200819028 九、發明說明: 【發明所屬之技術領域】 尤指一種可以提升液 本發明係有關於一種液冷式散熱裝置 管冷卻能力之散熱裝置。 【先前技術】 電腦設仙之中央處理單元⑼與神積體電路等電子元件 1執行運算触啦生熱量,亦隨之升高工作溫度,由於工作 j對於電腦設備是否當機的辟極大,所以為了降低發熱電子 X牛的工作溫度錄财效運作,係透過餘設計來設計出 3熱装置,彳_冷式軸妓就是射-種,此液冷式散献 :置包含有散絲、冷卻循環裝置及風扇,關冷卻循環裳· 有焉達以供水或冷部液之循環動力,另外風扇亦須設有馬 用以轉動風扇,如此—來,兩組馬達龄置將使得構件增加 i體組衣體沾加,而且需要兩_源供應馬達之電力而造成 浪費。 =、&節省電源’便有_種液冷式散熱裝置, :吏仔冷賴%、裝置麵扇制—組馬達,請相「第1圖」所 …夜^式政熱衣置包含有馬達裝置10a、散熱扇裝置20a與冷卻 ώ =置,’馬達裝i 1〇a之二端分別連結有散熱扇裝置20a 舰衣i3〇a,並使得馬達裝置施、散熱扇裝置施與冷 Pf衣裝置3Gmil於同—軸心,因而馬達裝置舰可同時提供散 :羽裳置施及冷部循環裝置3〇a之動力,用以轉動散熱扇裝置 裳置30a之扇葉。又,冷卻循環裝置3〇a包含有管 200819028 運33a,管道33a更包含有進液管3知及出液管祝,此外,管道 3如連接有散熱器撕及熱交換器撕,其中散熱器地係接觸於 中央處理單元“馳上,肋射央處理單元日日日片驗進行 散熱。而熱交換器39a則設於進液管36a,因此在進液管施中的 工_體會射央處料元W⑽a的帶纽通過此熱交 換器39a的設紐時,會受到散熱扇裝置施之風力冷卻作用, 同時,熱交換器39a會對工作液體進行排熱降溫作帛,如此,工 作液體在進液管36a流動時可藉由散熱輕置咖與赦交換哭现 共同排熱降溫’此冷卻後之工·财經由馬達裳置施之驅動 而進入出液管37a ’工作液體便不斷地在進液管施與出液管化 内循壞散熱。 錄工作液體於進液管施流動時,係藉由散熱扇裝置施 ^熱乂換器39a對其進行溫降,當工作液體於進液管3如内蓄積 f間不足’脚進液管36a之散熱面積減少時,工作液體的溫降 時間便減少,進而降低散熱效率。 士再者,上述之散熱扇裝置20a在產生風力以冷卻進液管36a 時,氣流係沿著散熱扇裝置2〇a之軸向方向進出,又,馬達裝置 收係位於散熱扇裝置施之中心,造成了氣流於散熱扇裝置10a 轴向方向進出時之阻礙,以致最大風量風壓並非在馬達裝置1〇a 之中心軸而是在扇葉外緣上,導致散熱扇裝置20a以風力作用於 進夜官36a時,其風阻增加而大幅降低冷卻效果。 【發明内容】 根據刖述所揭露之習知技術,由於管道之蓄積空間不足而減 7 200819028 八政熱面積及政熱屬裝置具有較大風阻叫低風力冷卻效 果’有繁於此,因而本發明之目的在於提供一種可提升散熱效果 之液冷式散熱裝置。 根據本發明所揭示之液冷式散熱裝置,其包含有一散熱風 扇、-泵浦、—液管、—馬達及—散熱塊,其中馬達之二相對端 係連結有散熱風扇及泵浦,而液管之二端連通於果浦並形成流體 迴路,液管並與散熱塊接觸,散熱塊則設置於熱源上,而液管於 ρ離職熱塊之區段則連續f折出—f曲部,此·f曲部係相應於散 熱風扇的出風位置,而受其正向吹拂。 本發明所揭示之液冷式散餘置,其功效在於透過增加液管 之散熱面積,可提升液管之散熱效率,且散熱風扇係藉由轴向方 向進風並從徑向方向出風,有效地降低風阻而利於氣流進出,並 能以風力直接作驗液管,以提升液管的冷卻降溫能力。 以下在貫施方式中詳細敘述本發明之詳細特徵以及優點,其 、内容足贿任何·相驗藝者了解本發日狀技術内容並據以實 施,且根據本說明書所揭露之内容、申請專利範圍及圖式,任何 熟習相關技藝者可輕易地理解本發明相關之目的及優點。 【實施方式】 根據本發贿揭示之液冷式散餘置,係應用在發熱電子元 件上,其巾,發熱電子元件射央處理單元^,然而並不限於 中央處理單元晶片,諸如可產生熱量之積體電路晶片亦可應用本 發明所揭露之技術,在以下本發明的具體實施例中,將以中央處 理單元晶片作為本發明之應用實施例。 200819028 請參閱「第2A圖」、「第2B圖」,並結合參閱「第3圖」所 不,其包含有馬達10,散熱風扇20、泵浦30及液管5〇,其中, 馬達1〇與泵浦30係位於殼體40内,殼體4〇並設有二通孔41、 而馬達κ)之二侧分別凸設有第與第二定子而 第-疋子11之頂側及第二定子12之底側,係各具有—軸孔⑴、 121,以使得馬達10之二側可連結於散熱風扇2〇與果浦兕,但 並非以轴孔為限’第-定子u之頂側及第二定子12之底側亦可 f設有轴桿26、36來達成連結,此係為相應的凹凸關係所以不再 贊述,在此料—定子11 _及第二定子12細各設有轴孔 111、121為例。此外,馬達10並伸出有電源線14,魏線14可 接有電力源,以提供電力予第—定子u與第二定子12。 而散熱風扇20係相應於第一定子u之位置處而位於殼體之 頂面’且散熱風扇20包含有—框體2卜—扇座22及—暴輪Μ, 框體21係將扇座22與扇輪24框圍於内,且框體21設有一軸向 入風口 m及-複向出風σ 212,以供扇輪%導入氣流或排出氣 流’但其人财向與出風方向並不以此為限。扇輪24則相應於轴 ^入風口如而環設於扇座22外周緣,扇座22内壁並設置有一 第導磁70件25,此第一導磁元件Μ係為磁鐵。在扇座η内壁 之轴〜處相應於第—定子u之軸孔m位置處則凸伸有一轴桿 26以插接於第_定子u之軸孔Π1内,而使得扇座η内壁可 收置第-定子1卜便於[導磁元件25與第—定子η之相互 應。 ^ 而泵廣30係设於馬達1〇之底面,泵浦%包含有一循環座 200819028 μ與複數個輕33,循環座31設有—供工作㈣進人之入口段 m,及-供工作液體流出之出口段312,魏座31之頂面還設 有-呈凹離之容室34,容室34之_設置有_第二導磁元件 35,此第二導磁元件35係為磁鐵,且容室34相應於第二定子12 之軸孔121位置處設有軸桿36,以插接於第二定子12之轴孔 Π卜而使得容室34内壁可收置有第二定子12,便於第二導磁元 件35與第—疋子U之相互感應。再者,複數個扇葉%則環設於 容室34外周緣,用以轉動來自於入口段311之工作液體流至出口 段 312。 液管50内載有工作液體(可為吸熱效果佳之冷卻液),其包 含有進液段51及出液段52,並連接有散熱塊%,而散熱塊%設 置於中央處理單元晶片6Q上。進液段51及出液段&之一端連接 有散熱塊70,而另端則分別連接於入口段3ιι及出口段,如 此此使付進液段Μ、出液段S2與果浦3〇形成一循環流體迴路。 又’進液U1在離開散熱塊%之區段上具有第 端512’進液段51相應 弟一 —山 、杬句出風口 212之位置處而於第一端511 ’、弟一端512之間形成有彎曲部513,以使彎曲部513位於散孰 風扇20之出風路秤j σ以 1 _ 上,且彎曲部513呈連續彎折形式,用以增加 :、、、路么與政熱面積。另外,進液段Μ係穿過殼體4〇之通孔41 :連結於入口段311,而出液段52係穿過通孔42而連結於出口 丰又31=使祕液段51與出液段52可連通於泵浦%之循環座Μ。 「二月再麥閱「弟2八圖」、「第2Β圖」,並結合參閱「第3圖」、 弟4圖」與「第5圖」所示,本發明液冷式散熱裝置第一實施 200819028 例於組裝時,容室34之軸桿3 _ 如此,馬達之第二定子 二第二定询與容室34内之第二導磁元件心 扇莱33婦。糾,她26顺辦—=而 =吏 川之弟一疋子π而能與扇 而驅使扇輪24旋轉。 内之弟一喊元件25相互感應 j ¥ —疋子11、第二定子丨2可分顺其觸之第一導磁 =、第二導磁元件35產生電磁感應,以驅使扇輪24及扇葉 33旋轉。 因此,工作液體在流經散熱棟7〇時,會將中央處理單元晶片 6〇的熱量帶走而流入進液段S1之第一端犯,此時第一端犯的 工作液版~有熱量而具有較高之工作溫度。又,由於電源線Μ 已被通電,馬達1G而能_鶴扇輪24及扇葉幻旋轉。 田工作;^體叉泵浦3〇之引導帶動時,位於第一端的工作 液體會開始通過彎曲部513,此時,扇輪24會自軸向入風口 211 =進立氣流’並自徑向出風口 212流出,而正向吹拂料曲部513, 管曲部513内之工作液體受到風力作用後,其溫度開始降低,而 騎#工作液體。當進人進液段M之第二端犯,玉作液體内溫 度已較位於第—端511位置時低。接著,繼續從入口段311進入 泵浦30内,而泵浦3〇中扇葉%的旋轉,可帶動入口段犯之工 作液體流至出口段312,工作液體再從出口段312流至出液段%, 11 200819028 並繼續流往散熱塊财。