M394684 五、新型說明: 【新型所屬之技術領域】 本創作係提供-種鰭片結構及其散熱裝置,尤指一種可防 止熱導管表硝損與增域 >;結構,叫加祕導效率的 韓片結構及其散熱裴置。 【先前技術】 按’隨著半導體技術的進步,積體電路的體積亦逐漸縮 小’而為了使積體電路能處理更多的資料,相同體積下的積體 電路,已則以容減以好上數仙上的元件,#積體電路 内的元件數量越來越多時’元扭作時所產生的熱能亦越來越 大,以常見的中央處理器為例,在高滿载的工作量時,中央處 理器的散發出的熱度,足以使中央處理器整個燒毀,因此,積 體電路的散熱裝置變成為重要的課題。 而-般的散熱裝置大多透過高導熱係數的金屬材質來製 造,並以鰭片型態來增加散熱面積,且同時為了提高散熱效果 則會搭配風扇來強制散熱,更進一步透過熱導管來加速排除熱 能,以防止積體電路產品燒燬。 、 請參閱第卜2圖所示,係為習知散熱裂置之立體組合圖 及局部示意圖,如圖所示,所述散熱裝置1〇具有複數熱導管 2〇及複數散熱鰭片30 ,其各熱導管2〇具有一散熱端2丨及I 吸熱端22,該等散熱鳍片30共同界定有複數散熱流道3卜且 各放熱,鰭片30上具有至少―穿孔32及經由該穿孔32周緣凸 3 M394684 伸之凸部33,而熱導管20之散熱端21係穿設該穿孔32與凸 部33,進而串設各散熱鰭片3〇,並緊迫方式配合其穿孔犯及 凸部33,以使其熱導管2〇與散熱鰭片30間可達到最佳熱傳 導之功效;而其複數散熱鰭片30是彼此相互堆疊,為節省材 料及成本並達到較佳之熱交換效率,該等散熱鰭片3〇之厚产 相當薄,以致散熱鰭片30之結構強度當然較為薄弱,且熱導 =20組設於穿孔32與凸部33時,其散熱鰭片3〇容易因熱導 管20強制緊迫組裝’造成穿孔32處產生變形損壞而熱導管 2〇之外壁亦同時容易因散熱則3Q之過度摩擦而表面磨損料 形·’進而f彡㈣熱導f 2G之熱料;故習知技術具有下列= 1. 散熱鰭片容易因熱導管組裝而損·壞; 2. 熱導官容易因散熱鰭片而表面磨損; 3. 影響熱傳導效率。M394684 V. New description: [New technical field] This creation provides a kind of fin structure and its heat dissipation device, especially one that can prevent the heat loss and increase of the surface of the heat pipe. The structure of the Korean film and its heat dissipation. [Prior Art] According to the progress of semiconductor technology, the volume of the integrated circuit is gradually reduced. In order to enable the integrated circuit to process more data, the integrated circuit under the same volume has been reduced. On the upper part of the element, when the number of components in the integrated circuit is increasing, the heat generated by the twisting of the element is also getting larger and larger. Take the common central processor as an example, at high load. When the amount is measured, the heat generated by the central processing unit is enough to cause the central processing unit to burn out. Therefore, the heat sink of the integrated circuit becomes an important issue. Most of the heat sinks are made of metal with high thermal conductivity, and the fins are used to increase the heat dissipation area. At the same time, in order to improve the heat dissipation effect, the fan is used to force heat dissipation, and the heat pipe is used to accelerate the elimination. Thermal energy to prevent the burning of integrated circuit products. As shown in FIG. 2 , it is a three-dimensional combination diagram and a partial schematic diagram of a conventional heat dissipation device. As shown in the figure, the heat dissipation device 1 has a plurality of heat pipes 2 〇 and a plurality of heat dissipation fins 30 . Each of the heat pipes 2 〇 has a heat-dissipating end 2 丨 and an I-heat-absorbing end 22 . The heat-dissipating fins 30 define a plurality of heat-dissipating fins 3 and each radiating heat. The fins 30 have at least a through-hole 32 and via the through-holes 32 . The peripheral protrusion 3 M394684 extends the convex portion 33, and the heat dissipation end 21 of the heat pipe 20 penetrates the through hole 32 and the convex portion 33, thereby arranging the heat dissipation fins 3〇, and pressing the perforation and the convex portion 33 in an urgent manner. In order to achieve the best heat conduction between the heat