200933079 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種散熱模組的結構設計,尤指一種鰭 片呈環狀嵌合組成的散熱模組設計,包括散熱管、散熱鰭 片組及散熱盤所組成,係使複數個鰭片以輻射狀排列鉚合 於散熱管外週壁,散熱盤則固定於散熱管下端,以供貼觸 發熱單元,提供更佳的散熱效率。 【先前技術】 〇 習知散熱模組,係包括散熱鰭片組與一底座所組成, 通常選用鋁、銅材質,以複數個鰭片相鄰排列成一散熱鰭 片組,並將鰭片焊接(熱熔)結合於底座,故必須以錫膏 或黏接劑作為焊接結合的媒介,若是材質不同,則必須事 先以電鍍鎳處理再施焊接,故整體組合裝配複雜不便,製 造成本高,不良率也高,且熱傳導效率不佳,電鍍鎳處理 亦具有汙染性,不符環保原則。 此外,如傳統的LED投射燈具,雖具有低耗電特性, 〇 但實際上因LED發光體的耐熱程度很低,因此如何克服高 溫的散熱是一項很重要的課題,而習知使用於LED燈具的 散熱模組,因無法提供快速有效的散熱模組,故只能提供 低功率的照明。已知LED投射燈具的散熱模組,其係配置 結合一個以模鑄成型的散熱殼座,該散熱殼座因採金屬模 鑄成型,故很沉重,散熱效果亦不如預期,反而使得led 燈具更顯笨重且成本很高,顯然無法達到實用程度。 【發明内容】 200933079 本發明之主要目的,乃在於提供一種鰭片呈環狀嵌合 組成的散熱模組設計,係包括一散熱管、一散熱鰭片組及 一散熱盤所組成,構成該散熱模組的複數個鰭片是以輻射 狀排列方式嵌入散熱管的外週壁而形成鉚合,且各相鄰鰭 片並呈相互搭扣結合,散熱盤則固定於散熱管下端,其組 合穩固,可由散熱盤貼觸發熱單元再通過散熱管將高溫傳 遞至散熱鰭片組,而迅速完成散熱,其散熱效率極高。 本發明之次要目的,乃在於提供一種鰭月呈環狀嵌合 @ 組成的散熱模組設計,其係非常適合配置應用於LED燈具 ,利用散熱盤與複數個由LED串列構成的發光單元形成直 接貼觸,故能將發光單元的高溫迅速經由散熱管傳遞至散 熱鰭片組,達到快速散熱效果,因此能提高LED燈具的散 熱效率,並增進燈具的照明功率。 本發明之另一目的,乃在於提供一種鰭片呈環狀嵌合 組成的散熱模組設計,該散熱模組係在各鰭片的上端部與 底端部分別設有一組以上可對應匹配的搭扣片,使各相鄰 Q 的鰭片形成相互搭扣結合,且底端部的搭扣片係可沿著散 熱盤周緣的階級面分佈,使搭扣片可貼置於散熱盤的周緣 面,用以增加鰭片與散熱盤的接觸面積,進而提升其高溫 傳遞效率。 本發明之再一目的,乃在於提供一種鰭片呈環狀嵌合 組成的散熱模組設計,該散熱模組於各鰭片的内壁端係形 成一壓褶根部,用以對應鉚合於散熱管外週壁的匹配嵌槽 ,使各鰭片可快速穩固的完成嵌入鉚合,並增加鰭片根部 與散熱管的接觸面積,更有效的提高其傳熱效率。 200933079 本發明之又-目的’乃在於提供一種鰭片入 組成的散熱模組設計,該散熱模組於各銬 tσ 的壓褶根部’係可經過對摺或彎折加工㈣成::::士 形狀的壓娜部,減褶根部的㈣不拘 ς = 翻轉倒折而直接貼觸義成型,或將根部 轉倒折後再貼觸壓褶呈一捲曲形,以上的上疋將根糊 屬簡易可行,故無料形狀限形態均 Ο 本發明之又-目的,乃在於提供一種韓片呈環狀嵌合 、、且成的散熱模組設計,該散熱模組的散熱管可為一中*管 體’故可制擠型技術而於管壁成型設有多數嵌槽 間化散熱管的製造,非常適合大量生產並降低成本。 【實施方式】 、,兹依附圖實施例將本發明結構特徵及其他作用、 詳細說明如下: 山如第-圖至第三圖所示,係顯示本發明「錯片呈環狀 υ成的散熱模組」適應用於—LED燈具1G組合的且 體實施例,但實際上,本發明適配應㈣對象或使用領域 ’並不以LED燈具為限制,舉凡其它發熱單元(如cp⑺, 亦均可同理應用,合先陳明;請參照圖面的實施例所揭示 盆本發明所為「鰭片呈環狀嵌合組成的散熱模組」設計, -主要係土括一散熱管工、一散熱鰭片組2及一散熱盤3 斤’’·成洳述構件可由銅或鋁或具散熱性的其他金屬材質 製成,而其令: 放…苢1 如第一圖及第四圖所示,其係一中空管體 200933079 ’並於管體外週壁開設複數個相鄰的嵌槽η,且在每相鄰 的兩個嵌槽11之間均預設一又形 θ ^ ^ U〜刀口丄價U ’而官體内週 土則权有數個延伸的鎖接孔13,純槽u係可 組2的鰭片21 (如第五、;圖、、灸姑 s月又……日月 弟五/、圖)逐一植入,再利用加工槽 的加工變形而將各鰭片21礙入鉚合於管體外週壁,管體 上端的鎖接孔13係供鎖合連結— LED燈具1()的電連^ 1〇1 (如第二圖); 散熱韓片組2,係由複數個鰭片21以轄射狀排列構成 ❹第一、五圖所示’各籍片21的内壁端⑶係匹配嵌入散 熱官1,後槽1卜並通過加工槽12的加工變形而圍繞柳合 於散熱官1的外週壁上,形成穩固結合; 散熱盤3,係固定設於散熱管i的下端,並與散熱鰭 片組2形成如卡止狀態的結合,散熱盤3下方係與發熱單 疋形成貼置結合’於實施例所揭’所述發熱單元係指一led 基,4及一組由複數個lED串列構成的發光單元5,該發 光早凡5會產生高溫,惟使高溫可通過散熱盤3傳遞至散 〇熱鰭片組2,而必要時該發熱單元亦可能是CPU,並不以 LED燈具的發光單元5為限,此外,如第二、三圖所示, 散熱盤3係可實施為一周邊具有多階級部31的平盤體,盤 體表面開設有複數個鎖孔32、33,分別可鎖固於散熱管1 下端的延伸鎖接孔13,及提供LED基板4之鎖設固定; 利用上述散熱管1、散熱鰭片組2及散熱盤3組成的 政熱模組,主要是以散熱盤3貼觸於匹配對應的發熱單元 ,於發熱單元產生高熱時,可依序通過散熱盤3及散熱管 1而將咼溫傳遞至散熱鰭片組2,因此能快速且高效率的 200933079 完成散熱工作,如圖所示,係揭示散熱模組配置設於led 燈具10,於LED燈具10的發光單元5產生高熱時,即可通 過LED基板4、散熱盤3、散熱管1將高溫快迷傳遞至散 熱鰭片組2,並完成散熱,其整體散熱效率極高,故可相 • 對增加LED燈具10的照明功率。而同理可知’此項散熱模 組也能適用於cpu 4各種的發熱單元,其只需散熱盤3貼 觸於CPU的發熱區域即可產生相同的散熱效果。 上述LED燈具1〇的電連接頭1(n、LED基板4或發光單 ❹兀5,均為習知構件,因本發明的散熱效率極高,故所述 的發光單兀5係可由較多複數個LED串列構成,藉此提高 照明功率。 如第六圖所示,上述散熱鰭片組2的各鰭片21,其上 端部與底端部係分別設有一組或一組以上可對應匹配的搭 扣片212、213,使各相鄰的鰭片21可形成相互搭扣結合, 進而構成如第二圖所示的散熱鰭片組2,又上述上端部與 底端部的搭扣片212、213,係分別設有扣孔2121、2131及 ❹凸扣2122、2132,其中的凸扣2122與凸扣2132係分別可為 '朝下與朝上不同突起,因此使散熱鰭片組2的整體搭扣結 合更為牢固。 ° 上述各韓片21底端部的數個搭扣片213 ’其係沿著散熱 盤3多階級部31的階級面而呈高低匹配分佈,而圖中所示 的缺口 214主要是為了閃避螺栓41而開設。上述底端部的搭 扣片213除了具有相互搭扣的結合功能,且能增加各鰭片21 與散熱盤3的接觸面積,以提升高溫傳遞效率。另,散熱 鰭片組2的底端口除與散熱盤3結合外,亦可再依附結合 7 200933079 一透光的燈罩板6。 如第七圖與第八圖所示,上述各鰭片21的内壁端係亦 可形成為一壓褶根部2iia,用以對應嵌入鉚合於散熱管工 的外週壁,使結合更為穩固,並增加鰭片21根部與散熱管 1的接觸面積,因此更有效的提高其傳熱效率。 