TWM536759U - Water discharge unit and its device - Google Patents

Description

水排單元及其裝置 Water drainage unit and device thereof

本創作是有關於一種水排單元及其裝置，尤指一種減少熱阻抗並可大幅提升熱交換效率之水排單元及其裝置。 The present invention relates to a water discharge unit and a device thereof, and more particularly to a water discharge unit and a device thereof which reduce thermal impedance and can greatly improve heat exchange efficiency.

散熱裝置在現代化科技產品應用非常普遍，尤其在電腦、資訊及通信等產業應用更為廣泛，由於科技產品中具有許多精密電子元件，因此其運作穩定性非常重要，特別是散熱效果尤其重要。 The use of heat sinks in modern technology products is very common, especially in the computer, information and communication industries. Since there are many sophisticated electronic components in the technology products, the stability of their operation is very important, especially the heat dissipation effect is especially important.

目前常見可安裝於各種電子元件上其有散熱效果之散熱裝置，並於該散熱裝置上方設有風扇裝置，以將散熱裝置內部之熱量吹散，達散熱之功效。一般而言，較高階的電子裝置通常會採用水冷排裝置，其原理係使用工作流體在泵浦的帶動下強制循環帶走水冷排裝置上的熱量，與風冷相比具有安靜、降溫穩定、對環境依賴小等優點。 At present, a heat dissipating device that can be installed on various electronic components and has a heat dissipating effect is commonly provided, and a fan device is disposed above the heat dissipating device to blow away the heat inside the heat dissipating device to achieve the effect of dissipating heat. In general, higher-order electronic devices usually use a water-cooled discharge device. The principle is that the working fluid is forced to circulate away from the heat of the water-cooling device under the driving of the pump, which is quieter and cooler than air-cooling. Little dependence on the environment.

詳而言之，請參閱第8圖，該水冷排裝置1包含複數呈彎繞狀的散熱鰭片10、複數扁管11間隔排列及二側水箱12所構成，該等散熱鰭片10設於該等扁管11彼此之間，且該等散熱鰭片10係呈彎繞狀並以彎折點外側與對應相鄰該等扁管11的外側之間是透過焊錫焊接而成，二者僅有點的接觸(非面的接觸)，前述二側水箱12與相焊接後的該等散熱鰭片10與該等扁管11的兩側也是透過焊錫焊接而成，令該二側水箱12與該等散熱鰭片10及該等扁管11連接構成所述水冷排裝置1，其中 該水冷排裝置1具有一進水口13及一出水口14分別連接兩水導管(圖中未示)，前述之散熱鰭片10及水流扁管11及水箱12必須透過焊接處理將各部件相互密封接合，焊接是一種以加熱方式接合金屬或其他熱塑性材料如塑料的製造工藝及技術，然而於焊接的過程所加入的熔填料於加熱時，往往會有熔化之熔填料流出而阻塞部分流體出入口、或密封不實造成流體運行時部分流體有溢出的現象，或熔化之熔填料於硬化時殘留餘料造成水冷排裝置1外觀不佳的現象。 In detail, referring to FIG. 8 , the water-cooling device 1 includes a plurality of fins 10 that are bent in a shape, a plurality of flat tubes 11 are arranged at intervals, and two water tanks 12 are formed. The heat sink fins 10 are disposed on The flat tubes 11 are disposed between each other, and the fins 10 are bent and welded by soldering between the outer side of the bending point and the outer side of the corresponding flat tubes 11 . a little contact (non-face contact), the two side water tanks 12 and the heat dissipating fins 10 and the two sides of the flat tubes 11 are also welded by soldering, so that the two side water tanks 12 and the The cooling fins 10 and the flat tubes 11 are connected to form the water-cooling device 1 The water-cooling device 1 has a water inlet 13 and a water outlet 14 respectively connected to two water conduits (not shown). The heat-dissipating fins 10 and the water-flowing flat tubes 11 and the water tank 12 must be sealed to each other by welding. Bonding, welding is a manufacturing process and technology for joining metal or other thermoplastic materials such as plastics in a heated manner. However, when the molten filler added during the welding process is heated, there is often a molten molten filler flowing out to block a part of the fluid inlet and outlet. Or the sealing is not true, causing some fluid to overflow during the operation of the fluid, or the molten residual filler remaining in the hardening causes the appearance of the water-cooling device 1 to be poor.

再者，習知水冷排裝置1的該等扁管11內的工作液體其上熱量會傳導至該等散熱鰭片10上來散熱，但卻延伸出另一問題，就是工作液體的熱量傳導至該等散熱鰭片10的熱傳效率不佳，因該等散熱鰭片10與該等扁管11是兩個獨立組件透過焊錫焊接而成，所以該等散熱鰭片10並不是該等扁管11本身的一部分，使得該等扁管11將熱量傳導至該等散熱鰭片10之間會有熱阻現象，以造成該等扁管11將吸收到水冷液的熱量傳導至兩旁該等散熱鰭片10上的熱傳導效率不佳，進而導致整個水冷排裝置1的解熱效能降低(或熱交換效率降低)的問題。另外，由於該等散熱鰭片10是透過彎折點的外側與兩旁的扁管11外側相焊接，使該等散熱鰭片10的中間部位結構強度是較為薄弱，容易受到外力碰撞而損壞(如變形)的問題，且在等扁管11與該等散熱鰭片10之間的熱傳導效果也非常不盡理想。 Moreover, the heat of the working liquid in the flat tubes 11 of the conventional water-cooling device 1 is conducted to the heat-dissipating fins 10 to dissipate heat, but another problem extends, that is, the heat of the working liquid is transferred to the The heat dissipation efficiency of the heat dissipation fins 10 is not good. Since the heat dissipation fins 10 and the flat tubes 11 are soldered by two separate components, the heat dissipation fins 10 are not the flat tubes 11 . A part of itself causes the flat tubes 11 to conduct heat between the heat dissipating fins 10 to cause thermal resistance, so that the flat tubes 11 conduct heat absorbed into the water cooling liquid to the heat dissipating fins on both sides. The heat transfer efficiency on the 10 is poor, which in turn causes a problem that the heat-dissipating efficiency of the entire water-cooling device 1 is lowered (or the heat exchange efficiency is lowered). In addition, since the heat dissipating fins 10 are welded to the outside of the flat tubes 11 on both sides through the outer side of the bending point, the structural strength of the intermediate portions of the heat dissipating fins 10 is relatively weak, and is easily damaged by external force collision (eg, The problem of deformation), and the heat conduction effect between the equal flat tubes 11 and the heat radiating fins 10 is also extremely unsatisfactory.

此外，習知之水冷排裝置1之製造方法亦必須花費過多工時及生產成本，且製造步驟非常繁複，並且由於該水冷排裝置1需焊接處理，使得在組裝製程上繁雜且也相當花費時間及人力的問題，此外易有漏水的疑慮者。 In addition, the manufacturing method of the conventional water-cooling device 1 also requires a lot of man-hours and production costs, and the manufacturing steps are very complicated, and since the water-cooling device 1 requires welding processing, it is complicated and time-consuming in the assembly process. The problem of manpower, in addition to the doubtful ones who are leaking.

