M3 07292 八、新型說明: 【新型所屬之技術領域】 •本,作係有關於—種具並聯流道之水冷系統及其匯流裝 i 冷排即可完成複數個熱狀散熱,並 具有一致之散熱效能。 【先前技術】 按’由於今日科技之進步,對於資訊設備之處理速度的需求 •越來越高、,故發展iij設計更為複雜且運作時脈極高之日日日片組,卻 因此產生過多的熱$ ’對於此種現象一般之散熱鰭片配合散熱風 扇之散熱杈組已漸漸不敷所需,因而採用水冷式的散熱模組。 一般習知=水冷散熱裝置,如第一圖所示,其具有一水冷頭 1 a、一金屬管2 a、一幫浦3 a、複數個散熱鰭片4 a,該水 冷頭1 a係有一出水口工工a及一入水口工2 a,該金屬管2 a 之兩端分別連接於該出水口 i i a及該入水口 i 2 a,以與該水 冷頭1 a連成一通迢,並於該通道中灌滿液體,該幫浦3 a裝置 於該金屬官2 a上,以使該液體循環於該通道中,而該金屬管2 _ a並穿設於該水冷排4 a中。 於該水冷散熱裝置使用時,該水冷頭i a裝置於一主機板5 a之熱源5 1 a上,該熱源5 1 a可為CPU等晶片組,如此熱 源5 1 a之熱,藉由該水冷頭1 a吸收,並藉由金屬管2 a及其 不斷循環於其内部之液體,將熱帶至該水冷排4 a中,以進行散 埶。 然而現今主機板上由於需要散熱之熱源並不只一處,因而需 要複數個散熱裝置,才能符合所需,例如雙CPU之主機板,若 於一主機板上裝設兩套散熱裝置,則會造成電腦内部使用空間之 5 % M3 07292 浪費,並且會增加成本,是以,由上可知,羽 裝置,賴具缺失存在,而可待加以改善者w知之知散熱 【新型内容】 f置本=^目纟的係提供-種具並聯流道之水冷线及其匯流 iLH 冷排即可完成複數個_之散熱,並具有一 致的政熱效忐,能節省使用空間及節省製作成本。M3 07292 VIII. New description: [New technical field] • This is a series of water-cooling systems with parallel flow paths and their confluences, which can complete multiple thermal heat dissipation and have the same Cooling performance. [Prior Art] According to the advancement of today's technology, the demand for processing speed of information equipment is increasing, so the development of iij design is more complicated and the operation time is extremely high. Excessive heat $' For this phenomenon, the heat dissipation fins and the heat dissipation fan of the cooling fan are gradually insufficient, so a water-cooled heat dissipation module is used. Generally, the water-cooling heat dissipating device, as shown in the first figure, has a water-cooling head 1 a, a metal tube 2 a, a pump 3 a, and a plurality of heat-dissipating fins 4 a. a water outlet worker a and a water inlet worker 2 a, the two ends of the metal pipe 2 a are respectively connected to the water outlet iia and the water inlet i 2 a to form an overnight connection with the water cooling head 1 a The channel is filled with liquid, and the pump 3a is placed on the metal member 2a to circulate the liquid in the channel, and the metal tube 2_a is disposed in the water-cooling row 4a. When the water-cooling heat sink is used, the water-cooling head ia is disposed on a heat source 51a of a motherboard 5a, and the heat source 51a can be a chip set such as a CPU, such that the heat of the heat source 51a is cooled by the water. The head 1 a absorbs and passes through the metal tube 2 a and its liquid which is continuously circulated inside thereof, and the tropics are discharged into the water cooling row 4 a for divergence. However, today's motherboards require more than one heat source for heat dissipation. Therefore, multiple heat sinks are required to meet the needs. For example, a dual-CPU motherboard can be installed if two sets of heat sinks are installed on one motherboard. 5 % of the internal space of the computer M3 07292 is wasted, and it will increase the cost. Therefore, it can be seen from the above that the plume device and the missing device exist, but the person who can be improved can know the heat dissipation [new content] f set =^ The purpose of the project is to provide a water-cooled line with parallel flow channels and its confluent iLH cold discharge to complete a plurality of heat dissipation, and have a consistent thermal effect, which can save space and save production costs.
