M281217 八、新型說明: 【新型所屬之技術領域】 本創作係一種液冷式散熱之循環泵浦,係將馬達之定 子與轉子,分置於泵浦兩互不相通隔間内。轉子與扇葉会士 合為一體,其所在之隔間包含冷卻液入口與冷卻液出口。 定子透過隔間壁以磁力驅動轉子,並以扇葉驅動冷卻液在 泵浦所接的封閉迴管路内循環流動,達到散熱的目的。 【先前技術】 近年來電子產業進步迅速,使得桌上型個人電腦、筆 記型電腦、伺服器、單搶投影機等電子資訊產〇口口,所使用 之曰B片等電子元件,功率日漸升高。如何在有限空間内, 有效移除電子元件上的熱量,以利電子系統有效運作,成 為重要的問題。各種散熱器因此成為研發重點。 白用之散熱器多為氣冷式散熱器。其係利用馬達帶動 扇葉’將冷卻空氣吹在紹製或銅製散熱轉片。散熱縛片貼 於熱源之上。此類做法受限於設計尺寸與裝配位置,散熱 效果有限。 在較大功率的散熱器上,另有些做法,係以熱導管將 熱里‘引至適當之位置,再以氣冷式散熱器移除熱量。 近來有封閉迴路水冷式散熱器之設計。係以傳熱材料 貼於熱源表面。材料内有供冷卻液體流過之管路,利用冷 5 M281217 部液體之流動’將熱量帶走。此設計需外接水槽及果浦, 以驅動迴路㈣冷卻㈣循環。泵浦若設計不當,容易有 漏水而損壞電子元件之虞。 【新型内容】 本創作針對液冷式散熱器驅動循環之果浦,作新的設 計。目的在於使泵浦防漏,又能維持足夠的驅動效能。: 泵浦且能符合體積小㈣平的需求。為求達到這些目的, 本創作運騎定子與轉子隔離的技術,使接電源之定子, 與液體流道隔絕,達到防漏的效果。 所叹。十之泵浦,包含一具有兩隔間之容器,其中一個 隔間具有冷卻以口及出口。此關内含馬達轉子與扇 葉結為-體的驅動機構,藉由葉片旋轉將冷卻液體由一 端吸入與另-端排出。另—隔間内含固定之馬達定子。 定子以隔間壁與流管隔絕,並透過隔間壁驅動轉子與扇 葉。此隔間之關係可為内外、上下、平行或其他等幾何 關係。 【實施方式】 本新型係一種液冷式散熱器的泵浦。其本體(10)包 含泵浦外殼(1〇、隔間壁(12)、轉子與扇葉之隔間(⑴、 冷卻液入Π (14)、冷卻液出口(15)、轉子與扇葉組合體 (16)、定子之隔間(17)、定子(18)。 隔間壁,係與外殼-體成形,將栗浦分隔為兩個互不 M281217 相通的空間。M281217 8. Description of the new model: [Technical field to which the new model belongs] This creation is a liquid-cooled heat-dissipating circulating pump, which separates the stator and rotor of the motor into two non-communicable compartments of the pump. The rotor is integrated with the fan blades, and the compartment where it is located contains a coolant inlet and a coolant outlet. The stator drives the rotor magnetically through the partition wall, and the fan drives the coolant to circulate in the closed return pipe connected to the pump to achieve the purpose of heat dissipation. [Previous technology] In recent years, the electronics industry has made rapid progress. As a result, electronic products such as desktop personal computers, notebook computers, servers, and single projectors have been produced. The power of electronic components such as B-pieces is increasing high. How to effectively remove heat from electronic components in a limited space to facilitate the efficient operation of electronic systems has become an important issue. Various radiators have therefore become the focus of research and development. Most white radiators are air-cooled radiators. It uses a motor to drive a fan blade ’to blow cooling air on a Shao or copper heat sink. The heat sink is attached to the heat source. Such practices are limited by the design size and mounting position, and the heat dissipation effect is limited. On other high-power radiators, there are other methods that use heat pipes to direct heat to the proper position, and then use air-cooled radiators to remove the heat. Recently, closed-loop water-cooled radiators have been designed. A heat transfer material is attached to the surface of the heat source. There is a pipeline in the material for the cooling liquid to flow through, and the heat is taken away by the flow of the liquid. This design requires an external water tank and Guopu to drive the circuit ㈣ cooling ㈣ circulation. If the pump is improperly designed, it may leak water and damage electronic components. [New content] This creation is a new design for the Guopu of the liquid-cooled radiator drive cycle. The purpose is to make the pump leak-proof while maintaining sufficient driving efficiency. : Pumped and able to meet the requirements of small size and flatness. In order to achieve these goals, the technology of this invention is to isolate the stator from the rotor, so that the stator connected to the power supply is isolated from the liquid flow channel to prevent leakage. Sigh. The pump of ten includes a container with two compartments, one of which has a cooling port and an outlet. This level contains the drive mechanism of the motor rotor and fan blades as a single body. The cooling liquid is sucked in from one end and discharged from the other end by the rotation of the blades. Another-the compartment contains a fixed motor stator. The stator is isolated from the flow tube by the partition wall, and drives the rotor and the fan blades through the partition wall. The relationship of this compartment can be inside and outside, up and down, parallel, or other geometric relationships. [Embodiment] The present invention relates to a pump of a liquid-cooled radiator. Its body (10) includes a pump casing (10, a partition wall (12), a rotor and a fan compartment (⑴, a coolant inlet Π (14), a coolant outlet (15), a rotor and a fan combination The body (16), the stator compartment (17), and the stator (18). The partition wall is formed with the shell-body, and divides Lipu into two spaces that are not connected with each other by M281217.