上述的壓褶根部211a,其形態無特定形狀限制,凡是 可經過對摺或彎折加工所成型的壓褶根部,均屬可行,例 如第九圖與第十圖所示呈L形的壓褶根部2Ub、第十一圖 ❹ 第十圖所不王二角形的麗摺根部211c、第十三圖與第 2四圖所示呈捲曲形的壓糟根部211〇1,或第十五圖與第十 六圖所示呈倒T形的麼褶根部211e,即分別揭露各種不同 形狀的壓褶根部211b、211c、211d、211e。 & *夕’本發明中的散熱管1,其係可採用擠型技術而 於官壁成型設有錄嵌槽11及交錯的加1槽12,因此能簡 化散熱^ 1的製造,故非常適合大量生產而降低成本。 ❹ 且全士弟十七圖與第十八圖所示,本發明應用於的燈 二=時’係可於散熱鰭片組2外再匹配套置—碗形的外 望’且外殼座7與散熱鰭片組2可為迫緊卡合或扣接 71 了、方ί而裝配組成’又外殼座7可開設複數個散熱孔 雖,’ L供高溫散熱。如第十九圖所示的另—種外殼座8形 =1呈-簡單的環圈形狀,同理可供裝配結合於散熱 外端’絲熱w組2的裸露部份較多,散 所述的散熱管1 ,可於實心管體 依據本發明的設計精神,同理可知, 〜要時亦可制實㈣管體來取代實施 200933079 的外週壁開設複數個相鄰的嵌槽及交錯相 散熱管丄可為中空或實心 刀工槽,故 形狀也不以圓管體為限,如:L =熱 =幾何形狀均同理可採用,並無特別限制;又=形= 各鰭片的形狀、大小或規格,或是各續 能 ’同=沒有特別限定的必要,其所排列=片態 ;變:==改;’故凡基於相同技術内容所為: ❹ :ί=ΪΓί,均仍不脫本案所申請技術料。 ,.不上所述’可知本發明所為厂讀片呈環狀嵌 政熱模組」設計’其結構組成及手段應用已符合;穎= 祈依法審定並賜准專利,至感德y/、有進步功效,敬 【圖式簡單說明】 f 一圖為本㈣制於咖燈具的組合立體圖。 =-圖為本發明制於LED燈制分解立體圖。 =二圖為本發明制於LED燈具的組合斷面圖。 ί四圖為本發財散熱管的局部放大4圖。 ί五圖為本發明中散熱管與則的鉚合斷面圖。 第/、圖為本發明中單—鰭片的立體圖。 第七圖為本發明於鰭片内壁端增設屢糟根 局部示意圖。 ^圖為第七圖所示鰭片與散熱管的鉚合斷面圖。 圖為本I月於韓片内壁端增設L形屢摺根部的實 施例局部示意圖。 第十圖為第九圖所示鰭片與散熱管的鉚合斷面圖。 200933079 第十一圖為本發明於链y …-施例:;:2端增設三角形娜部 ^圖為第十-圖所示Μ與散熱卩合斷面圖 胃t 簡設_形壓摺根部 々 的實鈿例局部示意圖。 弟十四圖為第十三圖所示鳍片與散熱管的鉚合斷面圖200933079 VI. Description of the Invention: [Technical Field] The present invention relates to a structural design of a heat dissipation module, and more particularly to a heat dissipation module design in which a fin is formed in a ring shape, including a heat dissipation tube and a heat dissipation fin group And the heat sink is composed of a plurality of fins arranged in a radial arrangement on the outer peripheral wall of the heat dissipation tube, and the heat dissipation plate is fixed on the lower end of the heat dissipation tube for attaching the trigger heat unit to provide better heat dissipation efficiency. [Prior Art] A heat dissipation module consists of a heat sink fin set and a base. Usually, aluminum and copper materials are used, and a plurality of fins are arranged adjacent to each other to form a heat sink fin group, and the fins are welded ( The hot melt is bonded to the base, so solder paste or adhesive must be used as the medium for soldering. If the material is different, it must be treated with electroplated nickel before welding. Therefore, the overall assembly is complicated and inconvenient, and the manufacturing cost is high. It is also high, and the heat transfer efficiency is not good. The electroplating nickel treatment is also polluting and does not conform to environmental protection principles. In addition, as traditional LED projection lamps have low power consumption characteristics, in fact, due to the low heat resistance of the LED illuminators, how to overcome the high temperature heat dissipation is an important issue, and is conventionally used for LEDs. The heat dissipation module of the luminaire can only provide low-power illumination because it cannot provide a fast and effective heat dissipation module. The heat-dissipating module of the LED projection lamp is known to be combined with a heat-dissipating shell for molding, which is formed by metal mold casting, so the heat dissipation effect is not as expected, but the LED lamp is more Obvious and costly, it is obviously not practical. SUMMARY OF