M267823 八、新型說明: 【新型所屬之技術領域】 種由複數散熱鰭 本創作係關於一種組合式散熱片,尤指 片組接構成的鰭片式散熱器。 【先前技術】 一般•鳍片式散熱器係利用複數密#排列的散熱_片透㈣ 加散熱面積以達成散熱之㈣,以運用在中央處理器的散敎: 為例’隨著中央處理器處理速度的不斷提高,其工作溫度亦^ 對驟升’故其運用的散熱器必須提升其卫作效率,以符合高速 處理益的散熱需求,為此傳統散熱器除引進組合韓片的新型構 、外’亦加人導熱設計,以期快速降低中央處理器表面的溫度 得以-- 如第七圖所示,揭露有一 由複數的散熱鰭片(8 〇 )以 體型態的散熱片。又前述散熱 的散熱鰭片(8 〇 )組成,每 为別形成有一折邊(8 1 ); 上下緣位置分別以沖壓方式沖 )的相對槽緣上並形成有突出 )係呈凸字形,當相鄰散熱鰭 鰭片(80)上的突片(83 (80)上的卡槽(82)内 組接在一起 種既有的組合式散熱片,主要係 面對面方式依序併接而組成一立 片之主體部分係由相同形狀構造 一散熱鰭片(8 〇 )的上下邊緣 又每一散熱鰭片(80)在接近 出兩卡槽(82),卡槽(82 的突片(83),該突片(83 片(8 〇 )相互組接時,一散熱 )適可穿置在相鄰另一散熱鰭片 ’藉以使複數的散熱鰭片(8 〇 M267823 二前揭所述,為提升散熱器的4效率,亦加人導熱設計 ,為此,前述散熱片將被設置在一基座(圖中未示)上,縣 二=供;中央處理器表面接觸,為進-步藉由導熱二 =面溫度’前述各散熱‘鰭片(8〇)在相同位置上分別形 ==沖孔(84) ’供一導熱管(9〇)(請參閱第八 圖所不)穿置其間,而導熱管(9〇)另端則延伸至基座上, 中央處理器表面的熱能除了透過基座傳至散㈣片(8 〜端外,亦透過導熱管(9〇)傳導至散熱鰭 =端,精此可使熱能更快的傳導至散熱片上,以增進散熱效 drr片在製造作業仍有其缺點存在,原因在於前述 1;'心:散熱韓片間的結合,完全依賴散熱鰭片上的突片 且:,由於接合面積小’穩定性低,相鄰散熱 二狀態’在此狀況下,當在散熱片上進行導熱 & ( 9 0 )上的穿置加工時,即处、止 於相鄰散埶鰭片(8 0 異動,原因在 二“80)間係較為鬆弛的狀態,且結合穩固度 .在散熱鰭片(8〇)上穿設導熱管時 因導熱管(9〇)管徑與散熱韓片(8〇)上的沖孔(84) 接近,當相鄰散熱鰭片(8〇)因鬆動而使沖孔(8 4 )略有錯位時(如第八圓- ^ m、 圖所710,此時㈣管(9 G )與沖 孔緣的摩擦力加大,復以相鄰散熱鰭片(8 〇 )門 =不穩固’故可能使相鄰加(")的= H 吏原設計的規格尺寸改變,從而造成彦品尺寸不-而影 M267823 【新型内容】 由上述可知,既有組合式散熱片仍有顯著缺陷,有待進一 步謀求可行的解決方案。 因此,本創作主要目的在提供一種可有效避免加工作業時 造成尺寸改變的組合式散熱片。 為達成前述目的採取的主要技術手段係由複數的散熱韓片 以面對面方式依序組接;其特徵在於: 每一散熱鰭片於相對的兩邊上分別形成至少一接合片,該 =片與散熱鰭片的其中一面略呈直角彎_,而朝向相鄰的另 -散熱鰭片;又接合片在接近自由端的外側緣處形成一 延伸部;M267823 8. Description of the new type: [Technical field to which the new type belongs] A kind of composite fins This creation is about a combined fin, especially a fin-type heat sink composed of fins. [Previous technology] General • Finned heat sinks use a plurality of dense # arrays of heat dissipation _ fins to increase the heat dissipation area to achieve the heat dissipation, to be used in the dispersal of the central processing unit: as an example, with the central processing unit The processing speed is constantly increasing, and its operating temperature is also rising sharply. Therefore, the radiators it uses must improve its operating efficiency to meet the heat dissipation requirements of high-speed processing. For this reason, in addition to the introduction of a new structure that combines Korean films, The external and thermal design is also added to quickly reduce the temperature of the surface of the central processing unit. As shown in the seventh figure, a plurality of heat sink fins (80) are disclosed as body heat sinks. The aforementioned heat-dissipating fins (80) are formed, each of which is formed with a folded edge (81); the upper and lower edge positions are punched by the punching method respectively) on the opposite groove edges and are formed with protrusions) are convex, when Adjacent heat sink fins (80) are formed in the protruding slots (83 (80), the card slots (82) in the card slot (82) are assembled into an existing combination of heat sinks, mainly in a face-to-face manner in order to form a The main part of the standing piece is constructed with the same shape of the upper and lower edges of a heat sink fin (80), and each heat sink fin (80) is close to two card slots (82), and the card