M297440 八、新型說明: 【新型所屬之技術領域】 本創作係有關—種燈具裂置,尤指一 之燈具裝置。 敬⑦結構 【先前技術】 目前,在新型材料與技術不斷精進下,發光二 有脰積輕巧、反應速度快及無污染等優勢’使其運作^面 不辦擴及各項應用領域,特別是在照明的應用上,雖: 展初期面臨其亮度不足與發光效率低之瓶頸,但後〜^ =展已經逐漸突破,並有逐漸成為未來取代傳統二之 而現今單顆發光二極體所產生的亮度雖然比不上一顆 泡’因此後繼的設計者便將複數個發光二極體同 守衣置在一起,以改善其照明度不足的缺失。 下但Γ後期所發展的高功率發光二極體因材料的影響 巾d!電流也曰益增加’也因此所衍生的熱源也大 的發光二極體大多装設於電路板上,而 ::反夕:係由金屬或PCB所製成之板體,可透過電路板 較’但由於電路板材料本身的熱傳導係數亦 二:=路r不僅有複數發光二極體會產生熱源 具有其他在運作時會產生出熱源的電子零件,如 二r二’使得利用發光二極體作為發光源的照明裝 罝’、,、法快速將熱源散逸,影響照明裴置的使用壽命。 因此習知技術揭露-種具有散熱結構之照=置,如 M297440 第一圖所不,在設有複數發光二極體10之基板20背面上, 設有一散熱座30,且該散熱座3〇上具有複數散熱片3〇1 , 希冀透過散熱座30及複數散熱片3〇1的設置,以達成散熱 的效果,然而,其散熱座3〇的散熱效率受到傳導作用的影 響,只能上下直線吸收由基座1〇所傳導過來的熱源,也就 疋”、、占對點的傳導作肖’❿無法善加利用整個散熱座的散 熱面知,將熱源大幅散開而達到快速散熱的目的,使得加 鲁設散熱座30來提升散熱作用無法發揮應有的功能。 雖然另一項習知技術,在我國專利第船66545號中揭露 種利用σ又置熱官直接與發光元件相接觸,透過執管的傳 ㈣用以加速散熱效率,彌補上述f知技術的不足,但熱 &的叹置部會受到裝置發光元件的基座形狀及熱管本身形 狀限制,而無法使熱管均勾與所有熱源產生傳導作用,使 得熱管的散熱作用大大受到限制,成為該結構上未盡理相 之處。 •【新型内容】 針對士述之缺失,本創作之主要目的在於提供一種具 有爲平熱管之照明燈具散熱結構,透過熱管之傳導作用, :熱:原=帶離並分散,再經由與熱管相接合之大面積薄 片,加速熱官吸熱冷凝之散熱作用,以補足熱管 形狀限制㈣響其作用,以達成快速散熱之需求。 播=1上述之目的’本創作係提供-種照明燈具散 "“口、、主要結㈣包括—基座、複數熱管、—薄片及 一散熱座,其中該基座系呈圓形板體,在該基座之一板面 6 M297440 用以設置複數發光元件, 附於基座之另一板面上; 對稱之片體,用以與熱管 片相貼抵,且該散熱座上 之發光元件運作時所產生 ,同時快速轉移並大幅擴 至外界,俾使燈具能在正 【實施方式】 又,忒熱官係呈扁平狀,用以貼 另外,β薄片係為„與基座形狀 相連結;最後,該散熱座係與薄 具有複數散熱片,當設於基座上 之熱源,透過熱管將熱源吸收後 散至薄片上,再由散熱座吸散逸 常溫度下運作。 請參閱第二圖,係為本創作之結構立體分解圖,可看 出,其結構係主要包括—基座!、一個或以上之熱管2、 一溥片3及-散熱座4,其中該基座i在本實施例中係為 一囫型板體’具有一正板面11及背板面12,係由具高導熱 熱性質之紹或銅金屬所製成,該基座1之正板面n上用以 裳設發光元件5 (如第四圖所示),本實施例中該發光元 '5係2發光二極體,在基座i之中央設有一穿孔13 ;又 ’該熱管2係呈扁平狀,在該熱管2中具有毛細組織及工 作流體(此為習知技術不再贅言),該熱管2具有一受熱 面21及冷凝面22,該受熱面21用以貼抵於基座1之背板面 12上(本圖示中共有四組熱管);另外,該薄片3係為-與基座1形狀相對應之片體,同時在片體中央設有一與基 座1之穿孔13對應之凹孔31,該薄片3係由具高導熱性材 質所製成,如鋁或銅金屬,用以連結貼附於熱管2之冷凝 端2上;最後,該散熱座4更包括一基板41及複數散熱片 42,且該散熱座4可依對應之基座丨形狀設置一組或以上 M297440 (本圖示係為二组), ,__ 散熱 一吸熱面411 外,在散熱座 穿洞43。 請參閲第 42可機型、陶她或散熱鰭片組= 該吸熱面4Π用以與薄片3相互貼抵:、此 中央位置具有-以兩凹陷部412所組成之 ,.--圖至第五圖,係為本創作 圖、剖視示意圖及俯視圖,當本創作…、、“籌、、且… 彻供應電源開始發光之後,該發光元件 卜 同時,亦開如嘉座挪、店 、光源之 ° 心源,该熱源則會透過基座1之傳導甘 由熱管2之受熱面21所吸收 、’、’ 體與毛細組織之作用下熱5 2内部工作流 mm Q Γ 將其熱源再藉由熱管2之冷凝面 二、涛板3產生熱傳導作用,藉由該薄板3之大 敎 嘗2將熱源吸收並大幅擴散於片體上,最後由散埶座“ ===快速將熱源散“去’如此以由點到線至面 外具上之複數發光元件5所產生之熱源進行 經由薄片3之設置,透過其吸熱效率而加速 '、吕之熱傳導效能,以彌補熱管2因受基座!形狀限 =法全面有效含蓋基板1上之導熱面積,以破保該複數 發先兀件5達财效之散熱效果,⑼提升該 之使用壽命。 請參閱第六圖,係為本創作之另一實施例,可看出, :於基座1及散熱座4間之熱管2更可依不同裝設空間及 需要在基座1面積範圍内經由薄片3破孔變折向上延伸 M297440 (圖未明示)或直接向外延 側延伸端23呈現直線延伸、,’如圖_所示,該熱管2右 散熱體6,其中該脚熱管2之延細上套設 片組所形成;另外,亦二為鋁擠型、陶究散熱片或鰭 型,並在該熱管2左:::熱管:左延伸衡 ,以增加其散熱面積及效率。謂套設散熱體6 惟以上所述之會& + 能以此限定本創作、.式,是為較佳之實施實例,當不 說明書内容所作夂=,若依本創作申請專利範圍及 專利涵蓋範圍。、心化或修飾’皆應屬本創作下述之 【圖式簡單說明】 第一=、料f知之結構分解示意圖。 糸為本創作之結構分解示意 第四Γ 本創作之結構組合圖。 弟四圖、係為本創冼4 第五圖、係為土名 結構侧視圖。 r.....彳作之結構俯視圖。 1、圖、係為本創作之另— 【主要元件符號說明】 0毛光二極體(習知 20、基板(習知) 30、散熱座(習知) 301 、散熱片’ 1、基座 13 、穿孔 第第 圖 實施例結構示意圖 習知) 11 、正板 2 、熱管 12 、兔板面 21 、受熱面 M297440 22、冷凝面 241 、垂直段 4、 散熱座 412 、凹陷部 5、 發光元件 23 、右延伸端 24 3 、薄片 31 41 、基板 411 42 、散熱片 43 6 、散熱體 左延伸端 凹孑L 吸熱面 穿洞M297440 VIII. New description: [New technical field] This creation is related to the lighting of a type of lamp, especially a lighting device. Jing 7 structure [prior technology] At present, under the continuous improvement of new materials and technologies, the light-emitting two has the advantages of hoarding light weight, fast response speed and no pollution, so that its operation does not expand and various application fields, especially In