THE INVENTION The main purpose of the present invention is to provide a heat dissipation module design in which a fin is formed in a ring shape, which comprises a heat dissipation tube, a heat dissipation fin group and a heat dissipation disk, and constitutes the heat dissipation. The plurality of fins of the module are embedded in the outer peripheral wall of the heat dissipation tube in a radial arrangement to form a riveting, and the adjacent fins are coupled to each other, and the heat dissipation plate is fixed to the lower end of the heat dissipation tube, and the combination thereof is stable The heat unit can be triggered by the heat sink to transfer the high temperature to the heat sink fin group through the heat pipe, and the heat dissipation is quickly completed, and the heat dissipation efficiency is extremely high. A secondary object of the present invention is to provide a heat dissipation module design comprising a fin-shaped ring-shaped mosaic@, which is very suitable for configuration in an LED lamp, and uses a heat-dissipating disk and a plurality of light-emitting units composed of LED strings. The direct contact is formed, so that the high temperature of the light-emitting unit can be quickly transmitted to the heat-dissipating fin group through the heat-dissipating tube to achieve a rapid heat-dissipating effect, thereby improving the heat-dissipating efficiency of the LED lamp and improving the lighting power of the lamp. Another object of the present invention is to provide a heat dissipation module design in which a fin is formed in a ring shape, and the heat dissipation module is provided with one or more sets corresponding to the upper end portion and the bottom end portion of each fin. The fastening piece is arranged such that the fins of the adjacent Qs form a snap-fit combination, and the fastening piece of the bottom end portion can be distributed along the class surface of the periphery of the heat dissipation disk, so that the fastening piece can be placed on the periphery of the heat dissipation disk The surface is used to increase the contact area between the fin and the heat sink, thereby improving the high temperature transfer efficiency. A further object of the present invention is to provide a heat dissipation module design in which a fin is formed in a ring shape, and the heat dissipation module forms a pleated root portion at an inner wall end of each fin for corresponding riveting to heat dissipation. The matching recessed groove on the outer peripheral wall of the tube enables the fins to be quickly and firmly embedded and riveted, and increases the contact area between the fin root and the heat pipe, thereby more effectively improving the heat transfer efficiency. 