爰此，為有效解決上述之問題，本創作之主要目的在於提供一種可改善習知熱阻抗問題之水排單元。 Therefore, in order to effectively solve the above problems, the main purpose of the present invention is to provide a water drain unit which can improve the conventional thermal impedance problem.

本創作之次要目的，在於提供一種具有多元靈活設計之水排單元。 The second objective of this creation is to provide a water drainage unit with multiple flexible designs.

本創作之次要目的，在於提供一種可大幅提升熱交換效率之水排單元。 The second objective of this creation is to provide a water drain unit that can greatly improve heat exchange efficiency.

為達上述目的，本創作係提供一種水排單元，係包括一本體及一工作流體及一第一板體及一第二板體及一泵浦，該本體係由複數薄片狀之第一片體及第二片體及第三片體堆疊所組成，所述第一、二、三片體分別具有複數第一條狀導流區及複數第二條狀導流區及一環形狀轉換區，該等第一條狀導流區相對該環形狀轉換區縱向延伸排列，該等第二條狀導流區設於該環形狀轉換區兩側橫向延伸設置，所述第一、二、三片體兩端分別具有一第一凹孔及一第二凹孔，所述第一、二、三片體之前述結構對應堆疊組合構成一流道組及一轉換槽及一第一凹槽及一第二凹槽，該流道組具有間隔排列的複數第一流道及複數第二流道，每一第一、二流道之間共同界定一鰭片部，所述第二條狀導流區共同界定一間隔部並與所述轉換槽共同界定一第一區域及一第二區域，一第一彎形狀導流區係形成於所述第一、二片體的環形狀轉換區外側並對應堆疊組合構成一第一導流道，並與該等第一流道及該第一凹槽設置於該第一區域且相互連通，一第二彎形狀導流區係形成於所述第一、二、三片體的環形狀轉換區外側並對應堆疊組合構成一第二導流道，並與該等第二流道及該第二凹槽設置於該第二區域且相互連通，所述第二片體於該環形狀轉換區處形成具有一通孔之一環形隔板，並與所述第三片體間共同界定一容水腔室，該第一導流道之壁面開設複數第一穿孔連通所述第一流道，該第二區域之轉換槽壁面開設複數第二穿孔連通所述第二導流道，該第二導流道之壁面開設複數第三穿孔連通所述第二流道，所述 工作流體係填充於該本體內，所述第一板體及第二板體係分別貼設於該本體之兩側，該泵浦插設於該第一板體上並容置於所述轉換槽內，並該泵浦具有複數扇葉，該泵浦驅動所述工作流體於該本體內部進行循環。 In order to achieve the above objective, the present invention provides a water drain unit comprising a body and a working fluid, a first plate body and a second plate body and a pump. The system is composed of a plurality of sheets. And a second body and a third body stack, wherein the first, second and third bodies respectively have a plurality of first strip-shaped diversion regions and a plurality of second strip-shaped diversion regions and a ring-shaped transition region, The first strip-shaped flow guiding regions are longitudinally arranged to extend relative to the ring-shaped shape converting region, and the second strip-shaped flow guiding regions are disposed laterally extending on both sides of the ring-shaped shape converting region, the first, second and third pieces Each of the two ends of the body has a first recessed hole and a second recessed hole, and the foregoing structures of the first, second and third sheets are combined to form a first-class track group and a conversion groove and a first groove and a first a second groove, the flow channel group having a plurality of first flow channels and a plurality of second flow channels arranged at intervals, each of the first and second flow paths jointly defining a fin portion, and the second strip-shaped flow guiding region is jointly defined a spacer portion and a first area and a second area together with the conversion slot a curved shape guiding region is formed outside the ring-shaped transition region of the first and second plates and corresponding to the stacking combination to form a first guiding channel, and the first flow channel and the first groove are disposed on the first flow channel The first regions are connected to each other, and a second curved shape guiding region is formed outside the ring-shaped transition regions of the first, second, and third plates, and corresponding to the stacked combination to form a second guiding channel, and The second flow channel and the second groove are disposed in the second region and communicate with each other, and the second body forms an annular partition having a through hole at the ring shape conversion region, and the third piece A plurality of first perforations are connected to the first flow channel, and a plurality of second perforations are connected to the second flow. a plurality of third perforations communicating with the second flow path on the wall surface of the second flow guiding channel The working fluid system is filled in the body, the first plate body and the second plate system are respectively attached to the two sides of the body, and the pump is inserted on the first plate body and accommodated in the conversion groove And the pump has a plurality of blades that drive the working fluid to circulate inside the body.

為達上述目的，本創作係提供一種水排裝置，係包括一水排單元及一水冷頭及一第一管體及一第二管體，該本體係由複數薄片狀之第一片體及第二片體及第三片體堆疊所組成，所述第一、二、三片體分別具有複數第一條狀導流區及複數第二條狀導流區及一環形狀轉換區，該等第一條狀導流區相對該環形狀轉換區縱向延伸排列，該等第二條狀導流區設於該環形狀轉換區兩側橫向延伸設置，所述第一、二、三片體兩端具有一第一凹孔及一第二凹孔，所述第一、二、三片體之前述結構對應堆疊組合構成一流道組及一轉換槽及一第一凹槽及一第二凹槽，該流道組具有間隔排列的複數第一流道及複數第二流道，每一第一、二流道之間共同界定一鰭片部，所述第二條狀導流區共同界定一間隔部並與所述轉換槽共同界定一第一區域及一第二區域，一第一彎形狀導流區係形成於所述第一、二片體的環形狀轉換區外側並對應堆疊組合構成一第一導流道，並與該等第一流道及該第一凹槽設置於該第一區域且相互連通，一第二彎形狀導流區係形成於所述第一、二、三片體的環形狀轉換區外側並對應堆疊組合構成一第二導流道，並與該等第二流道及該第二凹槽設置於該第二區域且相互連通，所述第二片體於該環形狀轉換區處形成具有一通孔之一環形隔板，並與所述第三片體間共同界定一容水腔室，該第一導流道之壁面開設複數第一穿孔連通所述第一流道，該第二區域之轉換槽壁面開設複數第二穿孔連通所述第二導流道，該第二導流道之壁面開設複數第三穿孔連通所述第二流道，所述工作流體填充於該本體內，所述第一板體及第二板體係分別貼設於該本體之兩側，所述 泵浦係插設於該第一板體上並容置於所述轉換槽內，該泵浦具有複數扇葉，該泵浦驅動所述工作流體於該本體內部進行循環，該水冷頭具有一殼體，該殼體具有至少一容水部及一熱交換介面及一進水口及一出水口，該熱交換介面設置於該殼體之一側，所述進、出水口係與該容水部相連通，該第一、二管體之兩端分別連接該水排單元及該水冷頭。 To achieve the above objective, the present invention provides a water draining device comprising a water draining unit and a water cooling head, a first tubular body and a second tubular body, the system consisting of a plurality of flaky first bodies and a second body and a third body stack, wherein the first, second, and third bodies respectively have a plurality of first strip-shaped flow guiding regions and a plurality of second strip-shaped flow guiding regions and a ring-shaped shape converting region, and the like The first strip-shaped flow guiding area is arranged to extend longitudinally relative to the ring-shaped shape converting area, and the second strip-shaped flow guiding area is disposed to extend laterally on both sides of the ring-shaped shape converting area, and the first, second and third sheets are two The end has a first recessed hole and a second recessed hole, and the foregoing structures of the first, second and third sheets are combined to form a first-class track group and a conversion groove, and a first groove and a second groove The flow channel group has a plurality of first flow channels and a plurality of second flow channels arranged at intervals, each of the first and second flow paths collectively defining a fin portion, and the second strip-shaped flow guiding region jointly defines a spacing portion And defining a first area and a second area together with the conversion slot, and a first curved shape guide Formed on the outside of the ring-shaped transition region of the first and second sheets and correspondingly stacked to form a first flow guiding channel, and disposed in the first region with the first flow channel and the first groove Interconnected with each other, a second curved shape guiding region is formed outside the ring-shaped transition region of the first, second, and third plates and correspondingly stacked to form a second guiding channel, and the second flow path And the second groove is disposed in the second region and communicates with each other, and the second sheet forms an annular partition having a through hole at the ring shape conversion region, and is defined together with the third sheet a water-receiving chamber, a plurality of first perforations are connected to the first flow channel, and a plurality of second perforations are connected to the second flow channel. a plurality of third perforations are connected to the second flow path, and the working fluid is filled in the body, and the first plate body and the second plate system are respectively attached to the two sides of the body. Said a pumping system is inserted on the first plate body and accommodated in the conversion groove, the pump has a plurality of blades, and the pump drives the working fluid to circulate inside the body, the water cooling head has a housing having at least one water-receiving portion and a heat exchange interface, a water inlet and a water outlet, the heat exchange interface being disposed on one side of the housing, the inlet and outlet ports being connected to the container The water portions are connected to each other, and the two ends of the first and second tubes are respectively connected to the water drain unit and the water cooling head.