由於轉液體已入,、 中央處理單元晶片60之熱量帶走,工 ^ ’所以可再將 以順利熱交換之進行,且分別達到風力吹拂之I地不斷流動’可 排水效用。 弗之々郃效用及水泵之 請㈣「第6圖」所示’麵本發崎冷式妙奸 力吹拂示意圖。由於進液段51中的彎曲部犯具: 吹拂:二二且對應於徑向出風口 212的位置受散熱風扇_ 咖溫降段,因辆於進液段51的彎曲部 、連接有熱咖8G,如此,進液段5♦工作液體可 部加溫而散除更多熱量。 此外,上述之馬達10係同轴同速以轉動扇輪Μ及扇葉^, 但馬達1〇亦可以不同轴不同轉速來轉動扇輪24及扇葉33 i因此 本發明再揭示有第三實施例。 請參+閱「第7A圖」與「第7B圖」所示,為使馬達1〇、扇輪 24及扇葉33位於不同之轴線位置,馬達1〇設有心軸16,心軸 16之兩端係凸出於第—^子^與第二定子12之端面,於第一定 子11與第二定子12之端面鄰近心軸151處分別設有偏心軸17、 18。另外,在馬達W與扇輪24,以及馬達1〇與扇葉33之間, 分別設有不同減速比之第一齒輪組9〇與第二齒輪組9〇,,如此, 在馬達10分別轉動扇輪24及扇葉33 時,馬達10兩侧之終端輪 出動力亦不同,而使得扇輪24及扇葉33有著不同的轉速。其中, 第一齒輪組90係包含有第一齒輪91、第二齒輪92與第三齒輪 93 ’而第一齒輪組9〇’包含有第四齒輪料、第五齒輪95與第六齒 12 200819028 輪96,但第—齒輪組9〇與第二齒輪組%,的組成並不以此為限, 在此,第-齒輪組90與第二齒輪組9〇,個包含有三個直經不同之 齒輪以作為應用例。 馬達10之心軸16於第一定子u之一端係轴設有第 二=心軸17軸設有第二歯輪92,而扇座22之轴桿26車由設有同 弟二齒輪93 ’偏心軸18軸設有第四齒輪94,而容室3 36軸设有第五齒輪95,另外,心軸π镇_ — 設有第六齒輪%。再者,第-坪之—端係轴 有弟一姻輪92係嚙合有第一齒輪91盥第 三齒輪93,而第四齒輪94係嗜合有第五齒輪95與第六齒輪96, 如此在馬達1〇文電磁感應而轉動扇輪%及扇葉^時 24與扇葉心細綠_增做 = 用者之需求。 本發明_枕液冷式絲裝置,透過馬縣散熱風扇 -體,可以縮小侧體積以節仙部空間,而且散熱風扇 、入虫口出風口係沿者扇輪的軸向方向與徑向方向而開設,在 氣流導入解此行軸線上不會造雜礙,而料低風阻以達 到較大風量,此外,辭内部有散熱效果佳駐作液體來散埶, 且由於·段_分區段巾設_㈣,f _挺長了工舰 體之散熱路徑’亦增加其散熱面積,所以能增加溫降時間。而因 為其位置錄餘風扇之_雜,如糾姐σ,所以能減少 風阻’ _散減献徑㈣風口正向吹拂彎折部時,可以更多 之風力來冷卻液管外部,如此—來,液f透過⑽的散敎過程而 能達到更好的散熱效率。 … 200819028 雖然本發明之實施例揭露如上所述,然並非用以限 明,=姻目關技藝者,在不脫離本發明之精神和範圍内^ 凡依本μ申請範_述之形狀、構造 & 利範圍所界定者為準。—縣_書所附之申請專 【圖式簡單說明】 第圖_知液冷式散熱裝置之操作示意圖。 實施例之分 第从圖及f 2Β圖,本翻液冷式賴裝置第— 解不意圖。 第3圖 第4圖 第5圖 意圖。 本發明液冷式散熱裝置第-實_組合示意圖。 本發明液冷式散熱裝置第—實施例剖視圖。 本發明液冷式散_置第—實施例正向風力吹拂示 第6圖,本發明液冷式散熱| 意圖。 置第二實施例正向風力吹拂示 第7Α圖及第7Β圖,本發明液冷式散熱裝 配齒輪組之分解示意圖。 置第三實施例搭 【主要元件符號說明】 習知技術 10a •••馬達裝置 20a........... 30a........... 33a........... ····散熱扇裝置 ····冷卻循環裝置 200819028 36a............................................進液管 37a............................................出液管 38a.·····......................................散熱器 39a............................................熱交換器 l〇〇a..........................................中央處理單元晶片 本發明 10 ..............................................馬達 11 ..............................................第一定子 111、121..................................軸孔 12 .............................................第二定子 14.............................................電源線 16..........................................…心車由 17、18....................................•偏心車由 20 .......................................................散熱風扇 21 .............................................框體 211 ............................................車由向入風口 212 ...........................................徑向出風口 22 ..............................................扇座 24 .............................................扇輪 25 .............................................第一導磁元件 26、36.....................................軸桿 30 .............................................泵浦 31 .............................................循環座 15 200819028 311····........................................入口段 312...........................................出口段 33 ............................................•扇葉 34 .............................................容室 35 .............................................第二導磁元件 40.............................................殼體 41、42.....................................通孔 50 .............................................液管 51 .............................................進液段 511 ............................................第一端 512 ...........................................第二端 513 ...........................................彎曲部 52 .............................................出液段 60.............................................中央處理單元晶片 70 ······.......................................散熱塊 80.............................................熱交換器 90 .............................................第一齒輪組 90’............................................