M434428 ,.五、新型說明: 【新型所屬之技術領域】 本創作係關於一種電腦機櫃,尤指一種具可增減冷卻 模組的電腦機櫃。 【先前技術】 坊間企業多半係透過電腦代替早期的紙本作業,以節 省紙張的使用’且透過電腦的使用可提高員工的辦公效 率’以增進企業的競爭力’且一般企業通常會透過多數個 祠服器主機與各員工的電腦做連接,使各員工得以透過電 腦與伺服器連接,並取得位於伺服器的資料,如此一來, 各員工所取得的資料方能一致’以避免錯誤,此類型尤以 金融業特別常見。 然伺服器多半係設於一電腦機櫃内,主要係藉以提^ 良好的散熱環境,因伺服器於運作過程中,極易因同一日 間同時運作多個排程,造成該㈣器會產生大量的熱能 故透過電腦機櫃可迅速的帶走該伺服器的熱能,以避免言 伺服器累積過多的熱能而溫度過高,使產生熱當現象。 坊間電腦機櫃多半係於—櫃體的後方或上方設有多类 :風扇,藉以排出櫃體内飼服器所產生的熱能至外部,序 部=外部的冷空氣至#體内使飼服器降溫1而櫃體夕f 體T境若係無法及時排除植體所排出的熱能,則易使補 器產=境慢慢增溫,最終使植體内部的過熱而使㈣ 上述問題多半係利用櫃體外額外新增空調系統,藉以 M434428 使櫃體外部空氣降溫,以進一步伟應科- …—... 7使櫃體内降溫,惟此方式 過於浪費資源,鑑於上述問題,如 ^ 如何避免因電腦機櫃外部 環境溫度過高時而造成隸器熱#的現象,且避免資源浪 費的狀態下,實有必要進行檢討,並媒求可行的解決方案。 【新型内容】 鑑於上述現有技術的缺點,本創作主要係提供一種具 可增減冷卻模組的電腦機植,主要係令電腦機櫃可自行產 生冷空氣以對機櫃内的伺服器散熱,i可視㈣器多寡而 增減該散熱效S,以達到無視外部㈣的㈣,並減少資 源浪費。 為達成上述目的所採取的技術手段係令前述電腦機櫃 包含有: 一櫃體,其具有左右側壁,並設有多數個機架,各機 架係彼此平行排列,該左右側壁分別形成有一夾層,夹層 内分別設有一進水管及一出水管,該進水管及出水管上形 成有夕個進水口及出水口,各進水口與出水口分別對應各 個機架; 一個以上的冷卻模組’係可增減的設於櫃體内的機架 上^亥冷卻模組主要係於一容置箱體内分設有一熱交換器 及一風扇’該熱交換器包含有一散熱鰭片組及一穿設於散 熱趙片組間的散熱管’該散熱管兩端分別穿出容置箱體, 且對應於櫃體中各機架上的進水口及出水口,並可連接相 通’該風扇係設於熱交換器前端,藉以將外部的熱空氣吸 入’經熱交換器作無交換後送-出冷空氣; 依照上述構造所構成的電腦機櫃,其主要係透過機櫃 M434428 .夾層内的進水管流入冰水,藉以流入該熱交換器的散熱管 内,利用冷卻模組中的風扇吸入櫃體内的熱空氣該熱空 氣經由與熱交換器進行熱能交換後,可形成冷空氣並藉由 風扇送至櫃體内進行散熱,於此同時,該散熱鰭片組同時 將該熱能傳導至散熱管而與散熱管内的冰水進行熱能交 換,可使散熱管内形成溫水,再透過該散熱管與櫃體夾層 内的出水管連通流出,如此循環動作,即可使櫃體内空氣 維持低溫,以供設於櫃體内的伺服器得以穩定運作而不會 發生熱當,其令,當櫃體内伺服器過多導致櫃體内散熱效 果不佳時’可透過擴充一個以上的冷卻模組解決,該插入 機櫃後的冷卻模組使其散熱管兩端分別與櫃體上相對應的 進、出水口相連通,即可加入系統,並提升散熱效率;若 機櫃内冷卻模組供過於求,亦僅須將該冷卻模組移除即可 達到提升效率的目的,由此可見,本創作可視需求增減該 電腦機櫃内部的冷卻模組,以有效提升散熱效果與工作效 率。 【實施方式】 關於本創作之一實施例,請參閱圖1,主要係於一櫃體 1 〇内設有一個以上的冷卻模組20,其中: 該櫃體1 0係概呈方形箱體,其前端設有一檔門1,,藉 以使該櫃體10内形成一封閉空間,又其内左右端分別形成 有一左夾層12及一右夾層13(如圖2所示),該左、右失層 12、13之間孫設有多數個機架彳4 ’且各機架14-、由前觀之 概呈L形狀並相互平行,使可供一伺服器3〇或冷卻模組2〇 M434428 半穩地架設莫i ’另左夾層内2設—有一遂水營—15,右爽層 13内設有一出水管16 ’其中該左、右夹層a、13於相對 的側壁上,分別以間隔一伺服器3〇的距離形成有一進水口 1 7及一出水口 1 8。 該冷卻模組20係可視實際需要,可增減的設於前述機 樞1〇的機架14上(如圖3所示),該冷卻模組2〇包含有一 上蓋體21、一與上蓋體21相對應的下蓋體22、一熱交換 窃23及一風扇24,該上、丁蓋體21、22係相互結合以形 成—容置箱體(如圖4所示),藉以供熱交換器23及風扇24 置於其内; 邊上蓋體21前端頂面形成有多數個出風口 211,又其 後側壁上形成有多數個進風口 212,且其左右兩側壁對應於 機櫃10的進水口 1 7及出水口,8分別形成有一穿孔23 ; 該下蓋體22係匹配前述上蓋體21,其後側壁上形成有 對應於則述進風口 212的進風口 221,又下蓋體22底部設 有漏水口 222,另下蓋體22於左右側壁上分別形成有一 對應於上蓋體21穿孔213的穿孔223 ,· 該熱交換器23係由一散熱鰭片組231及一穿設於散熱 曰片、·且間的散熱官232所構成,該散熱管232對應於上、 下蓋體21、22的穿孔213、223形成有一進水口 233及一 出水口 234,且其進水口 233係與櫃體1〇的進水口 口連 通,該出水口 234係與櫃體10的出水口 18連通; 該風扇24係設於熱交換器23前端,且風扇24具有一 =風口 241 ’其係對應於上蓋體21的'出風口 211 ,於本實 奴例中,該風扇24係為一橫流風扇。 M434428 上述櫃體10左夾層12内的進水管15係概呈U形狀, 其主要係因該進水管1 5流入冰水時,可藉由冰水於櫃體j 〇 頂端透過重力平均流入各散熱管232的進水口 233 » 上述下蓋體22於本實施例中係如同一集水盤,透過該 漏水口 222可將經由熱能交換凝結的水滴集結流出。 依照上述構造所構成的電腦機櫃,主要係透過樞體1〇 進水管15流入冰水,以透過各進水口 17流入各冷卻模組 的政熱官232内,再利用該風扇24自該上、下蓋體21、 22後側壁上的進風口 212、221吸入櫃體1〇外部的熱空 軋,該熱空氣會經過冷卻模組2〇的熱交換器23,藉以與散 熱鰭片組231進行熱能交換,可使風扇24藉由出風口 241 吹出冷空氣,並由該上蓋體21的出風口 211吹出至櫃體 1〇内部,於此同時,該散熱鰭片組231吸收熱空氣的熱能 會與散熱官232内的冰水進行熱能交換,則冰水會因此形 成溫水,再利用該出水口 234流出溫水,上述動作反覆運 行,即可使櫃體10内的溫度維持固定冷度,藉以供設於櫃 體1〇内的伺服器30得以正常運作而不會發生熱當的現 象,其中,透過增加冷卻模組2〇係可提升櫃體彳〇内的散 熱效果,而其增加方式係透過另一冷卻模組20的進水口 233及出水口 234分別與櫃體j 〇所相對應的進水管j 5及 出水管16相連通,並設於櫃體10内的機架14上,如此即 可達到增加冷卻效果的目的,反之亦《,僅須移除多餘的 冷卻模組20,即可降低冷卻效果,因此利用此方^卩可達 到視需求而增減該電腦機櫃'内部冷卻效果的目的,迆藉此 減)購置空調系統造成資源的浪f,且可無視電腦機植外 M434428 部空氣的溫度,依然可保持電Μ機櫃内的伺服器30 常。 【圖式簡單說明】 圖1 :係為本創作之一立體圖。 圖2 :係為本創作之一剖面圖。 圖3 :係為本創作之一安裝示意圖。 圖4 :係為本創作之一冷卻模組分解圖。 【主要元件符號說明】 10櫃體 1 1檔門 12左夾層 13右夾層 14機架 15進水管 16出水管 17進水口 18 出水口 20冷卻模組 21上蓋體 22下蓋體 23熱交換器 24風扇 21 1出風口 212進風口 21 3穿孔 221 進風口 222漏水口 223穿孔 231散熱鰭片組 232散熱管 2 3 3進水口 234出水口M434428, .5, new description: [New technical field] This creation is about a computer cabinet, especially a computer cabinet with a cooling module. [Prior Art] Most of the companies in the workshops replaced the early paperwork with computers to save paper use 'and use the use of computers to improve the efficiency of employees' to enhance the competitiveness of enterprises' and the average company usually The server host is connected to the