M400561 2011年1月丨3曰修正替換頁 五、新型說明: 【新型所屬之技術領域】 本創作係關於發光二極體照明裝置,尤其指一種具有散熱燈罩的發光 二極體照明裝置。 【先前技術】 由於高功率發光二極體技術的發展,使得發光二極體照明裝置面臨到 曰益嚴苛的熱管理挑戰,溫度升高時不僅會造成亮度下降,且溫度過高時 會加速發光二極體本體及發光二極體封裝材料的劣化。 在習知技術中,一般發光二極體照明裝置的散熱方式可分為兩種:如果 係低瓦數的燈具可使用自然對流方式散熱,一般大多可利用散熱片或鰭片 貼附在裝没有發光二極體的光源板背面,而發光二極體所產生熱能需經過 光源板傳導至散熱片朗片,再透過散熱片或則將熱能逸出,但光源板 之材質大多為不綠熱之材質,因而易使熱能先累積在光源板上,造成散 熱功率的降低,甚至造成發光二極體的損壞。 如遇同瓦數的燈具時則需利用強制對流散熱,一般方式大多結合風扇 來增加散熱’當發光二極體產生的熱傳導至光源板背面的散熱片或韓片 時’透過風扇產生的氣流迅速將熱能帶走,進—步降發光二極體照 的溫度。 ~ 【新型内容】 综上所述,習知技術利用散熱片、歸片或風扇進行發光二極體照明裝 置的散熱,韓片過於笨重,而風扇需另外輸電,且兩者皆容易堆積灰塵, 造成散熱功率下降。同時,以前述之方式進行散熱,熱能皆集中流向燈座 導出並無法均皱熱,容易使燈座過熱而致加速照明裝置的損壞。 緣為克服上述先則技術產生的問題,本創作之主要目的係提供一 M400561 2011年丨月13曰修正替換頁 種具有散熱燈罩之發光二極顔喊置,包含有燈座、光源板、燈罩、 反射罩、聚光燈罩及闳定環。其中,燈座的中央設置有穿孔,穿孔容置有 電性接頭,且相對於第孔之兩側各設置有凸臂。同時,在光源板上設置有 複數個發光二極體模組以及複數個散熱導孔1各發光二極體模組係具有基 座及封裝部。散熱燈罩具有朝向該燈座之第一端與相對於第一端之第二 端,其中第一端朝向燈座設置有延伸部,且延伸部係抵靠於燈座之内壁^ 又,散熱燈罩之第二端設置有一平面構型,平面構型上開設有複數個第一 開孔,且燈座之凸臂係將光源板壓合於散熱燈罩之中並使光源板緊貼散熱 燈罩,且各發光二極體模組嵌設於各第一開孔之中。而反射罩設置於散熱 燈罩之平面構型上,反射罩對應於散紐罩上之各第__開關設有複數個 第二開孔,各發光二極體模組之各封裝部係凸出各第二開孔。聚光燈罩設 置於反射罩相對於散熱燈罩之—側。以及®定環套設於聚統革之外周 緣,配設有複數個鎖固元件,鎖固元件將固定環以及聚光燈罩鎖固於散熱 燈罩上。 因此,本創作之主要目的在於提出一種發光二極體照明裝置,由於光 源板與散麟罩緊密貼合,使光源板上的發光二極體所產生之熱能可透過 光源板直接傳導至散熱燈罩,並由散熱燈罩均勻散出。 本創作之又一目的在於提出一種發光二極體照明裝置,由於光源板與 政熱燈罩緊岔貼合,使熱由散熱燈罩進行散熱,因此不需另使用裝置鰭片 散熱’亦不需另行輸電使用風扇進行散熱。 【實施方式】 本創作係關於發光二極體照明裝置,尤其指一種具有散熱燈罩的發光 -極體照明裝置。町轉例較佳實關以說明本創作,麵知此技藝者 皆知此僅為-舉例,並非限定於創作本身,有關此較佳實施例之内容詳述 如下。 5 M4UU561 胡諠 e, , A 20丨丨年丨月丨3日修正替換頁 3 ™ 4 1〇0 2 ' 燈罩4、反射罩5、聚光燈罩6及固定環7。其中,燈座2中央設置 Π1*同時在Μ 21容置有-電性接頭卜並且相對於穿孔21的 兩側t置_ 22,凸f 22 _、板3齡於錄燈罩4上,凸臂η 的^在^加強熱能導⑽緊貼面積,使麵板3與散熱燈罩4結合更 加緊岔’更利於熱的傳輸。此外,凸f 22 ^ 之深纖峨3增„^=:=== 且散熱燈罩4之延伸部411進—步向外凸伸卡制部412,用以卡入凹槽23。 同時’光職3上設置有概個發光二極難㈣。另外,請同時參 =第二圖’光源板3上亦設置有複數個散熱導孔32,散熱導孔抑設置能 =光源板3的熱能均句導出;請再參閱第一圖,各發光二極體模組财 土座311及封裝部312,在本實施例中發光二極體的數量以7個為最佳。散 =罩4為-體成形之鱗,且經陽極處理,成為不導電但仍導熱的散熱 機構。 反射罩5叹置於散熱燈罩4的平面構型42ι上,反射罩5在此設置可 增加光的使解,光線射㈣反射罩5可將級最佳敝射侧。當絲 由發光二極體模組31射出時,光線透過聚光燈罩6,一部份折射出聚光燈 …6 ,射”則反射回反射罩5的反射面&上,透過反射面52的反射將剩 餘的微弱光線重複_ ’達到最佳的光線使用率。 _固定環7套設於聚光鮮6之相緣,配設有複數個播,鎖 固元件71將m定環7以及聚光燈罩6義於散熱燈罩4上。 a再者’在本創作中進—步包含有第—㈣環8套設於散熱燈罩4之延 P之外側且被失置於散熱燈罩4及燈座2之間,經燈座2與散熱 •:罩4 %壓’可達成加強防水的效果;同時本創作可再進—步包含有第 二〇型環9 ’且反射罩5進一步具有凸緣53 ’第二〇型環9套設於反射罩 之外周、.彖並將反射罩5之凸緣53夾置於第二〇型環9與散熱燈罩4之 M400561 2011年丨月丨3日修正替換頁 該平面構型421之間,經固定環7與散熱燈罩4施壓,可達成加強防水的 效果。同時,第-〇型環8及第二〇型環9皆以彈性體的橡膠材質為佳。 *請參閱第三圖,散熱燈罩4具有朝向燈座2的第—端41及相對於第一 端41之第二端42,第一端41朝向燈座2設置有延伸部,延伸部仙 之外徑小於燈座2之内徑,延伸部411抵靠於燈座2之内壁,而散熱燈罩4 之第二端42設置有一平面構型42卜平面構型421上開設有複數個第一開 -孔422,燈座2上設置的凸臂22即將光源板3壓合在散熱燈罩4 _,並使 .光源板3與散熱燈罩4接合,使各發光二極體模組31嵌設於各第一開孔422 之中’因此由光源板3所產生之熱能,可藉由接觸傳導自散熱燈罩4導出。 同時’政熱燈罩4之延伸部411進-步向外凸伸一卡制部412,可用以與燈 座2 ^内壁上3又置的凹槽23卡合。散熱燈罩4可以依照發光二極體模組配 ^數量與瓦數的高低修正散紐罩4的長度,續做有效的散熱設計及控 官。M400561 January 2011 丨3曰Revised replacement page V. New description: [New technical field] This creation is about light-emitting diode lighting devices, especially a light-emitting diode lighting device with a heat-dissipating lamp cover. [Prior Art] Due to the development of high-power LED technology, the LED lighting device faces the challenge of severe thermal management. When the temperature rises, it will not only cause the brightness to drop, but also accelerate when the temperature is too high. Degradation of the light-emitting diode body and the light-emitting diode package material. In the prior art, the heat dissipation mode of the general light-emitting diode lighting device can be