M383688 五、新型說明: 【新型所屬之技術領域】 一種發光二極舰管結構,尤其係指—_電賴組整合於 發光二極體燈管結構中之發光二極體燈管結構。 【先前技術】 在日常生活中,照明設備-直以來都是不可或缺的重要工 具,現有的酬設舒特崎誠燈管料主要統,在這些 燈管或燈泡中,較為常見者有日光燈管、白熾燈泡、鹵素燈管^ 鹵素燈泡。其中’由於日紐管之耗電量軸為白醜泡的四分 之…壽命卻可達到白熾燈泡的五至十倍,轉光均勻性較佳, 可運用於廣角照明,因此,較為廣泛使用。 以下將說明-種習知的日光燈照明設備,並請參照「第工圖」 所示’「第1圖」緣示為習知日光燈照明設備結構分解圖;日光燈」 照明設備包含日絲管71以及燈座72,日光辟财燈管本體 m以及-對金屬端部712,金屬端部712各設有一對電極接頭 ,燈座72則具有燈座本體η卜一對電極座π2以及啟朗 723 ’電極座722係設置於燈座本體…端部,並具備一對電極 插孔724,貫際使科,日光燈管71係藉由金屬端部712之電極 接頭713插置於燈座72之電極插孔724令,以達成電性連接。 日光燈管的發光原理係以電極逸出之電子與日光燈管内之粒 子發生碰撞,細糾料絲激發塗佈於辟 白色光^’日光燈如所塗佈之縣料常都含有具污= 的重金屬元素(例如:采),又禮尤六& ^ 環境的污染。幻不僅不4回收再利用,更容易造成 M383688 近年來,由於發光二極體(Light Emitting Diode,LED)的快 速發展,並且發光二極體具有耗電量低、元件壽命長'無須暖燈 時間及反應速度快等優點,加上其體積小、耐震動'適合量產, 因此發光二極體已普遍使用於資訊、通訊及消費性電子產品的指 不燈與顯示裝置上,如行動電話及個人數位助理(Pers〇nalDigitaiM383688 V. New description: [New technical field] A light-emitting diode ship structure, especially the light-emitting diode structure integrated in the light-emitting diode structure. [Prior Art] In daily life, lighting equipment has always been an indispensable and important tool. The existing remunerations are mainly for Shute Sakisaki. In these lamps or bulbs, fluorescent lamps are more common. Tube, incandescent bulb, halogen tube ^ halogen bulb. Among them, because the power consumption axis of the Japanese New Tube is a quarter of the white ugly bubble, the life can reach five to ten times that of the incandescent light bulb, and the uniformity of the light is better, which can be applied to wide-angle illumination, so it is widely used. . In the following, a conventional fluorescent lamp lighting device will be described, and the "Fig. 1" shown in the "Graphic Drawing" will be taken as an exploded view of the conventional fluorescent lamp lighting structure; the fluorescent lamp lighting device includes a Japanese wire tube 71 and The lamp holder 72, the sunlight light bulb body m and the pair of metal end portions 712 and the metal end portions 712 are respectively provided with a pair of electrode joints, and the lamp holder 72 has a lamp holder body n a pair of electrode holders π2 and Kailang 723 ' The electrode holder 722 is disposed at the end of the lamp holder body and has a pair of electrode insertion holes 724. The electrode tube and the fluorescent tube 71 are inserted into the electrode holder of the lamp holder 72 through the electrode connector 713 of the metal end portion 712. Holes 724 are ordered to achieve an electrical connection. The principle of the illumination of the fluorescent tube is that the electrons that escape from the electrode collide with the particles in the fluorescent tube, and the fine correction wire is excited to be coated on the white light. The fluorescent lamp is often coated with the heavy metal element with pollution = (eg: mining), and also the pollution of the environment. Fantasy not only does not recycle and reuse, it is more likely to cause M383688. In recent years, due to the rapid development of Light Emitting Diode (LED), and the light-emitting diode has low power consumption and long component life, no need for warm-up time. And the advantages of fast response, coupled with its small size and vibration resistance, are suitable for mass production. Therefore, LEDs have been widely used in information, communication and consumer electronics products such as mobile phones and display devices. Personal Digital Assistant (Pers〇nalDigitai
