五、新型說明: 【新型所屬之技術領域】 ’其係尤指一種發光二極體燈具改 本創作係有關於一種燈具改良結 良結構。 【先前技術】 按市面上各式各樣的燈泡中,投射燈長久以來一直佔了相當固定之 」傳統的投射燈’係使用110伏特之齒素投射燈泡,不但耗電量高, 且合發熱’相對的哥命也非常短,平均壽命只有幾個月在這個電價高 旅的年代’不僅非常不雜,且其所散發之高熱亦料造成電線走 險意外。 因此’現今業者開發出一種發光二極體(Light EmittingV. New description: [New technical field] ‘The department especially refers to a kind of light-emitting diode lamp. The creative department has a modified structure. [Prior Art] According to the various bulbs on the market, the projection lamp has occupied a fairly long time. The "conventional projection lamp" uses a 110 volt tooth-projection bulb, which not only consumes high power, but also heats up. 'The relative life is also very short, the average life expectancy is only a few months in this era of high electricity prices.' Not only is it very uncomfortable, but the high heat it emits is also expected to cause accidents. Therefore, today's operators have developed a light-emitting diode (Light Emitting)
Diodes , LED)。發光二極體為—種半導體树,為現今光電產業發展的重點,其具 有效率高、省電能、壽命長、冷發光、反應速度快及色彩—致性高等眾多 傳統光源無法與之比較_點,因此,發光二㈣骑地逐步取代傳統光 源的應用。也因為發光二極體上述的特性,各國政府皆大力推薦使用發光 二極體燈具改良結構來取代傳統耗電能的鎢絲燈泡。 請參閱第一圖,係為習知技術之發光二極體燈具改良結構的結構示意 圖。如圖所示,發光二極體燈具改良結構丨,係包含一散熱殼體u,、二 電壓轉換單元12,、-發光二極體13,與一透鏡14,β發光二極體13, 與電壓轉換單元12’係皆設置於導熱材料製成之散熱殼體丨丨,内。透鏡 14,設置於散熱殼體1Γ之一開口 15,,以密封散熱殼體u,。發光二極 餿燈具改良結構Γ係藉由電壓轉換單元12,將原本11〇伏特之交流;壓 轉換成可提供發光二極體13’使用之直流電壓,使發光二極體13,可以發 光而達到投射的效果。 然而,習知技術之發光二極體燈具改良結構r之發光二極體13,係 由一對導線(未圖示)連接於電壓轉換單元12’ ,使電壓轉換單元12,可將 轉換後之直流電壓藉由料線而傳送至發光二_ 13,,錄應電源給發. 光二極體13’而使其發光。基於如此,由於發光二極體13,與電壓轉換單- 元12係由該導線焊接於發光二極體13,與電壓轉換單元12’之間,使發 光-=體13與電壓轉換單元12,電性連接,但此焊接操作將使其組接作 業相虽繁項費時’也不符環保訴求,且當發光二極體13,或電壓轉換單元 12之其巾之_損壞時’皆必須將整組汰換掉,也相當不符經濟效益。 自於發光—極體燈具裝置將逐步取代戶外照明設備,因此其防水性必 須相$嚴謹要求’習知技術雖以透鏡14’設於該開口 15,,但水份、水氣 仍極谷易進人散触體u’内,進轉致零件短路或雜之織,將會嚴 _ 重影響其使用照明品質及壽命,極需加以克服解決,以突破現有之缺失問 題。 再者,由於散熱問題也攸關此類發光二極體燈具的發光品質及壽命, 習知技術係將該發光二極體13,的熱源經該散熱殼體n,向外散出,但該 發光與散熱殼體u,之熱轉遞缺乏設計,主要鋪發光二極 體13’底部有限之散熱路徑傳遞至該散熱殼體n,,其熱傳遞之效果相當 差,誠有一併改善之必要。 因此’如何針對上述問題而提出一種新賴發光二極體燈具改良結構, •其可在發光二極體或電壓轉換單元之其中之-損壞時,而不需汰換整組發 • 光二極體燈具改良結構,可解決上述之問題。 【新型内容】 本創作之目的在於提供—歸光二極赌具改良結構其其能使燈具 之透鏡具有極佳之連結牢固性及防水性,使能防止水分水氣進入燈具内 部,以避免燈具内部零件之錄钱或短路,以增加發光二極體燈具之使用品 質及壽命 本創作之發光_極體燈具改良結構,其包含__電源電路、—連接器、 -發光模組與-散熱本體。散熱本體之上方設置一凹槽,下方設置一容置 [S3 4 M378339 • , 、.槽’凹槽内設置豈少一孔洞與容置槽相通;發光模組設置於凹槽内;電源 電路設至於容置槽並與發光模組電性相接;連接器設於電源電路並經由孔 洞與發光模組電性相接。藉由設置連接器以電性相接 電源電路與發光模組,如此可增加本創作於更換發光模組織便利性,進而 節省成本。 【實施方式】 茲為使貴審查委員對本創作之結構特徵及所達成之功效有更進一步 之瞭解與認識,謹佐以較佳之實施例及配合詳細之說明,說明如後: 請-併參閲第二圖至第四圖,係為本創作之一較佳實施例之發光二極 體燈的立體圖、分解酸第-圖之A_A方向剖視圖;如圖所示,本創作之 發光二極體燈具改良結構1包含—散熱本體12 一發光模組14、一電源電 路16與一連接器18。散熱本體12之上方設置一凹槽2〇,下方設置一容置 槽22,凹槽20内設置至少一孔洞24,孔洞24與容置槽以相通,發光模 組14設置於凹槽20内’電源電路16設置至於容置槽22並與發光模組14 電性相接,用以提供一電源,以驅動發光模組14,使其發光,連接器18設 於電源電路16並經由孔洞24與發光模組14電性相接。如此,本發明藉由 設置連接器18於電源電路16與發光模組14之間,使電源電路16與發光 模組14透過連接器18而電性連接,使得組裝時相當快速、便捷,並得以 避免習知藉由導線焊接於該f源魏16與發絲組14間之繁;貞作業,以 符合組裝贿效益及雜要求,且#發光模組14魏源· 16損壞時, 使用者可直接透過連接旨18 it行找,以增加柄作更換之性,進而 卽痛'成本,消費者也具有維修更換之經濟性。 散熱本體12包含複數個散熱鳄片120,散熱鰭片12〇觀於散埶本體 12之周緣,藉由散熱鰭片120以增加散熱本體12之散熱效率進而增加發 光二極體燈具改良結構1的散熱效果,_免發域組14槪,更可增加 發光模組14的壽命。其中,該複數散熱鰭片12〇之材質為導熱材料,^由 導熱材料的散熱韓片12〇以增加散熱本體12的散熱效果。而且該複數散熱 鰭片120與散熱本體12為—體成型。 又本創作更包含一散熱環既,散熱環122環設於散熱本體12,而散 熱環122與散熱本體12具有一間距,且散熱錯片12〇接設於散熱環122。 藉由散熱環122可增加散熱本體12之散熱面積,以增加散熱本體12的散 熱速度’進而更增加發光二極體燈具改良結構i的散熱效果 。而且,本創 作藉由散熱環122環設於散熱本體12,除了可增加散熱效率外,更可防止 散熱本體12受外力撞擊而毁損。其中,散熱本體12、散熱環122與該複數 • 散熱縛片120係為一體成型。 