第二齒輪組 91 .............................................第一齒輪 92 .................·······.....................第二齒輪 93 .............................................第三齒輪 94 .............................................第四齒輪 95 .............................................第五齒輪 16 200819028 96 第六齒輪 17200819028 IX. INSTRUCTIONS: [Technical field to which the invention pertains] Especially a liquid that can be lifted. The present invention relates to a heat sink for cooling the liquid-cooled heat sink. [Prior Art] The computer's central processing unit (9) and the electronic components such as the Shenjiu circuit perform calculations to generate heat, which also increases the operating temperature. Because the work j is extremely large for computer equipment, In order to reduce the operating temperature of the heating electron X cattle, the three thermal devices are designed through the design of the heat. The 妓 冷 冷 妓 妓 妓 射 , , , , , , , , , , , , , , , , , , , , , 液 液 液Circulation device and fan, shut down the cooling cycle. There is a circulation power for the water supply or the cold liquid. In addition, the fan must also be equipped with a horse to rotate the fan. In this way, the two sets of motors will set the component to increase the body group. The body is smeared and requires two sources of power to supply the motor and waste. =, & save power, there will be a kind of liquid-cooled heat sink, : 吏仔冷赖%, device-face fan-group motor, please look at "1st picture"... Night ^ style hot clothes set contains The motor unit 10a, the heat dissipating fan unit 20a and the cooling unit 置= are disposed, and the two ends of the motor unit i1〇a are respectively connected with the radiator fan device 20a, and the motor device is applied, and the cooling fan device is applied to the cold Pf. The 3Gmil clothing device is in the same axis, so the motor device ship can simultaneously provide the power of the feathers and the cold circulation device 3〇a to rotate the fan blades of the cooling fan device. Moreover, the cooling cycle device 3A includes a pipe 200819028, 33a, and the pipe 33a further includes a liquid inlet pipe 3 and a liquid pipe, and further, the pipe 3 is connected with a radiator tearing and heat exchanger tearing, wherein the radiator The ground system is in contact with the central processing unit, and the rib radiation processing unit performs heat dissipation on a daily basis. The heat exchanger 39a is disposed in the liquid inlet pipe 36a, so that the work in the inlet pipe is at the center of the injection pipe. When the belt of the material element W(10)a passes through the setting of the heat exchanger 39a, it is subjected to the wind cooling effect of the heat dissipating fan device, and at the same time, the heat exchanger 39a performs the heat removal and cooling of the working liquid, so that the working liquid When the liquid inlet pipe 36a flows, the heat can be exchanged by the heat and the coffee is exchanged with the cockroach, and the heat is cooled down. The work after the cooling is driven by the motor to enter the liquid discharge pipe 37a. During the application of the inlet pipe and the discharge pipe, the heat is dissipated. When the working fluid is applied to the inlet pipe, the temperature is lowered by the heat-dissipating device 39a, when the working fluid is in progress. If the liquid tube 3 accumulates between the f, the foot is not filled with the foot inlet pipe 36a. When the heat dissipation area is reduced, the temperature drop time of the working liquid is reduced, thereby reducing the heat dissipation efficiency. Further, when the heat dissipation