透過本創作的結構設計，藉由複數薄片狀之第一、二、三片體所堆疊組成的本體，並於疊合過程中形成前述之各部結構，改善習知散熱鰭片及水流通道等相關部件必須透過焊接方式接合成散熱裝置所導致熱阻抗的問題，大幅提升熱交換效率，並且減少習知散熱裝置製造時所花費的時間及生產成本之缺點，此外亦具有多靈活設計的特性者。 Through the structural design of the creation, the body consisting of a plurality of lamellae first, second and third sheets is stacked, and the above-mentioned various structures are formed during the superposition process, thereby improving the related heat sink fins and water flow channels and the like. The components must be joined by soldering into the heat resistance caused by the heat sink, greatly improve the heat exchange efficiency, and reduce the time and production cost of the conventional heat sink manufacturing device, and also have the characteristics of flexible design.

1‧‧‧水冷排裝置 1‧‧‧Water cooling device

10‧‧‧散熱鰭片 10‧‧‧ Heat sink fins

11‧‧‧扁管 11‧‧‧ flat tube

12‧‧‧水箱 12‧‧‧Water tank

13‧‧‧進水口 13‧‧‧ Inlet

14‧‧‧出水口 14‧‧‧Water outlet

2‧‧‧水排單元 2‧‧‧Water row unit

21‧‧‧第一片體 21‧‧‧ first body

22‧‧‧第二片體 22‧‧‧Second body

221‧‧‧通孔 221‧‧‧through hole

222‧‧‧環形隔板 222‧‧‧ annular partition

23‧‧‧第三片體 23‧‧‧ Third body

241‧‧‧第一條狀導流區 241‧‧‧First strip-shaped diversion zone

242‧‧‧第二條狀導流區 242‧‧‧Second strip diversion

25‧‧‧環形狀轉換區 25‧‧‧ring shape conversion zone

251‧‧‧第一彎形狀導流區 251‧‧‧First curved shape diversion zone

252‧‧‧第二彎形狀導流區 252‧‧‧Second curved shape diversion zone

261‧‧‧第一凹孔 261‧‧‧ first recess

262‧‧‧第二凹孔 262‧‧‧ second recess

27‧‧‧連接部 27‧‧‧Connecting Department

3‧‧‧本體 3‧‧‧ Ontology

30‧‧‧流道組 30‧‧‧Runner Group

301‧‧‧第一流道 301‧‧‧First runner

302‧‧‧第二流道 302‧‧‧Second runner

31‧‧‧轉換槽 31‧‧‧Transfer slot

32‧‧‧第一凹槽 32‧‧‧First groove

33‧‧‧第二凹槽 33‧‧‧second groove

34‧‧‧鰭片部 34‧‧‧Fin section

35‧‧‧間隔部 35‧‧‧Interval

351‧‧‧第一區域 351‧‧‧First area

352‧‧‧第二區域 352‧‧‧Second area

361‧‧‧第一導流道 361‧‧‧First guide channel

362‧‧‧第二導流道 362‧‧‧Second guide

363‧‧‧容水腔室 363‧‧‧Water chamber

371‧‧‧第一穿孔 371‧‧‧First perforation

372‧‧‧第二穿孔 372‧‧‧Second perforation

373‧‧‧第三穿孔 373‧‧‧ third perforation

38‧‧‧接合部 38‧‧‧ joints

4‧‧‧工作流體 4‧‧‧Working fluid

51‧‧‧第一板體 51‧‧‧ first board

511‧‧‧第一側 511‧‧‧ first side

512‧‧‧第二側 512‧‧‧ second side

52‧‧‧第二板體 52‧‧‧Second plate

521‧‧‧第三側 521‧‧‧ third side

522‧‧‧第四側 522‧‧‧ fourth side

523‧‧‧封閉區 523‧‧‧closed area

524‧‧‧開放區 524‧‧‧Open area

525‧‧‧入水孔 525‧‧‧ water inlet

526‧‧‧出水孔 526‧‧‧ water outlet

527‧‧‧貫孔 527‧‧‧through holes

53‧‧‧組合件 53‧‧‧assemblies

54‧‧‧泵浦 54‧‧‧ pump

541‧‧‧扇葉 541‧‧‧ fan leaves

6‧‧‧水冷頭 6‧‧‧Water-cooled head

61‧‧‧殼體 61‧‧‧Shell

611‧‧‧容水部 611‧‧‧Water Department

612‧‧‧熱交換介面 612‧‧‧Hot Exchange Interface

613‧‧‧進水口 613‧‧ ‧ water inlet

614‧‧‧出水口 614‧‧‧Water outlet

71‧‧‧第一管體 71‧‧‧First tube

711‧‧‧第一端 711‧‧‧ first end

712‧‧‧第二端 712‧‧‧ second end

72‧‧‧第二管體 72‧‧‧Second body

721‧‧‧第三端 721‧‧‧ third end

722‧‧‧第四端 722‧‧‧ fourth end

8‧‧‧水排裝置 8‧‧‧Water drain device

9‧‧‧風扇 9‧‧‧fan

第1圖係為本創作水排單元之第一實施例之立體圖；第2A圖係為本創作水排單元之第一實施例之立體分解圖；第2B圖係為本創作水排單元之第一實施例之放大圖；第3圖係為本創作水排單元之第一實施例之立體組合圖；第4A圖係為本創作水排單元之第一實施例之立體剖視圖；第4B圖係為本創作水排單元之第一實施例之剖視圖；第5圖係為本創作水排單元之第二實施例之立體分解圖；第6圖係為本創作水排裝置之第一實施例之立體組合圖；第7圖係為本創作水排裝置之第一實施例之俯視圖；第8圖係為本創作習知水冷排裝置之立體圖。 1 is a perspective view of a first embodiment of the creation water drainage unit; FIG. 2A is an exploded perspective view of the first embodiment of the creation water drainage unit; FIG. 3 is a perspective sectional view of the first embodiment of the creation water drainage unit; FIG. 4A is a perspective sectional view of the first embodiment of the creation water drainage unit; FIG. 4B is a perspective view of the first embodiment of the creation water drainage unit; 1 is a cross-sectional view of a first embodiment of the creation water drainage unit; FIG. 5 is a perspective exploded view of a second embodiment of the creation water drainage unit; FIG. 6 is a first embodiment of the creation water drainage device The three-dimensional combination diagram; the seventh diagram is a top view of the first embodiment of the creation water drainage device; and the eighth diagram is a perspective view of the water-cooling drainage device of the prior art.

本創作之上述目的及其結構與功能上的特性，將依據所附圖式之較佳實施例予以說明。 The above object of the present invention, as well as its structural and functional features, will be described in accordance with the preferred embodiments of the drawings.

請參閱第1、2A、2B、3、4A、4B圖，係為本創作水排單元之第一實施例之立體圖及立體分解圖及放大圖及立體組合圖及立體剖視圖及剖視圖，如圖所示，一種水排單元2，係包括一本體3及一工作流體4及一第一板體51及一第二板體52及一泵浦54，該本體3係由複數薄片狀之第一片體21及第二片體22及第三片體23堆疊組合所形成，換言之，所述第一、二、三片體21、22、23係為兩片以上之薄片狀的片體各別堆疊而成的，而再由該各別堆疊組合成的第一、二、三片體21、22、23再行組合以形成所述本體3，所述第一、二、三片體21、22、23係可選擇鋁或銅或鐵或鈦或不銹鋼或其他金屬材質其中任一製成，每一第一、二、三片體21、22、23分別具有複數第一條狀導流區241及複數第二條狀導流區242及一環形狀轉換區25，該等第一條狀導流區241相對該環形狀轉換區25縱向延伸排列，該等第二條狀導流區242設於該環形狀轉換區25的相對應兩側並橫向延伸設置，每一第一、二、三片體21、22、23的兩端具有一第一凹孔261及一第二凹孔262，每一第一、二、三片體21、22、23之前述結構對應堆疊組合構成一流道組30及一轉換槽31及一第一凹槽32及一第二凹槽33，該流道組30具有間隔排列的複數第一流道301及複數第二流道302，每一第一、二流道301、302之間共同界定一鰭片部34，所述第二條狀導流區242共同界定一間隔部35並與所述轉換槽31將該本體3分隔為兩部份，令該本體3區分為一第一區域351及一第二區域352，一第一彎形狀導流區251係形成於所述第一、二片體21、22的環形狀轉換區25外 側並且對應堆疊組合構成一第一導流道361，並與該等第一流道301及該第一凹槽32設置於該第一區域351且相互連通，一第二彎形狀導流區252係形成於所述第一、二、三片體21、22、23的環形狀轉換區25外側並且對應堆疊組合構成一第二導流道362，並與該等第二流道302及該第二凹槽33設置於該第二區域352且相互連通，所述第二片體22於該環形狀轉換區25處形成具有一通孔221之一環形隔板222，並與所述第三片體23間共同界定一容水腔室363，所述工作流體4係填充於該本體3內；其中，所述第一、二、三片體21、22、23更具有複數連接部27(如第2B圖所示)，其係橫向設置於所述第一、二流道301、302之間並呈交錯排列設置於所述第一、二、三片體21、22、23上，且所述連接部27之兩端與所述鰭片部34相互連接，該等連接部27於本實施例中係呈箭狀的結構，但並不引以為限，於實際實施時，可依照使用者需求設計所述連接部27之形狀，可選擇為條狀或彎曲狀或其他幾何形狀等；另外，所述第一、二流道301、302係可呈直線型或是彎曲型，換言之，該等第一流道301由該轉換槽31處朝該第一凹槽32逐漸向內彎曲，該等第二流道302由該轉換槽31處朝該第二凹槽33逐漸向內彎曲，於在一實施例中，該等第一流道301由該轉換槽31處朝該第一凹槽32處逐漸向外彎曲，該等第二流道302由該轉換槽31處朝該第二凹槽33處逐漸向外彎曲，即，可依照使用者之設計及需求變換所述第一、二流道301、302之形狀。 