Assistant ’ PDA)螢幕背光源、各種戶外顯示器、交通號誌燈及車 燈等。 而隨著技術的提昇,已逐漸發展出可以取代日光燈管用的發 光-極體燈官結構,藉以克服日光燈管所造成關題,以下將說 明一種習知的發光二極體燈管結構,並請參照「第2A圖」以及「第 2B圖」所不,「第2A圖」繪示為習知發光二極體燈管結構的第一 怨樣立體分解示意圖;「第2B圖」緣示為習知發光二極體燈管結 構的弟一恶樣立體分解示意圖。 !知1光—極體燈官結構的第—態樣與第二態樣,都是由散 熱基座81上配置電路板82以及若干設置於電路板上之發光二 極體83 ’並藉由側蓋84固定於散熱基座&兩側所組成,^知發 光二極體燈管結構的第—態樣與第二祕差別在於提供電源方式 的差異。 在驾知發光一極體燈官結構的第一態樣中,提供電源的電源 模組%是被配置於賴基座81巾,並與電職82軸電性連接, 7熱基座81中具有容置空間811並且電源模組%被配置於散 熱,座81的容置空間811中,由於散熱基座以具有容置空間川, 在習知發光一極體燈管結構的第―態樣對電路板a上發光二極體 83的散熱效率會較低;在習知發光二極體燈管結構的第二態樣Assistant ’ PDA) screen backlight, various outdoor displays, traffic lights, and lights. With the improvement of technology, the illuminating-polar body lamp structure that can replace the fluorescent tube has been gradually developed to overcome the problems caused by the fluorescent tube. The following will describe a conventional light-emitting diode tube structure, and please Referring to "2A" and "2B", "2A" is a three-dimensional exploded view of the structure of a conventional light-emitting diode lamp; "2B" is a habit A schematic diagram of a disgusting stereoscopic decomposition of the light-emitting diode lamp structure. The first and second aspects of the structure of the polar body lamp are configured by the circuit board 82 and a plurality of light-emitting diodes 83' disposed on the circuit board. The side cover 84 is fixed on both sides of the heat dissipation base & the first aspect of the structure of the light-emitting diode lamp and the second secret difference is that the difference of the power supply mode is provided. In the first aspect of driving the structure of the light-emitting body lamp, the power module providing the power source is disposed on the base 81 and electrically connected to the electric power 82 shaft, 7 in the thermal base 81. With the accommodating space 811 and the power module % being disposed in the heat dissipating space, the accommodating space 811 of the seat 81 has a accommodating space, and the first aspect of the conventional illuminating one-pole lamp structure The heat dissipation efficiency of the light-emitting diode 83 on the circuit board a is low; in the second aspect of the conventional light-emitting diode lamp structure
IVIJOJOOC 中,提供電源的電源模組是與外部裳置士人 =極體燈管._第二態樣中不具有電:二= 土座,81〗需要財容置郎來配置電賴組, 放… 體燈管結構㈣二祕對魏板82 .自V 一極 會較高。 私先一極體83的散熱效率 奸知發光二極舰管結_第—級紐巾,1優 "物組85與發光二減燈管結構結合設計的,不需要搭配倍二 的外部裝絲制,其缺點在於對電路 °…疋 4电岭极w上發先二極體83的 = ‘、,、效率會較低,·而在習知魏二極體燈管結構㈣二實施態樣 ’其優點在於對電路板82上發光二極體83的散熱效率會較高, 1點在於需要搭配特定的外部裝絲使用,因此,是否可以將 同日守具備習知發光二極體燈管結構的第―實施態樣與第二實施萌 ,的優點,並且克服f知發光二極體燈管結構的第二實施態樣= 第二實施態樣的缺點,將是發展的目標。 /、 综上所述,可知先前技術中長期以來一直存在現有的發光二 極體燈管結構無法同時具有高散熱效率以及電賴組整合設計於 現有的發光二極體燈管結構内的問題,因此有必要提出改進的技 術手段,來解決此一問題。 【新型内容】 有鑒於先前技術存在現有的發光二極體燈管結構無法同時具 有高散熱效率以及電源模組整合設計於現有的發光二極體燈管結 構内的問題,本創作遂揭露一種發光二極體燈管結構,其中: 本創作所揭露之發光二極體燈管結構,其包含:散熱基座、 LED發光模組、一纟且電源模組以及一組側蓋。 