201026996 六、發明說明: 【發明所屬之技術領域】 -種發光二極體燈管結構’尤其係指—種燈罩部分採用 性聚合物及碳酸約之混合組成物製成,並且燈罩内表面呈$… 表面以消除絲效果,以及透過發光二極體燈管結_電== 覆蓋反光片增強發光亮度之發光二極體燈管結構。 【先前技術】 在曰常生活中,照明設備一直以來都是不可或缺的奮I 具,現有的照明設備多半都以燈泡或燈管作為主要光源,在這= 燈管或燈泡巾,較為常見者有日光燈管、白熾燈泡、鹵素燈^ 鹵素燈泡。其中,由於日光燈管之耗電量約僅為白熾燈泡二: 之-,壽命卻可達到白織燈泡的五至十倍,且發光均勻性較佳, 可運用於廣角照明,因此,較為廣泛使用。 以下將說明一種習知的日光燈照明設備,並請參照「第丨圖」 所示,「第1圖」繪示為習知曰光燈照明設備結構分解圖;曰光^ # 照明設備包含日光燈管71以及燈座72 ’日光燈管具有燈管本^ 711以及一對金屬端部712,金屬端部712各設有一對電極接頭 713 ;燈座72則具有燈座本體72卜一對電極座722以及啟動器 723 ’電極座722係設置於燈座本體721兩端部,並具備一對電極 插孔724 ;實際使用時,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中,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,進而發出紫外線來激發塗佈於燈管内支螢光粉發出 白色光,然而,日光燈管内所塗佈之螢光粉通常都含有具污染性 3 201026996 的重金屬元素(例如:汞),不僅不容易回收再利用,更容易造成 環境的污染。 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 示燈與顯示裝置上,如行動電話及個人數位助理(Pers〇nalDigital ❹ Assistant ’ PDA)螢幕背光源、各種戶外顯示器、交通號諸燈及車 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 光二極體燈管,藉以克服日光燈管所造成的問題,以下將說明一 種習知的發光二極體燈管,並請參照「第2圖」所示,「第2圖」 繪示為習知發光二極體燈管立體圖。 習知的發光二極體燈管主要係由二套管81、具透光性之燈罩 82、電路板83以及若干設置於電路板83上之發光二極體科組成。 ❿組裝時係於燈罩82内容置電路板83,齡麟燈罩二端套接於二 套管中。 然而,由於習知的發光二極體燈管係需要使用若干個發光二 極體84 fi]時發光’藉以達到與習知的日光燈管具有相同的照度, •但卻也產生出了另外的問題,即為發光二極體之間的發光會交互 影響,形成眩光效果;同時由於眩光效果會使得發光二極體燈管 亮度下降,習知的發光二極贿管亦無增強亮度的設計。 〜综上所述,可知先前技術中長期以來一直存在發光二極體燈 管容易產生眩光效果’並且由賊光效果使得發光二極體燈管亮 201026996 度下降的問題,因此有必要提出改進的技術手段,來解決此 題。 【發明内容】 有鑒於先前技術存在發光二極體燈管容易產生眩光效果,並 且由於眩光效果使得發光二極體燈管亮度下降的問題,本發明遂 —揭露一紐光二極體燈管結構,其包含:散熱基座、電路板、反 光片、燈罩以及一對連接蓋。 • 其中’散熱基座具有容置空間以及固定部;電路板係設置固 定於容置空間中’電路板兩侧分別電性連接有至少一電性連接元 件,電路板上設置有至少-發光二極體;反光片設有至少一穿孔 且穿孔與電路板上之發光二極體相對應,並透過穿孔將反光片覆 蓋固定於電路板上;燈罩為凹凸表面之透光半圓弧體,並且燈罩 具有連接部,連接部係與固定部形成連接固定;及__對連接蓋, 連接蓋具有與f性連接元件姆應之至少—電性連接穿孔,電路 板上之電性連接元件係穿設於電性連接穿孔,燈罩及散熱基座透 ©過連接部及固定部連接固定後,再透過該對連接蓋固定於該對連 接蓋之間。 本發月所揭露之發光一極體燈管結構如上,與先前技術之間 的差異在於本發明在燈罩部分採用熱塑性聚合物及碳酸鈣 .(CaC03)之混合組成物製成,並且於鮮内表面設計為凹凸表 面’藉此以達到消除眩光效果,並且於電路板上覆蓋反光片以加 '強發光二極體燈管的發光效果。 ,透過上述的技術手段’本發明可以達成發光二極體燈管無眩 光效果產生且亮度增強的技術功效。 201026996 【實施方式】 以下將配合圖式及實施例來詳細說明本發明之實施方式,料 此對本發明如何應用技術手段來解決技術問題並達成技術功效^ 實現過程能充分理解並據以實施。 以下將先說明本發明發光二極體燈管結構,並請參考「第3 圖」所示’「第3圖」繪示為本發明發光二極體燈管結構立體分解 圖。 籲本發明所揭露之發光二極體燈管結構,其包含:散熱基座1〇、 電路板20、反光片30、燈罩40以及一對連接蓋5〇。 如「第3圖」所示,散熱基座1〇例如是以銘擠型(Aluminum Extrusion)的方式製作而成’並設有容置空間u以及固定部 12,固定部12係設於容置空間U外部之左右兩侧,容置空間u 係用以設置電路板20之用,固定部12係用以將燈罩4〇連接固 定於散熱基座10上。 並且,散熱基座10底部呈現半圓弧狀,並且於半圓弧狀上更 # 設置有複數個散熱鰭片13,亦可於鋁擠型製作散熱基座10的過 程中一併擠出複數個散熱鰭片13,透過所設置的散熱鰭片13可 以增加散熱基座10的散熱面積,藉以將電路板2〇上的發光二極 體21所產生的熱能加以散逸。 在電路板20上設置有至少一發光二極體,並且電路板2〇 •係直接設置於散熱基座10的容置空間11上,使得電路板20上 -的發光一極體21可以直接的接觸到散熱基座10 ,散熱基座10即 可以直接將電路板2G上的發光二極體21所產生的熱能加以吸 收,並透過散熱基座10外部所設置的散熱鰭片13將熱能散逸。 6 201026996 如圖所示’電路板20係透過固定元件61以螺合方式,將 電路板20固定於散熱基座1〇之容置空間^上,電路板2〇固 定於散熱基座10之容置空間11的方式不限制於透過螺合固定 方式’任何能夠達成固定方式,例如:卡合固定方式、扣合固 定方式等’皆可以包含在本發明固定方式之中,不以此侷限本 、 發明的應用範疇。 反光片30的表面塗佈一層反光性良好的反光層(圖中未繪 φ 示)’在此僅為舉例說明,並不以此侷限本發明的應用範疇,任何 可以將反光性良好的反光層設置於反光片30表面的技術手段應包 含於本發明之内,例如:以黏貼方式將反光性良好的反光層黏貼 於反光片30的表面,或是以電鍍方式將反光性良好的反光層電鍍 於反光片30的表面,都可以在反光片30的表面設置反光層。 並且反光片30上設置有至少一穿孔31,反光片30上的穿孔 31係與電路板20上的發光二極體相對應,並且,將反光片30背 面以黏貼方式貼合於電路板20上,並且電路板20上的發光二極 ® 體21即可穿設於反光片30上的穿孔31,圖中所繪示即為將反光 片30黏貼貼合於電路板20上,但不以此侷限本發明的應用範疇。 上述反光片30可以透過黏貼方式將反光片30貼合於電路板 20上,亦可以在反光片30設置至少一孔洞,並且透過反光片30 上的孔洞及固定元件61以螺合方式將反光片30固定於電路板 20上,反光片30固定於電路板20上係不限制於螺合固定方式, " 任何能夠達成固定方式,例如··卡合固定方式、扣合固定方式 等’皆可以包含在本發明固定方式之中,不以此侷限本發明的 應用範疇。 201026996 接者’清同時參考「第3圖」以及「第4圖」所示,「第4圖」 繪示為本發明發光二極體燈管結構燈罩元件立體圖。 燈罩40部分係採用熱塑性聚合物及碳酸約(CaC〇3)的組合 經過混合之後,以射出成型方式加以製成為凹凸表面之透光半圓 弧體的燈罩40,其中,熱塑性聚合物可以包含聚碳酸酯 (Polycarbonate,PC)、聚苯乙稀(p〇lyStyrene,ps)或是聚甲基 丙烯酸甲酯(Polymethylmethacrylate,PMMA)等常用作為外殼的 赢 材質。 