computers of each employee, so that each employee can connect to the server through the computer and obtain the information on the server. In this way, the data obtained by each employee can be consistent' to avoid errors. Types are especially common in the financial industry. However, most of the servers are installed in a computer cabinet, mainly to improve the heat dissipation environment. Because the server is in operation, it is easy to operate multiple schedules at the same time during the same day, resulting in a large number of (4) devices. Thermal energy can quickly take away the thermal energy of the server through the computer cabinet to prevent the server from accumulating too much thermal energy and the temperature is too high, causing a hot phenomenon. Most of the computer cabinets in the workshop are located at the rear or above the cabinet. There are many types of fans: the heat generated by the feeder in the cabinet is discharged to the outside, and the external air is supplied to the body. If the temperature is lowered by 1 and the cabinet body is not able to remove the heat energy discharged from the implant in time, it will easily cause the temperature of the patch to slowly increase, and eventually the inside of the plant will be overheated. (4) Most of the above problems are utilized. An additional air conditioning system is added to the outside of the cabinet, and M434428 is used to cool the outside air of the cabinet to further reduce the temperature of the cabinet. However, this method is too wasteful of resources. In view of the above problems, such as how to avoid When the external environment temperature of the computer cabinet is too high, the phenomenon of the heat of the device is caused, and in the state of avoiding waste of resources, it is necessary to conduct a review and seek a feasible solution. [New content] In view of the above-mentioned shortcomings of the prior art, the present invention mainly provides a computer plant with a cooling module that can increase or decrease the cooling module, mainly to enable the computer cabinet to generate cold air by itself to dissipate heat from the server in the cabinet. (4) The number of devices is increased or decreased by the heat dissipation effect S, so as to ignore the external (4) (4) and reduce resource waste. The technical means for achieving the above purpose is that the computer cabinet comprises: a cabinet body having left and right side walls, and a plurality of racks, wherein the racks are arranged in parallel with each other, and the left and right side walls respectively form an interlayer. An inlet pipe and an outlet pipe are respectively disposed in the interlayer, and the inlet pipe and the outlet pipe are formed with a water inlet and a water outlet respectively, and each water inlet and the water outlet correspond to the respective frames; one or more cooling modules are The cooling module disposed in the cabinet is mainly provided with a heat exchanger and a fan in a receiving box. The heat exchanger includes a heat dissipating fin set and a wearer. The heat-dissipating tube disposed between the heat-dissipating group of the heat-dissipating tube respectively passes through the accommodating box at the two ends of the heat-dissipating tube, and corresponds to the water inlet and the water outlet of each rack in the cabinet, and can be connected to communicate with the fan system At the front end of the heat exchanger, the external hot air is sucked into the 'heat exchanger for non-exchange and then the cold air is sent out; the computer cabinet constructed according to the above structure mainly passes through the cabinet M434428. The water inlet pipe in the interlayer The ice water is poured into the heat pipe