Please refer to the drawings of Figures 1, 2A, 2B, 3, 4A, and 4B, which are perspective views, perspective exploded views, enlarged views, and perspective sectional views, and perspective sectional views and cross-sectional views of the first embodiment of the water leveling unit. A water drain unit 2 includes a body 3 and a working fluid 4, a first plate body 51 and a second plate body 52, and a pump 54. The body 3 is a first piece of a plurality of sheets. The body 21 and the second body 22 and the third body 23 are stacked and formed, in other words, the first, second, and third bodies 21, 22, and 23 are stacked in a sheet shape of two or more sheets. And forming, by the respective stacks, the first, second and third sheets 21, 22, 23 are combined to form the body 3, the first, second and third sheets 21, 22 The 23 series may be made of aluminum or copper or iron or titanium or stainless steel or other metal materials, and each of the first, second and third bodies 21, 22, 23 has a plurality of first strip-shaped flow guiding regions 241, respectively. And a plurality of second strip-shaped flow guiding regions 242 and a ring-shaped shape converting region 25, wherein the first strip-shaped flow guiding regions 241 are longitudinally arranged with respect to the ring-shaped shape converting region 25, The second strip-shaped flow guiding regions 242 are disposed on opposite sides of the ring-shaped shape converting region 25 and extend laterally. Each of the first, second, and third sheets 21, 22, and 23 has a first end. a recessed hole 261 and a second recessed hole 262, and the foregoing structures of each of the first, second, and third sheets 21, 22, and 23 are stacked to form a first-class track group 30, a conversion groove 31, and a first groove 32. a second groove 33, the flow channel group 30 has a plurality of first flow channels 301 and a plurality of second flow channels 302. The first and second flow channels 301 and 302 jointly define a fin portion 34. The second strip-shaped flow guiding area 242 defines a partitioning portion 35 and divides the main body 3 into two parts with the conversion groove 31, so that the main body 3 is divided into a first area 351 and a second area 352. A first curved shape flow guiding region 251 is formed outside the ring shape converting region 25 of the first and second plates 21, 22. The side and the corresponding stack combination constitute a first flow guiding channel 361, and the first flow channel 301 and the first groove 32 are disposed in the first region 351 and communicate with each other, and a second curved shape guiding region 252 is Formed on the outside of the ring-shaped shape conversion region 25 of the first, second, and third plates 21, 22, and 23, and corresponding to the stack combination to form a second flow guiding channel 362, and the second flow channel 302 and the second The groove 33 is disposed in the second region 352 and communicates with each other. The second plate 22 is formed at the ring shape conversion region 25 to form an annular partition 222 having a through hole 221, and the third plate 23 A water-receiving chamber 363 is defined, and the working fluid 4 is filled in the body 3; wherein the first, second, and third bodies 21, 22, and 23 further have a plurality of connecting portions 27 (such as 2B) The figure is disposed laterally between the first and second flow paths 301, 302 and arranged in a staggered manner on the first, second, and third bodies 21, 22, 23, and the connecting portion The two ends of the 27 are connected to the fin portion 34. The connecting portion 27 has an arrow-like structure in this embodiment, but is not limited thereto. In the implementation, the shape of the connecting portion 27 can be designed according to the user's requirements, and can be selected as a strip shape or a curved shape or other geometric shapes. In addition, the first and second flow paths 301 and 302 can be linear or It is a curved type, in other words, the first flow passages 301 are gradually curved inwardly from the conversion groove 31 toward the first groove 32, and the second flow passages 302 are from the conversion groove 31 toward the second groove 33. The first flow channel 301 is gradually bent outward from the conversion groove 31 toward the first groove 32, and the second flow path 302 is bent from the conversion groove 31. The shape is gradually outwardly curved toward the second recess 33, that is, the shapes of the first and second flow passages 301, 302 can be changed according to the design and needs of the user.