上述之目的,本創作係提供—制於水冷系統之匯 衣、、、,二匕括·一殼體;一第一流道,其設置於該殼體中,該 弟一^迢係具有-第一入水口、一第二入水口及一匯流出水口; 以及一第二流道,其設置於該殼體中,該第二流道係具有一第一 出=口、一第二出水口及一匯流入水口;其中該第一入水口至該 ,流出水口的距離加上該第一出水口至該匯流入水口的距離,相 等於该第二出水口至該匯流入水口的距離加上該第二入水口至 該匯流出水口的距離。 為了達成上述之目的,本創作另提供一種具並聯流道之水冷 系統,其包括:複數個水冷頭,其分別具有一流出口及一流入口; 匯机裝置,其具有一第一流道及弟二流道,該第一流道接通於 該等流出口,該第二流道接通於該等流入口; 一水冷排;以及_ 第一輸送管及一第二輸送管,其一端分別接通該水冷排,該第一 輸送ί及弟一輸送管之另一端其分別接通於該第一流道及該第 -流道。 為了能更進一步瞭解本創作為達成預定目的所採取之技 術、手段及功效,請參閱以下有關本創作之詳細說明與附圖,相 信本創作之目的、特徵與特點,當可由此得一深入且具體之瞭 解,然而所附圖式僅提供參考與說明用,並非用來對本創作加以 6 % M3 07292 限制者。 【實施方式】 本創作之水冷系統之匯流裝置之分解圖及立體圖,請參考第 二圖及第三圖。該匯流裝置1係包括一殼體i 〇,該殼體i 〇係 由一第一殼體11及一第二殼體12所組成,而該殼體1〇可以 一體成型。該第一殼體1 1,其具有一第一流道i ^ 〇及一第二 流道1 2 0,該第一流道1 1 〇係具有一第一入水口丄1丄、一 第二入水口1 1 2及一匯流出水口丄i 3;該第二流道i 2 〇係 具有一第一出水口1 2 1、一第二出水口i 22及一匯流入水口 1 2,:其中該第—入水口1 1 1至該匯流出水口1 1 3的距離 加ΐ該第—出水口12 1至該匯流人水口1 2 3的距離,相等於For the above purpose, the present invention provides a casing made in a water-cooling system, a casing, a casing, and a first flow passage, which is disposed in the casing, and the younger brother has a - a second water inlet and a second water outlet; a sinking inlet nozzle; wherein the distance from the first water inlet to the outlet nozzle plus the distance from the first water outlet to the inlet water inlet is equal to the distance from the second water outlet to the inlet water inlet The distance from the second water inlet to the outlet water outlet. In order to achieve the above object, the present invention further provides a water cooling system with parallel flow passages, comprising: a plurality of water-cooled heads each having a first-class outlet and a first-class inlet; and a landing device having a first flow passage and a second flow passage The first flow channel is connected to the flow outlets, the second flow channel is connected to the flow inlets; a water-cooled discharge; and a first delivery pipe and a second delivery pipe, one end of which is respectively connected to the water cooling The first conveyor and the other end of the duct are respectively connected to the first flow path and the first flow path. In order to further understand the techniques, means and effects of this creation in order to achieve the intended purpose, please refer to the following detailed description and drawings of this creation. I believe that the purpose, characteristics and characteristics of this creation can be obtained in this way. For the specific understanding, however, the drawings are provided for reference and explanation only, and are not intended to limit the creation to the 6% M3 07292 limit. [Embodiment] For the exploded view and perspective view of the confluence device of the water cooling system of the present invention, please refer to the second and third figures. The confluence device 1 includes a casing i, which is composed of a first casing 11 and a second casing 12, and the casing 1 can be integrally formed. The first housing 1 1 has a first flow path i ^ 〇 and a second flow path 1 2 0. The first flow path 1 1 has a first water inlet 丄1丄 and a second water inlet. 1 1 2 and a sink outflow port 丄i 3; the second channel i 2 has a first water outlet 1 2 1 , a second water outlet i 22 and a sink inlet nozzle 1 2, wherein the first - the distance from the inlet 1 1 1 to the outlet effluent 1 1 3 is the distance from the first outlet - 12 1 to the confluence port 1 2 3, which is equivalent to
