M366884 五、新型說明: 【新型所屬之技術領域】 本創作係一種散熱模組’其主要藉由支持座及下承座與散熱鰭片之緊 密配合’而達到將散熱模組快速固定組裝,並使熱源所產生之熱迅速向外 傳導之目的者。 【先前技術】 _ 按,電腦已是相當普及的設備,隨著電腦技術的快速發展,電腦廠商 不斷地追求運算速度更快、效能更佳的硬體設備,因此’電腦廠商也面臨 鲁電子元件(如處理器等)散熱之問題,由於該等電子元件之運作速度愈來 愈快,所產生之熱也愈來愈高。 同樣地’在日常生活中之照明設備亦由於能源危機的壓力,使得能源 損耗較大之傳統白熾燈在照明設備也面臨市場上銷售量萎縮之趨勢;所 以,近年來綠色光電產品成為熱門產業,因此效率高、省電能、壽命長' 冷發光、反應速度快及色彩一致性高等眾多較傳統發光件為佳之優點,使 知發光二極體(LED)之發展佔有舉足輕重之角色’因此發光二極體用於照明 設備係現今光電產業、照明產業發展的重點,且逐漸地取代傳統白熾燈的 I應用。 - 由於,不論是電腦或是以發光二極體作為照明器具之產品,其產品之 •壽命、功能攸關其散熱措施的良窳,因此,散熱亦成為關鍵性之問題。 請參照第1綱示,係以發光二極體為例,其為—種作紐光二極體 散熱用之散熱體100,該散熱體100上設有一散熱座13〇,該散熱座13〇上 裝有排成環狀之散熱片120,該等散熱片12〇係以位於前後之散熱鰭片以扣 接方式結合在-起,且該等散熱片12〇並由底端向頂端逐漸擴張而在該 等散熱片120頂端外圍套設有-環圈15〇,該賴15〇上設有數個與散熱片 120相對應之槽孔丨5丨’藉由該等槽孔151以套合方式與該等散熱片no結 s在起’且邊等散熱片120頂端内環置設有一燈座,該燈座下亦 M366884 S支有開口方向相反之框體16〇,該燈座U〇及框體16〇内係分別供置放發光 二極體與電路板(圖中未示);使用時,先將該整個散熱體⑽經過陽極處 理’以使該散熱體1〇〇形成絕緣狀態’再將該燈座14〇及框體16〇以藉由 知接方式固疋於該等散熱片12〇之内環;此種裝置、構造在使用時,係將 發光一極體及與之配合之電路板所產生之熱藉由散熱體丨〇〇來排除,惟因 該散熱體100係在中間設置一凹槽來容納燈座14〇及框體腿,所以, 僅在该凹槽11 〇之散熱片〗2〇之端緣處有接觸到燈座丨4〇及框體丨6〇,所以, 其散熱效果有限’在使用上不甚理想。 【新型内容】 創作綱要: 為改進上述習用裝置、構造之各種缺點,創作人經過長久努力研究與 實驗’終於開發設計出一種散熱模組。 本創作之-目的’在提供-種散熱模組,其至少包含有數個散熱趙片、 —支持座及-下承座;其中,該等散熱韓片係由内向外呈賴射狀排列,透 過該等散熱鰭K之内側依序形成-容置㈣及貫穿孔,該容置空間底部週 遭设有約呈90度彎折之折片,該等折片上設有固定孔;其中,該支持座設 於遠谷置空間内’該支縣與糊定孔相對位置上分別設有脉,該凸柱 與賴定孔相配合’·其中’該下承座設於該貫穿孔下方,並與該散熱鰭片 相固結;如此’齡該支持座及該下承座與散熱緊密結合,達到散熱 模組快速組裝之目的,並可省去焊接之成本支出。 本創作之又一目的,在挺供一種散熱模組,其下承座進一步設有—凸 伸之中空柱狀體’雜狀縣权該貫穿孔内,且練狀體之週圍係與該 散熱鰭>1之關觸靠’喊該巾空錄㈣讀賴由雜麟片緊密結 合’以達到快速散熱之目的。 本創作之又一目的,在提供一種散熱模組,該下承座令穿套有一連接 件’該連接件經由該貫穿孔支持座相連結而使該散熱模組更加穩固;同時, M366884 藉由該連接件而將熱傳導至散鏡片各處,而能達到快速散熱之目的。 本;ij作之:¾目的’在提供—種散熱模組,其支持座係由導熱材料製 成’以使該支持座藉由凸柱與固定孔之配合而緊密結合在一起時,而將該 支持座中之發熱體所產生熱源透過固定孔與凸柱之配合,迅速平均傳導至 散熱鰭片各處,而能達到快速散熱之目的。 【實施方式】 ,賴㈣-錄織組,請參閱第2、3、4 _*,其係顧於發熱 -體40為熱源之散熱模组1〇 (於本實施例係發光二極體為例),錄熱模組 • 10至少包含有數個散熱鰭片20、一支持座30及一下承座50。 … 籲 其中,邊等散熱錯片20係由内向外呈輪射狀排列,且該等散熱韓片2〇 之内側由上而下依序形成一容置空間22及貫穿孔23,該容置空間22係與 該貫穿孔23相連通;同時,該容置空間22之底部週遭處設有約呈9〇度寶 折之折片21 ’該等折片21係與相鄰之散熱縛片2〇相接觸,藉由該折片21 以形成該等散熱趙片20間之適當間距;該等折片21上設有至少一個固定 孔 201。 其中,該支持座30設於該容置空間22内,且該支持座3〇中可放置發 熱體40 (於本實施例為發光二極體燈座,如第3圖所示),惟熟悉該項技術 ‘籲者’仍可以置放不同的發熱體在其中,且該支持座3〇與各固定孔2〇1相對 位置上分別设有凸柱31 (於本實施例為一鉚釘,惟熟悉該項技藝者仍可以 -螺桿等實施)’如此’可使該支持座3〇與該散熱韓片2〇結合在一起(如第 3圖所示)。 其中,該下承座50設於該貫穿孔23下方,該下承座50與該支持座30 相對之一側设有與凸柱31相對應之固定孔51,如此,可使該支持座go與 s亥下承座50固結在一起,並藉由該支持座3〇與該下承座5〇而與該散熱鰭 片20結合在一起(如第3圖所示);該下承座50進—步延伸有一中空凸拄 體52,該中空凸柱體52内係設有供應該發熱體4〇之電力,該中空凸枉體 M366884 52係伸入該貫穿孔23内,且該中空凸柱體52之週圍係與該散熱鰭片2〇之 内側觸靠,以使該中空凸柱體52内之熱源藉由該散熱鰭片2〇緊^結合, 以達到快速散熱之目的。 ΰ 再者’凊參照第5、6圖所示’其為本創作之另一實施例,其與上述實 施例之不同係在於:該下承座50上設有一延長件6〇,該延長件肋係為— 中空之柱體,該延長件係疊置於該中空凸柱體52上,藉由該延長件6〇之 延伸長度,可使該下承座50適合於各種不同高度之貫穿孔23,且該下承座 50與該延長件60之中心係相連通;同時,該下承座5〇中穿套有一連接件 53,於本實施例為一鉚釘,惟熟悉該項技藝者仍可以其他方式實施,該連 接件53經該中空凸柱體52、該延長件60及該散熱鰭片2〇十之貫穿孔23 而與該發熱體40接觸(於本實施例係固定在支持座3〇上,使支持座3〇及 下承座50可緊貼在該散熱鰭片20上),如此,藉由該支持座3〇及下承座 5〇分別與散熱鰭片20緊密結合,以達到快速組裝之目的。 又’該下承座50中穿套之連接件53係為導熱材料所組成,經由該連 接件53而與熱源接觸(於本實施例為發光二極體燈座),而傳導至下承座 5〇 ’並透過緊貼在散觸片20之下承座50快速將熱傳導至該散_片2〇 各處。 同樣地’於本實施例之中之支持座3〇亦可由導熱材料製成,因此,該 發熱體40所產生熱源可透過固定孔2〇1與凸柱31之配合,迅速平均傳導^ 至散熱續月各處,而能達到快速散熱之目的。 睛參照第7圖所示’其為本創作之再一種實施例,其散熱模組1〇可為 任何造型’如本實施例係·_造型,惟制者·實際需求設計不同變 化。 綜上所述,本創作在物品、形狀、構造、裝置上屬首先創作,且可改 良省用技術之各種缺點,在使用上能增進功效,合於實用,充份符合新型 專利要件,實為一理想之創作。 M366884 【圖式簡單說明】 第1圖:為習用裝置之示意圖。 第2圖:為本創作之立體分解示意圖。 第3圖:為本創作之組合斷面示意圖。 第4圖:為第3圖之部分斷面放大示意圖。 第5圖:為本創作之另一實施例之立體分解示意圖。 第6圖:為第5圖之組合斷面示意圖。 第7圖:為本創作之再一實施例之俯視示意圖。 