of the heat exchanger, and the fan in the cooling module is sucked into the hot air in the cabinet. The hot air is exchanged with the heat exchanger to form cold air and is sent by the fan. At the same time, the heat dissipation fins conduct heat energy to the heat pipe to exchange heat energy with the ice water in the heat pipe, so that warm water can be formed in the heat pipe, and then the heat pipe and the cabinet are transmitted through the heat pipe. The outlet pipe in the body interlayer communicates and flows out, so that the circulation of the air can keep the air in the cabinet low, so that the server installed in the cabinet can be stably operated without heat, so that when the cabinet is inside If there are too many servos, the heat dissipation effect in the cabinet is not good. 'It can be solved by expanding more than one cooling module. The cooling module inserted into the cabinet has the inlet and outlet of the heat-dissipating tube respectively corresponding to the cabinet. When connected, it can be added to the system and improve the heat dissipation efficiency. If the cooling module in the cabinet is oversupply, it is only necessary to remove the cooling module to achieve efficiency improvement. This increase or decrease in the demand for the creation of visible inside the computer cabinet cooling module, in order to effectively improve the working efficiency of the cooling effect. [Embodiment] With regard to an embodiment of the present invention, please refer to FIG. 1 , which mainly includes one or more cooling modules 20 in a cabinet 1 , wherein: the cabinet 10 is a square box. A front door 1 is disposed at the front end thereof, so that a closed space is formed in the cabinet 10, and a left interlayer 12 and a right interlayer 13 (shown in FIG. 2) are respectively formed at the left and right ends, and the left and right are lost. The Sun between the layers 12 and 13 is provided with a plurality of frames 彳4' and each of the frames 14-, which are L-shaped from the front view and parallel to each other, so that a server 3 〇 or a cooling module 2 〇M434428 Semi-stablely erected Moi 'the other left mezzanine 2 is set up - there is a water camp -15, and the right cool layer 13 is provided with an outlet pipe 16', wherein the left and right interlayers a, 13 are on the opposite side walls, respectively A water inlet port 17 and a water outlet port 18 are formed at a distance of one server 3 inches. The cooling module 20 can be added or removed according to actual needs, and can be added or removed on the frame 14 of the armature 1 (as shown in FIG. 3 ). The cooling module 2 includes an upper cover 21 , an upper cover and an upper cover. 21 corresponding lower cover 22, a heat exchange stealing 23 and a fan 24, the upper and the cover bodies 21, 22 are combined with each other to form a receiving box (as shown in FIG. 4) for heat exchange. The fan 23 and the fan 24 are disposed therein; a plurality of air outlets 211 are formed on the top surface of the front end of the upper cover 21, and a plurality of air inlets 212 are formed on the rear side wall, and the left and right side walls correspond to the water inlet of the cabinet 10. 