fan device 20a generates wind power to cool the inlet pipe 36a, the air flow is along the heat dissipation fan device 2a The axial direction enters and exits, and the motor device is located at the center of the heat sink device, which causes the airflow to block when the heat sink fan device 10a enters and exits in the axial direction, so that the maximum air volume wind pressure is not at the center of the motor device 1〇a The shaft is on the outer edge of the blade, causing the heat dissipation fan device 20a to act on the night button 36a, and the wind resistance is increased to greatly reduce the cooling effect. [Disclosure] According to the conventional technique disclosed in the description, due to the pipeline The accumulation space is insufficient and the reduction is 7 200819028 The eight political hot area and the political heat device have a large wind resistance called low wind cooling effect. The present invention aims to provide a liquid cooling heat sink capable of improving the heat dissipation effect. The liquid cooling heat dissipating device according to the present invention comprises a heat dissipating fan, a pump, a liquid pipe, a motor and a heat dissipating block, wherein the motor The opposite end is connected with a cooling fan and a pump, and the two ends of the liquid pipe are connected to the fruit and form a fluid circuit, the liquid pipe is in contact with the heat sink, the heat block is disposed on the heat source, and the liquid pipe is separated from the heat pipe. The section of the thermal block is continuously f-folded-f curved, and the f-curved portion is blown by the forward direction corresponding to the air-dissipating position of the heat-dissipating fan. The liquid-cooled residual space disclosed by the present invention The utility model has the advantages that the heat dissipation efficiency of the liquid pipe can be improved by increasing the heat dissipation area of the liquid pipe, and the cooling fan is ventilated by the axial direction and ventilates from the radial direction, thereby effectively reducing the wind resistance and facilitating the airflow in and out, and can be driven by the wind. The test tube is directly used to enhance the cooling and cooling ability of the liquid pipe. The detailed features and advantages of the present invention are described in detail below in the manner of the present invention, and the content of the bribe is known to the reader. The related objects and advantages of the present invention are readily understood by those skilled in the art in light of this disclosure. [Embodiment] The liquid-cooled residual device disclosed in the present bribe is applied to a heat-generating electronic component, and the towel, the heat-generating electronic component is processed by the central processing unit, but is not limited to the central processing unit wafer, such as heat generation. The integrated circuit chip can also be applied to the technology disclosed in the present invention. In the following embodiments of the present invention, a central processing unit wafer will be used as an application embodiment of the present invention. 