slot (82's projections (83)). The fins (a heat sink when 83 pieces (80) are assembled with each other) are suitable for being placed on another heat sink fin ', so that a plurality of heat sink fins (80M267823, as described in the previous release, are Improve the heat sink's 4 efficiency, and also add a thermal conductivity design. To this end, the aforementioned heat sink will be set on a base (not shown), county two = supply; the central processor surface contact, for further borrowing The heat conduction two = the surface temperature 'the aforementioned heat dissipation' fins (80) are respectively shaped at the same position = = punching holes (84) 'for one heat conduction The tube (90) (see Figure 8) is inserted between them, while the other end of the heat transfer tube (90) extends to the base. The heat energy on the surface of the CPU is transmitted to the diffuser through the base ( Outside the 8 ~ end, it is also conducted to the heat sink fin = end through the heat pipe (90), which can make the heat energy transfer to the heat sink faster to improve the heat dissipation efficiency. The drr sheet still has its shortcomings in manufacturing operations, because The aforementioned 1; 'Heart: The combination of heat sinking Korean fins, completely depends on the fins on the heat sinking fins and: Due to the small bonding area,' low stability, two states of adjacent heat dissipation ', in this situation, when conducting heat on the heat sink & (9 0) during the placement process, that is, stop at the adjacent scattered fins (80 changes, the reason is that the two "80" is in a relatively relaxed state, and combined with the stability. When the heat pipe is put on the sheet (80), the diameter of the heat pipe (90) is close to the punching hole (84) on the heat sink Korean sheet (80), and when the adjacent heat sink fin (80) is loose due to looseness, When the punching hole (8 4) is slightly misaligned (such as the eighth circle-^ m, Figure 710, the friction between the stern tube (9 G) and the punching edge at this time Large, with adjacent cooling fins (80) door = unstable, it may change the size of the adjacent design ("). The original design size is changed, which causes the size of the Yan product to be different-Erying M267823 [ What's new] From the above, it can be known that the existing combined heat sink still has significant defects, and further feasible solutions need to be sought. Therefore, the main purpose of this creation is to provide a combined heat sink that can effectively avoid the dimensional change during processing operations. The main technical means adopted to achieve the foregoing objective is to sequentially assemble a plurality of heat sinking Korean fins in a face-to-face manner; it is characterized in that: each heat sinking fin forms at least one bonding sheet on two opposite sides, respectively One side of the fin is slightly bent at a right angle, and faces the other radiating fin; the bonding fin forms an extension at the outer edge near the free end;