【主要元件符號說明】 散熱模組 10 散熱鰭片 20 折片 21 固定孔 201 容置空間 22 貫穿孔 23 支持座 30 凸柱 31 發熱體 40 下承座 50 固定孔 51 中空凸柱體 52 連接件 53 延長件 60M366884 V. New Description: [New Technology Field] This is a kind of heat dissipation module, which is mainly used to quickly fix the heat dissipation module by the close cooperation between the support base and the lower socket and the heat dissipation fins. The person who causes the heat generated by the heat source to conduct outward quickly. [Previous technology] _ Press, the computer is quite popular equipment. With the rapid development of computer technology, computer manufacturers are constantly pursuing hardware devices with faster computing speed and better performance. Therefore, computer manufacturers are also facing electronic components. The problem of heat dissipation (such as processors), as these electronic components operate faster and faster, the heat generated is also getting higher and higher. Similarly, in the lighting equipment in daily life, due to the pressure of the energy crisis, the traditional incandescent lamps with large energy loss are also facing the trend of shrinking sales in the lighting equipment; therefore, in recent years, green optoelectronic products have become a hot industry. Therefore, high efficiency, low power consumption, long life, 'cold light emission, fast response speed and high color consistency are many advantages compared with traditional light-emitting parts, making the development of light-emitting diodes (LED) play a pivotal role. The lighting equipment is the focus of the current optoelectronic industry and lighting industry development, and gradually replaces the I application of traditional incandescent lamps. - Since, whether it is a computer or a light-emitting diode as a lighting fixture, the life and function of its products are related to its heat dissipation measures, so heat dissipation is also a key issue. Please refer to the first outline, which is an example of a light-emitting diode, which is a heat sink 100 for heat dissipation of a neo-light diode. The heat sink 100 is provided with a heat sink 13 〇, and the heat sink 13 is mounted on the heat sink The fins 120 are arranged in a ring shape, and the fins 12 are fastened in a fastening manner by the fins located at the front and the rear, and the fins 12 are gradually expanded from the bottom end to the top end. a ring 15 套 is disposed on a periphery of the top surface of the heat sink 120, and the plurality of slots 丨5 丨' corresponding to the heat sink 120 are disposed on the lap 15 藉 by the slots 151 in a nested manner The heat sink no s is provided with a lamp holder at the top end of the heat sink 120, and the M366884 S has a frame 16 开口 opposite to the opening direction. The lamp holder U 〇 and the frame The body 16 供 is provided with a light-emitting diode and a circuit board (not shown); in use, the entire heat sink (10) is first anodized 'to make the heat sink 1 〇〇 insulated state' The socket 14 〇 and the frame 16 〇 are fixed to the inner ring of the fins 12 知 by means of a known connection; such a device and structure are When the heat generated by the light-emitting body and the circuit board matched with the heat-dissipating body is removed, the heat-dissipating body 100 is provided with a groove in the middle to accommodate the lamp holder 14 and the frame. The body leg, therefore, only contacts the lamp holder 丨4〇 and the frame 丨6〇 at the end edge of the fin 11〇 of the groove 11〇, so the heat dissipation effect is limited, which is not ideal for use. . [New Content] Creation Outline: In order to improve the various shortcomings of the above-mentioned conventional devices and structures, the creator has finally developed and designed a heat dissipation module after long-term research and experiment. The purpose of this creation is to provide a heat-dissipating module comprising at least a plurality of heat-dissipating cameras, a support base and a lower seat; wherein the heat-dissipating Korean films are arranged in a ray-like manner from the inside to the outside. The inner side of the heat dissipating fins K is sequentially formed with a receiving (four) and a through hole. The bottom of the receiving space is provided with a folded piece about 90 degrees, and