divided into two types: if the low-wattage lamp can use the natural convection heat dissipation, generally, the heat sink or the fin can be attached to the package. The back surface of the light source plate of the light-emitting diode, and the heat energy generated by the light-emitting diode is transmitted to the heat sink slab through the light source plate, and then the heat energy is escaped through the heat sink, but the material of the light source plate is mostly not green. The material is easy to accumulate heat on the light source board, causing a reduction in heat dissipation power and even damage to the light-emitting diode. In the case of wattage lamps, forced convection heat dissipation is required. In general, the fan is used to increase the heat dissipation. When the heat generated by the LED is transmitted to the heat sink or the Korean film on the back of the light source panel, the airflow generated by the fan is rapid. Take away the heat and step in the temperature of the light-emitting diode. ~ [New Content] In summary, the conventional technology uses heat sinks, slabs or fans to dissipate heat from a light-emitting diode lighting device. The Korean film is too bulky, and the fan needs to transmit another power, and both of them are easy to accumulate dust. This causes the cooling power to drop. At the same time, the heat is dissipated in the foregoing manner, and the heat energy is concentrated to the lamp holder to be exported and cannot be evenly wrinkled, which easily causes the lamp holder to overheat and accelerate the damage of the lighting device. In order to overcome the problems caused by the above-mentioned prior art, the main purpose of this creation is to provide a M400561 2011 丨月曰13曰Replacement page with a light-emitting lampshade with a light-emitting lampshade, including a lamp holder, a light source board, and a lampshade. , reflector, spotlight cover and 闳 ring. Wherein, the center of the lamp holder is provided with a perforation, the perforation is accommodated with an electrical joint, and a convex arm is disposed on each side of the first hole. At the same time, a plurality of light-emitting diode modules and a plurality of heat-dissipating holes 1 are disposed on the light source plate, and each of the light-emitting diode modules has a base and a packaging portion. The heat dissipation lamp cover has a first end facing the lamp holder and a second end opposite to the first end, wherein the first end is provided with an extension toward the lamp holder, and the extension portion abuts against the inner wall of the lamp holder, and the heat dissipation lamp cover The second end is provided with a planar configuration, the planar configuration is provided with a plurality of first openings, and the convex arm of the lamp holder presses the light source plate into the heat dissipation lamp cover and the light source plate is closely attached to the heat dissipation lamp cover, and Each of the light emitting diode modules is embedded in each of the first openings. The reflector is disposed on the planar configuration of the heat dissipation lamp cover, and the reflector cover is provided with a plurality of second openings corresponding to the first __ switches on the