M383688 其中’散熱基座設有容置空間;LED發光模組配置且固定於 容置空間中;-組電源模組分別與LED發光模組電性連接,並提 供LED發光模組穩定之電源;以及一組側蓋,電源模組分別配置 且固定於側蓋中,且側蓋分別固定於散熱基座之兩端。 如上所述之發光二極體燈管結構,射散絲座更設置有多 個放熱則’LED發光模組是由電路板與多個發光二極體所構 .成’多個發光二極體係被配置且固定於電路板上,·側蓋包含有二 .貫穿孔,電__包含❸卜部紐連接件分财過設置於貫穿 •孔,外部電性連接件用以與外部裝置進行電性連接之用;發光二 極體燈管結構更包含燈罩,燈罩覆蓋於咖發光模組上,並且燈 罩與散熱基座之_分_定側蓋,而燈罩的材㈣制可透光 的熱塑性聚合物製成,可透光的熱塑性聚合物可已是聚碳酸醋 (Polycarbonate ’ PC)、聚苯乙烯(p〇lystyrene,ps)或聚甲基丙 烯酸甲醋(P〇lymethylmethacrylate,。 本創作所揭露之結構如上’與先前技術之間的差異在於本創 參作的電源模組係被分別配置於側蓋中,並且在散熱基座不需要額 -外設輕間以配置電源模組,即可以對LED發光模組達到較高的 政熱效率,並且電源模組亦被結合設計於發光二極體燈管結構 中’即可以同時具有高散熱效率以及電源模組整合設計的效果。 ^過上摘技術手段,摘作可以達紐光二滅燈管結構 同時具有高散熱效率以及電源模組整合設計的技術功效。 【實施方式】 以下將配合圖式及實施例來詳細說明本創作之實施方式,藉 此對本創作如何應用技術手段來解決技術問題並達成技術功效的 實現過程能充分理解並據以實施。 夂T下首先要說明本創作所揭露之發光二極體燈管結構,並請 >考第固」所示,「弟3圖」纟會示為本創作發光二極體燈管結 構的立體分解示意圖。 d 本創作所揭露之發光二極體燈管結構刚,其包含:散熱基座 10、LH)發光模組20、一組電源模組3〇以及一組側蓋4〇。 如「第3圖」所示,散熱基座1〇可以利用鋁擠型(Aluminum Extmsum)的方式製作而成’即散熱基座1〇的材質為鋁材,在此 僅為舉例· ’並砂此侷限本創作的顧齡,並在散熱基座 10设有容置空間1卜散熱基座10的容置空間11是用以將LED 發光松組20配置且固定於散熱基座i 〇上,LED發光模組2〇配置 且固足於散絲座10上係可崎過螺合固定方式、卡合固定方式 或是扣合固定方式進行固定’在祕為舉纖明之,並不以此偈 限本創作的應用範疇。 玉於散熱基座10上更設置有多個散熱鰭片12,可以於鋁擠型製 作散熱基座10的過程中—觸出多個散熱鰭片12,藉由散熱基座 1〇外部所設置的散細片12可以增加散熱基座lG的散熱面積, 即可增加散絲座10的散熱效率,藉以將LED發光模組2〇上所 產生的熱能加以散逸。 而LED發光模組20是由電路板21與多個發光二極體22所 構成’多個發光二極體22係、被配置且固定於電路板21上,多個 毛光一極體22係可置於電路板21上,或是可以 依如特別的照明需求進行乡個發光二極體22在電路板21上的配 置,圖式中僅以陣列方式將多個發光二極體22配置於電路板2ι M383688 上,在此僅為舉例說明之,並不以此侷限本創作的應用範疇。 而由於LED發光模組20是配置且固定於散熱基座1〇上,即 電路板21是直接貼合於散熱基座1〇上,因此,散熱基座1〇可以 直接的吸收電路板21上多個發光二極體22所產生的熱能,並且 透過政熱基座10的多個散熱鰭片12將電路板21上多個發光二極 體22所產生的熱能加以散逸。 除了將LED發光模組20直接固定於散熱基座1〇上之外,更 可以在散熱基座ίο的容置空間η形成一層吸熱層13,吸熱層13 係可以將散鮮㈣於容置空間u底部則彡纽熱層13,或是以 V熱墊14貼合於容置空間u底部以形成吸熱層13,在此僅為舉 例說明之,並不以此侷限本創作的應用範疇。 在政熱基座10的谷置空間11形成吸熱層之後再將LED 發光模組20固定於吸熱層13上,使咖發光模組2〇配置於散 熱基座10的容置空間u巾’而散熱基座1Q即可以透過吸熱層 ,電路板21上多個發光二極體22所產生的熱能加以吸收,以提 门及"、、放Φ並透過政熱基座1〇的多個散熱鑛片12將電路板 上夕個發光—極體22所敍的熱能加以散逸,藉此可以提高散熱 效率。 —上述將LED發光模組20固定於吸熱@ 13上係可以透過螺合 口疋方式、貼合岐方式進行固定,在此僅為舉繼明之,並不 以此侷限本創作的應用範疇。 带j著’電源核組30分別與LED發光模組2〇形成電性連接, Ί且3G即可以提供LED發光模組2()穩定之電源,而電源模 、、且3〇分別被配置且固定於側蓋4()中,電源模組3()更包含有外部 亚且電源模組30的外部電性連接件31分別穿過 牙札41,即可以透過雷通握鈿)Λ从从如& uIn IVIJOJOOC, the power supply module that provides the power supply is external to the Sageman = polar body lamp. _ The second aspect does not have electricity: two = earthy seat, 81〗 needs the wealth of the Lang to configure the electric raising group, Put ... body lamp structure (four) second secret on the Wei board 82. From V one pole will be higher. The heat dissipation efficiency of the private first-pole body 83 is known as the light-emitting two-pole ship tube knot _ first-level towel, one excellent " object group 85 and the light-emitting two-reduction lamp structure design, do not need to match the external two of the second The disadvantage of the wire system is that the '', ', and the efficiency of the first diode 83 on the circuit 疋4 岭4 electric ridge is lower, and the efficiency is lower in the conventional Wei diode structure (4) The advantage is that the heat dissipation efficiency of the light-emitting diode 83 on the circuit board 82 is high. One point is that it needs to be used with a specific external wire. Therefore, it is possible to have the conventional light-emitting diode lamp of the same day. The advantages of the