pipe 2〇 and the heat dissipation fins 30, and the plurality of heat dissipation fins 30 are stacked on each other, in order to save material and cost and achieve better heat exchange efficiency, the heat dissipation fins The thickness of the sheet 3 is relatively thin, so that the structural strength of the fins 30 is of course weak, and when the thermal conductivity=20 is set in the perforations 32 and the protrusions 33, the fins 3 are easily forced by the heat pipe 20. Assembly 'causing deformation damage at the perforation 32 and heat pipe 2 At the same time, the outer wall of the crucible is also prone to excessive friction due to heat dissipation, and the surface is worn by the material shape. 'There is a thermal material of the thermal conductivity f 2G; therefore, the conventional technology has the following = 1. The fins are easily assembled by the heat pipe. Damage and damage; 2. The heat guide is prone to wear on the surface due to the fins; 3. It affects the heat transfer efficiency.
是以,要如何解決上述習用之問題與缺失,即為本案 人與攸事此行業之相關薇商所虽欲研究改善之方向所在 【新型内容】 考。 達上述目的,本創作係提供一種鰭片έ 置’所述鰭片姓槿係勺八 、、-構及其政熱裝 Μ、、、。構係包含:一本體,該本體 4 M394684 f孔及至少-第—凸部,該第—貫穿孔係貫穿所述本體,該第 一凸部係形成於本體上’且沿著該第—貫穿關緣從本體上朝 γ側凸伸’並形成-第一凸伸端’及至少一第一破口設在該本 體上’並連通該第-貫穿孔,且該第一破口具有一第一部分沿 著該第—貫穿闕緣放射狀朝相反第—貫穿孔方向延伸,及一 第二:分顧前述[部分延伸至第—凸部上,且該第二部分 可不貝通4第-凸伸端或貫通該第一凸伸端;將複數鰭片結構 堆宜組成-籍片組,該等韓片之第一貫穿孔間串設有至少—第 一熱導管構成一散熱裝置;而其第一熱導管緊配穿入該第-貫 穿孔時’所述第-凸部可經由第一破口產生受力擴張盥經 一凸伸部迫緊所述第—熱導管,進而增加則結構整體之強 度’且同時可防止第—熱導管_片過度摩擦而表面磨損變 形或造摘片本體破财縣,並且可大幅提升熱傳導效 率;故本創作具有下列優點: 1.增加鰭片整體結構之強度; 2·防止熱導管表面磨損; 3.增加熱傳導效率。 【實施方式】 本創作之上述目的及其結構與功紅的雜,將依據所附 圖式之較佳實施例予以說明。 請同時參閱第3A、3B、3C圖所示,係為本創作較佳實施 例之缝片結構立體圖,所述則4()係包含有一本㈣,該本 5 體41可具有單一貫穿孔或複數貫穿孔,而於本實施例中,該 本體41係以具有兩貫穿孔為實施方式,如3a騎示該本體 41具有至y-第—貫穿孔42、至少—第二貫穿孔招、至少一 第凸口M21及至少一第二凸部431,該第一貫穿孔係貫 穿該本體41,而第一凸部421係沿著該第-貫穿孔42周緣從 本體41上朝-側凸伸並形成一第一凸伸端似及至少一第 破口 423叹在該本體41上,並連通該第一貫穿孔42,該第 破口 423具有-第一部分4231設在該本體上,且該第一 部分4231沿著該第一貫穿孔42周緣放射狀朝相反第一貫穿孔 42方向延伸; 而該第二貫穿孔43同樣貫穿該本體41,而第二凸部43ι 係沿著該第二貫穿孔43躲從本體41上朝關或另一側凸伸 並形成一第二凸伸端432 (本實施例中是係選擇以朝相反側表 示),及至少一第二破口 433設在該本體41上,並連通該第二 貫穿孔43,該第二破口 433具有一第三部分4331設在該本體 41上,且該第三部分4331沿著該第一貫穿孔42周緣放射狀 朝相反第二貫穿孔43方向延伸。 又如3Β圖所示,係為本創作鰭片結構另一較佳實施例之 立體圖,其與上一實施例的元件及連結關係與運作大致相同在 此即不贅述相同的元件及元件符號,惟本較佳實施例的相異處 在於:該第—破口 423具有一第一部分4231及一第二部分 4232,該第一部分4231設在該本體41上,並沿著該第一貫穿 M394684 • 孔42周緣放射狀朝相反第一貫穿孔42方向延伸,該第二部分 4232係從前述第一部分4231延伸至第一凸部421上,且不貫 通該第一凸伸端422;與,該第二破口 433具有一第三部分4331 及一第四部分4332,該第三部分4331設在該本體41上,並 沿著該第二貫穿孔43周緣放射狀朝相反第二貫穿孔43方向延 • 伸’該第四部分4332係從前述第三部分4331延伸至第二凸部 • 431上,且不貫通該第二凸伸端432。 又如3C圖所示,係為本創作鰭片結構又一較佳實施例之 立體圖,其與上一實施例的元件及連結關係與運作大致相同在 此即不贅述相同的元件及元件符號,惟本較佳實施例的相異處 在於:所述第-破口 423之第二部分4232係從所述第一部分 延伸至第一凸部421上’且其第二部分似2係貫通該第 凸伸端422,與,所述第二破〇 433之第四部分4332係從 斤述第刀4331延伸至第二凸部431上,且其第四部分4332 係貫通該第二凸伸端432。 請續參閱第3八、从、犯^圖所示,係為本創作散減 置較佳實施例之立體分解圖、局部實施示意圖、立體組合圖, 本實施例係為具有前·片4〇結構之散熱裝置5〇,所述散熱 裝置50係包含有一鯖片組6〇、至少一第—熱導管7〇及至少 -第二熱導管8Q ’所述鰭片組60具树數鰭片4{),該等韓片 40具有-本體4卜該本體41具有至少一第一貫穿孔、至 ;-第一貫穿孔43、至少一第一凸部42ι及至少一第二凸部 7 M394684 431 ’所述第—凸部421係沿著該第-貫穿孔42周緣從本體 41上朝—側凸伸並形成一第一凸伸端422及至少一第一破口 423設在該本體41上,且該第一破口 4烈具有—第一部份沿 著該第一貫穿孔42周緣放射狀朝相反第一貫穿孔42方向延 伸,而第二凸部431係沿著該第二貫穿孔43周緣從本體41上 朝另-側凸伸並形成一第二凸伸端432及至少—第二破口伽 ,在該本體41上’且該第二破口 433具有一第三部份沿著該 第二貫穿孔43周緣放射狀朝相反第二貫穿孔43方向延伸; 而其第-熱導管70及第二熱導管8〇分別具有—第一散熱 端71及一第一吸熱端72與一第二散熱端81及—第二吸熱端 82,該第一散熱端7H系組接於所述第一貫穿孔⑪,該第一散 熱端Ή係由第-凸部似緊迫穿入並由第一凸伸端422穿 出,以串設於所述鰭片40之第一貫穿孔42,而該第一破口 = 可於第-散熱部穿入該第一貫穿孔42使其第一凸部似受 擴張,與經由第-凸伸部迫緊所述熱導管;而該第二山 幻係組接於所述第二貫穿孔43,該第二散熱端8ι係^二端 部431緊迫穿入並由第二凸伸端概穿出,以 弟-凸 40之第二貫穿孔43 ’而該第二破口伽可於第二散斤述鰭片 該第二貫穿孔43使其第二凸部仙受力擴張,與經^穿入 伸部迫緊所述熱導官;進而達到所述第一孰導管刊 凸 導管80可緊迫穿入第一貫穿孔42及第二貫穿孔幻與第二熱 -破口 4趣二如433如謝增加^、= 8 M3946B4 體之強度’簡時可防止第-熱導f7Q與第二熱導f8〇因鐘 片40過度摩擦而表面磨損變形,或造成鰭片本體因穿接熱 導官而產生破損變形等現象,並且可大幅提升熱傳導效率。 