9 由先前技術可以知道,一般發光二極體燈管僅採用熱塑性聚 合物加以射出成型,以製成表面為光滑表面之透光半圓弧體的燈 罩,所發散出來的光線極易造成眩光的問題,因此,本發明製作 燈罩40的射出成型過程中,特別在熱塑性聚合物材質中另外混合 有碳酸鈣(CaC〇3),並且將燈罩40製成凹凸表面之透光半圓弧 體,透過這兩種設計,可以有效的防止眩光效果的產生,其中燈 罩40表面的凹凸形狀可以是鋸齒狀或者是波浪狀。 參 請配合「第5圖」所示’「第5圖」繪示為本發明發光二極體 燈官結構剖面圖;由於燈罩40呈現凹凸表面,在發光二極體 發光並射向燈罩40的凹凸表面時,會將部分的發光二極體21的 光線反射回電路板20上,因此,容易使本發明發光二極體燈管的 發光效率降低。 有鑒於此,本發明發光二極體燈管結構中在電路板2〇上固定 —有反光片3〇’藉以將經由燈罩40的凹凸表面反射回來的光線再次 反射向外發散,達到增加本發明發光二極體燈管之發光效率的效 201026996 :r_r二 合散熱基座10 _定部i 即為配 部W滑動至敗部12中,『槽外形,於固定時,僅需將連接 10上。 卩可將燈罩40賴固定於散熱基座 請再次參考「第3 R ^ _ ❿ 參 有至少-電性連接元件2W不’在電路板20兩側分別電性連接 =:Γ電性連接時的電性連接元== in 咖進行電性連 在連接盘5〇巾具有與電路板2G兩側連接之電性連接元件 22相對應的電性連接穿孔51 ’電路板2〇上的電性連接元件22即 可穿设於連接蓋50的紐連接穿孔5i,並且透過201026996 VI. Description of the Invention: [Technical Field of the Invention] - A light-emitting diode lamp structure 'in particular, the lampshade portion is made of a mixed polymer of a polymer and a carbonic acid, and the inner surface of the lampshade is $ ... The surface is used to eliminate the effect of the wire, and the structure of the light-emitting diode lamp through the light-emitting diode tube junction _ electricity == covering the reflector to enhance the brightness of the light. [Prior Art] In the ordinary life, lighting equipment has always been indispensable, and most of the existing lighting equipment uses bulbs or tubes as the main light source. In this case, the lamp or bulb is more common. There are fluorescent tubes, incandescent bulbs, halogen lamps ^ halogen bulbs. Among them, because the power consumption of the fluorescent tube is only about the incandescent bulb 2: - the life can reach five to ten times that of the white woven bulb, and the uniformity of illumination is better, which can be applied to wide-angle illumination, so it is widely used. . A conventional fluorescent lamp lighting device will be described below, and please refer to the "Fig. 1", which is shown as an exploded view of a conventional xenon lamp lighting device; the lighting device includes a fluorescent tube. The lamp holder 72' has a lamp tube 711 and a pair of metal ends 712. The metal ends 712 are each provided with a pair of electrode joints 713. The lamp holder 72 has a socket body 72 and a pair of electrode holders 722. The electrode holder 722 is disposed at both ends of the socket body 721 and has a pair of electrode insertion holes 724. In actual use, the fluorescent tube 71 is inserted into the lamp by the electrode/joint 713 of the metal end portion 712. In the electrode socket 724 of the seat 72, an electrical connection is achieved. The principle of the fluorescent tube is that the electrons that escape from the electrode collide with the particles in the fluorescent tube, and then emit ultraviolet light to excite the fluorescent powder coated in the tube to emit white light. However, the fluorescent light applied in the fluorescent tube Powders usually contain heavy metals (eg mercury) with polluting 3 201026996, which are not only easy to recycle and are more likely to cause environmental pollution. In recent years, due to the rapid development of Light Emitting Diode (LED), and the LED has the advantages of low power consumption, long component life, no need for warming time and fast response, and its small size. , vibration-resistant, suitable for mass production, — therefore, LEDs have been commonly used in indicators and