轉子與扇葉之隔間,係容置轉子與扇葉之組合體,且 有一冷卻液入口與一冷卻液出口。 I 冷部液入口,係冷卻液體進入泵浦之孔口。 冷部液出口,係冷卻液體離開泵浦之孔口。 轉子與扇葉組合體,係扇葉與轉動機構 子部分。 巧建之轉The compartment between the rotor and the fan blades contains a combination of the rotor and the fan blades, and has a coolant inlet and a coolant outlet. I The cold liquid inlet is the port where the cooling liquid enters the pump. The cold liquid exit is the opening where the cooling liquid leaves the pump. The rotor and fan blade assembly is a sub-section of the fan blade and the rotating mechanism. A clever build
疋子之iw間,係谷置馬達定子部分之隔間 定子’馬達之接電源部分。 本創作係透過外接於冷輕“(14)與冷卻 (15)之管線’使㈣(1G)與管路形成封閉迴路: 線内注入適當之冷卻液體。栗浦之扇葉(16)驅使液體: 管線内流動’經過熱科將熱量帶至冷卻區,在此區將教 量散去。此設計之關壁外殼係—體成形,無需防液_ 等處理,即可防止電路與冷卻液接觸。構造簡單而且容易 扁平化。適合空間有限之個人電料電子元件或系統之冷 卻用。 【圖式簡單說明】 第一圖係造型一之立體外觀圖 第二圖係造型一之剖示圖 第三圖係造型二之立體外觀圖 第四圖係造型二之剖示圖 7 M281217 第五圖係造型三之立體外觀圖 第六圖係造型三之剖示圖 【主要元件符號說明】 10 :本體 11 :泵浦外殼 12 :隔間壁 13 :轉子與扇葉之隔間The iw between the rafters is a compartment for the stator section of the valley motor. The stator's motor is connected to the power supply section. This creation is to make the loop (1G) and the pipeline form a closed loop through the pipeline '(14) and cooling (15) externally connected to the line: the appropriate cooling liquid is injected into the line. The pump blade (16) of Kuriura drives the liquid : The flow in the pipeline 'takes the heat to the cooling area through the thermal section, and the teaching is dissipated in this area. The closed-wall housing system of this design is formed into a body, which does not require liquid-proof treatment to prevent the circuit from contacting the cooling liquid. .The structure is simple and easy to flatten. It is suitable for the cooling of personal electronic components or systems with limited space. [Simplified illustration of the drawing] The first figure is a three-dimensional appearance of the first figure. The second figure is a cross-sectional view of the first figure. The third figure is the three-dimensional appearance of the second figure. The fourth figure is the cross-sectional view of the second figure. Figure 7 M281217 The fifth figure is the three-dimensional appearance of the third figure. The sixth figure is the three-dimensional view of the model. 11: Pump housing 12: Partition wall 13: Partition between rotor and fan
14 :冷卻液入口 15 :冷卻液出口 16 :轉子與扇葉組合體 17 :定子之隔間 18 :定子14: Coolant inlet 15: Coolant outlet 16: Rotor and fan assembly 17: Compartment of stator 18: Stator