請同時參閱第3B、5A、5B、5C圖所示,係為本創作散熱 裝置另一較佳實施例之立體分解圖、局部實施示意圖、立體組 合圖,其與上一實施例的元件及連結關係與運作大致相同在此 即不贅述相_元件及元件槪,惟本較佳實施例_異處在 於:所述第一破口 423具有一第一部分4231及一第二部分 4232’戎第二部分4232係從前述第一部分4231延伸至第一凸 部421上,且不貫通該第一凸伸端422,而該第二破口 具 有一第三部分4331及一第四部分4332,該第四部分4332係 從前述第三部分433丨延伸至第二凸部431上,且不貫通該第 二凸伸端432,以於該第-熱導管7〇與第二熱導管8〇緊迫穿 入第一貫穿孔42及第二貫穿孔43日夺,其第一破口 423與第二 破口 433分別同時可經由所屬之第一部分4231及第二部分 4232與第三部分4331及第四部分徵產生有受力擴張之現 象,以增加鰭片40結構整體之強度,且同時可防止第一熱導 s 70與第一熱導管8〇因趙片4〇過度摩擦而表面磨損變形, 或造成鰭片40本體職接鱗管而產生破損變形等現象,並 且可大幅提升熱傳導效率。 請同時參閱第m 6c圖所示,係為本創作散熱 裝置又-較佳實施例之立體分解圖、局部實施示意圖、立體組 9 合圖’其與上一實施例的元件及連結關係與運作大致相同在此 即不%述相同的元件及元件符號,惟本較佳實施例的相異處在 於.所述第一破口 423之第二部分4232係從所述第一部分4231 延伸至第一凸部421上,且其第二部分4232係貫通該第一凸 伸端422,與,所述第二破口 433之第四部分4332係從所述 第三部分4331延伸至第二凸部43丨上,且其第四部分4332係 貫通該第二凸伸端432,以於該第一熱導管7〇與第二熱導管 別緊迫穿入第-貫穿孔42及第二貫穿孔43時,其第一部分 4231及第一部分4232與第三部分4331及第四部分4332同樣 可產生有受力擴張之現象,以增加鰭片40結構整體之強度, 〇同時可防止第-熱導官7〇與第二熱導管別因鱗片肋過度 摩擦而表面磨損以提升熱傳導效率。 而P明者’以上所碰為本案之較佳實關,並非用以丹 制本創作,若依本_之構想所作之雜,在不脫離本創作米 神範圍内,例如:對於構形或佈置型態加以變換,對於各_ L飾與應’所產生等效伽,均應包含於本案之權利事 圍内’合予陳明。 上所述本創作之韓片結構及其散熱裝置於使用時,為 作,二達到其功效及目的’故本創作誠為一實雜優異之創 早曰眼夺°新里專利之申請要件’麦依法提出申請,盼審委 任竹稽Γ本案’以保_作人之辛苦創作,絲肖局審委有 ,清不吝來函指示,創作人定當竭力配合 ,實感德便。 M394684 【圖式簡單說明】 第1圖係習知之散熱震置立體圖; 第2圖係習知之散熱鰭片立體圖; 第3A圖係本創作鰭片結構較佳實施例之立體圖; 第_係摘作物構另—崎施例之立體圖; 第3C圖係摘糊結敎—姆躺之立體圖; ί4Α圖係本_嫩咖細U體分解圖; 做崎崎败嶺施示意圖; 楚 摘作散錄置錄實_之讀組合圖; 第5Α圖穌__裝置另—健實斯狀 圖第;5β圖係本創作散熱褒置另一較佳實施例之局部實施示意 第邱圖係本創作散t置置又又一^實施例之立盤分解圖; 圖; 絲置又—難實施歉㈣實施示意 第6C圖係本創作散熱裝置 又一較佳實施例之立—合圖; M394684 【主要元件符號說明】 鰭片40 第二破口 433 本體41 第三部分4331 第一貫穿孔42 第四部分4332 第一凸部421 散熱裝置50 第一凸伸端422 鰭片組60 第一破口 423 第一熱導管70 第一部分4231 第一散熱端71 第二部分4232 第一吸熱端72 第二貫穿孔43 第二熱導管80 第二凸部431 第二散熱端81 第二凸伸端432 第二吸熱端82 12Therefore, how to solve the above-mentioned problems and shortcomings of the above-mentioned applications, that is, the relevant Weishang Institute of the case and the cause of the industry, although they want to study the direction of improvement [new content] test. In order to achieve the above purpose, the present invention provides a fin arrangement, the fins, the surnames, the eight-, and the-structures, and the political heating device, . The structure includes: a body, the body 4 M394684 f hole and at least a first protrusion, the first through hole is through the body, the first protrusion is formed on the body 'and along the first through The closing edge protrudes from the body toward the γ side and forms a first protruding end and at least one first opening is disposed on the body and communicates with the first through hole, and the first opening has a first a portion extending radially toward the opposite first through hole along the first through hole, and a second: separating the portion [extending to the first convex portion, and the second portion may not be Beton 4 first convex Extending