φ 本創作之發光二極體燈具改良結構1的發光模組14包括-基板140與 -發光二極體142。基板140設置於凹槽2〇上方,發光二極體142設置於 基板140之上方。其中,基板14〇為散熱材質’可將發光二極體142發光 所產生之熱能迅速料至散穌體12及散顏#12()、散鱗122,而得 以增加對發光二極體142的散熱效果。 再者’本創作之發光二極體燈具改良結構丨更包括一透鏡26,透鏡26 設置於散熱本體12之凹槽20的上方’而密封散熱本體12之凹槽2〇,以避 免發光模組14損壞,並可以避免水及灰塵進入發光模組14内而損壞。其 中’該散熱本體12設有一溝槽124,溝槽124環繞凹槽20,而透鏡26之 • 躲環設有一嵌入件262,當透鏡沈設置於散熱本體12之凹槽20的上方 時’嵌入件262設置於溝槽124内並遮蔽凹槽2〇。如此可增加透鏡26設置 於散熱本體12之牢固性。 請-併參閱第五A圖至第五C圖’其係為本創作其他較佳實施例之溝 槽之局部剖示圖,為了讓透鏡26更牢固的設置於散熱本體12,並具有較佳 之防水性,因此於溝槽124肢有一黏著劑1244(如第圖所示),藉該 黏著劑1244緊固結該透鏡26,且使具有防水性;又如第圖所示,該溝 槽124内也可設一阻擋件1242,該阻擋件1242可為一 〇型環(〇_Ring),並 於該溝槽124的内壁126處以螺栓128與該透鏡26相螺結,而達到整體之 緊固性與防水性;又如第五C ®所示’該溝槽124内也可同般置料劑[s ινϋ/8339 _及_件1242 ’並藉螺栓128將透鏡26螺雇於該散熱本體12之内壁 126處。如此,藉由阻擋件1242或是黏著劑1244填塞於透鏡邡與散熱本 體12之随’如此可避免灰塵或是水氣進人散熱本體12 彡響發光二 極體142之正常運作。Diodes, LED). The light-emitting diode is a kind of semiconductor tree, which is the focus of the development of the current optoelectronic industry. It has high efficiency, low power consumption, long life, cold illumination, fast response speed and high color-contrast. Many traditional light sources can't compare with it. Therefore, the illuminating two (four) riding ground gradually replaces the application of traditional light sources. Because of the above characteristics of the light-emitting diodes, governments have strongly recommended the use of light-emitting diode lamps to improve the structure to replace the traditional power-consuming tungsten light bulbs. Please refer to the first figure, which is a structural schematic diagram of a modified structure of a light-emitting diode lamp of the prior art. As shown in the figure, the improved structure of the LED lamp comprises a heat dissipation housing u, a two voltage conversion unit 12, a light emitting diode 13, and a lens 14, a beta LED 13, and The voltage conversion unit 12' is disposed in a heat dissipation housing 制成 made of a heat conductive material. The lens 14 is disposed on one of the openings 15 of the heat dissipation housing 1 to seal the heat dissipation housing u. The improved structure of the light-emitting diode lamp is converted into a DC voltage which can be used for the light-emitting diode 13' by the voltage conversion unit 12, so that the light-emitting diode 13 can emit light. Achieve the effect of the projection. However, the light-emitting diode 13 of the conventional structure of the light-emitting diode lamp is connected to the voltage conversion unit 12' by a pair of wires (not shown), so that the voltage conversion unit 12 can be converted. The DC voltage is transmitted to the light-emitting diode 2 through the material line, and the light source is applied to the light-emitting diode 13' to cause it to emit light. In this manner, since the light-emitting diode 13 and the voltage conversion unit 12 are soldered between the light-emitting diode 13 and the voltage conversion unit 12', the light-emitting body 13 and the voltage conversion unit 12 are Electrical connection, but this welding operation will make its assembly operation time complicated and time-consuming, and it will not meet the environmental protection requirements, and when the light-emitting diode 13 or the voltage conversion unit 12 is damaged, it must be The replacement of the group is also quite inconsistent with economic benefits. Since the illuminating-polar luminaire device will gradually replace the outdoor lighting equipment, its waterproofness must be rigorously required. 