blank cover, and each package portion of each of the light emitting diode modules is protruded Each second opening. The spotlight cover is placed on the side of the reflector relative to the heat shield. And the ® ring is placed on the outer edge of the leather. It is equipped with a plurality of locking elements. The locking element locks the fixing ring and the spotlight cover on the heat sink. Therefore, the main purpose of the present invention is to provide a light-emitting diode lighting device. Since the light source plate and the transparent light cover are closely fitted, the heat energy generated by the light-emitting diode on the light source plate can be directly transmitted to the heat-dissipating lamp cover through the light source plate. And evenly distributed by the heat sink cover. Another object of the present invention is to provide a light-emitting diode lighting device. Since the light source plate and the political heat lamp cover are closely attached to each other, the heat is dissipated by the heat-dissipating lamp cover, so that the device fins are not required to be used for heat dissipation. The power transmission uses a fan for heat dissipation. [Embodiment] The present invention relates to a light-emitting diode lighting device, and more particularly to a light-emitting body lighting device having a heat-dissipating lamp cover. The example of the preferred embodiment is described below, as is well known to those skilled in the art, and is not limited to the creation itself. 5 M4UU561 喧 e, , A 20th Anniversary 丨 3rd Revision Replacement Page 3 TM 4 1〇0 2 ' Lampshade 4, reflector 5, spotlight cover 6 and retaining ring 7. Wherein, the lamp holder 2 is disposed at the center of the lamp holder 2 at the same time, and the 电 21 is provided with an electric connector b and is disposed _ 22 with respect to both sides of the through hole 21, the convex f 22 _, the plate 3 is on the recording cover 4, and the convex arm The η ^ strengthens the thermal energy guide (10) to adhere to the area, so that the panel 3 and the heat-dissipating lamp cover 4 are more tightly combined to facilitate heat transfer. In addition, the deep fiber 峨3 of the convex f 22 ^ is increased by ^^=:=== and the extending portion 411 of the heat-dissipating lamp cover 4 protrudes outwardly from the engaging portion 412 for engaging the groove 23. It is difficult to set up a light-emitting diode (4) on the job 3. In addition, please refer to the second figure. The light source board 3 is also provided with a plurality of heat-dissipating holes 32, and the heat-dissipating holes are set to be able to=the heat energy of the light source board 3 The sentence is derived; please refer to the first figure, each of the LED module 311 and the package portion 312. In the embodiment, the number of the LEDs is preferably 7. The volume = the cover 4 is - The body is formed into a scale and is anodized to become a heat-dissipating mechanism that is non-conductive but still thermally conductive. The reflector 5 is placed on the planar configuration 42 of the heat-dissipating lamp cover 4, and the reflector 5 is provided here to increase the light solution and light. The (four) reflector 5 can optimize the level of the radiation