display devices for information, communication and consumer electronics, such as mobile phones and personal digital assistants (Pers〇nalDigital ❹ Assistant 'PDA) Screen backlights, various outdoor displays, traffic lights and lights. With the advancement of technology, a light-emitting diode lamp that can replace the fluorescent tube has been developed to overcome the problems caused by the fluorescent tube. A conventional light-emitting diode tube will be described below, and please refer to " As shown in Fig. 2, "Fig. 2" is a perspective view of a conventional light-emitting diode lamp. The conventional light-emitting diode lamp is mainly composed of a second sleeve 81, a light-transmitting lamp cover 82, a circuit board 83, and a plurality of light-emitting diodes disposed on the circuit board 83. When assembled, the lamp cover 82 is placed on the circuit board 83, and the two ends of the aging lamp cover are sleeved in the two sleeves. However, since the conventional light-emitting diode lamp system requires the use of a plurality of light-emitting diodes 84 fi], the light-emitting 'has the same illumination as the conventional fluorescent tube, but it also creates another problem. That is, the light between the light-emitting diodes will interact and form a glare effect; at the same time, due to the glare effect, the brightness of the light-emitting diode lamp is lowered, and the conventional light-emitting diode tube has no brightness enhancement design. ~ In summary, it can be seen that in the prior art, there has been a problem that the illuminating diode lamp is prone to glare effect for a long time and the illuminating effect of the illuminating diode lamp is lowered by 201026996 degree, so it is necessary to propose improvement. Technical means to solve this problem. SUMMARY OF THE INVENTION In view of the prior art, there is a problem that a light-emitting diode lamp is prone to glare, and the brightness of the light-emitting diode lamp is lowered due to the glare effect, and the present invention discloses a neo-light diode structure. It includes: a heat sink base, a circuit board, a reflector, a lamp cover, and a pair of connection covers. • The 'heat sink base has a receiving space and a fixing portion; the circuit board is fixed in the accommodating space. 'The two sides of the circuit board are electrically connected to at least one electrical connecting component, and the circuit board is provided with at least a light emitting two. a reflector; the reflector is provided with at least one through hole and the through hole corresponds to the light emitting diode on the circuit board, and the reflector is covered and fixed on the circuit board through the through hole; the lamp cover is a light transmissive semicircular arc body of the concave and convex surface, and The lampshade has a connecting portion, and the connecting portion is formed and fixed with the fixing portion; and __ the connecting cover, the connecting cover has at least-electrically connected perforations with the f-connecting member, and the electrical connecting member on the circuit board is worn through The electrical connection is provided in the through hole, and the lamp cover and the heat dissipation base are connected and fixed by the connection portion and the fixing portion, and then fixed between the pair of connection