所述第一導流道361之壁面開設有複數第一穿孔371連通所述第一流道301，該第二區域352之轉換槽31壁面開設有複數第二穿孔372連通所述第二導流道362，該第二導流道362之壁面開設複數第三穿孔373連通所述第二流道302； 所述第一、二、三穿孔371、372、373係分別徑向貫設於所述第一導流道361之壁面、第二區域352轉換槽31之壁面及第二導流道362之壁面，其中，所述第二、三穿孔372、373具有一高度差，該等第二穿孔372設置位置處係高於該等第三穿孔373設置位置處，以令該工作流體4流入該第二導流道362時可先進行匯集後，再經由設置於較低處的第三穿孔373流往所述第二流道302；前述之第一板體51具有一第一側511及一第二側512，該第二側512對應與該本體3之一側密封結合，該第二板體52具有一第三側521及一第四側522，該第四側522係對應與該本體3之另一側密封結合，所述第一、二板體51、52更形成有一封閉區523及一開放區524，所述封閉區523係相對應形成於所述轉換槽31及第一凹槽32及第二凹槽33及第一、二流道301、302位置處，所述開放區524係相對應形成於轉換槽31及第一凹槽32及第二凹槽33及第一、二流道301、302以外之部份位置處，換言之，所述封閉區523係令所述轉換槽31及第一、二凹槽32、33及第一、二流道301、302完全封閉密合，使該水排單元2內部之工作流體4可於其內部順暢運作，在一實施例中，所述第一、二板體51、52也可為一完整無任何結構之片體(圖中未示)，同樣也能達到前述之作用。 A plurality of first through holes 371 are connected to the first flow path 301, and a plurality of second through holes 372 are connected to the second flow path. 362, the wall of the second flow guiding channel 362 defines a plurality of third perforations 373 connected to the second flow channel 302; The first, second, and third through holes 371, 372, and 373 are respectively disposed radially on the wall surface of the first flow guiding channel 361, the wall surface of the second region 352 conversion groove 31, and the wall surface of the second air guiding channel 362. The second and third perforations 372, 373 have a height difference, and the second perforations 372 are disposed at a position higher than the positions of the third perforations 373 to allow the working fluid 4 to flow into the second The first slab 51 has a first side 511 and a second portion. The first slab 51 has a first side 511 and a second portion. The second side 512 is sealingly coupled to one side of the body 3, and the second board 52 has a third side 521 and a fourth side 522. The fourth side 522 corresponds to the body 3. The first and second plates 51 and 52 are further formed with a closed area 523 and an open area 524. The closed area 523 is formed correspondingly to the conversion groove 31 and the first groove 32. And the second groove 33 and the first and second flow paths 301, 302, the open area 524 is correspondingly formed in the conversion groove 31 and the first groove 32 and The two recesses 33 and portions of the first and second flow passages 301, 302, in other words, the closed region 523, the conversion groove 31 and the first and second grooves 32, 33 and the first and second flow paths 301, 302 completely closed, so that the working fluid 4 inside the water drain unit 2 can smoothly operate inside. In an embodiment, the first and second plates 51, 52 can also be a complete without any The structure of the sheet (not shown) can also achieve the aforementioned effects.

前述之第二板體52之兩端分別開設一入水孔525及一出水孔526，該入水孔525係相對設置於所述第一凹槽32處並與其相連通，該出水孔526係相對設置於所述第二凹槽33處並與其相連通，前述之入水孔525及出水孔526並不以一個為限，該入、出水孔525、526的數量可依照使用者的設計及需求進行調整及變換。 A water inlet hole 525 and a water outlet hole 526 are defined in the two ends of the second plate body 52. The water inlet holes 525 are oppositely disposed at the first groove 32 and are connected thereto. The water outlet holes 526 are oppositely disposed. The water inlet 525 and the water outlet 526 are not limited to one, and the number of the inlet and outlet holes 525 and 526 can be adjusted according to the design and requirements of the user. And transformation.

所述泵浦54係設置於所述轉換槽31內，該泵浦54具有複數扇葉541，該泵浦54驅動所述工作流體4於該本體3內部進行循環。 The pump 54 is disposed in the conversion tank 31. The pump 54 has a plurality of blades 541, and the pump 54 drives the working fluid 4 to circulate inside the body 3.

請參閱第5圖並一併參閱第1、2A圖，係為本創作水排單元之第二實施例之立體分解圖，所述水排單元部份元件及元件間之相對應之關係與前述水排單元相同，故在此不再贅述，惟本水排單元與前述最主要之差異為，於所述第一、二、三片體21、22、23兩側更形成一凹陷部，該凹陷部疊合組合構成一接合部38，所述本體3對應該接合部38位置處組設一組合件53，透過該組合件53組設於該本體3的接合部38上(組設方式係可直接相卡合，也可透過鎖固元件將組合件53鎖固於該本體3上)，可增加該本體3之強度，亦可用以保護本體3者。 Please refer to FIG. 5 and refer to FIG. 1 and FIG. 2A together, which is a perspective exploded view of a second embodiment of the water draining unit, and the corresponding relationship between the components and components of the water draining unit and the foregoing The water discharge unit is the same, so it will not be described here, but the main difference between the water discharge unit and the foregoing is that a recess is formed on both sides of the first, second and third bodies 21, 22 and 23. The combination of the recessed portions constitutes a joint portion 38. The body 3 is provided with a combination member 53 at a position corresponding to the joint portion 38, and is assembled through the assembly member 53 to the joint portion 38 of the body 3. It can be directly engaged or locked to the body 3 through the locking component, which can increase the strength of the body 3 and can also be used to protect the body 3.

