 [0061] 樞接件:34 [0062] 固定件:35 098144010 表單編號A0101 第11頁/共20頁 0982075340-0201122764 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to a cabinet, particularly a server cabinet and a server thereof. [Previously as a standard] [0002] As a node of the network, the server stores and processes more than 80% of the data and information in the network, so it is also called the soul of the network. Network terminal devices, such as computers in homes and businesses, accessing information, communicating with the outside world, etc., must go through the server. Ο [0003] The server is a high-performance computer that provides various services for the client computer. Its high performance is mainly reflected in its high-speed computing power, long-term reliable operation, and powerful external data throughput. The server generates a large amount of heat during operation, especially with the advancement of information technology, the role of the network is becoming more and more obvious, and the requirements for the data processing capability and security of the server are becoming higher and higher, resulting in the server. The heat and the increase. ^ [0004] Conventional servers usually use a cooling fan inside to dissipate heat. However, the internal space of the server is limited, and it is often difficult to accommodate a larger fan to meet its larger heat dissipation requirements. Contradictions are even more pronounced in blade servers of relatively small size. SUMMARY OF THE INVENTION [0005] In view of this, it is necessary to provide a server and server cabinet with strong heat dissipation performance. [0006] A server includes a casing including a side plate having a plurality of vent holes on a side plate of form number A0101 3/20 pages 0982075340-0 201122764, the side plate A fan module is disposed on the outer side of the venting hole, and the fan module includes a tray and at least one fan fixed to the tray, the tray is pivotally fixed to an outer side of the side panel of the housing to enable the fan The module can be switched between a horizontal state and a vertical state. [0009] [0009] [0009] [0010] 098144010 A server cabinet includes a box and a plurality of servers disposed in the box, the server stack is arranged in the box, each feeding suit The device includes a casing, the casing includes a side plate, and the side plate of the casing is provided with a plurality of ventilation holes, and a part of the server is provided with a fan module on the outer side of the side plate of the casing, the fan module includes a second tray and at least one fan fixed on the tray, the tray being pivotally fixed to an outer side of the side panel of the housing, so that the fan module can be switched between a horizontal state and a vertical state, when the fan module is located In the vertical state, the height of the fan is a multiple of the height of the server, so that the fan module can dissipate heat to multiple servers at the same time. Compared with the prior art, the fan module disposed outside the feeding device in the above-mentioned practical example is advantageous for the fan module to use a larger size cooling fan to provide strong heat dissipation performance, thereby meeting the increasing number of servers. In addition, the fan module can be reused on the outside of different servers, thereby reducing the replacement cost of each server and improving the energy utilization rate. [Embodiment] Hereinafter, the present invention will be further described with reference to the accompanying drawings. 1 is a server cabinet according to a preferred embodiment of the present invention. The server 0982075340-0 cabinet includes a box 10, and a plurality of servo form numbers received in the box 10 Α 0101 page 4 / total 20 pages 20 ° 201122764 [0011] Ο [0013] 098144010 The casing 10 is substantially in the shape of a hollow rectangular parallelepiped. In the figure, the front panel of the front end of the casing 1 is removed, so that the casing is removed. The front end of the 10 is formed with a mounting opening 11 , and each of the servos 20 is formed in a flat shape. The feeding device 2 is inserted into the housing 10 from the mounting opening 11 and stacked in parallel with each other in the housing 1 . . The top of the box ίο is provided with two louvers 12, and the louver 12 communicates the inside of the box 10 with the external environment, so that the hot air flow inside the box 1 is thereby dissipated into the external environment. A plurality of fans (not shown) may be disposed at the louver 12 to accelerate airflow exchange between the interior of the cabinet and the external environment. Referring to FIG. 2, a bracket 13 is disposed inside the casing 1 for carrying the server 20. Two brackets 14 are disposed at the rear end of the bracket 13 away from the mounting opening u. The two guiding brackets 14 are oppositely disposed on opposite sides of the bracket. For convenient viewing, the front side of the bracket 13 is removed in FIG. From the perspective of 2) one of the guide frames 14 » each of the guide frames 14 is substantially elongated and stacked along the upper