利用則述構這,在相鄰散熱鰭片依序併排時,一散熱鰭 上的接合片將抵接於相鄰另一散熱鰭片的接合片上,隨後令 :則散熱鰭片的接合片上之第一延伸部向内延伸,而抵擎於相 =韓片的相對背側上’藉此可使散熱韓片得與相鄰散㈣ 二'的組接在-起,由於結合穩固,尺寸固定,故裝配如導: B 4相關元件時,不虞造成散熱片的尺寸改變。 一 j述月欠……、、耆#的接合片於接近根部的内側緣處形成有一: :延伸部’其經彎折可卡掣於相鄰散熱鰭片的前側,以進一: 日進相鄰散熱鰭片間的結合穩定度。 前述散熱鰭片於至少一旛鏠卜犯a ώ %^ ^遺、、彖上形成有一折邊,藉以限制; ㈤政熱鰭片間形成的氣流流向。 前述散熱鰭片上的折邊與接合片係位於同一側。 【實施方式】 5 M267823 散孰二第係本創作—較佳實施例,主要係由複數的 :二二 面對面方式依序疊接而構成-立體型態的 ^關中,錢熱.鳍>1 (1 G)係呈矩形薄片狀 ’惟不限於該等規則形狀,寻片狀 邊上形成有至少一個接合片(二片(:〇)於相對的兩長 鍺H f «Τ η、 片(1 1 ),於本實施例中,該散埶 ‘鰭片(ίο)於相對的兩長邊上分別形成有兩接合片(η;、、 (12) ’兩接合片(11)(12)係由散熱 的長邊朝其中-面作約九十度的f折,又兩接合片(11) r 1 2 )係分別朝向斜上與斜下方向,而接合片(Η ) ( 12 )自由端的外側緣處形成有一第一延伸部(丄工丄)(1 2工 )’其未與其他散熱錄片(1〇)接合前,係與接合片(Η \ (12)位於同-平面上。又前述散顏片(iq)上亦可 形成供導熱管穿置的沖孔(圖中未示)。 前述散熱鰭片(1 〇 )與相鄰的散熱鰭片(丄〇,)接入 日::係以兩長邊上的接合片(11) (12)靠向相鄰散熱: 片(10,)上的接合片(11,)(12,),進一步而言該 s片(1 1 ) ( 1 2 )係以其内斜邊抵靠於相鄰散熱鰭片( 1 〇’)上所設接合片(i ιυ ( i 2,)的外斜邊,^時接合 片(1 1 ) ( 1 2 )上的延伸部(i i i ) ( i 2丄)適位於 相4政熱,if片(1 〇 )的背侧,隨後將延伸部(1 1 1 )( 1 2 1 )向内f折’則延伸部(丄i丄)(丄2丄)的内侧邊 即卡掣於相鄰散熱鰭片(1 〇,)的背側面上(請配合參閱第 厂三圖所示),至此,散熱縛片(10)即可與相^散熱 ’、’、θ片(1 0 ’)穩固且緊密的結合。由於相鄰散熱鰭片(1 〇 )(1 0 ’)間的結合緊密,故尺寸固定,即使經過其他加工 M267823 或與其他配件的組合,亦不虞改變尺寸,可確保產品規格的— 致。 又如第四圖所示,係本創作又一較佳實施例,其基本架構 =前-實施例大致相同’不同處在於:散熱鰭片(丄〇)的接 口片(1 1 )( 1 2 )在接近根部的内側緣處形成有一第二延 伸》M112) (122),該第二延伸部(112)(工2 2)與前述第一延伸部(1 1 1 )( 1 2 1 )的距離約為一散 熱鰭片(10)的厚度,故一散熱籍片(1〇)與相鄰散孰嗜 片(10’)接合時’其接合片(11) (12)的第二/第 -延伸部(112) (122)/(111) (121)適分 別位於相鄰散熱鰭片(i ◦’)的前側面與背側面,並同時卡 隼其上„亥相鄰的散熱韓片(^ 〇,)則可以相同方式與又— 相鄰散熱鰭片(1 n,>1垃人 ^ ^ A , 々、丄U )接合,其接合片(11,) (12,)的 第二/第一延伸部1 9 Mf·! on,、 , k 丄 12 ) (122,)/(111,)(1 2 1 )亦適位於又-相鄰散熱鰭片(1 0’)的前側面與背側 面’藉此可進一步增進相鄰散熱韓片(1 0 )( 1 〇,)間的 結合穩定性。 再5月參閱第五、丄国% 一 , /、圖所不,係本創作之再一較佳實施例, 其基本架構與前述第-杏 罘一只施例大致相同,不同處在於:該散熱 魚餐片(1 0 ) ( Ί η ,、 i ^ 0)在至少一長邊上形成有折邊(13) )亥折邊(1 3 )( 1 3,)可為複數,並分別相鄰 )(1〇)上的接合片(11)(11,) )(1 2 ’),本實施例係於散熱鰭片(;! 〇 ) ( 1 〇 , )的兩相 yv 〇〇 刀別形成折邊(1 3 ) ( 1 3,),惟亦可 單邊設置。該折邊 <,。〆 (13) ( 1 3 ’)則用以引導或限制氣流 M267823 的流向。 f由=㈣明可看出本創作各個實施例之具體實施方式及構 产固、由目二IS ^亥等^又计可使相鄰散熱鰭片間的結合更為 私固,由於結合的穩固性高’故其尺寸規格固$,即 置導熱管或與其他配件組裝,亦不虞在作㈣程中直^ ,故可確保產品規袼的一致性。 ,、尺寸 【圖式簡單說明】 第一圖:係本創作一較佳實施例的分解圖。 第一圖··係本創作一較佳實施例的前視平面圖。 第一圖·係本創作一較佳實施例的俯視平面圖。 第四圖·係本創作又一較佳實施例的分解圖。 第五圖·係本創作再一較佳實施例的分解圖。 第圖:係本創作再一較佳實施例的前視平面圖。 第七圖:係既有組合式散熱片的分解圖。 第八圖:係既有組合式散熱片的前視平面圖。 【主要元件符號說明】 (1〇)散熱鰭片 (1 1 ) ( 1 1 ’)( 1 2 ) ( 1 2,)接合片 (11工)(121)第一延伸部 111 ) (121,)第一延伸部 (1 1 2 } ( 1 2 2 )第二延伸部 (1 1 2 ’) ( 1 2 2,)第二延伸部 (1 3 ) ( 1 3,)折邊 (8 〇 )散熱鰭片(8 1 )折邊 M267823 (82)卡槽 (83)突片 (8 4 )沖孔 (9 0 )導熱管This principle is used to describe this. When adjacent fins are arranged side by side in sequence, the bonding fins on one fin will abut on the bonding fins of another adjacent fin, and then: The first extension portion extends inward, and is opposed to the opposite side of the phase = Korean film. 'This allows the heat sinking Korean film to be connected to the adjacent fan 2' group. Due to the stable combination, the size is fixed. Therefore, when assembling such as guides: B 4 related components, the size of the heat sink may be changed.