M266549 七、指定代表圖: (一) 本案指定代表圖為:第(二)圖。 (二) 本代表圖之元件符號簡單說明: 1 —一一一發光二極體 10 — -一燈體 11---主釋光區 1 2—— —副釋光區 2 0---基腳 2 1—— -一發光晶體 30——霧化層 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種發光二極體之結構改良,尤指一種免透過外 在結構輔助,即具有擴散光線之發光二極體,係屬照明燈具之技術領 域。 【先前技術】 隨著科技技術之快速發展,照明用之光源結構亦漸逐採以發光二 極體(L E D )替代之,然而,L E D之所以深受國内外大眾所喜愛, 主因在於L E D係屬冷發光,具有耗電量低、元件壽命長、無須暖燈 時間、反應速度快、不發熱、接近於太陽光及不會閃爍等優點,又, 其體積小、耐震動、適合量產,容易配合應用需求製成極小或陣列式 的元件,加上,L ED之亮度業已提昇至白熾光般之流明(iumem)度, 故,諸如手機、PDA、電腦等個人數位化產品、裝飾燈具之光源, 甚至,汽車業界,亦將警示尾燈由傳統燈泡更換為L ED燈,實可證 明L ED是未來照明光源之明日之星。 M266549 然而,目前LED之研發方向皆朝向“M266549 VII. Designated Representative Map: (1) The designated representative map in this case is: (2). (II) Brief description of the component symbols in this representative figure: 1 —one and one light emitting diodes 10 —-one lamp body 11 --- main light-emitting area 1 2 --- sub-light-emitting area 2 0 --- base Foot 2 1--A light-emitting crystal 30-Atomization layer 8. Description of the new type: [Technical field to which the new type belongs] This creation relates to the structural improvement of a light-emitting diode, especially an external structure-free assistance That is, a light-emitting diode with diffused light belongs to the technical field of lighting lamps. [Previous technology] With the rapid development of science and technology, the light source structure for lighting has gradually been replaced by light emitting diodes (LEDs). However, the reason why LEDs are loved by the public at home and abroad is mainly because LEDs are Cold light emission, has the advantages of low power consumption, long component life, no warm-up time, fast response speed, no heat, close to sunlight and no flicker, etc., and its small size, vibration resistance, suitable for mass production, easy According to the application needs, it can be made into extremely small or array-type components. In addition, the brightness of LED has been increased to incandescent iumem. Therefore, personal digital products such as mobile phones, PDAs, computers, and decorative light sources Even the automotive industry has also changed warning taillights from traditional light bulbs to LED lights, which can prove that LED is the star of tomorrow's lighting source. M266549 However, the current R & D direction of LEDs is toward "
:=::::結構本身做,外(採二= CHIp)) 之封裝方面者手(最常見即為覆晶封裝技術(FLIP 耀眼之照Γ力效坊間採用LED為照明發光源之物品,皆能達到相當 從而,高流明度之LED發光二極體,因高透光率之子彈型燈體 料下(咖輸),細蝴純狀光束形 也集中向_照射,触帶給_者賴指引或廣告看板耀眼醒目功 效,但,也因高透光率之子彈型燈體設計,使得L ED在諸多物品上 有其不理想之處·· 舉例而言’夜間廣告看板雖可利用LED集中照射之光源(一般 為點光源),而令遠方之駕駛者或行人清楚辨識,但經,駕驶者或行人 杈為接近廣告看板時,LED集巾成束之點狀光源,則會因過於集中 耀眼,而造成視覺上之舰縣,此舉紐對於駕驶安全方面是一大 困擾,甚至’對於裝飾品、裝飾燈具而言,高流明度之L E D過於集籲 中之點狀放射光源,往往無法營造出均勻擴散之光線氛圍。 再承上所言,為求高照明亮度,而採以光源集中成束狀之方式,-其照射角度過窄,做為提供廣告看板或大型液晶電視背光源者,勢必 會因LED之點狀光源照射面積較窄,而造成led之排列較為密 集,間接造成LED使用量有激增之態,由此可見,此種高流明度發 展之LED發光二極體,在光源照明寬廣度及光源柔和性方面,實有 待加強。 5 M266549 緣是,為解決習知LED發光二極體光源形成集中之缺失,即有 如我國公告第4450Q7號『LED燈具』及公告第578894 號『用於小型電子裝置之均勻發光結構』等專利產生,其中,445 0 0 7號之習知L ED燈具,係採以透明層球體内部另增設有一半透 明層’藉以達到光源之漫射目的,另5 7 8 8 9 4號專糖,則採以 點光源與透明面板間增設一“透光鏡,,方式,該透光鏡係由無數之 凹、凸角錐所構成,藉此,以達點光源照射時呈現光源漫射現象,使 得,由透明面板照射之光源呈一均勻擴散之柔和光源。 上述需於習知LED發光二極體内增設半透明層之燈罩,或於發 光二極體與透明面板間增設擴散用之透光鏡設計,一者,對於以輕薄 為訴求之手機歧晶螢幕而言,其另行增設擴散光源之結構體,必然, 會有爆增產品厚度之嚴重缺失,二者,另行增設之結構所衍生之材料、 各邛加工成本等,再再顯示,上述兩習知之專利創作,實有加以改善 之空間。 有鑑於斯,本創作人決心憑藉於產業界研發、製造多年經驗,特 別針對發光二極體本身無法自行將光源均勻擴散之缺失加以改良,經 本創作人苦思力索下,終於研料本_『發光二_之·結構改 良』’祈在改善習知L E D之技術瓶頸外,更願能嘉惠廣A之消費大眾。 