the folding piece is provided with a fixing hole; wherein the supporting seat is provided Located in the far valley space, the branch is provided with a pulse at a relative position of the branching hole, and the protruding column is matched with the fixed hole. The middle bearing is disposed below the through hole, and the heat is dissipated The fin phase is consolidated; thus the 'seat' and the lower socket are closely combined with the heat dissipation to achieve the purpose of rapid assembly of the heat dissipation module, and the cost of welding can be saved. Another purpose of the creation is that a heat dissipation module is provided, and the lower bearing seat is further provided with a convex cylindrical body which is in the through hole, and the surrounding of the training body and the heat dissipation fin >1 close to the 'calling the towel empty record (four) read Lai from the Lin Lin piece tightly combined 'to achieve the purpose of rapid heat dissipation. Another object of the present invention is to provide a heat dissipating module, the lower socket is provided with a connecting member that connects the connecting member via the through hole supporting seat to make the heat dissipating module more stable; meanwhile, the M366884 The connector conducts heat to all parts of the lens to achieve rapid heat dissipation. Ben; ij made: 3⁄4 purpose 'providing a kind of heat dissipation module, the support base is made of a heat conductive material', so that the support base is tightly combined by the cooperation of the studs and the fixing holes, The heat source generated by the heating element in the support base is matched with the protruding post through the fixing hole, and is quickly and evenly transmitted to all the heat radiating fins, thereby achieving the purpose of rapid heat dissipation. [Embodiment], Lai (four)-recording and weaving group, please refer to the second, third, and fourth _*, which is based on the heat-dissipating heat-dissipating module of the heat-body 40 as a heat source (in this embodiment, the light-emitting diode is For example, the heat recording module 10 includes at least a plurality of heat dissipation fins 20, a support base 30, and a lower support 50. In the middle of the heat dissipating film 20, the inner side of the heat dissipating film 20 is arranged in a row, and the inner side of the heat dissipating film 2 is sequentially formed with an accommodating space 22 and a through hole 23 from top to bottom. The space 22 is in communication with the through hole 23; at the same time, the bottom of the accommodating space 22 is provided with a flap 21 of about 9 degrees of folding. The flaps 21 are adjacent to the adjacent heat sinking tab 2 The haptics are in contact with each other to form an appropriate spacing between the heat-dissipating louvers 20; the pleats 21 are provided with at least one fixing hole 201. The support base 30 is disposed in the accommodating space 22, and the heating element 40 can be placed in the support base 3 (in the present embodiment, the light-emitting diode base, as shown in FIG. 3), but familiar The technique 'caller' can still place different heating elements therein, and the support bases 3 are respectively provided with protrusions 31 at positions opposite to the respective fixing holes 2〇1 (in this embodiment, a rivet, Those skilled in the art can still perform - such as screwing - so that the holder 3 can be combined with the heat sink 2 (as shown in Figure 3). The lower bearing 50 is disposed under the through hole 23, and the lower side of the lower bearing 50 and the supporting base 30 is provided with a fixing hole 51 corresponding to the protruding post 31, so that the supporting seat