'The conventional technology is provided in the opening 15 with the lens 14', but the moisture and moisture are still very easy to enter. In the contact body u', the short-circuit or miscellaneous weaving of the parts will seriously affect the quality and life of the lighting, and it is necessary to overcome the problem to break through the existing missing problems. Moreover, since the heat dissipation problem is also related to the illumination quality and the lifetime of such a light-emitting diode lamp, the conventional technology transmits the heat source of the light-emitting diode 13 through the heat dissipation housing n, but the The heat transfer and the heat dissipation shell u have a lack of heat transfer design, and the limited heat dissipation path of the bottom of the light-emitting diode 13' is transmitted to the heat dissipation housing n, and the heat transfer effect is rather poor, and it is necessary to improve it. . Therefore, 'how to solve the above problems and propose a new structure of the LED light-emitting diode lamp, which can be damaged in the light-emitting diode or voltage conversion unit without replacing the entire group of light-emitting diodes The improved structure of the luminaire can solve the above problems. [New content] The purpose of this creation is to provide an improved structure of the homing gambling gambling tool, which enables the lens of the luminaire to have excellent connection stability and waterproofness, so as to prevent moisture and moisture from entering the interior of the luminaire to avoid internal parts of the luminaire. Recording money or short circuit to increase the use quality and life of the light-emitting diode lamp. The light-emitting structure of the body is improved. It includes __power circuit, connector, - light module and heat sink body. A recess is arranged above the heat dissipating body, and a receiving is arranged below [S3 4 M378339 • , . . . in the groove is provided with a hole and a receiving groove; the light emitting module is disposed in the groove; the power circuit is provided The accommodating slot is electrically connected to the illuminating module; the connector is disposed in the power circuit and electrically connected to the illuminating module via the hole. By providing a connector to electrically connect the power circuit and the light-emitting module, the convenience of replacing the light-emitting mold structure can be increased, thereby saving cost. [Embodiment] In order to provide a better understanding and understanding of the structural features and efficacies of the authors, please refer to the preferred examples and detailed explanations as follows: Please - and refer to 2 to 4 are a perspective view of a light-emitting diode lamp according to a preferred embodiment of the present invention, and a cross-sectional view of the A_A direction of the acid-decomposition diagram; as shown in the figure, the light-emitting diode lamp of the present invention is shown. The improved structure 1 includes a