200933079 The purpose of the present invention is to provide a heat sink module design of fins, which can be folded or bent (4) into the pleated root portion of each 铐tσ::::士The shape of the pressing part, the pleated root part (four) is not arbitrarily = flipped and folded directly and touched the shape, or the root is turned down and then the pleats are curled, the upper scorpion will be simple It is feasible, so the shape-free shape is uniform. The purpose of the present invention is to provide a heat-dissipating module design in which a Korean piece is formed in a ring shape, and the heat-dissipating tube of the heat-dissipating module can be a middle tube. The body can be manufactured by extrusion technology and the majority of the inter-groove heat pipe is formed on the pipe wall, which is very suitable for mass production and cost reduction. [Embodiment] The structural features and other functions of the present invention will be described in detail below with reference to the accompanying drawings. As shown in the first to third figures, the present invention shows a heat dissipation in the form of a ring. The module" is adapted to be used in the embodiment of the LED lamp 1G combination, but in fact, the invention is adapted to (4) the object or the field of use 'is not limited by the LED lamp, and other heat generating units (such as cp (7), also The same can be applied to the same application, please refer to the embodiment of the drawing. The invention is designed as a "heat-dissipating module composed of a ring-shaped fin-shaped fitting", and the main system is a heat-dissipating pipe. The fin assembly 2 and a heat sink 3 kg'' can be made of copper or aluminum or other metal materials with heat dissipation, and let: 苢1 as shown in the first and fourth figures It is shown that it is a hollow tubular body 200933079' and a plurality of adjacent recessed grooves η are opened in the outer peripheral wall of the tube, and a shape of θ ^ ^ U is preset between each adjacent two recessed slots 11 ~ knife edge price U 'and the body of the body has a number of extended locking holes 13, the pure groove u system The fins 21 of the group 2 (such as the fifth, the figure, the moxibustion s month, the sacred moon, the fifth, the fifth), are implanted one by one, and then the fins 21 are obstructed by the processing deformation of the processing groove. Cooperating with the outer peripheral wall of the tube, the locking hole 13 at the upper end of the tube body is for locking connection - the electrical connection of the LED lamp 1 () ^ 1〇1 (as shown in the second figure); the heat dissipation Korean group 2 is composed of a plurality of The fins 21 are arranged in a ruling arrangement. The inner wall ends (3) of the respective pieces 21 are matched with the heat dissipating officer 1 and the rear groove 1b and processed by the processing groove 12 to surround the fins. A heat-dissipating plate 3 is fixedly disposed on the outer peripheral wall of the heat-dissipating member 1; the heat-dissipating disk 3 is fixedly disposed at the lower end of the heat-dissipating tube i, and forms a combination with the heat-dissipating fin group 2, such as a locked state, and the heat-dissipating disk 3 is provided with a heat-generating single The heat generating unit is referred to as a led group, 4 and a group of light emitting units 5 composed of a plurality of lED series, and the light is generated at a high temperature, but the high temperature is generated. It can be transferred to the heat dissipation fin set 2 through the heat sink 3, and