side. When the wire is emitted by the LED module 31, the light passes through the spotlight cover 6, a part of which refracts the spotlight...6, and the reflection is reflected back to the reflector 5. On the reflective surface & the reflection through the reflective surface 52 repeats the remaining faint light _ 'to achieve the best light usage. The retaining ring 7 is sleeved on the edge of the concentrating fresh 6 and is provided with a plurality of broadcasts. The locking member 71 defines the m-ring 7 and the spotlight cover 6 on the heat-dissipating lamp cover 4. a further 'in this creation, the step-by-step includes the first-(four) ring 8 set on the outer side of the extension P of the heat-dissipating lamp cover 4 and is lost between the heat-dissipating lamp cover 4 and the lamp holder 2, through the lamp holder 2 and the heat dissipation •: the cover 4% pressure 'can achieve the effect of strengthening the waterproof; at the same time, the creation can further include a second 〇-shaped ring 9 ' and the reflector 5 further has a flange 53 'the second 〇-shaped ring 9 is set on The outer periphery of the reflector, and the flange 53 of the reflector 5 are sandwiched between the second 〇-shaped ring 9 and the heat-dissipating cover 4, M400561, the correctional replacement page, the plane configuration 421, The fixing ring 7 and the heat-dissipating lamp cover 4 are pressed to achieve a waterproofing effect. At the same time, the first 〇-shaped ring 8 and the second 〇-shaped ring 9 are preferably made of an elastomeric rubber material. * Referring to the third figure, the heat shield 4 has a first end 41 facing the socket 2 and a second end 42 opposite to the first end 41. The first end 41 is provided with an extension toward the socket 2, and the extension is The outer diameter is smaller than the inner diameter of the socket 2, the extending portion 411 abuts against the inner wall of the socket 2, and the second end 42 of the heat dissipation lamp cover 4 is provided with a planar configuration 42. The planar configuration 421 is opened with a plurality of first openings. - hole 422, the convex arm 22 provided on the lamp holder 2 presses the light source plate 3 against the heat dissipation lamp cover 4_, and the light source plate 3 is engaged with the heat dissipation lamp cover 4, so that the respective light emitting diode modules 31 are embedded in each The thermal energy generated by the light source panel 3 in the first opening 422 can be derived from the heat dissipation lamp cover 4 by contact conduction. At the same time, the extension portion 411 of the thermal lamp cover 4 protrudes outwardly from a locking portion 412, and can be engaged with the recess 23 on the inner wall of the lamp holder 2^. The heat-dissipating lamp cover 4 can correct the length of the diffuser cover 4 according to the number of the light-emitting diode modules and the number of wattages, and continue the effective heat-dissipation design and control.