heat dissipation body 12, a light emitting module 14, a power supply circuit 16, and a connector 18. A recess 2 is disposed above the heat dissipating body 12, and a receiving slot 22 is disposed in the recess. The recess 20 is provided with at least one hole 24, the hole 24 is in communication with the receiving slot, and the light emitting module 14 is disposed in the recess 20 The power circuit 16 is disposed in the accommodating slot 22 and electrically connected to the illuminating module 14 for providing a power source for driving the illuminating module 14 to emit light. The connector 18 is disposed in the power circuit 16 and is connected to the power source circuit 16 via the hole 24 The light emitting module 14 is electrically connected. In this manner, the present invention provides a connector 18 between the power supply circuit 16 and the light-emitting module 14 to electrically connect the power circuit 16 and the light-emitting module 14 through the connector 18, so that the assembly is relatively fast and convenient, and It is avoided that the wire is welded between the f source Wei 16 and the hair set 14; the operation is performed to meet the assembly bribe benefit and the miscellaneous requirements, and when the light module 14 Weiyuan·16 is damaged, the user can directly Through the connection of the 18 it line to find, to increase the handle for replacement, and then painful 'cost, consumers also have the economics of repair and replacement. The heat dissipation body 12 includes a plurality of heat dissipation fins 120. The heat dissipation fins 12 are disposed on the periphery of the heat dissipation body 12, and the heat dissipation fins 120 are used to increase the heat dissipation efficiency of the heat dissipation body 12, thereby increasing the structure of the light emitting diode lamp. The heat dissipation effect, _ free hair domain group 14 槪, can increase the life of the light-emitting module 14 . The material of the plurality of heat dissipating fins 12 is a heat conductive material, and the heat dissipating heat sink 12 〇 is used to increase the heat dissipating effect of the heat dissipating body 12 . Moreover, the plurality of heat dissipation fins 120 and the heat dissipation body 12 are integrally formed. The heat dissipation ring 122 is disposed on the heat dissipation body 12, and the heat dissipation ring 122 has a distance from the heat dissipation body 12, and the heat dissipation chip 12 is connected to the heat dissipation ring 122. The heat dissipation area of the heat dissipation body 12 can be increased by the heat dissipation ring 122 to increase the heat dissipation rate of the heat dissipation body 12, thereby further increasing the heat dissipation effect of the improved structure i of the light emitting diode lamp. Moreover, the present invention is provided in the heat dissipating body 12 by the heat dissipating ring 122. In addition to increasing the heat dissipating efficiency, the heat dissipating body 12 can be prevented from being damaged by external force. The heat dissipation body 12, the heat dissipation ring 122 and the plurality of heat dissipation tabs 120 are integrally formed. φ The light-emitting module 14 of the improved