if necessary, the heat generation unit may also be a CPU, not the light unit of the LED light fixture In addition, as shown in the second and third figures, the heat dissipating disc 3 can be implemented as a flat disc body having a multi-stage portion 31 at the periphery thereof, and the surface of the disc body is provided with a plurality of locking holes 32 and 33, respectively, which can be locked. The extension locking hole 13 fixed to the lower end of the heat pipe 1 and the locking and fixing of the LED substrate 4 are provided; the heat dissipation module composed of the heat dissipation pipe 1, the heat dissipation fin group 2 and the heat dissipation disk 3 is mainly a heat dissipation disk 3After matching the corresponding heating unit, when the heating unit generates high heat, the heat can be transmitted to the heat sink fin group 2 through the heat sink 3 and the heat pipe 1 in sequence, so that the heat can be quickly and efficiently completed in 200933079. The work, as shown in the figure, reveals that the heat dissipation module is disposed in the LED lamp 10, and when the light-emitting unit 5 of the LED lamp 10 generates high heat, the LED substrate 4, the heat sink 3, and the heat pipe 1 can be passed through the high temperature fast. To the heat sink fin group 2, and complete the heat dissipation, the overall heat dissipation efficiency is extremely high, so the illumination power of the LED lamp 10 can be increased. Similarly, the cooling module can also be applied to various heating units of the CPU 4, and the same heat dissipation effect can be produced only by the heat sink 3 being attached to the heat generating area of the CPU. The electrical connector 1 (n, the LED substrate 4 or the light-emitting unit 5) of the above-mentioned LED lamp is a conventional member. Since the heat dissipation efficiency of the present invention is extremely high, the light-emitting unit 5 can be more A plurality of LEDs are arranged in series to thereby increase the illumination power. As shown in the sixth figure, each of the fins 21 of the heat dissipation fin set 2 has one or more sets of upper end portions and bottom end portions respectively. The matching fastening tabs 212 and 213 are configured such that the adjacent fins 21 can be coupled to each other to form a heat dissipating fin group 2 as shown in the second figure, and the upper end portion and the bottom end portion are buckled. The strips 212, 213 are respectively provided with button holes 2121, 2131 and the buckles 2122, 2132, wherein the buckles 2122 and the buckles 2132 can respectively be different downwards and upwards, thus making the fins The integral buckle of the two pieces 2 is more firmly combined. The plurality of fastening pieces 213' at the bottom end portions of the above-mentioned Korean sheets 21 are arranged in a height matching manner along the level of the multi-stage portion 31 of the heat-dissipating plate 3, and in the figure The notches 214 are shown to be mainly for the purpose of escaping the bolts 41. The above-mentioned bottom end portions of the fastening pieces 213 have in addition to each other. The combination function of the buckles can increase the contact area between the fins 21 and the heat sink 3 to improve the high-temperature transmission efficiency. In addition, the bottom port of the heat-dissipating fin group 2 can be combined with the heat-dissipating disk 3, and can also be attached to the combination. 