first embodiment of the structure and the second embodiment, and the second embodiment of the structure of the light-emitting diode lamp are overcome. The disadvantage of the second embodiment will be the development goal. In summary, it can be seen that in the prior art, there has been a long-standing problem that the existing light-emitting diode lamp structure cannot simultaneously have high heat dissipation efficiency and the integrated design of the electric light-receiving group is integrated into the existing light-emitting diode lamp structure. Therefore, it is necessary to propose improved technical means to solve this problem. [New content] In view of the prior art, the existing light-emitting diode lamp structure cannot simultaneously have high heat dissipation efficiency and the power module is integrated and designed in the existing light-emitting diode lamp structure. The diode lamp structure, wherein: the light-emitting diode lamp structure disclosed in the present invention comprises: a heat dissipation base, an LED light-emitting module, a power supply module and a set of side covers. M383688, wherein the 'heat dissipation base has a receiving space; the LED lighting module is configured and fixed in the receiving space; the group power module is electrically connected to the LED lighting module respectively, and provides a stable power supply for the LED lighting module; And a set of side covers, the power modules are respectively disposed and fixed in the side covers, and the side covers are respectively fixed at the two ends of the heat dissipation base. As described above, the light-emitting diode lamp structure, the radiating wire holder is further provided with a plurality of heat-releasing, and the 'LED light-emitting module is constructed by a circuit board and a plurality of light-emitting diodes. It is configured and fixed on the circuit board. The side cover includes two through holes. The electric __ contains the 连接 部 连接 连接 连接 设置 设置 设置 , , , , , , , , , , , , , , , , , , , , For the connection; the light-emitting diode lamp structure further comprises a lamp cover, the lamp cover is covered on the coffee light-emitting module, and the lamp cover and the heat-dissipating base are divided into side covers, and the lamp cover material (4) is made of a light-transmissive thermoplastic polymer. The light transmissive thermoplastic polymer may be made of polycarbonate (Polycarbonate 'PC), polystyrene (ps) or polymethylmethacrylate (P〇lymethylmethacrylate). The difference between the structure and the prior art is that the power modules of the present invention are respectively disposed in the side cover, and the power supply module is not required in the heat dissipation base to configure the power module. Achieve higher political heat for LED lighting modules Efficiency, and the power module is also designed in the structure of the LED lamp tube, which can simultaneously have high heat dissipation efficiency and integrated design of the power module. ^Over the technical means, it can be used to reach the New Light II The lamp structure has high heat dissipation efficiency and technical effects of integrated design of the power module. [Embodiment] The following describes the implementation of the creation in conjunction with the drawings and the embodiments, thereby how to apply the technical means to solve the technology. The problem and the realization of the technical effect can be fully understood and implemented. 