M382437 八 五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種LED散熱裝置,特別是有關於 一種兼具熱對流及熱傳導散熱模式,以具有高傳導率材 料之導引元件將熱能傳遞於各散熱元件之間之LED散 熱裝置。 【先前技術】 鲁 LED(發光二極體;Light Emitting Diode)係在 1950 年代發展出來,目前以LED做為燈具光源的趨勢相當明 顯,然而,LED光源在光電轉換過程產生熱能,熱能導 致了溫度的提高,溫度的提高對於LED本身造成影響, LED經過長時間點亮後,所產生的熱能非常容易導致 LED本身亮度的衰減,亦縮短了 LED之使用壽命;因 此,為了降低LED使用時產生的熱能,以及提昇LED 的使用壽命與發光效能,如何設計可有效散熱的LED散 • 熱模組係為一重要關鍵。 有鑑於習知技術之各項問題,為了能夠解決之,本 創作人基於多年研究開發與諸多實務經驗,提出一種 LED散熱模組,以作為改善上述缺點之實現方式與依據。 【新型内容】 有鑑於上述習知技藝之問題,本創作提供一種兼具 熱對流及熱傳導散熱模式,並以具有高傳導率材料之導 引元件傳導引導熱能傳遞於各散熱元件之間之LED散 3 M382437 熱裝置。 本創作係包括複數個散熱元件,各該些散熱元件之 一表面設有一散熱鰭片,該些散熱元件之一者之相對應 於該散熱鰭片之另一面設有至少一 LED。至少一導引元 件,設於該些散熱元件之間。以及一燈罩,組設於設有 該LED之該散熱元件。 本創作以多個散熱元件之熱對流方式餘,並配合 具高傳導率的材料之料元件將不同散熱元件間之熱能 予以傳導’提供了熱對流及熱傳導兼具的散熱模式,如 此使得LED產生之熱能有效地散逸。 兹為使貝審查委員對本創作之技術特徵及所達到之 功效有更進-步之瞭解與認識,謹佐以較佳之實施例及 配合詳細之說明如後。 【實施方式】 使ιΓΓϋ照相_式,說明依本創作之實施例,為 下述實施例中之相同元件係以相同之符 裝置2體=第二為本創作之㈣散熱 m私η】 第圖所不’散熱裝^係包括 第-散熱兀件U、第二散熱元件 = 凡件13。第一散熱元件11#A心主乂弟導引 11之-表面設置有第一㈣t塊體,且第-散熱元件 相對應於第一散熱鳍片 2 ^”,、兀件11 乃之另一面設有至少一個 M382.437 ► LED112。第一散熱元件11之内部具有第一容置部113 以供第一導引元件13與第一散熱元件u彼此組設。第 一散熱元件12係為塊體。第二散熱元件12設置有第二 政熱鰭片121,且第一散熱元件12之内部具設第二容置 部122以供第一導引元件13與第二散熱元件12彼此組 設。第一導引元件13係為係為圓形管體,第一導引元件 13之材質係具有高傳導率的材料,例如超導體、金屬等 等。第一導引元件13之一端可與第一散熱元件u之第 一容置部113彼此組設,而第一導引元件13之另一端則 可與第二散熱元件12之第二容置部122彼此套接及组 設,如此使得第一散熱元件U與第二散熱元件12分別 、、且n又於第一導引元件13之兩端。散熱模組丨之第一散執 元件11處組設有燈罩2。 … 使用時,LED112點亮後所產生之熱能,先藉由孰傳 導方式’而從LED112傳導至第一散熱元件11之第」散 熱鰭片111,再經由第一散熱籍片lu以熱對流的方式 ^逸°接著’剩餘之熱能藉由具有高傳導率材料之第一 2疋件13 ’以熱傳導方式傳導至第二散熱元件12,並 曰熱傳導方式傳導至第二散熱元件12之第二散熱籍 2:,再經由第二散熱鱗片ΐ2ι以熱對流的方式散逸、。 生1熱能創作之LED散熱裝置可有效地散逸LEDU2產 打雜:t =第2圖所示’係為本創作之LED散熱裝置之 熱元件11、第二示’散熱裝置3係包括第一散 欢熱7L件12及至少一第一導引元件13。 5 M382437 第一散熱元件11係為塊體,且第一散熱元件u之一表 面。又置有第一散熱,鰭片1 11,第一散熱元件丨丨相對應於 第政熱籍片1U之另一面設有至少一個LED 112。第一 散熱元件11之内部具有第一容置部113以供第一導引元 件13與第一散熱元件u彼此組設。第二散熱元件12係 為塊體。第二散熱元件12設置有第二散熱鰭片121,且 第一散熱元件12之内部具設第二容置部丨22以供第一導 引元件13與第二散熱元件12彼此組設。第一導引元件 13係為係為圓形管體,第一導引元件13之材質係具有 高傳導率的材料,例如超導體、金屬等等。第一導弓j元 件13之一端可與第一散熱元件u之第一容置部ιΐ3彼 此組設’ f第一導引元件13之另一端則可與第二散熱元 件12之第二容置部122彼此套接及組設如此使得第一 政,"、元件11與第二散熱元件丨2分別組設於第一導引元 件13之兩端。散熱裝置3之第一散熱元件u處組設有 一而與前述其一較佳實施例之不同處在於,第三散熱 兀件31設置有第三散熱鰭片311,第三散熱元件η之 内°卩具设第二容置部312以供第三散熱元件31盥第二散 广組設。第二導引元件32係為係為圓形管 導引几件%之材質係具有高傳導率的材料,例 。導體、金屬等等。第二導引元件32之一端可盥第二 散熱元件12之第二容置部122彼此組設,而第一;引: 二=另:端則可與第三散熱元件31之㈡: <在’、且叹,如此使得第二散熱元件12與第三散熱元 秦 件31分別組設於第二導引元件32之兩端。散熱裝置3 之第一散熱元件11處組設有燈罩2。 承上所述,本創作以多個散熱元件之熱對流方式散 ^並配合具高傳導率之導引元件將列散熱以牛間之 以傳導’提供了熱對流及熱傳導兼具的散教模 式,如此可有效地散逸LED產生之熱能。 …、 離本:。任何未脫 更,均應包輕後附之申請專^^中,等效修改或變 【圖式簡單說明】 較佳實施例之立體示意圖;以 較佳實施例之立體示意圖。 122 :第二容置部; 2 :燈罩; 3 :散熱裝置; 3 1 :第三散熱元件 32 .弟一導引元件 311 :第三散熱鰭片 312 :第三容置部。 以及 第1圖係為本創作之第 及 第2圖係為本創作之第 【主要元件符號說明】 I ··散熱裝置; II :第一散熱元件; 12 13 111 112 113 121 第二散熱元件; 第一導引元件; 第一散熱鰭片; LED ; 第一容置部; 第二散熱鰭片; 7M382437 Eighty-five, new description: [New technology field] This creation is about an LED heat sink, especially for a heat convection and heat conduction heat dissipation mode, with a high conductivity material guiding element to heat An LED heat sink that is transmitted between the heat dissipating components. [Prior Art] Lu LED (Light Emitting Diode) was developed in the 1950s. At present, the trend of LED as a light source is quite obvious. However, LED light source generates heat energy during photoelectric conversion, and heat causes temperature. The improvement of the temperature and the increase of the temperature have an effect on the LED itself. After the LED is illuminated for a long time, the generated thermal energy is very likely to cause the brightness of the LED itself to attenuate and shorten the service life of the LED; therefore, in order to reduce the use of the LED Thermal energy, as well as improving the life and luminous efficacy of LEDs, how to design LED heat dissipation modules that can effectively dissipate heat is an important key. In view of the problems of the prior art, in order to solve this problem, the creator proposed a LED heat dissipation module based on years of research and development and many practical experiences, as an implementation method and basis for improving the above disadvantages. [New content] In view of the above-mentioned problems of the prior art, the present invention provides a heat convection and heat conduction heat dissipation mode, and conducts guiding heat energy transmitted between the heat dissipation elements by a guiding element having a high conductivity material. 