the application of lighting, although: In the early stage of the exhibition, it faced the bottleneck of insufficient brightness and low luminous efficiency. However, the exhibition has gradually broken through, and it has gradually become the future to replace the traditional two. Nowadays, a single light-emitting diode is produced. Although the brightness is not comparable to a bubble, the successor designers put a plurality of light-emitting diodes together with the garrison to improve the lack of illumination. However, the high-power light-emitting diode developed in the latter part of the 因 is also affected by the influence of the material. The current is also greatly increased. Therefore, most of the light-emitting diodes with large heat sources are installed on the circuit board, and:: Anti-Xi: It is a plate made of metal or PCB, which can pass through the circuit board. But because of the heat transfer coefficient of the circuit board material itself: = road r not only has multiple light-emitting diodes, but also generates other heat sources. An electronic component that generates a heat source, such as a second lighting device that uses a light-emitting diode as a light source, quickly dissipates the heat source and affects the service life of the lighting device. Therefore, the conventional technology discloses a light-emitting structure, such as the first picture of the M297440. On the back surface of the substrate 20 on which the plurality of light-emitting diodes 10 are disposed, a heat sink 30 is disposed, and the heat sink 3 It has a plurality of heat sinks 3〇1, which are arranged through the heat sink 30 and the plurality of heat sinks 3〇1 to achieve the heat dissipation effect. However, the heat dissipation efficiency of the heat sink 3〇 is affected by the conduction effect, and can only be up and down straight. Absorbing the heat source transmitted by the pedestal 1〇, and 占”, occupies the conduction of the opposite point. It is impossible to make good use of the heat dissipation surface of the entire heat sink, and the heat source is widely dispersed to achieve the purpose of rapid heat dissipation. The addition of the heat sink 30 to enhance the heat dissipation function can not play its due function. Although another conventional technology, in the Chinese Patent No. 66545, the use of σ and the hot official directly contact with the light-emitting element, through The transmission of the control (4) is used to accelerate the heat dissipation efficiency and make up for the shortcomings of the above-mentioned technology. However, the heat and the sigh portion of the device will be limited by the shape of the base of the light-emitting component of the device and the shape of the heat pipe itself, and the heat pipe cannot be made. The hook and all heat sources produce conduction, so that the heat dissipation of the heat pipe is greatly restricted, and it becomes unreasonable in the structure. • [New content] The main purpose of this creation is to provide a kind of heat The heat dissipation structure of the lighting fixture of the tube passes through the conduction of the heat pipe: heat: the original = stripped and dispersed, and then through the