請參閱第6、7圖並一併參閱第2A、4A、4B圖，係為本創作水排裝置之第一實施例之立體組合圖及俯視圖，如圖所示，一種水排裝置，係包括一水排單元2及一水冷頭6及一第一管體71及一第二管體72，所述水排單元2部份元件及元件間之相對應之關係與前述水排單元2相同，故在此不再贅述，前述之水冷頭6具有一殼體61，該殼體61具有至少一容水部611及一熱交換介面612及一進水口613及一出水口614，該熱交換介面612設置於該殼體61之一側，所述進、出水口613、614與該容水部611相連通，所述第一管體71具有一第一端711及一第二端712，該第一端711連接該水冷頭6的進水口613，該第二端712連接所述第二板體52的出水孔526，所述第二管體72具有一第三端721及一第四端722，該第三端721連接該水冷頭6的出水口614，該第四端722連接所述第二板體52的入水孔525。 Please refer to Figures 6 and 7 and refer to Figures 2A, 4A, and 4B, which are perspective assembled and top views of the first embodiment of the water draining device of the present invention. As shown in the figure, a water draining device includes a water draining unit 2 and a water cooling head 6 and a first tubular body 71 and a second tubular body 72, the corresponding relationship between some components and components of the water draining unit 2 is the same as that of the water draining unit 2, Therefore, the water cooling head 6 has a casing 61 having at least one water receiving portion 611 and a heat exchange interface 612 and a water inlet 613 and a water outlet 614. The heat exchange interface is not described here. The first tube 71 has a first end 711 and a second end 712. The first tube 71 has a first end 711 and a second end 712. The first tube 71 has a first end 711 and a second end 712. The first end 711 is connected to the water inlet 613 of the water-cooling head 6. The second end 712 is connected to the water outlet 526 of the second plate 52. The second tube 72 has a third end 721 and a fourth end. 722, the third end 721 is connected to the water outlet 614 of the water-cooling head 6, and the fourth end 722 is connected to the water inlet hole 525 of the second plate body 52.

透過該水排裝置8的結構設計，於該水冷頭6的熱交換介面612處與一電子裝置相接觸(圖中未示)，於該水排裝置8相對該水排單元2的一側裝設有一風扇9，於運作時，所述水冷頭6的熱交換介面612首先吸收電子裝置的熱量後，透過該容水部611內的工作流體4經由該水冷頭6的出水口614流到第二管體72流入該水排單元2，並透過該水排單元2之第二板體52的入水孔525流到該本體3內的第一凹 槽32及第一流道301後，再透過所述第一穿孔371流入所述第一導流道361，接著該工作流體4會匯流至該容水腔室363，再透過所述通孔221流往所述轉換槽31，此時該工作流體4會藉由設置於轉換槽31內的泵浦54將該工作流體4透過該等第二穿孔372驅動至該第二導流道362，再透過該等第三穿孔373將工作流體4導流至所述第二流道302，接著再流至所述第二凹槽33，所述工作流體4於此階段會透過所述風扇9的設置降低工作流體4的溫度，降溫後的工作流體4會經由所述第二板體52的出水孔526流至第一管體71，最後再經由第一管體71流至該水冷頭6之進水口613以完成熱交換循環，故透過本創作水排裝置8的結構，可改善習知散熱鰭片及水流通道等相關部件必須透過焊接方式接合成散熱裝置所導致熱阻抗的問題，大幅提升熱交換的效率，除此之外，還可大幅減少習知散熱裝置製造時所花費的時間及生產成本之缺點。 Through the structural design of the water draining device 8, the heat exchange interface 612 of the water-cooling head 6 is in contact with an electronic device (not shown), and the water draining device 8 is mounted on the side of the water draining unit 2 A fan 9 is provided. In operation, the heat exchange interface 612 of the water-cooling head 6 first absorbs the heat of the electronic device, and then flows through the water outlet 614 of the water-cooling head 6 through the working fluid 4 in the water-receiving portion 611. The second pipe body 72 flows into the water drain unit 2 and flows through the water inlet hole 525 of the second plate body 52 of the water drain unit 2 to the first recess in the body 3. After the groove 32 and the first flow path 301, the first flow hole 4 flows into the first water flow channel 361 through the first through hole 371, and then the working fluid 4 flows into the water receiving chamber 363, and then flows through the through hole 221 And the working fluid 4 is driven to the second guiding channel 362 through the second through holes 372 by the pump 54 disposed in the conversion groove 31, and then transmitted through the second through hole 372. The third perforations 373 direct the working fluid 4 to the second flow passage 302 and then to the second recess 33, and the working fluid 4 is lowered through the arrangement of the fan 9 at this stage. The temperature of the working fluid 4, the cooled working fluid 4 flows to the first pipe body 71 through the water outlet hole 526 of the second plate body 52, and finally flows to the water inlet of the water-cooling head 6 via the first pipe body 71. 613 to complete the heat exchange cycle, so that the structure of the water-discharging device 8 of the present invention can improve the heat resistance of the heat-dissipating fins and the water flow passages and the related components that must be joined by the heat-dissipating device by welding, and greatly improve the heat exchange. Efficiency, in addition to significantly reducing the manufacturing of conventional heat sinks Time and weaknesses of the production costs spent.

於在一實施例中，前述之通孔221上可設置一噴嘴(圖中未示)，所述噴嘴係連通該容水腔室363及該轉換槽31，以令該工作流體4由該容水腔室363流至該轉換槽31時會產生一水流衝力。 In an embodiment, a nozzle (not shown) may be disposed on the through hole 221, and the nozzle communicates with the water receiving chamber 363 and the conversion groove 31 to make the working fluid 4 When the water chamber 363 flows to the conversion tank 31, a water flow force is generated.

於在一實施例中，前述風扇9之軸心係貫穿所述第二板體52並與所述水排單元2之泵浦54相連接組設(圖中未示)，換言之，於本實施例中，僅需透過一馬達即可同時驅動所述風扇9及水排單元2以令整體水排裝置8順利運作，進以完成熱交換循環之作用。 In an embodiment, the axis of the fan 9 extends through the second plate 52 and is connected to the pump 54 of the water discharge unit 2 (not shown), in other words, in the present embodiment. For example, the fan 9 and the water drain unit 2 can be simultaneously driven by a single motor to smoothly operate the integrated water discharge device 8 to complete the heat exchange cycle.

以上所述，本創作相較於習知具有下列優點：1.改善習知熱阻抗問題；2.減少生產成本及製造工時；3.大幅提升熱交換效率； 4.具有多元靈活設計的特性。 As described above, the present invention has the following advantages over the conventional ones: 1. improving the conventional thermal impedance problem; 2. reducing the production cost and manufacturing man-hour; 3. greatly improving the heat exchange efficiency; 4. Features with multiple flexible design.