【新型内容】 本創作『發光一極體之光源結構改良』,主要為達到發光二極體在 不透過外物漏下,而得以自行將光源均勻擴散目的,緣是,本創作 特別於發光二極體之燈縣緣形成有預設粗糙密集度之齡層,透過 M266549 霧化層之半透明表面,以達發光晶體釋放之光源呈—漫概象,進而 達到上述所稱之絲均钱散功效(即形成擴散光線),以解決習知發 光-極體統之擴散需另行增設透光鏡(即燈罩)等外在擴散結構所 衍生之諸多缺失。 再者’本創作透過發光二極體上之燈體霧化層特殊設計,除讓光 源付以均勻柔化擴散,藉由漫射絲所呈之寬廣照明角度特性,實可 於達到見廣之照明亮度優勢,她於習知雜光源發光二極體之狹窄 “、、月角度而相同之照明距離下,本創作之發光二極體之使用確有 增廣照明度之效果。 然而,為俾利審查委員及熟習該項技藝者能深入瞭解本創作達 到上述諸多功效之技術手段,賴具相_示並觀雛實施方式詳 細說明如後,請參照之。 【實施方式】 本創作係有關於一種“發光二極體之光源結構改良,,,請參照第 -、二圖所示,該發光二極體(L E D) ( i )外緣封裝包覆一透光性 之燈體(1 0 ),該燈體(1 〇 )係由前端圓弧曲線狀之主釋光區(工 1)和側邊圓柱狀之副釋光區(12)—體圍構出之子彈型燈體(1 〇 ) ’该燈體(1〇)内並接設有一正、負極之基腳(2 〇),該基腳 (2 0 )預設處並置放有一發光晶體(2 1 ),基腳(2 〇 )經導通後, 即可令發光晶體(2 1 )釋放出照明光源,而本創作之改良重點在於: 該燈體(1〇)係利用玻璃、塑膠等高透光性材質製成之透光燈 體(1 0 )’燈體(1 0 )周緣之圓柱狀副釋光區(1 2 )及前端之圓 M266549 弧曲線狀主釋光區(1 1)之外表緣形成有-霧化層(3 Ο )(第三圖 所不)’ 5亥務化層(3 〇 )之成型方式,可採以燈體(1 〇 )成型後再 似研^等相關霧化加工程序,然,為達高製造效率及低成本目標, 最佳之實施方式,乃_難(丨Q )於製造封裝擁巾直接由模具 f形於燈體(1 0 )表緣’藉由燈體(1 0 )釋放杨之主、副釋光 區曰(1!、12)表緣粗縫之半透明霧化層(3〇)設計,使得,發 光曰曰體(2 1)釋放之光源’經粗糖之半透明霧化層(3 〇 )阻隔下, 7光原於燈體(1 Q )内產生折射之漫航源,該漫射光源經由燈體 (1〇)之主釋光區(11)及副釋光區(12)釋出時,即為-均 勻擴散之柔和光源。 再茶照第三圖所示,由圖式中可看出,發光二極體⑴經由燈 體y)表緣形成之半透明霧化層(3 〇)設計下,可有效將光源由 子㈣燈體(1 0 )之主釋光區(1 1)及副釋光區(1 2 )均勻的 概照明,經霧化層(3 〇 )漫射均勻擴散之柔和光源,其照明角度 更疋均勻的由發光二極體⑴四周發亮,完全不會有習知集中式點 犬光源叙$光源折射區域明亮,四周則呈現誨暗之態。 _本創作發光二極體⑴,如應用在背光模組時Γ參照第四圖所 不),亦可利用其均勻擴散特性,達到液晶螢幕輝度均均,以及背光模 ’毛光源排觸蹄A,雌達職光源使賴量齡之雙重優勢, 、、V ϋ點外’本創作具光源均勻舰之發光二極體(1 ),亦可 因光源本身即具均勻擴散光源之特性,亦可省下背光模組内“擴散板,, 用使什液阳螢幕可以進一步邁入超薄技術領域,對於以輕薄為 M266549 訴求之液晶面板而言,亦是一項競爭利多之優勢。 另,凊參照第四之一圖所示,係本創作之發光二極體(1 )搭配 小型裝飾品(4 Q)之實施例示意圖,其中,該小型裝飾品(4 〇 ) 包括有-座體(4 1)及-蓋體(4 2 ),蓋體(4 2 )表緣形成有三 角形排列之透明圈罩(4 3 ),座體(4 1 )對應透明圈罩(4 3 )位 置則間隔環設有複數發光二極體⑴;本_之發光二極體⑴, 因燈體(1 0 )表緣形成有一半透明霧化層(3 0 ),故,置放在座體 (4 1 )内之&光_極體(1 )與蓋體(1 〇 )間無需增言卜擴散結 構’即可藉由發光二極體⑴之燈體(i Q )表緣霧化層(3⑻ 讓光源產生漫射現象,令,透關罩(4 3 )直接釋放—均勻擴散之 柔和照明辆’其柔和之漫概源,實可營造出f知發光二極體所欠 缺之柔和域概,同時,私藉助外物輔助即能_光源 照明功效。 月文 再残第五圖及五之—圖所示,係本創作之第二實施例,該實 歹=發光二極體結構’大致和上述最佳實施例相同,相同之結構 僅以援用,且不再重複性備載,請審委自行參照上述實施例,如下, 董就不同處加以論述·· =施例發光二極體之燈體(丄Q )亦形成有—主釋 =擇光區(12),副釋光區(12)仍為圓柱狀,主釋光區 平切面狀之主釋光區(11)和圓柱狀q 1 2)父接處,並形成有一反射區(13),該反射區( 、弧倒角狀設計’然而’水平切面狀之主釋光區(11)表緣同 M266549 樣形成有一霧化層(3 Ο ),以達發光晶體(2 Ο )光源漫射擴散之目 的,副釋光區(12)及反射區(13 )則為一般未設有霧化層之高 透光率燈體,最特別的是,反射區(13)經由圓弧倒角設計,可將 發光晶體(2 0 )釋放之光源反射回後端,使得發光二極體之前端為 一柔和之光源,而後端部位則顯得特別明亮,該實施態樣之發光二極 體,如應用在背光模組中除可藉由前端水平切面主釋光區(11)之 表緣霧化層(3 0 )達到光源擴散角度較大優勢,更可透過反射區(1 3)形成全方位之光源反射特性,而達到光線擴散功效。 續,參照第六圖及第六之-圖所示,係本創作之第三實施例,該 實施例之發光三極體結構’大致和上述最佳實施_同,相同之結構 名稱則予以,且不冊言重概備載,触委自行參社述實施 例,如下,僅就不同處加以論述: 该貝施例之U二極體之_ ( i Q ),則包含有—圓柱狀之副 光區(1 2)及平頭狀主釋光區(11),副釋光區(i 2 )為一般 經霧化加工之高透光率燈體,而主釋光區(i i)則於平頭切面表 形成有-霧化層(3 0 )’透過,發光二極體前端主釋光區( 齊狀設計,以域傾(3 Q )她之料 體(2 0 )職之切、,經前敝_ ( i i )霧 隔漫射下,彳纖二_(1())蝴加網 施態樣之敍二_料麵耻輯财上,崎料 以釋放出均勻之柔美柄,細_較_之製造魏Γ 又,本創作概二_⑴村物晴者對於光源 M266549 貝需求’而將霧化層(3 〇)之粗糙度、密度等加以自由控制,進而 達到光源強弱選擇功效。 綜合上述二種實施態下之發光二極體,皆能透過燈體(1 Q )表 緣特別設計之半透明霧化廣(3Q)而達到自行將放射光源均勻擴散 柔化’俾利’消費者對於產品之性質,而自由選擇高透光性或均句擴 散性之發光二極體,整咖言,本創作不僅富有_之_精神,其 所達之功效亦符合進步性之規定。 ^ 由上所述者僅為用以解釋本創作之較佳實施例,並非企圖據以對 本創作作任何形式上之限制,是以,凡有在相同之創作精神下所作之 些微修飾或變更’皆仍應包括在本創作意圖保護之範缚。 练上所述,本創發光二極體之光源結構改良,無論整體結構設計、 使用貝雜及成本效i上,確實是完全符合產業上發展所需,且所揭 露之結構_亦是具有前所未有的_構造,_其具有「卿性」 應無疑慮,又本創作可較習域敎具魏之增進,因此亦具有「進 步性」,其完全符合我國專利法有關新型專利之申請要件的規定,乃依 法提起專利申請,並敬請釣局早日審查,並給予肯定。 【圖式簡單說明】 第-圖係本創作之發光二極體外觀示意圖。 第二圖係本創作之發光二極體分解示意圖。 第三圖係賴作之發光二贿_秋方向示意圖。 第四圖係檐概二絲_她触讀態示意圖 M266549 第四之一圖係本創作之發光二極體搭配裝飾品使用之分解示意 第五圖係本創作第二實施例之發光二極體外觀示意圖。 第五之一圖係本創作第二實施例之發光二極體之光源漫、反射方 向不意圖。 第六圖係本創作第三實施例之發光二極體外觀示意圖。 