covers through the pair of connection covers. The structure of the illuminating one-pole lamp disclosed in the present disclosure is as above, and the difference from the prior art is that the present invention is made of a mixed composition of a thermoplastic polymer and calcium carbonate (CaC03) in the lampshade portion, and is in the fresh The surface is designed as a concave-convex surface to thereby achieve the glare-eliminating effect, and the reflective sheet is covered on the circuit board to add a luminous effect of the 'strong light-emitting diode lamp. According to the above technical means, the present invention can achieve the technical effect of the glare-free effect of the light-emitting diode lamp and the brightness enhancement. [Embodiment] Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings and embodiments, and how to apply the technical means to solve the technical problems and achieve the technical effects of the present invention. The implementation process can be fully understood and implemented. Hereinafter, the structure of the light-emitting diode lamp of the present invention will be described first, and the three-dimensional exploded view of the structure of the light-emitting diode lamp of the present invention will be described with reference to "3rd drawing" and "3rd drawing". The structure of the light-emitting diode lamp disclosed in the present invention comprises: a heat dissipation base 1 , a circuit board 20 , a light reflection sheet 30 , a lamp cover 40 , and a pair of connection covers 5 . As shown in the "figure 3", the heat dissipation base 1 is made, for example, by an aluminum alloy, and is provided with a housing space u and a fixing portion 12, and the fixing portion 12 is housed in the housing. The left and right sides of the space U are externally disposed, and the accommodating space u is used for arranging the circuit board 20, and the fixing portion 12 is used for connecting and fixing the lamp cover 4 to the heat dissipation base 10. Moreover, the bottom of the heat dissipation base 10 has a semi-arc shape, and a plurality of heat dissipation fins 13 are disposed on the semi-arc shape, and the plurality of heat dissipation fins 13 can also be extruded in the process of manufacturing the heat dissipation base 10 by aluminum extrusion. The heat dissipation fins 13 can increase the heat dissipation area of the heat dissipation base 10 through the heat dissipation fins 13 so as to dissipate the heat energy generated by the light-emitting diodes 21 on the circuit board 2 . At least one light emitting diode is disposed on the circuit board 20, and the circuit board 2 is directly disposed on the accommodating space 11 of the heat dissipation base 10, so that the light emitting body 21 on the circuit board 20 can be directly In contact with the heat dissipation base 10, the heat dissipation base 10 can directly absorb the heat energy generated by the light-emitting diodes 21 on the circuit board 2G, and dissipate the heat energy through the heat dissipation fins 13 disposed outside the heat dissipation base 10. 