M260772 八、新型說明: 【新型所屬之技術領域】 本創作係關於-錄熱ϋ,制係—觀發鏡子元件散熱用的散熱 器。 【先前技術】 隨著電腦産業之快速發展,中央處理器等電子元件處理能力不斷升 級’其散熱用之散熱模組亦隨著乡樣化,—般使帛之散熱模組係由散熱器 與風扇組合喊,其中散無之_表面與電子元件接觸,其另—表面形成 複數具一賴距之賴則,錢具有概該通道,該散 熱器與氣流通道相通之至少-側安裝—風扇,加快其熱對流速度。 目月】所個之大夕數越II為增大其散熱面積而增大散麟片之密 度,_散熱器雖然增大散熱面積,但同時帶來了一個問題,即由於同一 空間内散熱鰭狀總厚度增大,使得散無氣流人σ及出σ之間距太小, 增大氣流流阻’降低熱對流效率,影響整體散熱效率。 【新型内容】 本創作之目的在於提供—種氣流流阻小之鰭片組合式散熱器。 本創作散熱益,包括複數具—定間隔之散熱鰭片,相鄰散熱錯片間形 成複數紐通道,魏流通道具錢流人口及氣如σ,魏流通道之氣 流入口及氣流心寬度大於其巾_分之氣麵道寬度。 «1作相it—技術具有如下優點·本創作散熱器由於其氣流通道之 氣流入口及氣流出口寬度大於其中間部分之寬度,氣流入口及出口之流阻 小’有利於促進熱對流速率而提高散熱效率。 M260772 【實施方式】 請參閱第一圖和第二圖所示,本創作散熱器10可與風扇2〇及熱管3〇 等元件相配合而固定於中央處理器(圖未示)等電子元件上進行散熱。該 風扇20可通過一固定架22固定於散熱器1〇 —侧面,該熱管3〇呈u字形, 通過其兩端可將散熱H 1Q之靠近熱源的_端及雜絲的—端熱性連接。 該散熱器ίο包括一基座12及複數平行交錯排列於基座12表面且具一 定間隔之第-散熱.鰭片14和第二散熱縛片16,該等相鄰之第_、第二散熱 縫片14、16間形成複數具有氣流入口及氣流出口之氣流通道施,該基座 12底面可與⑤在電路板(圖未示)上之巾央處理器(圖未示)接觸。該第 一散熱縛片14和第二散_片16之主要區別在於,第-散熱則14之寬 度小於第二散熱鰭片16之寬度,當第—散熱鰭片14和第二散熱鰭片16交 錯排列時第-散熱縛片14位於第二散熱鰭片16之中部,使第二散熱籍 =16之兩側端伸出第一散_片14之兩侧端,從而該氣流通道146之氣 机入口及氣流出口之寬度大於其中間部分之氣流通道146之寬度。 ^閱第_圖所不’係本創作另一實施例,該散熱器ι〇,與上述實施例 散…、器10不同點在於’該散熱器1〇,係由複數相同散熱鰭片M,組成, 7之散熱鰭片14,以相對橫向錯開之方式排列於基座12,上,即相鄰散熱 _片14’之相應端部互相錯開不平齊,從而形成複數氣流人口及氣流出口之 寬度大於其中_分之氣流通道146,之寬度。 八本=作魅要提供具有複數氣流人口及氣流出口之寬度大於其中間部 刀^讀通道寬度,從而使氣流人口及出口流阻小之散熱ϋ,故只要使複 μ Ί讀排列形成複數氣流人口及氣流出口之寬度大於其中間部分 M260772 之氣流通道寬度即可,例如風顧吹歧録,魏熱則綱設置風扇, ^時,可將散熱物端設置為高低交錯排列之方式,而散熱鰭片兩側端 設置為上述實施例中之方式。 综上所述’本創作符合新型專利要件,爰依法提出專利申請。惟,以 上所述者僅為摘作讀錄_,舉凡熟悉本軸藝之人士,在麦 創作精神所作之較修飾或變化,皆應涵蓋独下^請專纖圍内。又 【圖式簡單說明】 第一圖係本創作散熱器與相關元件之立體分解圖。 第二圖係本創作散熱器與相關元件之立體組合圖。 第三圖係本創作散熱器另一實施例之立體分解圖。 【主要元件符號說明】M260772 8. Description of the new type: [Technical field to which the new type belongs] This creation is about-recording heat, manufacturing system-heat sink for viewing the heat of mirror elements. [Previous technology] With the rapid development of the computer industry, the processing capabilities of electronic components such as central processing units have been continuously upgraded. The heat dissipation modules used for heat dissipation have also become more rural-like. The fan combination shouts, where the surface is in contact with the electronic components, and the other is that the surface forms a plurality of distances. The money has the channel, and the radiator is connected to the airflow channel at least on one side. The fan, Speed up its thermal convection. Meiyue】 So the number of big eves II increased the density of scattered fins in order to increase the heat dissipation area. Although the heat sink increased the heat dissipation area, it also brought a problem, that is, due to the heat dissipation fins in the same space The total thickness of the shape is increased, so that the distance between the scattered airflow person σ and the outflow σ is too small, increasing the airflow flow resistance 'reduces the thermal convection efficiency and affects the overall heat dissipation efficiency. [New content] The purpose of this creation is to provide a fin-type combined radiator with small airflow resistance. The heat dissipation benefit of this creation includes a plurality of cooling fins with a fixed interval, and a plurality of button channels are formed between adjacent cooling fins. The flow of money and the flow rate of gas flow props in Wei flow props are larger than the width Towel _ part of the airway width. «1 作 相 it—The technology has the following advantages: Because the width of the air inlet and outlet of the airflow channel is greater than the width of the middle part, the flow resistance of the air inlet and outlet is small, which is conducive to promoting the heat convection rate and improving Thermal efficiency. M260772 [Embodiment] Please refer to the first and second figures. The radiator 10 of this creation can be fixed to electronic components such as a central processing unit (not