第六之一圖係本創作第三實施例之發光二極體之光源漫射方向厂、 意圖。 第七圖係習知高透光率之發光二極體光源反射方向示意圖。 【主要元件符號說明】 發光二極體 10—— —一燈體 主釋光區 12—— 一〜副釋光區 反射區 2 0-~~ —一基腳 發光晶體 3 0—— ~一霧化層 裝飾品 4 1—— —一座體 蓋體 4 3—— 一〜透明圈罩 1 — 11 13 2 1 4 0 42 12: = ::::: The structure itself is made, and the packaging (outside (Cho 2 = CHIp)) is used by the packaging person (the most common is the flip-chip packaging technology (FLIP dazzling photo Γ) in the effect of the use of LEDs as the light source of lighting items, All can reach the equivalent. Due to the high light transmittance of the bullet-type lamp body (coffee), the pure beam shape of the thin butterfly is also focused on the _ irradiation, which brings the _ Lai's guide or advertising board is dazzling and eye-catching. However, because of the high light transmittance of the bullet-type lamp body design, LED has its disadvantages in many items. For example, 'night advertising boards can use LEDs Focused light source (usually point light source), so that drivers or pedestrians in the distance can be clearly identified. However, when the driver or pedestrian is close to the advertising signboard, the point light source bundled with LED towels will be too much. Focusing on the dazzling and visually caused Jianxian County, this move is a major problem for driving safety. Even for decorations and decorative lamps, high lumen LEDs are too concentrated. Can't create evenly spreading light Continuing the above, in order to achieve high lighting brightness, the light source is concentrated into a beam,-its irradiation angle is too narrow, as the backlight for the advertising signboard or large LCD TV, it is bound to be caused by LED The illuminated area of the point light source is narrow, resulting in a dense arrangement of LEDs, which indirectly results in a surge in LED usage. It can be seen that such high-luminescence LED light-emitting diodes have a wide range of light source illumination and light sources. In terms of softness, it needs to be strengthened. 5 M266549 The reason is that in order to solve the lack of concentration of the conventional LED light emitting diode light source, such as China's public notice 4450Q7 "LED lamps" and public notice 578894 "for small electronic devices "Uniform light-emitting structure" and other patents, among which, the conventional LED lamp No. 445 0 0 7 uses a transparent layer inside the sphere to add a semi-transparent layer to achieve the purpose of diffusing the light source, and another 5 7 8 8 9 No. 4 special sugar, a "light-transmitting mirror" is added between the point light source and the transparent panel. The light-transmitting mirror is composed of countless concave and convex cones. The source diffusion phenomenon makes the light source illuminated by the transparent panel a uniformly diffused soft light source. As mentioned above, it is necessary to add a translucent layer of a lampshade in the conventional LED light-emitting diode body, or add a light-emitting diode between the light-emitting diode and the transparent panel. For the design of the light-transmitting lens for diffusion, one is that for the mobile phone's disparity screen which requires lightness and thinness, the additional structure of the diffused light source will inevitably have a serious lack of explosive increase in