1 7 and the water outlet, 8 respectively formed with a perforation 23; the lower cover 22 is matched with the upper cover 21, and the rear side wall is formed with an air inlet 221 corresponding to the air inlet 212, and the bottom of the lower cover 22 is provided. There is a water leakage port 222, and the lower cover body 22 is respectively formed with a through hole 223 corresponding to the through hole 213 of the upper cover body 21 on the left and right side walls. The heat exchanger 23 is provided with a heat dissipation fin group 231 and a heat dissipation fin piece. And a heat dissipating officer 232, the heat pipe 232 corresponding to the upper and lower covers 21, 22 The water inlet 233 and the water outlet 234 are formed in the through holes 213 and 223, and the water inlet 233 is connected to the water inlet port of the cabinet 1 , and the water outlet 234 is connected to the water outlet 18 of the cabinet 10; The fan 24 has a vent 241 ′ which corresponds to the vent 211 of the upper cover 21 . M434428 The inlet pipe 15 in the left interlayer 12 of the above-mentioned cabinet 10 is generally U-shaped. The main reason is that when the inlet pipe 15 flows into the ice water, the ice water can flow through the gravity at the top of the cabinet j 平均. The water inlet 233 of the tube 232 is the same as the water collecting tray in the present embodiment, and the water droplets condensed through the heat exchange can be collected and flowed through the water leakage port 222. The computer cabinet constructed according to the above configuration mainly flows into the ice water through the inlet pipe 15 of the pivot body 1 to flow into the hot water 232 of each cooling module through the water inlets 17, and then uses the fan 24 from the upper side. The air inlets 212 and 221 on the rear side walls of the lower cover bodies 21 and 22 are sucked into the hot air rolling outside the cabinet 1 , and the hot air passes through the heat exchanger 23 of the cooling module 2 , thereby being disposed with the heat dissipation fin group 231 . The heat exchange can cause the fan 24 to blow out the cold air through the air outlet 241, and is blown out to the inside of the cabinet 1 by the air outlet 211 of the upper cover 21, and at the same time, the heat dissipation fin 231 absorbs the heat energy of the hot air. The heat exchange with the ice water in the heat-dissipating officer 232 causes the ice water to form warm water, and the water outlet 234 is used to flow out the warm water. The above operation is repeated, so that the temperature in the cabinet 10 can be maintained at a fixed degree of coldness. Therefore, the server 30 disposed in the cabinet 1 can be operated normally without a hot phenomenon, wherein the cooling module 2 can increase the heat dissipation effect in the cabinet body by increasing the cooling module 2, and the manner of increase thereof Passing through another cooling module 20 The water inlet 233 and the water outlet 234 are respectively connected to the inlet pipe j 5 and the outlet pipe 16 corresponding to the cabinet j ,, and are disposed on the frame 14 in the cabinet 10, so as to achieve the purpose of increasing the cooling effect. And vice versa, you only need to remove the extra cooling module 20, you can reduce the cooling effect, so you can use this side to increase or decrease the internal cooling effect of the computer cabinet as needed. The purchase of an air conditioning system causes a wave of resources, and the temperature of the air in the M434428 outside the computer can be ignored, and the server in the cabinet can still be maintained. [Simple description of the diagram] Figure 1: This is a perspective view of the creation. Figure 2: A cross-sectional view of this creation. Figure 3: A schematic diagram of one of the installations of this creation. Figure 4: An exploded view of a cooling module for this creation. [Main component symbol description] 10 cabinet 1 1 door 12 left sandwich 13 right sandwich 14 frame 15 inlet pipe 16 outlet pipe 17 water inlet 18 water outlet 20 cooling module 21 upper cover 22 lower cover 23 heat exchanger 24 Fan 21 1 air outlet 212 air inlet 21 3 perforation 221 air inlet 222 water leakage port 223 perforation 231 heat dissipation fin group 232 heat pipe 2 3 3 water inlet 234 water outlet