or penetrating the first protruding end; stacking the plurality of fin structures to form a group of the plurality of fins, wherein at least the first heat pipe is formed between the first through holes of the Korean pieces to form a heat sink; When the first heat pipe is tightly fitted into the first through hole, the first protrusion can generate a force expansion through the first break, and the first heat pipe is forced through a protrusion, thereby increasing the structure. The overall strength 'and at the same time prevent the first heat pipe _ sheet from excessive friction and the surface is worn and deformed or the slab body is broken Caixian County can greatly improve the heat transfer efficiency; therefore, the creation has the following advantages: 1. Increase the strength of the overall structure of the fin; 2. Prevent the surface of the heat pipe from being worn; 3. Increase the heat transfer efficiency. [Embodiment] The above object of the present invention, its structure, and the advantages of the present invention will be described in accordance with the preferred embodiments of the accompanying drawings. Please also refer to FIGS. 3A, 3B, and 3C, which are perspective views of the slit structure of the preferred embodiment of the present invention. The 4() includes a (4), and the 5 body 41 can have a single through hole or In the present embodiment, the body 41 has two through holes as an embodiment, such as 3a riding the body 41 having a y-first through hole 42, at least a second through hole, at least a first through hole M21 and at least one second protrusion 431 extending through the body 41, and the first protrusion 421 protruding from the body 41 toward the side along the circumference of the first through hole 42 Forming a first protruding end and forming at least one first opening 423 on the body 41 and communicating with the first through hole 42. The first opening 423 has a first portion 4231 disposed on the body, and the first portion 4231 is disposed on the body The first portion 4231 extends radially along the circumference of the first through hole 42 toward the opposite first through hole 42; and the second through hole 43 also extends through the body 41, and the second protrusion 43 is along the second through portion. The hole 43 is hidden from the body 41 toward the off or the other side and forms a second protruding end 432 (in this embodiment The second opening 433 is disposed on the body 41 and communicates with the second through hole 43. The second opening 433 has a third portion 4331 disposed on the body 41. The third portion 4331 extends radially along the circumference of the first through hole 42 toward the opposite second through hole 43. As shown in FIG. 3, it is a perspective view of another preferred embodiment of the present fin structure, which is substantially the same as the components and the connection relationship and operation of the previous embodiment, and the same components and component symbols are not described herein. The difference between the preferred embodiment is that the first opening 423 has a first portion 4231 and