product thickness. The structure-derived materials, processing costs, etc., show that there is room for improvement in the above-mentioned two patent creations. In view of this, the creator is determined to rely on years of experience in industrial research and development and manufacturing, especially The light-emitting diode itself cannot improve the lack of uniform diffusion of the light source by itself. After hard work by the creator, I finally studied the material _ "Light-Emitting__Structure Improvement" to pray to improve the technical bottleneck of the conventional LED In addition, I would like to be able to benefit the consumers of Guang A. [New content] This creation "Improved the structure of the light source of the light-emitting monopole" is mainly to achieve the purpose of the light-emitting diode to diffuse the light source uniformly without leaking through foreign objects. An age layer with a predetermined rough density is formed at the edge of the lamp body of the polar body. Through the translucent surface of the mist layer of M266549, the light source released by the light-emitting crystal is presented as a diffuse view, and then the above-mentioned silk is scattered. Efficacy (that is, the formation of diffused light) to solve the conventional light-emitting-polar system diffusion requires the addition of a light-transmitting mirror (ie, a lampshade) and other external defects derived from the diffuse structure. Furthermore, this creation uses the special design of the lamp body atomizing layer on the light-emitting diode, in addition to allowing the light source to be uniformly softened and diffused, the wide lighting angle characteristics presented by the diffuser wire can indeed reach the wide range. With the advantage of lighting brightness, she is familiar with the narrow light-emitting diodes and the same lighting distance of the moon angle. The use of the light-emitting diodes in this creation does have the effect of increasing the brightness. However, The review committee and those familiar with the art can thoroughly understand the technical means to achieve the above-mentioned many effects in this creation. The detailed implementation methods are described below, please refer to it. [Implementation Mode] This creation department is about An "improved light source structure of a light emitting diode, please refer to the first and second figures, the outer edge of the light emitting diode (LED) (i) is encapsulated with a light transmitting lamp body (1 0) The lamp body (1 〇) is a bullet-shaped lamp body (1 〇) composed of a main arcing area (Gong 1) with a circular arc shape at the front end and a sub-luminous area (12) with a side cylindrical shape. ) 'The lamp body (10) is provided with a positive and negative footing (20) ), A light-emitting crystal (2 1) is placed in parallel with the base (20), and after the foot (20) is turned on, the light-emitting crystal (2 1) can release the light source. The key points of improvement are: The lamp body (10) is a translucent lamp body (1 0) made of highly translucent materials such as glass and plastic, and a cylindrical auxiliary light emitting area (1) at the periphery of the lamp body (1 0). 