shown) in cooperation with components such as a fan 20 and a heat pipe 30. For cooling. The fan 20 can be fixed to the 10-side of the radiator through a fixing frame 22, and the heat pipe 30 has a U-shape. The two ends of the heat-dissipating H 1Q can be thermally connected to the _ end of the heat source and the end of the filament. The heat sink includes a base 12 and a plurality of first heat sinks arranged in parallel and staggered on the surface of the base 12 with a certain interval. The fins 14 and the second heat sink fins 16, the adjacent first and second heat sinks The slits 14 and 16 form a plurality of airflow channels with airflow inlets and airflow outlets. The bottom surface of the base 12 can be in contact with the central processor (not shown) on the circuit board (not shown). The main difference between the first heat dissipation fin 14 and the second heat dissipation fin 16 is that the width of the first heat dissipation rule 14 is smaller than the width of the second heat dissipation fin 16, and when the first heat dissipation fin 14 and the second heat dissipation fin 16 When staggered, the first heat dissipation fins 14 are located in the middle of the second heat dissipation fins 16 so that both sides of the second heat dissipation fin = 16 protrude from both sides of the first heat dissipation fin 14, so that the air in the air flow channel 146 The width of the machine inlet and the airflow outlet is larger than the width of the airflow channel 146 in the middle portion. ^ See the figure _ is not another embodiment of this creation, the radiator ι〇 is different from the above embodiment ... The difference is that the radiator 10 is composed of a plurality of identical heat dissipation fins M, Composition, the heat radiation fins 14 of 7 are arranged on the base 12 in a relatively laterally staggered manner, that is, the corresponding ends of adjacent heat radiation fins 14 'are staggered from each other, thereby forming a plurality of airflow populations and the width of the airflow outlet. It is larger than the width of the airflow channel 146, in which. Eight books = For the charm, the width of the airflow population and airflow outlet should be greater than the width of the middle knife ^ reading channel, so that the airflow population and outlet flow resistance are small. Therefore, it is only necessary to arrange the multiple μ readings to form multiple airflow The width of the population and the airflow outlet should be larger than the width of the airflow channel of the middle part M260772. For example, the wind and the wind are recorded. Weier Zegang sets up fans. The two ends of the fins are arranged in the manner described in the above embodiments. In summary, ‘this creation complies with the requirements for new patents, and a patent application is filed according to law. However, the above are just excerpts. For those who are familiar with this axe art, the more modifications or changes in the creative spirit of Mai should be covered ^ please special fiber. [Simplified illustration of the drawing] The first picture is a three-dimensional exploded view of the radiator and related components of this creation. The second picture is a three-dimensional combination diagram of the radiator and related components of the original creation. The third figure is an exploded perspective view of another embodiment of the radiator of this creation. [Description of main component symbols]
散熱器 10 基座 12、12, 16 第一散熱鰭片 14 弟一散熱續片 政熱續片 14, 氣流通道 146、146, 風扇 20 固定架 22 熱管 30 7Radiator 10 Base 12, 12, 16 First heat dissipation fins 14 First heat dissipation sequel Political heat continuation sheet 14, Air flow channel 146, 146, Fan 20 Fixing frame 22 Heat pipe 30 7