M337105 八、新型說明: 【新型所屬之技術領域】 尤指一種具有增加紊流以大量帶 本創作係為一種散熱鰭片 走熱源之散熱鰭片者。 • 【先前技術】 • 目前科技日新料’電子晶片的處理速度亦提高許多 • 其產生的熱量亦隨之向上提升,但是高溫是導致晶片執行效率不 佳以及燒毀駐因,故該如何有效的散去;所發出的熱能,用 以保遵该晶片,係為目前積極研發的主題之一。 為達到最佳散熱效果,大多數的研發設計都在如何的增加散 熱器熱量的傳導面積以及在散熱器上裝置—可強制氣流的風扇月 , 用以提高散熱效率;料’現今為能提供紐的麟效率,係利 用複數的鰭片加以堆疊成散細 >;組,並在該散熱㈣組上結合 • 有導熱管’用以提高其散熱效率;雖然目前共通的設計課題皆為 如何有效的提供熱傳效能’以達到有效的散熱,但由於散熱錐片 '之片體係為―平面’僅在片體的兩側彎折邊並設有結合部,用以 -將每每纟“予以扣結雜者’當風扇以_性的方式吹動流體經 過鰭片組’而欲以帶走各!#>;上的熱能時,由於該流體很快的流 經每一鰭片表面而快速的帶走熱能,但因流體快速流動而僅是帶 走趙片表面上少奸的熱能’致使散熱的效能不彰; 疋以,要如何%决上述習用之問題與缺失,即為本案之創作 5 M337105 人與從事此行業之相關廠商所亟欲研究改善之方向所在者。 【新型内容】 八鑑於上述的問題,創作人其多年來的經驗,將擾流之概 念列入散熱鰭片的設計考量,使其除可增加散熱面積外,更具有 • 擾流之作用,加強流體留滯於錢片_時間,進而大幅得提升 胃 散熱效率者; • 本創作之的散熱鰭片,係於散熱鰭片上構設有至少一突部, :突部的周側設有連續及或間段的破口,當流體流經該破口時, 會產生I流的現象,使之能獲得更充分的時間,進而使散熱鰭片 能可有效被該流體帶走’以將熱能散發於冷空氣之中,此外 大口 p亦可增加散熱鰭片的散熱面積,而可大幅提高散熱效率者。 〜其中’突部之構形可為方型或是圓型或其他型態,且由於各 大。p間係可以不規則排列,致可在散熱鰭片週圍產生不同的渴流 •作用’利用各突部側面的破口,有助提高散熱鰭片表面之熱交換 系數,進而提高整體散熱鰭片的性能。 •根據上述之優點,為使審查委員對本創作能進—步的瞭解,故 揭:备-較佳之實施方式如下。以下兹舉一最佳實施例,配合圖式、 圖欢’將本創作之構成内容及其所達成的功效詳細說明如後: 【實施方式】 請同時參閱第1圖及第3圖所示,本創作之散熱器縛片1〇係 6 M337105 為-片體l ’片體i之兩側設有折邊u,折邊u上可被設計有結 合部’用以兩散_片10結合之用,所述散熱縛片1〇之片體i 上係設有至少-突部12,在本創作中的突部12在所採的較佳實施 例係為方形之構型,該突部12之側邊上係開設有連續狀及間斷狀 31悲、之破口 121 ’树口 121姻以導引氣流,以便在鰭片周圍產 生紊流,藉以增加氣流留滞時間,以便能從散熱器· 1〇上帶走 更多的熱能,以達到有效散熱的目的。 另外,該散熱器鰭片10之突部12間係可以不規則方式排列, 致可在各散_片10之週難生不同_流_,並個各突部 12側面的破口 12卜有助提高散熱器鰭片1〇麵之熱交換系數, 進而提高整體散熱器鰭片10的性能。 請同時參閱第2圖及第4圖,在本創作中的突部12在所採的 另一實施例係為圓形之構型,同樣的將散熱器縛片1〇係為一片體 1 ’片體1之兩側設有折邊u,折邊u上可被設計有結合部,用 以兩散熱鰭片10結合之用,於散熱鰭片10之片體1上設有至少 -突部12,該突部12之側邊上係開設有連續狀及間斷狀型態之破 Z 121,該破π 121被用以導引氣流,以便在鰭片周圍產生紊流, 错以增加氣流留滯時間,以便能從散熱器鰭片1〇上帶走更多的熱 能,以達到有效散熱的目的。 ‘上所述,本創作實具有產業湘性、_性與進步性之專 利要件,惟社述者’僅為本創作之難實施例,並_來限定 本創作之實施翻,即依本翁申料娜_做之均等變化, M337105 皆於本創作專利範圍所涵蓋。 【圖式簡單說明】 第1圖係為本創作實施例之立體圖。 第2圖係為本創作突部呈方形之立體圖。 第3圖係為本創作另一實施例之立體圖。 第4圖係為本創作實施例突部呈圓形之立體圖。 【主要元件符號說明】 10·散熱器鰭片 1·片體 11·折邊11 12·突部 121·破口M337105 VIII. New description: [New technical field] It is especially a kind of heat sink fin with a large amount of turbulence to increase the turbulence. • [Prior Art] • At present, the processing speed of electronic wafers is also increasing. The heat generated by them is also increasing. However, high temperature is the result of poor wafer execution efficiency and burnt station, so how to be effective. Dissipated; the heat emitted to protect the wafer is one of the topics currently actively developed. In order to achieve the best heat dissipation effect, most of the R&D design is how to increase the heat transfer area of the heat sink and the device on the heat sink - the fan month that can force the air flow to improve the heat dissipation efficiency; The efficiency of the lining is made up of a plurality of fins stacked into a fine layer; and is combined on the heat dissipation (four) group. • A heat pipe is used to improve the heat dissipation efficiency; although the current common design issues are effective. Providing heat transfer performance to achieve effective heat dissipation, but because the heat sinking cone's sheet system is "flat", only the sides of the sheet are bent and provided with joints for "deducting each" The noisy 'when the fan blows the fluid through the fin group in a _-sexual manner' and wants to take away the heat energy on each ###; gt; because the fluid flows quickly through the surface of each fin Taking away the heat, but because of the rapid flow of fluids, it only takes away the heat of the scar on the surface of the Zhao film, which makes the heat dissipation ineffective. Why, how to reduce the above problems and lack of the above, that is, the creation of this case 5 M337105 people The relevant manufacturers engaged in this industry are eager to study the direction of improvement. [New content] Eight In view of the above problems, the creator's years of experience have included the concept of turbulence into the design considerations of heat sink fins. In addition to increasing the heat dissipation area, it also has the effect of turbulence, strengthening the fluid staying in the money _ time, and thus greatly improving the efficiency of the stomach heat