6 201026996 As shown in the figure, the circuit board 20 is fixed to the accommodating space of the heat dissipation base 1 by screwing the fixing member 61, and the circuit board 2 is fixed to the heat dissipation base 10 The manner in which the space 11 is placed is not limited to the manner in which the fixing method can be achieved by the screwing and fixing method, for example, the fastening method, the fastening method, and the like can be included in the fixing method of the present invention, and the limitation is not limited thereto. The scope of application of the invention. The surface of the retroreflective sheeting 30 is coated with a reflective layer having good reflectivity (not shown in the figure). Here, it is merely an example, and is not limited to the application range of the present invention, and any reflective layer which can have good reflectivity. The technical means provided on the surface of the retroreflective sheeting 30 should be included in the present invention, for example, the reflective layer having good reflectivity is adhered to the surface of the retroreflective sheeting 30 by adhesion, or the reflective layer having good reflectivity is electroplated by electroplating. A reflective layer may be provided on the surface of the retroreflective sheeting 30 on the surface of the retroreflective sheeting 30. The reflective sheet 30 is provided with at least one through hole 31, and the through hole 31 of the retroreflective sheet 30 corresponds to the light emitting diode on the circuit board 20, and the back surface of the retroreflective sheet 30 is adhered to the circuit board 20 in an adhesive manner. The light-emitting diodes 21 on the circuit board 20 can be inserted through the through holes 31 of the retroreflective sheeting 30, and the reflective sheet 30 is adhered to the circuit board 20, but not Limits the scope of application of the present invention. The retroreflective sheeting 30 can be attached to the circuit board 20 by adhesive bonding, or at least one hole can be disposed in the retroreflective sheeting 30, and the reflective sheet can be screwed through the holes and the fixing member 61 of the retroreflective sheeting 30. 30 is fixed on the circuit board 20, and the retroreflective sheet 30 is fixed on the circuit board 20, and is not limited to the screwing and fixing manner, and any of the fixing methods can be achieved, for example, the fastening method, the fastening method, etc. It is included in the fixed mode of the present invention and is not limited to the scope of application of the present invention. 201026996 The receivers are also referred to as "3rd" and "4th", and "4th" is a perspective view of the lampshade component of the light-emitting diode structure of the present invention. The lampshade 40 portion is a lampshade 40 which is formed into a light-transmissive semicircular arc body having a concave-convex surface by injection molding after being mixed by a combination of a thermoplastic polymer and a carbonic acid (CaC〇3), wherein the thermoplastic polymer may comprise a polymer. Polycarbonate (PC), polystyrene (ps) or polymethylmethacrylate (PMMA) are commonly used as the winning material for the outer casing. 