該第二流出口 4 2係以一 通至該第一流道110之該第二 一"丨J係以一導管34接 入水口 11 2,其中該等導管3 M3 07292 1、32、33、34係為一中空管,且並不限制為導熱材質或 非導熱材質。該第一水冷頭2及第二水冷頭4分別設置有一第一 、浦2 3及一第—幫浦4 3,以分別將該第一水冷頭2及第二水 冷頭4内之液體快速循環。 該水冷排6係設置一金屬輸送管5 1及一金屬送管5 4,以 供液體流入及流出,該水冷排6主要由複數水路(圖未示)與複 數散熱鰭片(圖未示)所組成,其材質為傳熱性良好之導熱材質 或金屬,該第一輸送管5 2之一端接通該金屬輸送管5 1,該第 一輸送管5 2之另一端係接通於該第一流道丄i 〇之匯流出水 口1 1 3及該第二輸送管5 3之一端接通該金屬輸送管5 4,該 第二輸送管5 3之另一端係接通於該第二流道^ 2 〇之匯流入 水口 1 2 3,該第一輸送管5 2及該第二輸送管5 3並不限制為 導熱材質、金屬材質或非導熱材質。 上述之該第一流道1 1 〇、該第二流道i 2 〇、該第一水冷 頭2、該第二水冷頭4、該等導管31、32、33、34、該 水冷排6、該第一輸送管5 2、該第二輸送管5 3係形成一互通 之通道,該通道内充滿液體,驅動該第一幫浦2 3及該第二幫浦 4 3以使液體於該通道内流動。而當該第一水冷頭2及該第二水 冷頭4分別置於二熱源(圖未示)上時,該熱源之熱傳導至該第 一水冷頭2及該第二水冷頭4,並經由該液體之流動將該第一水 /令頭2及5亥弟一水冷頭4之熱帶離,加熱後之液體分別經由導管 3 2、3 4流入該匯流裝置1之第一流道1 1 〇匯合,而由該匯 流出水口 1 1 3流出至第一輸送管5 2,並帶至該水冷排6散 熱,而經散熱後之液體流至該匯流裝置1之第二流道i 2 〇之匯 流入水口 1 2 3,且該液體分別由該第一出水口12 1及該第二 出水口 1 2 2流出,而分別進入該第一水冷頭2及該第二水冷頭 M307292 4,以完成一散熱循環。 而由於該第一入水口 加上該第一出水口 1 1至該匯流出水口工工 2 1至該匯流入水口 1 9 W的距離 該第二出水口 1 2 2至該匯流人水口 i 2 32 3的^離,相等於 入水口 1 1 2至该匯流出水σ 1 1 3的距離,因此、夜體第二 -水冷頭2而循環之路捏等於經由該第二水由該第 徑’如此能對於該二熱源具有相同之冷卻 '、備環之路 以上之該第-水冷頭2及該第二水冷 以限制本發明,討騎數财冷頭,㈣目=不能用 -流出口及-流入口,而該第—流道分別4 = 別具有 口,該第二流道分別以導f接通 岭流出 需要冷卻之水冷頭,而縮短其循環路徑。 針對4寸別 而使具並聯流道之水冷系統因具有匯流裝置, ίι 、用一组水冷排’而能達到封對不同之熱源進 打政=之目的,亚能達成減少使用空間及節省製作成本之目的。 以上所述’僅為本猶最佳之—的具體實關之詳細說 明與圖式’惟本創作之特徵並不侷限於此,並非用以限制本創 作’本創作之=有$111應以下述之申請專·圍為準,凡合於本 創作申^利範11之精神與其類似變化之實施例,皆應包含於本 創作之範疇中,任何熟悉該項技藝者在本創作之領域内,可輕易 思及之變化或修飾皆可涵蓋在以下本案之專利範圍。 【圖式簡單說明】 第一圖係習知之水冷散熱裝置之立體圖; 第一·圖係本創作匯流裝置之分解圖; 9 M3 07292 第二圖係本創作匯流裝置之上視圖;以及 第四圖係本創作水冷系統之立體圖。 【主要元件符號說明】 [習知技術] 水冷頭 1 a 金屬管 2 a 幫浦 h 水冷排 4 a 主機板 rr 0 出水口 入水口 熱源 [本創作] 匯流裝置 殼體 第一流道 1 弟一^流道The second outflow port 42 is connected to the nozzle 11 by a conduit 34 by a second one of the first channel 110, wherein the tubes 3 M3 07292 1, 32, 33, 34 It is a hollow tube and is not limited to a heat conductive material or a non-conductive material. The first water cooling head 2 and the second water cooling head 4 are respectively provided with a first, a pump 2 3 and a first pump 4 3 to rapidly circulate the liquid in the first water cooling head 2 and the second water cooling head 4, respectively. . The water-cooling row 6 is provided with a metal conveying pipe 5 1 and a metal feeding pipe 5 4 for liquid inflow and outflow. The water-cooling row 6 is mainly composed of a plurality of water channels (not shown) and a plurality of heat-dissipating fins (not shown). The material is a heat conductive material or metal having good heat conductivity, and one end of the first conveying pipe 52 is connected to the metal conveying pipe 5 1, and the other end of the first conveying pipe 52 is connected to the first The first end of the second transfer pipe 523 is connected to the second flow path, and the other end of the second transfer pipe 53 is connected to the second flow path. ^ 2 The inlet of the sputum into the nozzle 1 2 3, the first duct 5 2 and the second duct 5 3 are not limited to a heat conductive material, a metal material or a non-thermal material. The first flow path 1 1 〇, the second flow path i 2 〇, the first water cooling head 2, the second water cooling head 4, the conduits 31, 32, 33, 34, the water cooling row 6, the The first conveying pipe 5 2 and the second conveying pipe 53 form an intercommunication channel, the channel is filled with liquid, and the first pump 23 and the second pump 4 3 are driven to make liquid in the channel. flow. When the first water cooling head 2 and the second water cooling head 4 are respectively placed on two heat sources (not shown), the heat of the heat source is transmitted to the first water cooling head 2 and the second water cooling head 4, and