dissipation; • The heat sink fins of this creation are constructed on the heat sink fins. There is at least one protrusion, the circumference of the protrusion is provided with continuous or intermittent breaks, and when the fluid flows through the break, I flow is generated, so that more time can be obtained, thereby enabling The fins can be effectively carried away by the fluid to dissipate heat into the cold air. In addition, the large port p can also increase the heat dissipation area of the fins, and can greatly improve the heat dissipation efficiency. The shape can be square or round or other types, and due to the large size, the inter-p lines can be arranged irregularly, so that different thirsty flows can be generated around the fins. To help improve The heat exchange coefficient of the surface of the hot fins, in turn, improves the performance of the overall fins. • According to the above advantages, in order to enable the reviewing committee to further understand the creation, it is revealed that the preferred embodiment is as follows. As a best example, the composition of the creation and the functions achieved by the following are described in detail with the following figures: [Embodiment] Please refer to the first and third figures, the creation The heat sink tab 1 〇 6 M337105 is - the sheet l 'the side of the sheet i is provided with a hem u, and the hem u can be designed with a joint portion for the combination of the two sheets _ 10 At least the protrusion 12 is provided on the sheet i of the heat dissipation tab 1 , and the protrusion 12 in the present embodiment has a square configuration in the preferred embodiment, and the side of the protrusion 12 The edge is open and has a continuous and intermittent shape. The sadness of the 121' tree mouth is used to guide the airflow so as to generate turbulence around the fins, so as to increase the airflow retention time so that the heat sink can be removed from the radiator. Take more heat away to achieve effective heat dissipation. In addition, the protrusions 12 of the heat sink fins 10 can be arranged in an irregular manner, so that it is difficult to produce different _flows in the periphery of each of the scatter sheets 10, and the ruptures 12 on the sides of the respective protrusions 12 are Helps improve the heat exchange coefficient of the heat sink fins 1 and thus improve the performance of the overall heat sink fins 10. Please refer to FIG. 2 and FIG. 4 at the same time. In the present embodiment, the protrusion 12 is in a circular configuration in another embodiment, and the heat sink tab 1 is also tied into a body 1 ' The two sides of the body 1 are provided with a flange u, and the flange u can be designed with a joint portion for combining the two heat dissipation fins 10, and at least the protrusion is provided on the sheet body 1 of the heat dissipation fin 10. 12, the side of the protrusion 12 is provided with a continuous and intermittent shape of the broken Z 121, the broken π 121 is used to guide the airflow, so as to generate turbulence around the fin, wrong to increase airflow The lag time is so that more heat can be taken away from the heat sink fins 1 to achieve effective heat dissipation. 'The above description, this creation has the patent elements of industrial Xiang, _ sex and progress, but the socialist' is only a difficult example of this creation, and _ to limit the implementation of this creation, that is, according to Ben Weng Shen Na Na _ to make equal changes, M337105 are covered by the scope of this creation patent. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of an embodiment of the present invention. The second picture is a three-dimensional view of the created protrusion. Figure 3 is a perspective view of another embodiment of the present invention. Figure 4 is a perspective view of the projection of the present embodiment in a circular shape. [Description of main component symbols] 10. Heat sink fins 1. Sheet body 11. Folding edge 11 12 · Projection 121·Broken