夂T first explain the structure of the LED lamp disclosed in this creation, and please refer to the article The 纟 纟 为本 为本 为本 立体 d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d 发光 发光 发光The group power module 3〇 and a set of side covers 4〇. As shown in "Fig. 3", the heat sink base 1 can be made of aluminum extrusion type, that is, the material of the heat sink base 1 is aluminum, which is only an example. This is limited to the age of the creation, and the accommodating space 11 is provided in the heat dissipation base 10. The accommodating space 11 of the heat dissipation base 10 is for arranging and fixing the LED illuminating group 20 on the heat dissipation base i ,. The LED light-emitting module 2〇 is arranged and fixed on the loose wire base 10, which can be fixed by the screw-fixing method, the snap-in fixing method or the fastening method. Limit the scope of application of this creation. The jade is further provided with a plurality of heat dissipation fins 12 on the heat dissipation base 10, which can be used in the process of manufacturing the heat dissipation base 10 by the aluminum extrusion type, and the plurality of heat dissipation fins 12 are touched, and the heat dissipation base 1 is externally disposed. The fine film 12 can increase the heat dissipation area of the heat dissipation base 1G, thereby increasing the heat dissipation efficiency of the loose wire base 10, thereby dissipating the heat energy generated by the LED light-emitting module 2. The LED light-emitting module 20 is composed of a plurality of light-emitting diodes 22 composed of a circuit board 21 and a plurality of light-emitting diodes 22, and is disposed and fixed on the circuit board 21. The plurality of light-emitting diodes 22 can be The circuit board 21 is disposed on the circuit board 21, or the arrangement of the LEDs 22 on the circuit board 21 can be performed according to special lighting requirements. In the figure, only the plurality of LEDs 22 are arranged in the circuit in an array manner. Plate 2 ι M383688 is here for illustrative purposes only and is not intended to limit the scope of application of this creation. Since the LED lighting module 20 is disposed and fixed on the heat dissipation base 1 , that is, the circuit board 21 is directly attached to the heat dissipation base 1 , the heat dissipation base 1 can directly absorb the circuit board 21 . The thermal energy generated by the plurality of light-emitting diodes 22 is transmitted through the plurality of heat-dissipating fins 12 of the thermal substrate 10 to dissipate heat generated by the plurality of light-emitting diodes 22 on the circuit board 21. In addition to directly fixing the LED lighting module 20 to the heat