structure 1 of the light-emitting diode lamp of the present invention comprises a substrate 140 and a light-emitting diode 142. The substrate 140 is disposed above the recess 2 ,, and the LED 142 is disposed above the substrate 140. Wherein, the substrate 14 is a heat dissipating material', and the heat energy generated by the light emitting diode 142 can be quickly transferred to the scattered body 12 and the scattered face #12 () and the scattered scale 122, thereby being added to the light emitting diode 142. heat radiation. Furthermore, the improved structure of the light-emitting diode lamp of the present invention further includes a lens 26, and the lens 26 is disposed above the groove 20 of the heat-dissipating body 12 to seal the groove 2 of the heat-dissipating body 12 to avoid the light-emitting module. 14 is damaged and can prevent water and dust from entering the light-emitting module 14 and being damaged. Wherein the heat dissipating body 12 is provided with a groove 124, the groove 124 surrounds the groove 20, and the lens 26 is provided with an insert member 262, which is embedded when the lens is disposed above the groove 20 of the heat dissipation body 12. The member 262 is disposed within the groove 124 and shields the groove 2〇. This increases the robustness of the lens 26 to the heat sink body 12. Please refer to FIGS. 5A to 5C for a partial cross-sectional view of the groove of the other preferred embodiment of the present invention. In order to make the lens 26 more securely disposed on the heat dissipation body 12, it is preferred. Waterproof, so that there is an adhesive 1244 on the groove 124 (as shown in the figure), the lens 26 is fastened by the adhesive 1244, and is waterproof; as shown in the figure, the groove 124 A blocking member 1242 can also be disposed therein. The blocking member 1242 can be a 〇-ring and is screwed to the lens 26 by the bolt 128 at the inner wall 126 of the groove 124 to achieve an overall tightness. Solidity and water repellency; as shown in the fifth C ® 'the groove 124 can also be used as the same material [s ινϋ/8339 _ and _ piece 1242' and the lens 26 is screwed to the heat dissipation by the bolt 128 At the inner wall 126 of the body 12. Thus, the blocking member 1242 or the adhesive 1244 is filled in the lens 邡 and the heat dissipating body 12 so as to prevent dust or moisture from entering the heat dissipating body 12 and ringing the normal operation of the illuminating diode 142.
本創作之發光二極體燈具改良結構丨更包括一承載座3〇,其固設於容 置槽22並容置包覆電源電路16,並可藉由螺絲而固定散熱本體12之下方, 其中,承載座30之材質可為高導熱係數之材料,以增加電源電路16的散 熱效果,進而增加電源電路16的壽命。再者,電源電路16更包括一電極 針腳160,其用以耦接一電源,並穿設於承載座3〇外以方便耦接電源。 其中電極針腳160之規格可為投射燈具系列。 凊-併參’三圖與第六圖,其絲本創作之發光二極贿具改良結 構的分解圖與另-佳實施例之發光二極_具改良結構的分解I如圖; 不,本創作之連接ϋ 18包含一第一插頭18〇與一第一插座182,該第一插 頭180、第-插座182分別電性連結設於該發光模组14、電源電路μ上(可 互換設置)’在健實補巾,鮮—麵⑽雜該基板14Q上之一導件 144 ’組合時’該電源電路16之第一插座182可先置設於該凹槽如之孔洞 24内,繼將該發光模組14之第一插頭18〇通過該孔洞24與該第一插座脱 對接,即完成該發光模、组14與電源電路16之便利組裝作業;亦即,該發 光模組14與電源電路16藉由該連接㈣可達到快速組裝及日後檢修:維 護之便利性,且更可免除焊接之繁瑣操作。 請併參㈣七® ’其縣本創作另_較佳實_之電源電路設置於 承《«座之立體圖;如圖所示’本創作更包含—導健4Q,於電源電路^ ^ 置於賴座30内時,導熱體4〇設於承載座加内並包覆電源電路Μ -體40可為-散熱膏(如高導熱性霄、高導熱性環氧化物等),如此電 源電路16所產生之熱’藉由導熱體4〇以傳導至承載座3〇(高散執係數之射 料如此可增加電源電路16之使用壽命;再者,該散熱本體12底 有-接_ 13(如第四圖所示)’該接環槽13内係設有一阻撐件 〇 型環/0-_),而該絲座30相對該接環槽13係設有一接環端&,該接 M378339 環端31係'嵌入該接環槽13内,並抵接該阻擋件13〇,再將該承载座3〇與 散熱本體12螺固(未圖示)’而完成固結’並使具有該端部位之防水效果’。