a second portion 4232. The first portion 4231 is disposed on the body 41 along the first through M394684. The circumference of the hole 42 extends radially toward the opposite first through hole 42. The second portion 4232 extends from the first portion 4231 to the first convex portion 421 and does not penetrate the first protruding end 422. The second opening 433 has a third portion 4331 and a fourth portion 4332. The third portion 4331 is disposed on the body 41 and extends radially along the circumference of the second through hole 43 toward the opposite second through hole 43. • The fourth portion 4332 extends from the third portion 4331 to the second projection 431 and does not penetrate the second projection end 432. FIG. 3C is a perspective view of another preferred embodiment of the present fin structure, which is substantially the same as the components and the connection relationship and operation of the previous embodiment, and the same components and component symbols are not described herein. The difference between the preferred embodiment is that the second portion 4232 of the first-break 423 extends from the first portion to the first convex portion 421 and the second portion thereof extends through the second portion. The protruding end 422, and the fourth portion 4332 of the second breaking 433 extend from the knives 4331 to the second convex portion 431, and the fourth portion 4332 extends through the second protruding end 432. . Please refer to the third and eighth, and the following is a three-dimensional exploded view, a partial implementation diagram, and a three-dimensional combination diagram of the preferred embodiment of the present invention. This embodiment has a front panel. The heat dissipating device 50 of the structure includes a cymbal group 6 〇, at least one first heat pipe 7 〇 and at least a second heat pipe 8 Q ′ the fin group 60 has a number of fins 4 The Korean film 40 has a body 4 having at least one first through hole, a first through hole 43, at least one first convex portion 42, and at least one second convex portion 7 M394684 431. The first protrusion 421 protrudes from the upper side of the body 41 toward the side of the first through hole 42 and forms a first protruding end 422 and at least one first opening 423 is disposed on the body 41. And the first opening 4 has a first portion extending radially along the circumference of the first through hole 42 toward the opposite first through hole 42 , and the second protrusion 431 is along the second through hole 43. The periphery protrudes from the body 41 toward the other side and forms a second protruding end 432 and at least a second broken gamma on the body 41 and the first The opening 433 has a third portion extending radially along the circumference of the second through hole 43 toward the opposite second through hole 43; and the first heat pipe 70 and the second heat pipe 8〇 respectively have a first heat dissipation The first heat dissipation end 72 is connected to the first heat dissipation end 81 and the second heat dissipation end 82, and the first heat dissipation end 7H is connected