dissipation base 1 , a heat absorbing layer 13 can be formed in the accommodating space η of the heat dissipation base ί , and the heat absorbing layer 13 can be used to dissipate the space ( 4 ) in the accommodating space. The bottom of the layer is the heat-filling layer 13 or the bottom of the accommodating space u is formed by the V-heat pad 14 to form the heat-absorbing layer 13, which is merely illustrative, and is not limited to the application scope of the present invention. After the heat dissipation layer is formed in the valley space 11 of the thermal pedestal 10, the LED light-emitting module 20 is fixed on the heat-absorbing layer 13, and the coffee-emitting module 2 is disposed in the accommodating space of the heat dissipation base 10. The heat dissipation base 1Q can be absorbed by the heat absorption layer and the heat energy generated by the plurality of light-emitting diodes 22 on the circuit board 21 to lift the door and the plurality of heat dissipation through the heat-radiating base 1 The ore piece 12 dissipates the heat energy described in the illuminating-polar body 22 on the circuit board, thereby improving the heat dissipation efficiency. - The above-mentioned fixing of the LED lighting module 20 to the heat absorption @ 13 can be fixed by means of screwing and splicing, and it is only for the sake of the Ming, and it is not limited to the application scope of the creation. The power supply core group 30 is electrically connected to the LED light-emitting module 2, respectively, and the 3G can provide the LED light-emitting module 2 () stable power supply, and the power supply mode, and the 3〇 are respectively configured and Fixed in the side cover 4 (), the power module 3 () further includes an external sub-and the external electrical connector 31 of the power module 30 respectively passes through the tooth 41, that is, can pass through the Leitong grip) Such as & u
此僅為舉例說明之,並不以此侷限本創作_用範脅。 電性連接件3卜並且電源模〗 设置於侧蓋40的貫穿孔41, r細發光模組2〇配置且固定於散熱基座10上,並且電源 ^、、刀顺LED發光模組2〇形成電性連接,以及電源模組 刀別被配置且固定於側蓋4〇中’最後再將側蓋4〇分別固定於散 ’、、、土座10之兩端,即可以組合為本創作之發光二極體燈管結構 1〇〇毛光一極體燈管結構100組合後的結果可以參考「第4圖」 所不’第4目」料為本触發光二極體燈管結構的立體組合示 接著,請參考「第5圖」所*,「第5圖」I會示為本創作發光 一極體燈官結構與燈罩的立體分解示意圖。 發光二極體燈管結構1〇〇更可以包含燈罩5〇,燈罩5〇在圖式 中係呈現半圓弧的形狀,事實上,可以依照實際的需求對燈罩% 進行不同形狀的設計,例如:平板狀,圖式僅為示意說明,並不 以此侷限本創作的應用範疇。 燈罩50覆蓋於配置於散熱基座1〇容置空間丨丨的LED發光 模組20上,而燈罩5〇係採用可透光的熱塑性聚合物製成,並且 以射出成型方式製成燈罩50,上述的可透光的熱塑性聚合物可已 是聚碳酸酯(P〇lycarb〇nate,Pc)、聚苯乙烯(p〇iystyrene,ps) 或聚甲基丙婦酸甲g旨(Polymethylmethacrylate,PMMA)等常用作 M383688 為外殼的材質所製成’上述僅為舉例說明之,並不以此侷 作的應用範疇。 燈罩50係用以對散熱基座1〇容置空間u的led發光模組 20進行保護,並且可將LED發光模組2〇所發出的光線透出,以 達到發光二極體燈管結構刚發光的功效,而鮮%又可以透過 滑執方式、卡扣方式或是扣合方式將燈罩5〇固定於散熱基座 •上’使燈罩50可覆蓋於配置於散録座1〇,並且透過側蓋4〇分 ·.別固定於組合後的散熱基座1〇以及燈罩%的兩端,即可以粗入 為本創作之發光二極體燈管結構刚,發光二極體燈管結構1〇口〇 組合後的結果可以參考「第6圖」所示,「第6圖」繪示為本創作 發光一極體燈管結構與燈罩的立體組合示意圖。 综上所述,可知本創作與先前技術之間的差異在於本創作的 電源模組係被分耻置於側蓋中,並且在散絲座不需要額外設 輕間以配置錢模組,即可以對LED發光模組達到較高的散熱 效率’亚且電源模組亦被結合設計於發光二極體燈管結構中,即 •可以同時具有高散熱效率以及電源模組整合設計的效果。 藉由此技術手段可以來解決先前技術所存在現有的發光二 極體燈官結構無法同時具有高散熱效率以及電職組整合設計於 見有的么光一極體燈管結構内的問題,進而達成發光二極體燈管 結構同時具有高散熱效細及電賴組整合設計的技術功效。 雖然本創作所揭露之實施方式如上,惟所述之内容並非用以 直接限定本創作之專利保護範圍。任何本創作所屬技術領域中具 有通常$識者,在不脫離本創作所揭露之精神和範圍的前提下, 、在的形式上及細節上作些許之更動。