2) and the front edge of the circle M266549 arc-shaped main luminous area (1 1) outside the surface edge is formed-the atomization layer (3 0) (not shown in the third picture) '5 Haiwu layer (3 0) molding Method, you can use the relevant atomization processing procedures such as grinding after the lamp body (10) is formed. However, in order to achieve the goal of high manufacturing efficiency and low cost, the best implementation method is _ Difficult (丨 Q) in Manufacture the packaging holder directly from the mold f-shaped on the surface edge of the lamp body (1 0). The light body (1 0) releases the main and auxiliary luminous areas of Yang (1 !, 12). The atomizing layer (30) is designed so that the light source emitted by the light emitting body (21) is blocked by the translucent atomizing layer (30) of the raw sugar, and 7 light sources are generated in the lamp body (1 Q). The diffuse source of refraction, the When the diffuse light source is released through the main light-emitting area (11) and the sub-light-emitting area (12) of the lamp body (10), it is a soft light source with uniform diffusion. As shown in the third picture, according to the figure, it can be seen from the diagram that the light-emitting diode ⑴ is formed by the translucent atomizing layer (30) formed on the surface of the lamp body y), and the light source can be effectively turned from the sub-lamp The main luminous area (1 1) and the sub-luminous area (1 2) of the body (1 0) are uniformly roughly illuminated, and the soft light source diffused and diffused uniformly by the atomizing layer (30), the illumination angle is more uniform. The light emitting diode is brightly illuminated around it. There is no conventional point light source. The light source refraction area is bright, and the surrounding area is dark. _This creative light-emitting diode ⑴, if applied to the backlight module (refer to the fourth picture), you can also use its uniform diffusion characteristics to achieve uniform brightness of the LCD screen, and the backlight mode 'hair light source row of shoes A The female light source has the dual advantages of Lai Liangling. Outside the “V” point, the creation of the light emitting diode (1) with a uniform light source can also save the light source because it has the characteristics of uniformly diffusing the light source. The "diffusion panel" in the backlight module allows Shiyeyang screens to further enter the ultra-thin technology field. It is also a competitive advantage for LCD panels that require light and thin M266549. Also, refer to the As shown in the fourth figure, it is a schematic diagram of the embodiment of the light-emitting diode (1) and small ornament (4 Q) created in this creation. The small ornament (40) includes a base (4 1). And-the cover (4 2), the cover (4 2) is formed with a triangle-shaped transparent ring cover (4 3) on the surface edge, and the seat (4 1) corresponds to the position of the transparent ring cover (4 3), and the spacer ring is provided Plural light-emitting diodes ⑴; the light-emitting diodes 本 of this _, because the lamp body (1 0) table A semi-transparent atomized layer (30) is formed at the edge, so there is no need to add a diffusion structure between the & light_polar body (1) and the cover body (10) placed in the base (4 1). The light-emitting diode (i Q) surface fogging layer (3⑻) can be used to diffuse the light source, so that the transparent cover (4 3) is directly released—a uniformly diffused soft lighting vehicle. The diffuse source can actually create a soft domain that is lacking in the light-emitting diode, and at the same time, it can be assisted by a foreign object to illuminate the lighting effect. This is the second embodiment of this creation. The actual structure = light-emitting diode structure is roughly the same as the above-mentioned preferred embodiment. The same structure is used for reference only and is not repetitively reproduced. Please refer to the review committee for reference. The embodiment is as follows, Dong discusses the differences .. == The lamp body (之 Q) of the light-emitting diode is also formed in the example-the main release = the light selection area (12), and the sub-light release area (12) is still The cylindrical light emitting area (11) and the cylindrical light emitting area (1) are connected to the parent light emitting area, and a reflecting area (13) is formed. (, Arc chamfer-shaped design 'however', the surface of the main luminous area (11) of the horizontal section is formed like M266549 with an atomized layer (3 0), in order to achieve the purpose of light-emitting crystal (2 0) diffuse diffusion) The sub-light-emitting area (12) and the reflection area (13) are high-light-transmittance lamp bodies that are generally not provided with an atomizing layer. Most particularly, the reflection area (13) is designed by being chamfered by an arc. The light source released by the light-emitting crystal (20) is reflected back to the back end, so that the front end of the light-emitting diode is a soft light source, and the rear end portion is particularly bright. The light-emitting diode of this embodiment, if used in a backlight mode, In this group, in addition to the front edge horizontal main section of the main luminous area (11) surface fogging layer (30) to achieve a larger light source diffusion angle advantage, but also through the reflection area (1 3) to form a full range of light source reflection characteristics , And achieve light diffusion effect. Continuing, referring to the sixth figure and the sixth figure, it is the third embodiment of this creation. The light-emitting triode structure of this embodiment is roughly the same as the above-mentioned best implementation. The same structure name is given, Without recapitulation, the committee will participate in the examples described by the agency, as follows, and only discuss the differences: The U-diode of the shell example (i Q) includes-cylindrical auxiliary The light area (1 2) and the flat head-shaped main light emitting area (11), the sub-light emitting area (i 2) is a high-transmittance lamp body which is generally atomized, and the main light emitting area (ii) is on a flat head The section surface is formed with -atomization layer (30) 'through, the main light emitting area at the front end of the light emitting diode (homogeneous design, with the domain tilt (3Q) of her material (20), In front of the _ (ii) under the fog, Dian Xian Er _ (1 ()) butterfly can be applied to the net in two ways _ material surface shaji Ji Cai, in order to release a uniform and soft handle, fine_ Compared with _ manufacturing Wei Γ, this creation profile _ ⑴cun Wu Qingzhe for the light source M266549 demand, and the roughness, density, etc. of the atomized layer (30) can be freely controlled to achieve the light source strength selection function The light-emitting diodes integrated in the above two embodiments can pass through the translucent fogging (3Q) specially designed on the surface of the lamp body (1 Q) to achieve uniform diffusion and softening of the radiation source by itself. 