large-area sheet joined with the heat pipe, accelerates the heat dissipation of the heat-collecting heat condensation to supplement the shape of the heat pipe (four) Its role, in order to achieve the need for rapid heat dissipation. Broadcasting = the purpose of the above - "This creation provides a kind of lighting fixtures" "port, the main knot (four) including - pedestal, complex heat pipe, - sheet and a heat sink, The base is a circular plate body, and one of the bases of the base 6 M297440 is used to set a plurality of light-emitting elements attached to the other surface of the base; a symmetrical piece for the heat pipe sheet The offset is generated, and the light-emitting element on the heat sink is generated when it is operated, and at the same time, it is quickly transferred and greatly expanded to the outside, so that the lamp can be positively implemented. In addition, the β-sheet is connected to the shape of the base; finally, the heat-dissipating base and the thin have a plurality of heat sinks. When the heat source is provided on the base, the heat source is absorbed through the heat pipe and then dispersed to the thin sheet. Above, it is operated by the heat sink to absorb and dissipate at normal temperature. Please refer to the second figure, which is a three-dimensional exploded view of the structure of the creation. It can be seen that the structure mainly includes: the base!, one or more heat pipes 2 a cymbal 3 and a heat sink 4, wherein the susceptor i is a slab type in the present embodiment, having a positive plate surface 11 and a back plate surface 12, which are characterized by high thermal conductivity or Made of copper metal, the positive surface n of the susceptor 1 is used for the illuminating element 5 (as shown in the fourth figure). In this embodiment, the illuminating element '5 is a two-emitting diode, at the base The center of the seat i is provided with a perforation 13; and the heat pipe 2 is flat, and has a capillary structure and a working fluid in the heat pipe 2 (this is no longer known in the prior art), and the heat pipe 2 has a heating surface 21 and a condensation surface 22 for abutting against the back surface 12 of the base 1 (four groups in the illustration) In addition, the sheet 3 is a sheet corresponding to the shape of the susceptor 1 , and a recess 31 corresponding to the through hole 13 of the susceptor 1 is provided in the center of the sheet, and the sheet 3 is made of high thermal conductivity. The material is made of a material such as aluminum or copper metal for attaching to the condensation end 2 of the heat pipe 2; finally, the heat sink 4 further includes a substrate 41 and a plurality of heat sinks 42, and the heat sink 4 can be One or more M297440s (two sets in the present drawing) are arranged corresponding to the shape of the base, and the heat sinking hole 43 is formed in the heat sink. Please refer to the 42th model, ceramic or heat sink fin group = the heat absorbing surface 4 Π is used to abut the sheet 3: the central position has - composed of two recessed portions 412, . The fifth picture is the original drawing, the cross-sectional view and the top view. When the creation...,, “funding, and...”, after