一月 月 月 …… 、、 耆 # The joint piece near the inner edge of the root is formed with a:: extension portion which can be snapped on the front side of the adjacent heat sink fin to further advance: Bonding stability between fins. The aforementioned heat-dissipating fins have a folded edge formed on at least one of them, thereby restricting the airflow direction formed between the thermal fins. The folded edge on the heat dissipation fin is located on the same side as the bonding sheet. [Embodiment] 5 M267823 The second series of this creation-a preferred embodiment, is mainly composed of a plurality of: two-two face-to-face superimposed sequentially-three-dimensional form of guanzhong, money hot. Fins> 1 (1 G) is a rectangular sheet-like shape, but it is not limited to these regular shapes, and at least one bonding piece (two pieces (: 0) is formed on the opposite edge of the sheet-finding edge (two pieces: (0)) and the opposite two long germanium H f «T η, pieces ( 1 1), in this embodiment, two loose pieces (η; ,, (12) 'two loose pieces (11) (12) are formed on the two opposite long sides respectively. The f-fold is about ninety degrees from the long side of the heat dissipation towards its mid-face, and the two engaging pieces (11) r 1 2) are oriented obliquely upward and downward, respectively, and the engaging piece (Η) (12) is free A first extension (丄 工 丄) (12 workers) is formed at the outer edge of the end, and it is located on the same plane with the joining piece (Η \ (12) before it is joined with the other heat-dissipating recording piece (10)). Also, a punching hole (not shown in the figure) for the heat pipe to pass through can be formed on the loose face sheet (iq). The heat dissipation fin (10) is connected to the adjacent heat dissipation fin (丄 0,). day :: The two tabs (11) and (12) on the two long sides are used to dissipate heat from the adjacent tabs: The tabs (11,) (12,) on the sheet (10,), and further, the s sheet (1 1 ) (1 2) is that the inner beveled edge abuts against the outer beveled edge of the joining piece (i ιυ (i 2,)) provided on the adjacent heat dissipation fin (1 0 ′), and the time-lapse joining piece (1 1) The extension (iii) (i 2 丄) on (1 2) is located on the back side of the phase 4 political heat, if sheet (1 0), and then the extension (1 1 1) (1 2 1) is inward f Fold ', the inner side of the extension (丄 i 丄) (丄 2 丄) is locked on the back side of the adjacent heat sink fin (10,) (please refer to the third picture of the factory), so far, The heat-dissipating fins (10) can be firmly and tightly combined with the relative heat-dissipating heat sinks ',', and θ (1 0 '). Since the adjacent heat-dissipating fins (1 0) (1 0') are tightly coupled, The size is fixed. Even after other processing M267823 or the combination with other accessories, the size is not changed to ensure that the product specifications are consistent. As shown in the fourth figure, this is another preferred embodiment of this creation. Its basic structure = Front-Example roughly The difference is that the interface piece (1 1) (1 2) of the heat dissipation fin (丄 〇) is formed with a second extension "M112" (122) near the inner edge of the root, and the second extension (112 ) (工 2 2) and the first extension (1 1 1) (1 2 1) have a distance of about the thickness