'Consumers are free to choose light-emitting diodes with high light transmittance or uniform diffusion. For the whole story, this creation is not only rich in _ spirit, but its efficacy also meets progressive requirements. ^ The above are only for explaining the preferred embodiment of this creation, and are not intended to restrict the creation in any form. Therefore, any minor modifications or changes made in the same spirit of creation 'All should still be included in the scope of protection of this creative intention. As mentioned above, the improvement of the light source structure of the original light-emitting diode, regardless of the overall structural design, use of components, and cost-effectiveness, is indeed in line with the industry. The structure needed for development and the structure disclosed is also unprecedented, and it has "clear nature" and should be undoubtedly considered, and this creation can be enhanced by Wei from Xi Yu, so it is also "progressive". Which fully matches The provisions of the National Patent Law concerning the requirements for the application of new types of patents are based on the application for patents, and I invite the Bureau of Fishing to review and affirm it as soon as possible. [Simplified illustration of the drawing] The first figure is a schematic diagram of the appearance of the light-emitting diode. The second picture is the exploded schematic diagram of the light-emitting diode created by this creation. The third picture is the schematic diagram of Lai Zuo's light-emitting diode _ autumn direction. The fourth picture is the schematic diagram of the eaves _ her touch-reading state M266549 The fourth one Decomposition diagram of the light-emitting diode used in this creation with ornaments. The fifth picture is the appearance of the light-emitting diode in the second embodiment of the creation. The fifth picture is the light-emitting diode in the second embodiment of the creation. The diffuse direction of the light source and the direction of reflection are not intended. The sixth diagram is a schematic diagram of the appearance of the light emitting diode of the third embodiment of the present invention. The sixth diagram is the light source diffusion direction of the light emitting diode of the third embodiment of the present invention. intention. The seventh diagram is a schematic diagram of the reflection direction of a conventional light emitting diode light source with high transmittance. [Description of Symbols of Main Components] Luminous Diode 10 ———— A main light emitting area of a lamp body 12—— ~ Auxiliary light emitting area Reflecting area 2 0- ~~ —One footing light emitting crystal 3 0—— ~ A fog Decoration of decorative layer 4 1 ———— a body cover body 4 3—— a ~ transparent circle cover 1 — 11 13 2 1 4 0 42 12