200933079 A light-transmissive lampshade plate 6. As shown in the seventh and eighth figures, the inner wall ends of the fins 21 can also be formed as a pleated root portion 2iia for correspondingly riveting into the heat-dissipating pipe cutter. The outer peripheral wall makes the bonding more stable and increases the contact area between the roots of the fins 21 and the heat pipe 1. Therefore, the heat transfer efficiency is more effectively improved. The above-mentioned pleated root portion 211a has no specific shape limitation, and can be The pleated root formed by folding or bending is feasible, for example, the pleated root 2Ub of the L shape shown in the ninth and tenth figures, and the eleventh figure The root portion 211c of the knuckle root portion 211c, the thirteenth image and the fourth and fourth figures have a curled root portion 211〇1, or the inverted T-shaped pleat root portion 211e shown in the fifteenth and sixteenth figures, that is, Differently shaped pleated roots 211b, 211c, 211d, 211e are respectively disclosed. * 夕 'The heat pipe 1 of the present invention can be formed by inserting the groove 11 and staggering the groove 1 in the official wall by the extrusion technique, thereby simplifying the manufacture of the heat sink 1, which is very suitable for a large number of Production and cost reduction. ❹ And the full text of the seventeenth and eighteenth figure, the light applied to the second light of the invention can be re-matched outside the heat sink fin group 2 - the shape of the bowl 'The outer casing 7 and the heat-dissipating fin group 2 can be tightly engaged or fastened 71, and assembled and assembled. 'The outer casing 7 can open a plurality of heat-dissipating holes, 'L for high-temperature heat dissipation. The other type of housing seat shown in Figure 9 is in the form of a simple ring shape. The same reason can be assembled and combined with the outer end of the heat dissipation. The exposed part of the wire heat group 2 is more, and the heat dissipation is scattered. The pipe 1 can be solid body according to the design spirit of the present invention. Similarly, it can be known that the pipe body can be used to replace the outer peripheral wall of the 200933079 to open a plurality of adjacent recessed grooves and staggered phase heat pipes.丄 can be hollow or solid knife groove, so the shape is not limited to the circular pipe body, such as: L = heat = geometry is equally acceptable There is no particular restriction; another = shape = shape, size or specification of each fin, or each continuation of the same 'the same = no special restrictions, its arrangement = state; change: == change; ' Based on the same technical content: ❹ : ί=ΪΓί, are still not out of the technical materials applied for in this case. Not in the above description, it can be seen that the design of the