to the first through hole 11. The first protrusion is formed to be inserted into the first through hole 42 of the fin 40, and the first opening is allowed to penetrate through the first heat dissipation portion. The first through hole 42 has its first convex portion similarly expanded, and the heat pipe is forced through the first protruding portion; and the second mountain magic system is connected to the second through hole 43 The second end portion 431 is tightly penetrated and penetrated by the second protruding end, and the second through hole 43' of the dipole-convex 40 is used for the second break. The second through hole 43 of the fin causes the second convex portion to be force-expanded, and the heat guide is pressed with the penetration portion; thereby reaching the first 孰 catheter convex tube 80 can be tightly penetrated First Through hole 42 and second through hole illusion and second heat-break 4 are as good as 433, thank you for increasing ^, = 8 M3946B4 body strength 'simple time can prevent first-thermal conduction f7Q and second heat conduction f8 cause The sheet 40 is excessively rubbed and the surface is worn and deformed, or the fin body is damaged by the wear of the heat guide, and the heat transfer efficiency can be greatly improved. Please also refer to FIGS. 3B, 5A, 5B, and 5C, which are perspective exploded views, partial implementation diagrams, and perspective assembly diagrams of another preferred embodiment of the heat sink device, which are combined with the components and connections of the previous embodiment. The relationship and operation are substantially the same, and the components and components are not described herein. However, the preferred embodiment has the advantage that the first opening 423 has a first portion 4231 and a second portion 4232'. The portion 4232 extends from the first portion 4231 to the first convex portion 421 and does not penetrate the first protruding end 422, and the second opening has a third portion 4331 and a fourth portion 4332, the fourth The portion 4332 extends from the third portion 433 至 to the second convex portion 431 and does not penetrate the second protruding end 432 to penetrate the first heat pipe 7 〇 and the second heat pipe 8 〇 The first through hole 42 and the second through hole 433 can be simultaneously generated by the first portion 4231 and the second portion 4232 and the third portion 4331 and the fourth portion respectively. There is a phenomenon of force expansion to increase the overall structure of the fin 40 And at the same time, the first heat guide s 70 and the first heat pipe 8 are prevented from being excessively rubbed by the Zhao piece 4〇, and the surface is worn and deformed, or the body of the fin 40 is attached to the scale tube to cause damage and deformation, and the like. Greatly improve heat transfer efficiency. Please also refer to the figure m 6c, which is a perspective view of a heat dissipation device, a perspective view of a preferred embodiment, a partial implementation diagram, and a three-dimensional group 9 diagram, which are related to the components and connections of the