the supply of the power supply began to shine, the light-emitting component was also opened as a house, shop, The source of the light source, the heat source is transmitted through the susceptor 1 and is absorbed by the heated surface 21 of the heat pipe 2, and the heat of the body and the capillary structure is 5 2 internal working flow mm Q Γ The heat transfer effect is generated by the condensation surface 2 of the heat pipe 2 and the wave plate 3, and the heat source is absorbed and largely diffused on the sheet by the large plate 3 of the thin plate 3, and finally the heat source is dispersed by the divergence seat. "Going" so that the heat source generated by the plurality of light-emitting elements 5 from the point-to-line to the outer surface is disposed via the sheet 3, and the heat transfer efficiency of the heat-absorbing efficiency is accelerated by the heat-absorbing efficiency thereof to compensate for the heat-tube 2 Seat! Shape limit = full and effective cover area of the heat transfer area on the substrate 1, Breaking the protection of the multiple pieces of the first 5 pieces of financial efficiency, (9) to enhance the service life. Please refer to the sixth figure, which is another embodiment of the creation, can be seen: on the base 1 and heat dissipation The heat pipes 2 of the four seats can be extended to extend M297440 (not shown) or directly extend to the extension end 23 of the epitaxial side in the range of the area of the base 1 according to different installation spaces. As shown in Fig. _, the heat pipe 2 is disposed on the right heat sink body 6, wherein the foot heat pipe 2 is formed by a thin set of sleeves; and the second is an aluminum extrusion type, a ceramic heat sink or a fin type, and The heat pipe 2 left::: heat pipe: the left extension balance to increase the heat dissipation area and efficiency. It is said that the heat sink 6 is only the above described & + can limit the creation, the style, is better Implementation examples, when the content of the manual is not 夂=, if the patent application scope and patent coverage scope according to the creation, the heart or the modification 'should belong to the following [simplified description of the schema] first =, material f know Schematic diagram of structural decomposition. 糸The structure of the original decomposition of the creation is the fourth Γ The structure of the combination of the four drawings, the Department of the four-figure, the fifth figure, is the side view of the soil name structure. r..... The top view of the structure of the structure. 1, the picture is the other of the creation - [Description of main component symbols] 0 Gross photodiode (conventional 20, substrate (conventional) 30, heat sink (conventional) 301, heat sink '1, pedestal 13, perforation 11 , positive plate 2 , heat pipe 12 , rabbit plate surface 21 , heating surface M297440 22 , condensation surface 241 , vertical section 4 , heat sink 412 , recess 5 , light-emitting element 23 , right extension end 24 3 , sheet 31 41 , Substrate 411 42 , heat sink 43 6 , heat sink left extension end concave L heat absorption surface through hole
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