综上所述,本創作中發光二極體照明裝置_利用光源板3與散熱燈 罩4緊密貼合的方式,使得光源板3上發光二極體模組31所產生的敎可直 接藉由光源板3與散罩4接觸而導出,相較於聽技射發光二極體 所產生的熱必襲穿透過光雜3射能透過賴#賴將出的方式, $創作利用絲板3 R錯光三極雜組31的表面直接與散熱燈罩4貼 。’使得發光二極體模組31產生的熱由最短傳導路徑傳導至散教燈罩4散 出。同時光源板3上亦設置有散鱗孔32,可增加熱的均勻導出。相較習 夫技術多侧笨重之·餘’或是風扇散細需另外輸電,又兩者皆容 ^堆積灰塵,造成雜辨下降,且Μ針於燈解致無法均勻散熱的 本創作可糊燈罩4直接散熱,且熱能會由燈罩4均勻散出而不使 燈座彳貝壞,延長照明設備之使用壽命。 藉由上述本創作實施例可知, 上實施例之說明僅為本創作之較佳 本創作確具備產業上之利用價值。惟以 實施例說明,舉凡所屬技術領域中具有 7 M400561 2011年1月13日修正替換頁 通常知識者當可依據本創作做其他改良及變化,然而此種改良及變化仍當 屬於本創作之創作精神及界定之權利範圍内。 【圖式簡單說明】 第一圖,為本創作之主要結構爆炸圖。 第二圖’為光源板不意圖。 第三圖,為本創作之剖面圖。 【主要元件符號說明】 發光二極體照明裝置 100 電性接頭 1 燈座 2 穿孔 21 凸臂 22 凹槽 23 光源板 3 發光二極體模組 31 基座 311 封裝部 312 散熱導孔 32 散熱燈罩 4 散熱燈罩之第一端 41 延伸部 411 卡制部 412 散熱燈罩之第二端 42 平面構型 421 M400561 20]丨年丨月13日修正替換頁 第一開孔 422 反射罩 5 第二開孔 51 反射面 52 凸緣 53 聚光燈罩 6 固定環 7 鎖固元件 71 第一 0型環 8 第二〇型環 9In summary, the light-emitting diode lighting device in the present invention uses the light source plate 3 and the heat-dissipating lamp cover 4 to closely fit, so that the light generated by the light-emitting diode module 31 on the light source plate 3 can be directly used by the light source. The plate 3 is led out in contact with the diffuser 4, and the heat generated by the illuminating diode is penetrated through the light and the light can be transmitted through the way. The surface of the phototriode 31 is directly attached to the heat sink 4 . The heat generated by the light-emitting diode module 31 is conducted by the shortest conduction path to the dance light cover 4 to be dissipated. At the same time, the light source plate 3 is also provided with a scaly hole 32, which can increase the uniform heat release. Compared with the multi-side of the Xifu technology, the surplus fan or the fan needs to be separately transmitted, and both of them are capable of accumulating dust, causing the hysteresis to fall, and the creation of the needle can not be evenly dissipated by the lamp. The lampshade 4 directly dissipates heat, and the heat energy is evenly dispersed by the lampshade 4 without causing the mussels to be damaged, thereby prolonging the service life of the lighting device. It can be seen from the above-mentioned embodiments of the present invention that the description of the above embodiment is only a better example of the present invention. However, with the description of the embodiment, those who have the general knowledge of the revised page on January 13, 2011 in the technical field can make other improvements and changes according to the creation. However, such improvements and changes still belong to the creation of this creation. Spiritual and defined rights. [Simple description of the diagram] The first picture is the main structure explosion diagram of the creation. The second figure 'is not intended for the light source panel. The third picture is a cross-sectional view of the creation. [Main component symbol description] Light-emitting diode lighting device 100 Electrical connector 1 Lamp holder 2 Perforation 21 Bump arm 22 Groove 23 Light source plate 3 Light-emitting diode module 31 Base 311 Package portion 312 Thermal conduction hole 32 Heat-dissipating lamp cover 4 The first end of the heat-dissipating lamp cover 41 The extension part 411 The locking part 412 The second end of the heat-dissipating lamp cover 42 The plane configuration 421 M400561 20] The 13th day of the next year, the replacement page, the first opening 422, the reflection cover 5, the second opening 51 reflecting surface 52 flange 53 spotlight cover 6 fixing ring 7 locking element 71 first 0 ring 8 second ring 9