9 It can be known from the prior art that a general light-emitting diode lamp is only injection molded by using a thermoplastic polymer to form a light-emitting semi-circular arc lamp having a smooth surface, and the emitted light is highly liable to cause glare. Therefore, in the injection molding process of the lampshade 40 of the present invention, calcium carbonate (CaC〇3) is additionally mixed in the thermoplastic polymer material, and the lampshade 40 is made into a light-transmissive semicircular arc body of the concave and convex surface. These two designs can effectively prevent the occurrence of glare effects, wherein the concave and convex shape of the surface of the lamp cover 40 can be jagged or wavy. Referring to FIG. 5, FIG. 5 is a cross-sectional view showing the structure of the light-emitting diode lamp of the present invention; since the lamp cover 40 has a concave-convex surface, the light-emitting diode emits light and is incident on the lampshade 40. When the surface is uneven, the light of part of the light-emitting diode 21 is reflected back to the circuit board 20. Therefore, the luminous efficiency of the light-emitting diode lamp of the present invention is easily lowered. In view of the above, the light-emitting diode lamp structure of the present invention is fixed on the circuit board 2 - there is a light-reflecting sheet 3 〇 ' by which the light reflected back through the concave-convex surface of the lamp cover 40 is reflected again and outwardly, thereby increasing the present invention. The efficiency of the luminous efficiency of the light-emitting diode lamp 201026996: r_r two-way heat-dissipating base 10 _ fixed part i is the fitting part W sliding into the defeated part 12, "the groove shape, when fixed, only need to connect 10 .卩After fixing the lampshade 40 to the heat sink base, please refer to "3rd R ^ _ 参 至少 至少 at least - electrical connection component 2W not" electrically connected on both sides of the circuit board 20 =: Γ electrically connected Electrical connection element == in coffee electrically connected to the lands 5 〇 has electrical connection perforations 51 corresponding to the electrical connection elements 22 connected to both sides of the circuit board 2G electrical connection on the circuit board 2 The component 22 can be inserted through the new connection through hole 5i of the connection cover 50 and transmitted through
連接蓋50分別固定於散熱基座1〇的兩侧,連接蓋%分別Z 定於散熱基座10兩側的方式不限於螺合固定 達成固定方式,例如··卡合固定方式、扣合固丄;= 以包含在本發明IU定方式之中’不以此侷限本發明的應用範 疇。 將電路板20固定於散熱基座10之容置空間u之後,並將反 光片30固定於電路板20上,以及透過連接部41將燈罩4〇連接 固定於散熱基座10之固定部12後,再透過一對連接蓋5〇將散 熱基座10、電路板20、反光片30以及燈罩40固定於連接蓋5〇 之間,以形成本發明發光二極體燈管,請參考「第6圖」所示,「第 201026996 6圖」,示為本發明發光二極贿管結構立體組合圖。 綜上所述,可知本發明與先前技術之間的差異在於本發明在 燈罩部分採賴龍聚合物及碳_ (CaCG3)之混合組成物製 成並且於燈罩内表面設計為凹凸表面,藉此以達到消除眩光效 果的技術手段,並且於電路板上覆蓋反光Μ加紐光二極體燈 、 管的發光效果。 藉由此技術手段可以來解決先前技術所存在發光二極體燈 • 官容易產生眩光效果,並且由於眩光效果使得發光二極體燈管亮 度下降關題’躺達紐光二極體鮮無眩光效果產生且 增強的技術功效。 雖然本發明所揭露之實施方式如上,惟所述之内容並非用以 直接限疋本發明之專利保護範圍。任何本發明所屬技術領域中具 有通常知識者,在不脫離本發明所揭露之精神和範圍的前提下, 可以在實施的形式上及細節上作些許之更動。本發明之專利保護 範圍’仍須以所附之申請專利範圍所界定者為準。 參 【圖式簡單說明】 第1圖繪示為習知日光燈照明設備結構分解圖。 第2圖繪示為習知發光二極體燈管立體圖。 第3圖繪示為本發明發光二極體燈管結構立體分解圖。 第4圖繪示為本發明發光二極體燈管結構燈罩元件立體圖。 ' 第5圖繪示為本發明發光二極體燈管結構剖面圖。 ' 第6圖繪示為本發明發光二極體燈管結構立體組合圖。 【主要元件符號說明】 10 散熱基座 201026996The connecting cover 50 is respectively fixed on two sides of the heat dissipating base 1 , and the manner in which the connecting cover % Z is respectively fixed on the two sides of the heat dissipating base 10 is not limited to the screwing and fixing to achieve a fixing manner, for example, the engaging and fixing manner, the fastening and fixing丄;= is included in the IU method of the present invention 'not limited to the scope of application of the present invention. After the circuit board 20 is fixed