can be made go Consolidating with the lower seat 50 and combining with the heat sink fin 20 by the support seat 3〇 and the lower socket 5 (as shown in FIG. 3); the lower seat The 50-step extension has a hollow convex body 52, and the hollow convex body 52 is provided with electric power for supplying the heating element 4, and the hollow convex body M366884 52 extends into the through hole 23, and the hollow The periphery of the protrusion 52 is in contact with the inner side of the heat dissipation fin 2 so that the heat source in the hollow protrusion 52 is tightly coupled by the heat dissipation fin 2 to achieve rapid heat dissipation. ΰ 者 凊 凊 凊 第 第 第 第 ' ' ' ' ' ' ' ' ' ' ' 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一 另一The rib system is a hollow cylinder, and the extension member is stacked on the hollow convex cylinder 52. The extension of the extension member 6〇 enables the lower socket 50 to be suitable for through holes of various heights. 23, and the lower socket 50 is in communication with the center of the extension member 60. At the same time, the lower socket 5 has a connecting member 53 in the sleeve, which is a rivet in this embodiment, but the skilled person still The connecting member 53 is in contact with the heating element 40 via the hollow protruding cylinder 52, the extension member 60 and the through hole 23 of the heat dissipation fin 2 (in this embodiment, the fixing base is fixed) 3, the support base 3〇 and the lower socket 50 can be closely attached to the heat dissipation fins 20, and thus, the support base 3〇 and the lower socket 5〇 are respectively tightly coupled with the heat dissipation fins 20, To achieve the purpose of rapid assembly. Further, the connecting member 53 of the lower socket 50 is composed of a heat conductive material, and is in contact with the heat source via the connecting member 53 (in this embodiment, the light emitting diode socket), and is conducted to the lower socket. 5〇' and through the snap seat 50 under the contact piece 20, the heat is quickly transferred to the scatterer. Similarly, the support base 3 in the embodiment can also be made of a heat conductive material. Therefore, the heat source generated by the heat generating body 40 can pass through the fixing hole 2〇1 and the protruding post 31 to rapidly conduct the heat transfer to the heat dissipation. Continue to the moon, and achieve the purpose of rapid cooling. Referring to Fig. 7, it is a further embodiment of the present invention, and the heat dissipating module 1 can be of any shape as in the embodiment, and the design of the actual needs is different. In summary, the creation is first created in the article, shape, structure, and device, and can improve various shortcomings of the provincial technology. It can improve the efficiency in use, is practical, and fully conforms to the new patent requirements. An ideal creation. M366884 [Simple description of the diagram] Figure 1: Schematic diagram of the conventional device. Figure 2: A three-dimensional exploded view of the creation. Figure 3: Schematic diagram of the combined section of the creation. Fig. 4 is an enlarged schematic view showing a portion of the section of Fig. 3. Figure 5 is a perspective exploded view of another embodiment of the present invention. Figure 6 is a schematic cross-sectional view of the combination of Figure 5. Figure 7 is a top plan view of still another embodiment of the present invention. [Main component symbol description] Heat dissipation module 10 Heat sink fin 20 Fold 21 Fixing hole 201 accommodating space 22 Through hole 23 Support seat 30 Stud 31 Heating element 40 Lower seat 50 Fixing hole 51 Hollow convex cylinder 52 Connecting piece 53 extension 60