of a heat dissipation fin (10), so a heat dissipation fin (10) is adjacent to the When the addicted sheet (10 ') is joined, the second / first-extended portion (112) (122) / (111) (121) of its joined sheet (11) (12) is suitably located on the adjacent heat sink fin (i ◦ ')' S front side and back side, and at the same time click on the adjacent radiating Korean fins (^ 〇,) in the same way-the adjacent radiating fins (1 n, > 1 garbage person ^ ^ A, 々, 丄 U), the second / first extension of the bonding piece (11,) (12,) 19 Mf ·! On ,,, k 丄 12) (122,) / (111, ) (1 2 1) is also suitable to be located on the front side and the back side of the adjacent heat-radiating fins (1 0 '), thereby further improving the combination between the adjacent heat-radiating fins (1 0) (1 0,) stability. Please refer to the fifth and the second country in May again. /, The picture is not, it is yet another preferred embodiment of this creation, its basic structure is roughly the same as the previous one-the first embodiment, the difference is that: The heat-dissipating fish meal pieces (1 0) (Ί η ,, i ^ 0) are formed with folds (13) on at least one long side. The folds (1 3) (1 3,) can be plural and are respectively related to each other. The bonding sheet (11) (11,)) (1 2 ′) on the adjacent) (1〇), this embodiment is tied to the two-phase yv 〇〇 of the heat sink fin (; 〇) (1 〇,) Form the folded edge (1 3) (1 3,), but it can also be set on one side. The hem <. 〆 (13) (1 3 ′) is used to guide or restrict the direction of airflow M267823. f == Ming Ming can see the specific implementation and structure of the various embodiments of this creation, from the second IS ^ Hai, etc. ^ It can also make the bonding between adjacent cooling fins more private, due to the combined High stability, so its size and specifications are fixed, that is, heat pipes or assembled with other accessories, and it is not necessary to be straight in the process, so it can ensure the consistency of product specifications. ,, size [Simplified description of the drawing] The first picture: is an exploded view of a preferred embodiment of this creation. The first figure is a front plan view of a preferred embodiment of the present invention. The first figure is a top plan view of a preferred embodiment of the present invention. The fourth figure is an exploded view of another preferred embodiment of the present invention. The fifth figure is an exploded view of yet another preferred embodiment of the present invention. Figure: A front plan view of yet another preferred embodiment of the present invention. Figure 7: An exploded view of an existing combined heat sink. Figure 8: A front plan view of an existing combined heat sink. [Description of Symbols of Main Components] (10) Heat-dissipating fins (1 1) (1 1 ′) (1 2) (1 2,) bonding piece (11 workers) (121) first extension 111) (121) First extension (1 1 2) (1 2 2) Second extension (1 1 2 ′) (1 2 2,) Second extension (1 3) (1 3,) Flanged (80) heat dissipation Fin (8 1) Flanged M267823 (82) Card slot (83) Projection (8 4) Punching (9 0) Heat pipe