and lower sides of the server 20: extension: extension. Referring to FIG. 3, each guide frame 14 includes an elongated guide plate 141, two folded edges 143 extending perpendicularly rearward from the two long sides of the guide plate 141, and the two folded edges 143 respectively. Two fixed end edges 145 extending perpendicularly outward. The guiding plate 141 extends along the upper stacking direction of the servo 2' and the plane of the guiding plate 141 is parallel to the direction in which the servo 2 is inserted into the casing 10. The guiding plate 141 is provided with a plurality of guiding grooves 42. The guiding grooves 142 are identical in shape and are arc-shaped and divided into two columns. Each of the guiding grooves 142 is formed on the guiding plate 41. Adjacent to one of the long sides, each guide groove 142 is from the long side of the guide plate 141 to the top of the guide plate form number A0101, page 5 / total 2 〇 0982075340-0 201122764 The curved inclined upwardly extending 'the guiding grooves I42 in the same column are equidistantly distributed. In the present embodiment, the distance between the adjacent two guiding grooves 142 in the same column is equal to three times the height of the servo 20. The two rows of guiding slots 142 are symmetrically distributed. The two guiding rows 142 ′ are symmetrically disposed on the guiding frame 14 to enhance the convenience of the guiding frame 14 during installation, that is, each guiding frame 14 can be fixed. The front side of the bracket 13 (viewed in the perspective of FIG. 2) can also be fixed to the rear side of the bracket 13, without identifying which guide frame 14 needs to be mounted on the front side of the bracket 13, which guide frame 14 It needs to be mounted on the rear side of the bracket 13. The flange 143 is provided with a lead-in port 144 for each of the guiding slots 142, and each of the guiding inlets H4 is connected to a corresponding one of the guiding slots 142. Each of the fixed end edges 145 is provided with a plurality of through holes 146 for fixing the guide frame 14 in the case 10. Referring to FIG. 4, the server 20 includes a housing 21 and a circuit board 22 and a plurality of electronic components 23 received in the housing 21. The housing 21 has a hollow flat rectangular shape, and the housing 21 includes a square bottom plate 211 and a plurality of side plates 212 extending vertically upward from the periphery of the bottom plate 211, wherein a pair of opposite side plates 212 are provided with a plurality of side plates 212. The fan hole 213 is provided with a fan module 30 on the outer side of the side plate 212 of the vent hole 213. [0015] Please refer to FIG. 5, the fan module 30 includes a tray 31, three fans 32 fixed on the tray 31, and a fixing frame 33 for fixing the tray 31 to the feeding device 20. The connector 34 and the plurality of fixing members 35. The three air fans 32 are fixed to the tray 31 side by side. The tray 31 is pivotally connected to the fixing frame 33. The fixing frame 33 is fixed to the outer side of the side plate 212 of the server 20 provided with the ventilation hole 213. [0016] The tray 31 is substantially in the shape of a hollow rectangular shape. It includes a rectangular shape. 0982075340-0 098144010 Form No. A0101 Page 6 / Total 20 pages 201122764 ❹ [0017] The carrier plate 311, one pair from the carrier plate 311 a two-folded edge 312 extending vertically from the long side and two connecting plates 313 extending perpendicularly from the short side of the carrying plate 3U. The carrying plate 311 is provided with a plurality of through holes 314 for the The fixing member 35 is disposed on the carrier plate 311. The fan plate 311 is disposed on the carrier plate 3, and a louver 316 is disposed adjacent to each of the fans 32. The rib 31?, the rib 31? is perpendicular to the flange 312, and the rib 317 and the flange 312 can strengthen the carrier plate 3U so that the carrier plate 311 can carry a larger size fan. One end of each connecting plate 313 is provided with a pivoting hole 315. Each connecting plate 313 is disposed at a middle portion thereof and adjacent to the supporting plate 311, a guiding post 318 protruding perpendicularly outward from the connecting plate 313. The fixing frame 33 is substantially in the shape of a "u", and includes a beam 331 and two fixing plates 332 extending perpendicularly outward from the two ends of the beam 331. The two fixing plates 332 face outwardly, and each fixing plate 332 is away from the same. The connecting hole 315 of the connecting plate 313 of the corresponding tray of the tray 31 is also provided with a pivoting hole 335. The pivoting holes 335 of the two fixing plates 332 are respectively aligned with the two connections of the tray 31. The Qin holes 315 on the plate 313 are respectively provided for the two pivoting members 34 to pivotally connect the tray 31 to the fixing frame 33. The beam 331 and the fixing plate 332 extend perpendicularly to the inner side of the holder 33 to form a plurality of lugs 333, and each of the lugs 333 is provided with a fixing hole 334. The server 20 is provided with a fixing hole 334. The side plate 212 of the vent 213 is provided with a screw hole 214 at a position of the fixing hole 334 of each of the lugs 333. The fixing hole 334 and the screw hole 214 are used for fixing the fan module 3 to the server. 