200819028 Please refer to "Figure 2A" and "Figure 2B" and refer to "Figure 3". It includes motor 10, cooling fan 20, pump 30 and liquid tube 5〇, of which motor 1〇 The pump 30 is located in the casing 40, and the casing 4 is provided with two through holes 41, and the two sides of the motor κ) respectively protrude from the second stator and the top side of the first and second stators 11 The bottom sides of the two stators 12 each have a shaft hole (1), 121, so that the two sides of the motor 10 can be coupled to the heat dissipating fan 2 果 and the guopu 兕, but not limited to the shaft hole 'the top of the first stator u The bottom side of the side and the second stator 12 may also be provided with shafts 26 and 36 to achieve the connection. This is a corresponding concavo-convex relationship, so that the material-stator 11 and the second stator 12 are not detailed. The shaft holes 111 and 121 are provided as an example. In addition, the motor 10 has a power line 14 extending therefrom, and the wire 14 is connected to a power source to supply power to the stator-u stator and the second stator 12. The cooling fan 20 is located at the top surface of the housing corresponding to the position of the first stator u and the cooling fan 20 includes a frame 2 - a fan seat 22 and a rim, and the frame 21 is a fan. The frame 22 and the fan wheel 24 are enclosed, and the frame body 21 is provided with an axial air inlet m and a reversing air outlet σ 212 for the fan wheel to introduce airflow or exhaust airflow. The direction is not limited to this. The fan wheel 24 is disposed on the outer periphery of the fan seat 22 corresponding to the axial air inlet. The inner wall of the fan seat 22 is provided with a conductive magnetic member 70. The first magnetic conductive element is a magnet. A shaft 26 is protruded from the shaft hole of the inner wall of the fan base η corresponding to the shaft hole m of the first stator u to be inserted into the shaft hole Π1 of the first stator u, so that the inner wall of the fan seat η can be received The first stator 1 facilitates [the magnetic component 25 and the first stator η correspond to each other. ^ The pump is 30 sets on the bottom surface of the motor 1,, the pump % includes a recirculation seat 200819028 μ and a plurality of light 33, the circulation seat 31 is provided for the work (4) into the entrance section m, and - for the working liquid The exiting outlet section 312, the top surface of the Wei seat 31 is further provided with a recessed chamber 34, the chamber 34 is provided with a second magnetic conducting element 35, and the second magnetic conducting element 35 is a magnet. The shaft 34 is disposed at a position corresponding to the shaft hole 121 of the second stator 12 to be inserted into the shaft hole of the second stator 12 so that the inner wall of the chamber 34 can receive the second stator 12, The mutual sensing of the second magnetically conductive element 35 and the first scorpion U is facilitated. Furthermore, a plurality of fan blades are disposed on the outer periphery of the chamber 34 for rotating the working fluid from the inlet section 311 to the outlet section 312. The liquid pipe 50 carries a working liquid (which may be a cooling liquid with good heat absorption effect), and includes a liquid inlet section 51 and a liquid discharge section 52, and is connected with a heat dissipation block %, and the heat dissipation block % is disposed on the central processing unit wafer 6Q. . The heat transfer block 70 is connected to one end of the liquid inlet section 51 and the liquid discharge section & and the other end is connected to the inlet section 3 ιι and the outlet section, respectively, so that the liquid feed section Μ, the liquid discharge section S2 and the fruit pu 3 〇 A circulating fluid circuit is formed. In addition, the liquid inlet U1 has a first end 512' in the section away from the heat sink block, and the liquid inlet section 51 corresponds to the position of the first one-mountain and the haiku outlet 212, and between the first end 511 ' and the