factory is a circular embedded political thermal module design. Its structural composition and means have been applied; Ying = praying according to law and granting patents, to the sense of y /, There are progressive effects, respect [simplified description of the diagram] f a picture is based on (4) a combination of stereoscopic diagrams of coffee lamps. =- Figure is an exploded perspective view of the LED lamp system. = The second figure is a combined sectional view of the LED lamp manufactured by the present invention. Ί4 is a partial enlarged view of the heat pipe of the fortune.五V is a cross-sectional view of the heat-dissipating tube and the riveting section of the present invention. The figure / is a perspective view of the single-fin sheet of the present invention. The seventh figure is a partial schematic view of the invention in which a plurality of roots are added to the inner wall end of the fin. ^The figure shows the riveted section of the fin and the heat pipe shown in the seventh figure. The figure is a partial schematic view of an embodiment in which an L-shaped repeating root portion is added to the inner wall end of the Korean film in the first month. The tenth figure is a riveted sectional view of the fin and the heat pipe shown in the ninth figure. 200933079 The eleventh figure is the invention in the chain y ... - Example:;: 2 end of the triangle is added to the end of the part of the figure is the tenth - figure shown in the Μ and heat dissipation section of the stomach t simple _ shape of the root A partial schematic diagram of the actual example of 々. The fourteenth picture shows the riveting section of the fin and the heat pipe shown in the thirteenth figure.
第十五圖為本發明於鰭片㈣端增設倒了形㈣根部 第 的實施例局部示意圖。 '第十五圖所示鰭片與散熱管的鉚合斷面圖 0 第十七 、 圖為本發明應用於LED燈具時在散熱鰭片組外 面再套設一外殼座的另一實施例分解示意圖 第十八圖A」 第 M々第十七圖的組合立體圖。 圖為本發明應用於LED燈具時在散熱鰭片組外 面再套設另一種外殼座的又一實施例圖。 200933079 【主要元件符號說明】 10 LED燈具 101電連接頭 1 散熱管 2 散熱鰭片組 3 散熱盤 4 LED基板 5 發光單元 0 6 燈罩板 7、8 外殼座 11嵌槽 12加工槽 13鎖接孔 21鰭片 211 內壁端 211a、211b、211c、21 Id、21 le 壓褶根部 ❹ 212、213搭扣片 2121、 2131 扣孔 2122、 2132 凸扣 214 缺口 31多階級部 32、33 鎖孔 41螺栓 71散熱孔 11The fifteenth figure is a partial schematic view of an embodiment of the invention in which an inverted (four) root portion is added to the fin (four) end. 'The riveted section of the fin and the heat pipe shown in the fifteenth figure. FIG. 17 is a further embodiment of the embodiment of the present invention for applying an outer casing to the outer surface of the heat dissipating fin set. Fig. 18 is a combined perspective view of the Mth and 17th. The figure shows another embodiment of the outer casing of the heat dissipating fin set when the invention is applied to the LED lamp. 200933079 [Explanation of main component symbols] 10 LED lamp 101 electrical connector 1 heat pipe 2 heat sink fin group 3 heat sink 4 LED substrate 5 light unit 0 6 lamp cover board 7, 8 housing seat 11 slot 12 machining slot 13 locking hole 21 fin 211 inner wall end 211a, 211b, 211c, 21 Id, 21 le pleated root portion ❹ 212, 213 snap piece 2121, 2131 button hole 2122, 2132 convex buckle 214 notch 31 multi-stage portion 32, 33 lock hole 41 Bolt 71 heat dissipation hole 11