本創作之專利保護 M383688 範圍,仍須以所附之中請專利範圍所界定者為準。 【圖式簡單說明】 ’° 第1圖繪示為習知曰光燈照明設備結構分解圖。 第2Α圖繪示為習知發光二極體燈管結構的第一態樣立體分 解示意圖。 第2Β圖繪示為習知發光二極體燈管結構的第二態樣立體分 解示意圖。 圖 圖 第3圖繪示為本創作發光二極體燈管結構的立體分解示意 第4圖繪示為本創作奸二_燈管結構的立體組合示意 第5圖繪示為本創作發光二極體燈管結構與燈罩的立體分解 示意圖 第6圖、’.s7F為本創作發光二極體燈管結频燈罩的立體組合 φ 【主要元件符號說明】 100 發光二極體燈管結構 10 散熱基座 11 容置空間 12 散熱鰭片 13 吸熱層 20 LED發光模組 21 電路板 22 發光二極體 M383688This is for illustrative purposes only and is not intended to limit the creation of this article. The electrical connector 3 and the power module are disposed in the through hole 41 of the side cover 40, and the fine light emitting module 2 is disposed and fixed on the heat dissipation base 10, and the power supply and the LED illumination module are disposed. Forming an electrical connection, and the power module blade is configured and fixed in the side cover 4〇, and finally the side cover 4〇 is respectively fixed to the ends of the dispersion, and the soil seat 10, that is, the combination can be combined The result of the combination of the light-emitting diode structure and the structure of the light-emitting diode structure of the light-emitting diode can be referred to as "the fourth picture". After the combination, please refer to the "5th figure" *, "5th picture" I will show the three-dimensional exploded view of the light-emitting one-pole lamp official structure and the lampshade. The light-emitting diode lamp structure 1〇〇 can further include a lampshade 5〇, and the lampshade 5〇 has a semi-circular shape in the drawing. In fact, the lampshade% can be designed in different shapes according to actual needs, for example, : The flat shape, the drawing is only a schematic description, and does not limit the application scope of this creation. The lamp cover 50 covers the LED light-emitting module 20 disposed on the heat-dissipating base 1 〇 accommodating space ,, and the lamp cover 5 is made of a light-transmissive thermoplastic polymer, and is formed into a lamp cover 50 by injection molding. The above light transmissive thermoplastic polymer may be polycarbonate (P〇lycarb〇nate, Pc), polystyrene (ps) or polymethylmethacrylate (PMMA). It is often used as the material of the M383688 for the outer casing. 'The above is only an example, and it is not the application scope of this bureau. The lamp cover 50 is used for protecting the LED light-emitting module 20 of the heat-dissipating base 1 accommodating space u, and can transmit the light emitted by the LED light-emitting module 2 , to achieve the structure of the light-emitting diode lamp tube. The light-emitting effect, and the fresh% can be fixed to the heat-dissipating base by means of sliding, snapping or snapping, so that the lampshade 50 can be covered in the shovel 1 and through The side cover 4 is divided into two parts. It is not fixed to the combined heat dissipation base 1〇 and the two ends of the lamp cover, that is, it can be thickened into the light-emitting diode structure of the original light, and the light-emitting diode structure 1 The results of the combination of the 〇 〇 可以 can be referred to the "figure 6", and the "figure 6" shows the three-dimensional