3 M382437 Thermal unit. The present invention includes a plurality of heat dissipating components, one surface of each of the heat dissipating components is provided with a heat dissipating fin, and one of the heat dissipating components is provided with at least one LED corresponding to the other side of the heat dissipating fin. At least one guiding component is disposed between the heat dissipating components. And a lamp cover disposed on the heat dissipating component provided with the LED. The creation uses a heat convection method of a plurality of heat dissipating components, and combines the material elements of the material with high conductivity to conduct the heat energy between the different heat dissipating components, providing a heat dissipation mode combining heat convection and heat conduction, thus enabling LED generation. The heat can be effectively dissipated. In order to provide a more in-depth understanding and understanding of the technical characteristics and the efficacies achieved by the Board of Review, please refer to the preferred examples and detailed explanations. [Embodiment] ΓΓϋ ΓΓϋ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The non-heating device includes a first heat dissipating member U and a second heat dissipating member = a member 13. The first heat dissipating component 11#A is provided with a first (four) t block on the surface, and the first heat dissipating component corresponds to the first heat dissipating fin 2^", and the matte member 11 is the other side. At least one M382.437 ►LED 112 is provided. The first heat dissipating component 11 has a first receiving portion 113 for the first guiding component 13 and the first heat dissipating component u to be arranged with each other. The first heat dissipating component 12 is a block. The second heat dissipating component 12 is provided with a second thermal fin 121, and the first heat dissipating component 12 has a second receiving portion 122 for the first guiding component 13 and the second heat dissipating component 12 to be assembled with each other. The first guiding element 13 is a circular tube body, and the material of the first guiding element 13 is a material having high conductivity, such as a superconductor, a metal, etc. One end of the first guiding element 13 can be The first accommodating portion 113 of the heat dissipating component u is disposed on the other side, and the other end of the first guiding component 13 is sleeved and assembled with the second accommodating portion 122 of the second heat dissipating component 12, so that the first A heat dissipating component U and a second heat dissipating component 12 are respectively, and n is again at both ends of the first guiding component 13. The first loose component 11 of the group is provided with a lamp cover 2. ... In use, the thermal energy generated by the LED 112 is first transmitted from the LED 112 to the first heat dissipating component 11 by the conduction mode ' The fins 111 are further thermally convected via the first heat-dissipating film lu. Then the remaining heat energy is thermally conducted to the second heat dissipating component 12 by the first two-piece 13' having a high conductivity material. And conducting the second heat dissipation element 2 to the second heat dissipating component 12 by heat conduction, and then dissipating by heat convection via the second heat radiation scale ΐ2ι. The LED heat sink created by Sheng 1 Thermal Energy can effectively dissipate the LEDU2 production miscellaneous: t = the heat element of the LED heat sink of the original figure shown in Figure 2, the second show 'The heat sink 3 series includes the first Sanhuan The heat 7L member 12 and the at least one first guiding member 13. 