other end 512 A curved portion 513 is formed such that the curved portion 513 is located on the air outlet scale j σ of the diverging fan 20 at 1 _, and the curved portion 513 is continuously bent to increase: , , , and area. In addition, the liquid inlet section passes through the through hole 41 of the casing 4: is connected to the inlet section 311, and the liquid outlet section 52 is connected to the outlet through the through hole 42 and is connected to the outlet. The liquid section 52 can be connected to the pumping cycle of the pump. "In February, I will read "Twenty-eight Diagrams" and "Second Diagrams" and refer to "3", 4" and "5" to show the first liquid-cooled heat sink of the present invention. In the case of the assembly of 200819028, the shaft 3 of the chamber 34 is _, the second stator of the motor is secondly queried with the second magnetic component of the chamber 34. Correction, she 26 shun - = and = 吏 Chuan's brother a pi π can drive the fan wheel 24 with the fan. The inner brother shouts the component 25 mutual induction j ¥—the tweezers 11, the second stator 丨2 can be divided into the first magnetic conduction = the second magnetically permeable element 35 generates electromagnetic induction to drive the fan wheel 24 and the fan The leaf 33 rotates. Therefore, when the working liquid flows through the heat dissipation building, the heat of the central processing unit chip 6〇 is taken away and flows into the first end of the liquid inlet section S1, and the working fluid plate of the first end is heated. And has a higher working temperature. Further, since the power supply line Μ has been energized, the motor 1G can _ the crane fan wheel 24 and the fan blade rotates magically. Field work; when the body fork pump 3 〇 guide, the working fluid at the first end will start to pass through the curved portion 513, at this time, the fan wheel 24 will be from the axial air inlet 211 = the incoming air flow 'and the diameter The air is discharged to the air outlet 212, and the material portion 513 is blown in the forward direction. After the working fluid in the curved portion 513 is subjected to the wind force, the temperature starts to decrease, and the riding liquid is operated. When entering the second end of the liquid inlet section M, the internal temperature of the jade liquid is lower than that at the first end 511 position. Then, continue to enter the pump 30 from the inlet section 311, and the rotation of the fan blade % in the pumping port 3 can drive the working liquid committed by the inlet section to the outlet section 312, and the working liquid flows from the outlet section 312 to the outlet section. Paragraph %, 11 200819028 and continue to flow to the heat block. Since the transfer liquid has entered, the heat of the central processing unit wafer 60 is taken away, so that it can be smoothly exchanged for heat exchange, and the flow of the wind is constantly flowing to the 'flowable effect'.弗 々郃 々郃 及 及 及 请 请 请 请 请 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四Since the bending portion in the liquid inlet portion 51 is smashed: Blowing: 22 and the position corresponding to the radial air outlet 212 is affected by the cooling fan _ coffee temperature drop section, because the bending portion of the liquid inlet section 51 is connected with the hot coffee 8G, so, the liquid inlet section 5♦ The working fluid can be heated to dissipate more heat. In addition, the above-mentioned motor 10 is coaxial with the same speed to rotate the fan rim and the blade ^, but the motor 1 〇 can also rotate the fan wheel 24 and the fan blade 33 at different