to the accommodating space u of the heat dissipation base 10, the retroreflective sheet 30 is fixed to the circuit board 20, and the lamp cover 4 is connected and fixed to the fixing portion 12 of the heat dissipation base 10 through the connecting portion 41. Then, the heat dissipation base 10, the circuit board 20, the retroreflective sheeting 30, and the lamp cover 40 are fixed between the connection cover 5 through a pair of connection covers 5 to form the light-emitting diode lamp of the present invention. Please refer to "6th" As shown in the figure, "201026996 6" shows a three-dimensional combination of the structure of the light-emitting diodes of the present invention. In summary, it can be seen that the difference between the present invention and the prior art is that the present invention is made of a mixed composition of a dragon polymer and carbon _ (CaCG3) in the lampshade portion, and is designed as an uneven surface on the inner surface of the lampshade, whereby In order to achieve the glare-removing effect, the circuit board is covered with a reflective luminaire and a light-emitting diode lamp and a tube. By means of this technology, the illuminating diode lamp of the prior art can be solved. The glare effect is easy to be produced, and the brightness of the LED lamp is lowered due to the glare effect. The glare effect of the glare diode is not glare. Produced and enhanced technical capabilities. While the embodiments of the present invention are as described above, the above description is not intended to limit the scope of the invention. Any changes in the form and details of the embodiments may be made without departing from the spirit and scope of the invention. The scope of patent protection of the present invention shall still be determined by the scope of the appended claims. References [Simple Description of the Drawings] Figure 1 is a schematic exploded view of a conventional fluorescent lighting device. FIG. 2 is a perspective view of a conventional light-emitting diode lamp. FIG. 3 is a perspective exploded view showing the structure of the light-emitting diode lamp of the present invention. FIG. 4 is a perspective view of a lampshade component of the light-emitting diode lamp structure of the present invention. Fig. 5 is a cross-sectional view showing the structure of a light-emitting diode lamp of the present invention. Fig. 6 is a perspective view showing the three-dimensional combination of the structure of the light-emitting diode lamp of the present invention. [Main component symbol description] 10 cooling base 201026996
11 容置空間 12 固定部 13 散熱鰭片 20 電路板 21 發光二極體 22 電性連接元件 30 反光片 31 穿孔 40 燈罩 41 連接部 50 連接蓋 51 電性連接穿孔 61 固定元件 62 固定元件 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 套管 201026996 82 燈罩 83 電路板 84 發光二極體11 accommodating space 12 Fixing part 13 Heat sink fin 20 Circuit board 21 Light-emitting diode 22 Electrical connection element 30 Reflector 31 Perforation 40 Lampshade 41 Connection part 50 Connection cover 51 Electrical connection perforation 61 Fixing element 62 Fixing element 71 Fluorescent lamp Tube 711 Lamp body 712 Metal end 713 Electrode connector 72 Lamp holder 721 Lamp holder body 722 Electrode holder 723 Starter 724 Electrode socket 81 Sleeve 201026996 82 Lampshade 83 Circuit board 84 Light-emitting diode
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