5 M382437 The first heat dissipating component 11 is a block body and one of the first heat dissipating components u has a surface. A first heat dissipation is further disposed, and the first heat dissipating component 丨丨 corresponds to the other side of the first thermal film 1U to be provided with at least one LED 112. The inside of the first heat dissipating member 11 has a first receiving portion 113 for the first guiding member 13 and the first heat dissipating member u to be assembled with each other. The second heat dissipating member 12 is a block. The second heat dissipating component 12 is provided with a second heat dissipating fin 121, and the first heat dissipating component 12 has a second receiving portion 22 for the first guiding component 13 and the second heat dissipating component 12 to be assembled with each other. The first guiding member 13 is a circular tube body, and the material of the first guiding member 13 is a material having high conductivity, such as a superconductor, a metal or the like. One end of the first guide j element 13 can be assembled with the first receiving portion ι 3 of the first heat dissipating member u. The other end of the first guiding member 13 and the second receiving portion of the second heat dissipating member 12 can be disposed. The portions 122 are sleeved and assembled to each other such that the first and the second elements, the element 11 and the second heat dissipating member 丨2 are respectively disposed at both ends of the first guiding member 13. The first heat dissipating component u of the heat dissipating device 3 is disposed in a different manner from the foregoing preferred embodiment. The third heat dissipating component 31 is provided with a third heat dissipating fin 311, and the third heat dissipating component η is inside. The cooker is provided with a second accommodating portion 312 for the second heat dissipating component 31 to be secondly disposed. The second guiding member 32 is a circular tube that guides a few pieces of material to have a high conductivity material, for example. Conductors, metals, etc. One end of the second guiding element 32 can be assembled with the second receiving portion 122 of the second heat dissipating element 12, and the first; the second: the other: the end can be combined with the third heat dissipating element 31 (2): < In the sigh, the second heat dissipating component 12 and the third heat dissipating element 31 are respectively disposed at two ends of the second guiding component 32. A lampshade 2 is disposed at the first heat dissipating component 11 of the heat sink 3. According to the above description, the creation uses a plurality of heat dissipating elements to dissipate heat and cooperate with a guiding element with high conductivity to dissipate heat to provide a heat transfer convection mode that provides both heat convection and heat conduction. This effectively dissipates the heat generated by the LED. ..., from this: Any non-removal, and should be included in the application, equivalent modification or modification. [Simplified description of the drawings] A perspective view of a preferred embodiment; a perspective view of a preferred embodiment. 122: second receiving portion; 2: lamp cover; 3: heat dissipating device; 3 1 : third heat dissipating member 32. younger guiding member 311: third heat dissipating fin 312: third receiving portion. And the first picture is the first and second pictures of the creation of the present invention [the main component symbol description] I · · heat sink; II: the first heat dissipating component; 12 13 111 112 113 121 second heat dissipating component; a first guiding element; a first heat sink fin; an LED; a first receiving portion; a second heat sink fin;