20 is provided on the side plate 212 of the vent 213. [0018] When the server 20 is loaded into the cabinet 1 of the cabinet, the server 20 and 098144010 form number A0101 page 7 / total 20 pages 0982075340-0 201122764 The fan module 30 is horizontally And in the same plane, that is, the state shown in FIG. 4, so that the server 2 is inserted into the bracket 13 from the mounting port 11 of the box 1 , and when inserted, the fan module of the server 2 is inserted. 30 first entering the box 10, the server 2 is inserted into the bracket 13, the two guiding posts 318 on the tray 31 of the fan module 30 are respectively from the two guide bow trusses at the rear end of the box 10. The corresponding guiding inlet 144 of the flange 143 of the 14 is inserted into the guiding groove 142 of the guiding plate 141 of the two guiding frames 14. With the advancement of the server 20, the tray 31 of the fan module 3 is folded. Since the two guiding posts 318 are guided in the guiding groove 142 of the guiding frame 14 up to .V. ........... The tray 31 is perpendicular to the server 20, that is, In the state shown in FIG. 6, at this time, the fan module 30 is in a state perpendicular to the server 20, and the fan 32 on the tray 31 is being provided to the server 20. The side plate 212 of the air hole 213 and the space above the server 20, so that the other server 20 inserted above the server 2 does not need to install the fan module 30, so that multiple servers 20 share one fan. The module 30 needs to be reconfigured until the height of the subsequently inserted server 20 exceeds the height of the fan 32 in the fan module 30. In this embodiment, since the height of the fan 32 is three times the height of the server 20, each fan module 3 can be used to dissipate three adjacent stacked servers 20 (see FIG. 2). Shown). It can be understood that in other embodiments, the size of the fan 32 can be selected according to requirements. Preferably, the size of the fan 32 is greater than the height of one of the servers 20, so that the fan module 30 can be aligned when it is perpendicular to the server 20. More than one server 20 performs better heat dissipation. [0019] In the above embodiment, the fan module 30 is disposed outside the feeding device 20, thereby facilitating the fan module 30 to use a larger size cooling fan 32, with 098144010 form number Α0101, page 8 of 20 0982 (201122764 provides a strong heat dissipation performance to meet the increasingly large heat dissipation requirements of the server 2). Secondly, the height of the fan 32 of the fan module 30 is greater than the height of the servo 20, and the fan 32 can At the same time, the heat dissipation of the plurality of servers 20 stacked on top of each other does not require the fan module 30 or the fan 32 to be provided for each server 2, thereby reducing the assembly cost and the component cost of each server 2 . Moreover, when the server 20 needs to be replaced, the fan module 3〇 does not have to be replaced together. 'The fan module 30 can be used multiple times, thereby improving resource utilization. 〇_In summary, the present invention is in accordance with In addition, the above mentioned method is only the embodiment of the present invention, and the equivalent modification or variation of the person in the spirit of the present invention should be covered by The following patent application BRIEF DESCRIPTION OF THE DRAWINGS [_1] is a perspective view of a server cabinet in the preferred embodiment of the present invention. [0022] FIG. 2 is a schematic view showing the internal structure of the server cabinet of FIG. 3 is a perspective view of the guide frame of FIG. 2. [0024] FIG. 4 is a perspective view of the server of FIG. 2 in an initial state. [0025] FIG. Fig. 6 is a perspective view of the server of Fig. 4 in another state. [Description of main components] [0027] Cabinet · 1 0 [0028] Mounting port: 11 098144010 Form No. A0101 Page 9 / Total 20 pages 0982075340-0. 201122764 [0029] Ventilation window: 12, 316 4 [0030] Bracket: 13 [0031] Guide frame: 14 [0032] Guide plate: 141 [ 0033] Guide groove: 142 [0034] Fold: 143 [0035] Entry: 144 ί [0036] Fixed end: 145 [0037] Perforation: 146 [0038] Server: 20 [0039] Housing: 21 [0040] Base plate: 211 [0041] Side plate: 212 i < [0042] Ventilation hole: 213 [0043] Screw hole: 214 [0044] Circuit board: 22 [0045] Electronic component: 23 [0 046] Fan Module: 30 [0047] Tray: 31 098144010 Form No. A0101 Page 10 / Total 20 Page 0982075340-0 201122764 [0048] Carrier Plate: 311 [0049] Flange: 312 [0050] Connection Plate: 313 [ 0051] Through hole: 314 [0052] Pivot hole: 315, 335 [0053] Rib: 317 [0054] Guide post: 318 [0055] Fan: 3 2 [0056] Fixing frame: 33 [0057] Beam: 331 [ 0058] Mounting plate: 332 [0059] Lug: 333 [0060] 固定 Mounting hole: 334 [0061] Pivot: 34 [0062] Fixing member: 35 098144010 Form number A0101 Page 11 / Total 20 pages 0982075340-0