以上已將本創作做一詳細說明，惟以上所述者，僅為本創作之一較佳實施例而已，當不能限定本創作實施之範圍。即凡依本創作申請範圍所作之均等變化與修飾等，皆應仍屬本創作之專利涵蓋範圍。 The present invention has been described in detail above, but the above description is only a preferred embodiment of the present invention, and the scope of the present invention cannot be limited. That is, all changes and modifications made in accordance with the scope of this creation application shall remain covered by the patents of this creation.

2‧‧‧水排單元 2‧‧‧Water row unit

3‧‧‧本體 3‧‧‧ Ontology

30‧‧‧流道組 30‧‧‧Runner Group

301‧‧‧第一流道 301‧‧‧First runner

302‧‧‧第二流道 302‧‧‧Second runner

31‧‧‧轉換槽 31‧‧‧Transfer slot

32‧‧‧第一凹槽 32‧‧‧First groove

33‧‧‧第二凹槽 33‧‧‧second groove

34‧‧‧鰭片部 34‧‧‧Fin section

35‧‧‧間隔部 35‧‧‧Interval

351‧‧‧第一區域 351‧‧‧First area

352‧‧‧第二區域 352‧‧‧Second area

51‧‧‧第一板體 51‧‧‧ first board

511‧‧‧第一側 511‧‧‧ first side

512‧‧‧第二側 512‧‧‧ second side

52‧‧‧第二板體 52‧‧‧Second plate

521‧‧‧第三側 521‧‧‧ third side

522‧‧‧第四側 522‧‧‧ fourth side

523‧‧‧封閉區 523‧‧‧closed area

524‧‧‧開放區 524‧‧‧Open area

525‧‧‧入水孔 525‧‧‧ water inlet

526‧‧‧出水孔 526‧‧‧ water outlet

54‧‧‧泵浦 54‧‧‧ pump

541‧‧‧扇葉 541‧‧‧ fan leaves

Claims (12)