previous embodiment. Rather, the same elements and element symbols are not described herein, but the preferred embodiment differs in that the second portion 4232 of the first breach 423 extends from the first portion 4231 to the first The convex portion 421 has a second portion 4232 extending through the first protruding end 422, and the fourth portion 4332 of the second opening 433 extends from the third portion 4331 to the second convex portion 43. The fourth portion 4332 extends through the second protruding end 432, so that when the first heat pipe 7〇 and the second heat pipe are tightly penetrated into the first through hole 42 and the second through hole 43, The first portion 4231 and the first portion 4232, as well as the third portion 4331 and the fourth portion 4332, can also be subjected to a force expansion phenomenon to increase the overall strength of the fin 40 structure, and at the same time prevent the first-thermal guide. The second heat pipe is not worn due to excessive friction of the scale ribs to improve the heat Transduction efficiency. And P Ming's above is the best practice for this case, not for the creation of this book. If it is based on the concept of this _, it does not deviate from the scope of this creation, for example: for configuration or The layout type is changed, and the equivalent gamma generated by each _L decoration and should be included in the rights of the case' The above-mentioned Korean film structure and its heat sink are used in the production, and the second is to achieve its efficacy and purpose. Mai filed an application in accordance with the law, and he hoped to appoint Zhu Jizhen's case to protect the people's hard work. The Silk and the Bureau of the Board of Directors have a clear letter, and the creators will try their best to cooperate with them. M394684 [Simple description of the drawings] Fig. 1 is a perspective view of a conventional heat sinking shake; Fig. 2 is a perspective view of a conventional heat sink fin; Fig. 3A is a perspective view of a preferred embodiment of the present fin structure; The other is a three-dimensional diagram of the example of the Saki; the 3C is a three-dimensional diagram of the sputum--the lie of the lie; the ί4 Α 系 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Recording _ reading combination chart; 5th 稣 稣 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Disposing another embodiment of the disc exploded view; Figure; wire set - difficult to apologize (four) implementation of the schematic 6C is a vertical and close diagram of another preferred embodiment of the heat sink device; M394684 [main component symbol Description] Fin 40 Second break 433 Main body 41 Third portion 4331 First through hole 42 Fourth portion 4332 First convex portion 421 Heat sink 50 First protruding end 422 Fin group 60 First break 423 First Heat pipe 70 first part 4231 first heat sink end 71 second part 4232 A second heat absorbing end 72 of the second heat pipe 43 through hole 80 of the second end of the second heat dissipation protrusion 431 protruding end 81 of the second end of the second heat sink 432 8212