The flow of the liquid separates the first water/order head 2 and the chilled head of the water-cooling head 4, and the heated liquid flows into the first flow path 1 1 该 of the flow collecting device 1 via the conduits 3 2, 34, respectively. The outflow port 1 1 3 flows out to the first conveying pipe 52, and is brought to the water-cooling row 6 to dissipate heat, and the heat-dissipated liquid flows to the second channel i 2 of the confluence device 1 to flow into the sink. a nozzle 1 2 3, and the liquid flows out from the first water outlet 12 1 and the second water outlet 12 2 respectively, and enters the first water cooling head 2 and the second water cooling head M307292 4 respectively to complete a heat dissipation cycle. And because the first water inlet is added to the first water outlet 11 to the sink outlet nozzle 2 1 to the sink inlet nozzle 1 9 W, the second water outlet 1 2 2 to the sinker nozzle i 2 The distance of 32 3 is equal to the distance from the water inlet 1 1 2 to the sink water σ 1 1 3 , so the night body second water-cooling head 2 and the circulation road pinch is equal to the second path through the second water. Thus, the same cooling can be provided for the two heat sources, the first water-cooling head 2 and the second water cooling above the backup ring road to limit the present invention, and to ride the cold head, (4) mesh = not available - the outlet and - an inflow port, and the first channel has a port 4, respectively, and the second channel respectively turns on the ridge to flow out of the water cooling head to be cooled, and shortens the circulation path. For the 4 inch, the water cooling system with parallel flow channel has the purpose of reducing the use of space and saving production due to the confluence device, ίι, and a set of water-cooled rows. The purpose of cost. The above description is only for the details of the specifics and the schema of the book. The characteristics of this creation are not limited to this. It is not intended to limit the creation of this work. The application of the application and the scope of the application shall be included in the scope of this creation. Anyone familiar with the artist may be in the field of this creation. Any changes or modifications that are easily thought of can be covered in the scope of the patents in this case below. [Simple diagram of the diagram] The first diagram is a perspective view of a conventional water-cooling heat sink; the first diagram is an exploded view of the creation of the confluence device; 9 M3 07292 The second diagram is a top view of the creation confluence device; and the fourth diagram This is a perspective view of the water cooling system. [Main component symbol description] [Practical technology] Water-cooled head 1 a Metal tube 2 a Pump h Water-cooled row 4 a Motherboard rr 0 Water inlet water source [This creation] Confluence device shell first flow channel 1 Brother one ^ Runner
10 第一殼體 第二殼體 110 第一入水口 第二入水口 匯流出水口 12 0 出水口 弟一出水Q 匯流入水Q 10 0 2 弟一流入口 第一流出口 4 弟一流入Q M3 07292 導管 第二流出口 31、32、33、34 金屬輸送管 5 1、5 4 第一輸送管 5 2 第二輸送管 5 3 水冷排 610 first housing second housing 110 first water inlet second water inlet outlet water outlet 12 0 water outlet brother a water Q sink water inflow Q 10 0 2 younger first-class inlet first outlet 4 brother one into Q M3 07292 conduit Secondary outlet 31, 32, 33, 34 metal delivery pipe 5 1 , 5 4 first delivery pipe 5 2 second delivery pipe 5 3 water cooling row 6