rotational speeds of different axes. Therefore, the present invention further discloses that there is a third Example. Please refer to the "7A" and "7B" diagrams. In order to position the motor 1〇, the fan wheel 24 and the blade 33 at different axial positions, the motor 1 is provided with a spindle 16 and a spindle 16 The two ends protrude from the end faces of the first stator and the second stator 12, and the eccentric shafts 17, 18 are respectively disposed at the end faces of the first stator 11 and the second stator 12 adjacent to the mandrel 151. In addition, between the motor W and the fan wheel 24, and between the motor 1〇 and the blade 33, the first gear set 9〇 and the second gear set 9〇 are respectively provided with different reduction ratios, and thus, respectively, the motor 10 rotates. When the fan wheel 24 and the fan blade 33 are used, the terminal wheel powers on both sides of the motor 10 are also different, so that the fan wheel 24 and the blade 33 have different rotational speeds. The first gear set 90 includes a first gear 91, a second gear 92, and a third gear 93′, and the first gear set 9′′ includes a fourth gear, a fifth gear 95, and a sixth tooth 12 200819028 The composition of the wheel 96, but the first gear set 9〇 and the second gear set %, is not limited thereto. Here, the first gear set 90 and the second gear set 9〇 are different from each other. Gears are used as application examples. The spindle 16 of the motor 10 is provided with a second shaft on one end of the first stator u. The second shaft 92 is provided on the shaft of the spindle. The shaft 26 of the fan seat 22 is provided with a second gear 93. The eccentric shaft 18 is provided with a fourth gear 94, and the chamber 3 36 shaft is provided with a fifth gear 95. Further, the spindle π is provided with a sixth gear %. Furthermore, the first-to-end shaft-shaft has a first gear 91 and a third gear 93, and the fourth gear 94 is fitted with a fifth gear 95 and a sixth gear 96. In the motor 1 〇 电磁 electromagnetic induction and turn the fan wheel % and the fan leaf 24 and the fan core fine green _ increase do = user demand. According to the invention, the pillow liquid cold wire device can reduce the side volume to the fairy space through the Maxian cooling fan body, and the cooling fan and the insect inlet air outlet are along the axial direction and the radial direction of the fan wheel. Opened, the airflow will not interfere with the axis of the line, but the low wind resistance will be used to achieve a large air volume. In addition, the internal heat dissipation effect is good for the liquid to disperse, and because of the segment _ (four), f _ long length of the heat dissipation path of the ship's body also increases its heat dissipation area, so it can increase the temperature drop time. And because the position of the recording fan is mixed, such as the sister σ, so can reduce the wind resistance _ _ Descending the diameter (four) when the tuyere is blowing the bend, more wind can be used to cool the outside of the liquid pipe, so - come The liquid f can achieve better heat dissipation efficiency through the divergence process of (10). ... 200819028 Although the embodiments of the present invention are disclosed as described above, it is not intended to limit the scope and scope of the present invention. & defined by the scope of interest. —Applications attached to the county _ book [Simplified drawing] Figure _ Schematic diagram of the operation of the liquid cooling device. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT From the figure and the f 2 diagram, the present invention is not intended. Figure 3 Figure 4 Figure 5 Intention. The first embodiment of the liquid-cooled heat sink of the present invention is combined. A cross-sectional view of a first embodiment of a liquid-cooled heat sink of the present invention. The present invention relates to a liquid-cooled heat-dissipating method of the present invention. In the second embodiment, the wind power is blown and the seventh and seventh drawings are shown, and the liquid cooling type heat dissipating gear set of the present invention is exploded. The third embodiment is set up [Main component symbol description] Conventional technology 10a •••Motor device 20a........... 30a........... 33a.... ....... ····Discharge fan device····Cooling cycle device 200819028 36a........................... .................Inlet pipe 37a.......................... ...............outlet pipe 38a.·····......................... .............heatsink 39a.................................. ..........heat exchanger l〇〇a................................. ......... central processing unit wafer of the present invention 10 .................................. ............Motor 11.................................... ..........the first stator 111,121................................. .Axis hole 12 ............................................. Two stators 14..........................................power cord 16.............................................Cars by 17,18 ....................................• Eccentric car by 20 ......... ..............................................The cooling fan 21 . .... ........................................Frame 211 ....... .....................................The car is directed to the air inlet 212....... .................................... Radial outlet 22 ......... .....................................seat 24 .......... ...................................fan wheel 25 ............ .................................The first magnetically conductive elements 26, 36......... ............................Axis 30 ................... ..........................pump 31 ..................... ........................Circuit seat 15 200819028 311····................. .......................entry section 312........................ ...................Exit segment 33 ............................ ................•扇叶34 .............................. ...............room 35 ................................ .............Second magnetically conductive element 40............................... ..............Shell 41, 42............................... ...through hole 50 ......................................... ....Liquid tube 51 ......... ....................................Inlet section 511 .......... .................................. First end 512 ............ ...............................The second end 513 ............... ............................Bending 52................... ..........................Liquid section 60.................... .........................Central Processing Unit Wafer 70 ······.............. .........................heat block 80...................... .......................Heat exchanger 90 ....................... ......................The first gear set 90'...................... ......................The second gear set 91 ...................... ......................The first gear 92 .................······· .....................The second gear 93 ......................... ....................The third gear 94 .......................... ...................The fourth gear 95 ........................... .................. fifth gear 16 200819028 96 sixth gear 17