一種水排單元，係包括：一本體，由複數薄片狀之第一片體及第二片體及第三片體堆疊所組成，所述第一、二、三片體分別具有複數第一條狀導流區及複數第二條狀導流區及一環形狀轉換區，該等第一條狀導流區相對該環形狀轉換區縱向延伸排列，該等第二條狀導流區設於該環形狀轉換區兩側橫向延伸設置，所述第一、二、三片體兩端分別具有一第一凹孔及一第二凹孔，所述第一、二、三片體之前述結構對應堆疊組合構成一流道組及一轉換槽及一第一凹槽及一第二凹槽，該流道組具有間隔排列的複數第一流道及複數第二流道，每一第一、二流道之間共同界定一鰭片部，所述第二條狀導流區共同界定一間隔部並與所述轉換槽將該本體界定一第一區域及一第二區域，一第一彎形狀導流區係形成於所述第一、二片體的環形狀轉換區外側並對應堆疊組合構成一第一導流道，並與該等第一流道及該第一凹槽設置於該第一區域且相互連通，一第二彎形狀導流區係形成於所述第一、二、三片體的環形狀轉換區外側並對應堆疊組合構成一第二導流道，並與該等第二流道及該第二凹槽設置於該第二區域且相互連通，所述第二片體於該環形狀轉換區處形成具有一通孔之一環形隔板，並與所述第三片體間共同界定一容水腔室，該第一導流道之壁面開設複數第一穿孔連通所述第一流道，該第二區域之轉換槽壁面開設複數第二穿孔連通所 述第二導流道，該第二導流道之壁面開設複數第三穿孔連通所述第二流道；一工作流體，係填充於該本體內；一第一板體，貼設該本體之一側；一第二板體，貼設該本體之另一側；及一泵浦，係插設於該第一板體上並容置於所述轉換槽內，該泵浦具有複數扇葉，該泵浦驅動所述工作流體於該本體內部進行循環。 A water discharge unit comprising: a body, consisting of a plurality of first sheets of a sheet shape and a second sheet and a third sheet stack, wherein the first, second and third sheets respectively have a plurality of first strips a first flow guiding region and a plurality of second flow guiding regions and a ring shape converting region, wherein the first strip guiding regions are longitudinally arranged with respect to the ring shape converting region, and the second strip guiding regions are disposed at the The two sides of the first, second and third plates respectively have a first recessed hole and a second recessed hole, and the first, second and third plates have corresponding structures. The stacking combination constitutes a first-class track group and a conversion groove, and a first groove and a second groove. The flow channel group has a plurality of first flow channels and a plurality of second flow channels arranged at intervals, and each of the first and second flow channels Defining a fin portion together, the second strip-shaped flow guiding region jointly defining a spacing portion and defining a first region and a second region with the conversion groove, a first curved shape guiding region Formed outside the ring-shaped transition region of the first and second sheets and corresponding to the stacked assembly a first flow guiding channel, and the first flow channel and the first groove are disposed in the first region and communicate with each other, and a second curved shape guiding region is formed on the first, second, and third pieces a second air guiding channel is formed on the outer side of the ring-shaped shape conversion region and corresponding to the stacking combination, and the second flow channel and the second groove are disposed in the second region and communicate with each other, and the second body is connected to Forming an annular partition having a through hole at the ring shape conversion region, and defining a water-receiving chamber together with the third body, the wall of the first guide channel opening a plurality of first perforations to communicate with the first a first-class road, the second slot of the conversion slot wall opens a plurality of second perforated communication centers a second air guiding channel, the wall surface of the second air guiding channel defines a plurality of third through holes communicating with the second flow channel; a working fluid is filled in the body; a first plate body is attached to the body a second plate body attached to the other side of the body; and a pump inserted into the first plate body and housed in the conversion groove, the pump having a plurality of blades The pump drives the working fluid to circulate inside the body. 如申請專利範圍第1項所述之水排單元，其中所述第一、二、三片體更具有複數連接部，係橫向設置於所述流道組之間，並該連接部之兩端與所述鰭片部相連接。 The water drainage unit according to claim 1, wherein the first, second, and third bodies further have a plurality of connecting portions disposed laterally between the flow path groups, and two ends of the connecting portion Connected to the fin portion. 如申請專利範圍第1項所述之水排單元，其中該第一板體具有一第一側及一第二側，該第二側對應與該本體之一側密封結合，該第二板體具有一第三側及一第四側，該第四側係對應與該本體之另一側密封結合。 The water drain unit of claim 1, wherein the first plate has a first side and a second side, and the second side is sealingly coupled to one side of the body, the second plate There is a third side and a fourth side, and the fourth side is sealingly coupled to the other side of the body. 如申請專利範圍第3項所述之水排單元，其中該第二板體之兩端分別開設一入水孔及一出水孔，該入水孔係相對設置於所述第一凹槽處並與其相連通，該出水孔係相對設置於所述第二凹槽處並與其相連通。 The water drain unit of claim 3, wherein a water inlet hole and a water outlet hole are respectively defined at two ends of the second plate body, and the water inlet hole is oppositely disposed and connected to the first groove. The outlet hole is disposed opposite to and in communication with the second groove. 如申請專利範圍第1項所述之水排單元，其中該等第一、二、三片體係選擇鋁或銅或鐵或鈦或不銹鋼或其他金屬材質其中任一製成。 The water drainage unit according to claim 1, wherein the first, second and third systems are made of aluminum or copper or iron or titanium or stainless steel or other metal materials. 如申請專利範圍第1項所述之水排單元，其中該等第一、二、三片體兩側更形成一凹陷部，該凹陷部疊合組合構成一接合部，所述本體對應該接合部位置處組設一組合件。 The water drain unit of claim 1, wherein the first, second and third sheets are further formed with a recess on both sides, the recesses being combined to form a joint, and the body is engaged A combination is assembled at the location. 如申請專利範圍第1項所述之水排單元，其中所述第一板體及第二板體更形成有一封閉區及一開放區，所述封閉區係相對應形成於所述轉換槽及第一、二凹槽及第一、二流道位置處，所述開放區係相對應形成於轉換槽及第一凹槽及第二凹槽及第一、二流道以外之部份位置處。 The water discharge unit of claim 1, wherein the first plate body and the second plate body further comprise a closed area and an open area, wherein the closed area is correspondingly formed in the conversion groove and The first and second grooves and the first and second flow path positions are correspondingly formed at positions of the conversion groove and the first groove and the second groove and the first and second flow paths. 如申請專利範圍第1項所述之水排單元，其中所述第一、二流道係呈直線型或彎曲型。 The water drainage unit according to claim 1, wherein the first and second flow passages are linear or curved. 如申請專利範圍第1項所述之水排單元，其中所述第二、三穿孔具有一高度差，該等第二穿孔設置位置處係高於該等第三穿孔設置位置處。 The water drain unit of claim 1, wherein the second and third perforations have a height difference, and the second perforation setting positions are higher than the third perforation setting positions. 一種水排裝置，係包括：一水排單元，包含：一本體，由複數薄片狀之第一片體及第二片體及第三片體堆疊所組成，所述第一、二、三片體分別具有複數第一條狀導流區及複數第二條狀導流區及一環形狀轉換區，該等第一條狀導流區相對 該環形狀轉換區縱向延伸排列，該等第二條狀導流區設於該環形狀轉換區兩側橫向延伸設置，所述第一、二、三片體兩端分別具有一第一凹孔及一第二凹孔，所述第一、二、三片體之前述結構對應堆疊組合構成一流道組及一轉換槽及一第一凹槽及一第二凹槽，該流道組具有間隔排列的複數第一流道及複數第二流道，每一第一、二流道之間共同界定一鰭片部，所述第二條狀導流區共同界定一間隔部並與所述轉換槽共同界定一第一區域及一第二區域，一第一彎形狀導流區係形成於所述第一、二片體的環形狀轉換區外側並對應堆疊組合構成一第一導流道，並與該等第一流道及該第一凹槽設置於該第一區域且相互連通，一第二彎形狀導流區係形成於所述第一、二、三片體的環形狀轉換區外側並對應堆疊組合構成一第二導流道，並與該等第二流道及該第二凹槽設置於該第二區域且相互連通，所述第二片體於該環形狀轉換區處形成具有一通孔之一環形隔板，並與所述第三片體間共同界定一容水腔室，該第一導流道之壁面開設複數第一穿孔連通所述第一流道，該第二區域之轉換槽壁面開設複數第二穿孔連通所述第二導流道，該第二導流道之壁面開設複數第三穿孔連通所述第二流道；一工作流體，係填充於該本體內；一第一板體，貼設該本體之一側；一第二板體，貼設該本體之另一側； 一泵浦，係插設於該第一板體上並容置於所述轉換槽內，該泵浦具有複數扇葉，該泵浦驅動所述工作流體於該本體內部進行循環；一水冷頭，具有一殼體，該殼體具有至少一容水部及一熱交換介面及一進水口及一出水口，該熱交換介面設置於該殼體之一側，所述進、出水口係與該容水部相連通；一第一管體，具有一第一端及一第二端，該第一端連接該水冷頭之進水口，該第二端連接所述第二凹槽；及一第二管體，具有一第三端及一第四端，該第三端連接該水冷頭之出水口，該第四端連接所述第一凹槽。 A water draining device comprising: a water draining unit comprising: a body consisting of a plurality of lamella-shaped first sheets and a second sheet and a third sheet stack, the first, second and third sheets The body respectively has a plurality of first strip-shaped diversion regions and a plurality of second strip-shaped diversion regions and a ring-shaped transition region, and the first strip-shaped diversion regions are opposite The ring-shaped shape-converting area is arranged to extend in a longitudinal direction, and the second strip-shaped flow-conducting area is disposed on two sides of the ring-shaped shape-converting area, and the first, second and third bodies respectively have a first recessed hole And a second recessed hole, wherein the first structure of the first, second, and third sheets corresponds to a stacking combination to form a first-class track group and a conversion groove, and a first groove and a second groove, the flow path group having a space Arranging a plurality of first flow channels and a plurality of second flow paths, each of the first and second flow paths collectively defining a fin portion, wherein the second strip-shaped flow guiding region collectively defines a spacing portion and is common with the conversion groove Defining a first region and a second region, a first curved shape guiding region is formed outside the ring-shaped transition region of the first and second plates and correspondingly stacked to form a first guiding channel, and The first flow channel and the first groove are disposed in the first region and communicate with each other, and a second curved shape flow guiding region is formed outside the ring shape conversion region of the first, second, and third plates and corresponding The stacked combination constitutes a second flow guiding channel, and the second flow channel and the second concave surface Provided in the second region and connected to each other, the second sheet forms an annular partition having a through hole at the ring shape conversion region, and defines a water-receiving chamber together with the third sheet. A plurality of first perforations are connected to the first flow channel, and a plurality of second perforations are connected to the second flow channel, and the wall of the second flow channel is Opening a plurality of third perforations to connect the second flow channel; a working fluid is filled in the body; a first plate body is attached to one side of the body; and a second plate body is attached to the body One side a pump is inserted into the first plate and accommodated in the conversion tank, the pump has a plurality of blades, the pump drives the working fluid to circulate inside the body; a water cooling The head has a casing, the casing has at least one water receiving portion and a heat exchange interface, and a water inlet and a water outlet. The heat exchange interface is disposed on one side of the casing, and the inlet and outlet are Connected to the water receiving portion; a first tube body having a first end and a second end, the first end connecting the water inlet of the water cooling head, the second end connecting the second groove; a second tube has a third end and a fourth end, the third end is connected to the water outlet of the water cooling head, and the fourth end is connected to the first groove. 如申請專利範圍第10項所述之水排裝置，其中所述通孔上更設置有一噴嘴，所述噴嘴係連通該容水腔室及該轉換槽。 The water drain device of claim 10, wherein the through hole is further provided with a nozzle, and the nozzle communicates with the water receiving chamber and the conversion groove. 如申請專利範圍第10項所述之水排裝置，更具有一風扇，其係裝設於所述水排單元之一側，該風扇之軸心與所述泵浦相連接組設。 The water drain device of claim 10, further comprising a fan mounted on one side of the water drain unit, the shaft of the fan being connected to the pump.