combination of the structure of the illuminating one-pole lamp and the lampshade. In summary, it can be seen that the difference between the present creation and the prior art is that the power module of the present creation is distracted into the side cover, and no additional light room is needed in the loose wire seat to configure the money module, that is, The LED light-emitting module can achieve high heat dissipation efficiency. The power module is also designed in the light-emitting diode structure, that is, it can simultaneously have high heat dissipation efficiency and integrated design of the power module. The technical means can solve the problem that the existing LED light-emitting structure of the prior art can not simultaneously have high heat dissipation efficiency and the integrated design of the electric power unit is designed in the structure of the light-in-one light-emitting tube. The light-emitting diode lamp structure has the technical effects of high heat dissipation efficiency and integrated design of the electric group. Although the embodiments disclosed in the present disclosure are as above, the contents are not intended to directly limit the scope of patent protection of the present invention. Anyone who has the usual knowledge in the technical field of this creation will make some changes in the form and details without departing from the spirit and scope disclosed in this creation. The scope of the patent protection of this creation, M383688, is subject to the definition of the scope of the patent application. [Simple description of the drawing] ‘° Fig. 1 is a broken view showing the structure of a conventional xenon lamp illumination device. Figure 2 is a schematic diagram showing the first aspect of the conventional light-emitting diode lamp structure. Figure 2 is a schematic diagram showing the second aspect of the conventional light-emitting diode lamp structure. Figure 3 is a three-dimensional exploded view of the structure of the light-emitting diode lamp of the present invention. FIG. 4 is a three-dimensional combination of the structure of the second generation of the lamp tube. The three-dimensional decomposition diagram of the structure of the lamp tube and the lampshade is shown in Fig. 6. '.s7F is the three-dimensional combination of the junction lamp cap of the light-emitting diode lamp. [Main component symbol description] 100 LED body structure 10 Heat sink base Seat 11 accommodating space 12 heat sink fin 13 heat absorbing layer 20 LED light module 21 circuit board 22 light emitting diode M383688
30 電源模組 31 外部電性連接件 40 側蓋 41 貫穿孔 50 燈罩 71 日光燈管 711 燈管本體 712 金屬端部 713 電極接頭 72 燈座 721 燈座本體 722 電極座 723 啟動器 724 電極插孔 81 散熱基座 811 容置空間 82 電路板 83 發光二極體 84 側蓋 85 電源模組 1230 Power Module 31 External Electrical Connector 40 Side Cover 41 Through Hole 50 Lampshade 71 Fluorescent Tube 711 Lamp Body 712 Metal End 713 Electrode Connector 72 Lamp Holder 721 Lamp Holder Body 722 Electrode Holder 723 Starter 724 Electrode Jack 81 Heat sink base 811 accommodating space 82 circuit board 83 light emitting diode 84 side cover 85 power module 12