、 綜上所述,本創作之發光二極體燈具改良結構係由一散執本體之上方 設置-凹槽,下方容置槽,於凹槽内設置至少—孔洞,並孔洞與容 置槽相通,-發光模組設置於凹槽内,一電源電路設至於容置槽並與發光 模組電性相接,纟中由-連接器設於電源電路1 經由孔洞與發光模組電性 相接。如此,本創作可增加發光二極體燈具改良結構之更換便利性,進而 節省成本,並具有極佳之散熱性與防水性。 ’ 本創作係實為—具有新穎性、進步性及可供產業糊者,應符合我國 專利法所規定之專利申請要件無疑,爰依法提出創作專利申請,析鈞局 早曰賜准專利,至感為禱。 惟以上所述者,僅為摘作之—較佳實施躺已,並相來限定本創 作實施之範圍,舉凡依本創作申請專利範圍所述之形狀、構造、特徵及精 神所為之均等變化與修飾,均應包括於本創作之申請專利範圍内。 【圖式簡單說明】 圖為習知技術之發光二極體燈具改良結構的結構示意圖; 第圖為本_之—難倾狀發光二極酸纽良結_立體圖; -圖為本創狀—紐實細之發光二極舰纽良結翻分; 第四圖為第二圖之A_A方向剖視圖;以及 =五A圖為本創作其他較佳實酬之溝槽局部剖示圖一; 五B圖為本創作其他較佳實施例之溝槽局部剖示圖二; 第五C圖為本創作其他較佳實施例之溝槽局部剖示圖三; 圖 第'、圖為本創作之另—較佳實棚之發光二極體燈具改良結構的分解 以及 第七圖為本創作另—較佳實細之賴電路設置於承触之立體圖。 M378339 • . .【主要元件符號說明】The improved structure of the light-emitting diode lamp of the present invention further includes a carrier 3〇, which is fixed in the receiving groove 22 and accommodates the covered power supply circuit 16, and can be fixed under the heat-dissipating body 12 by screws, wherein The material of the carrier 30 can be a material with high thermal conductivity to increase the heat dissipation effect of the power circuit 16, thereby increasing the life of the power circuit 16. Moreover, the power circuit 16 further includes an electrode pin 160 for coupling to a power source and disposed outside the carrier 3 to facilitate coupling of the power source. The specification of the electrode pin 160 can be a series of projection lamps.凊-并参's three and six figures, the exploded view of the improved structure of the light-emitting diode bribery created by the silk book and the decomposition of the improved structure of the light-emitting diode of another preferred embodiment; The first connection plug 18 and the first socket 182 are electrically connected to the light-emitting module 14 and the power supply circuit μ (interchangeably arranged). The first socket 182 of the power circuit 16 can be first placed in the recess 24, such as the hole 24, in the case of a solid cover, fresh-surface (10), and a guide 144' on the substrate 14Q. The first plug 18 of the light-emitting module 14 is detached from the first socket through the hole 24, that is, the convenient assembly operation of the light-emitting module, the group 14 and the power circuit 16 is completed; that is, the light-emitting module 14 and the power source The circuit 16 can achieve rapid assembly and future maintenance by the connection (4): the convenience of maintenance, and the cumbersome operation of welding can be eliminated. Please refer to (4) Seven® 'The county's original creation is another _ better _ the power circuit is set in the "Zuo Zhiguan; as shown in the figure", this creation also includes - Guide 4Q, placed in the power circuit ^ ^ In the case of the lap 30, the heat conductor 4 is disposed in the carrier and covers the power supply circuit. The body 40 can be a heat-dissipating paste (such as a high thermal conductivity 霄, a high thermal conductivity epoxide, etc.), such that the power circuit 16 The generated heat is transmitted to the carrier 3 by the heat conductor 4 (the high dispersion coefficient of the shot can increase the service life of the power circuit 16; further, the heat sink body 12 has a connection _ 13 ( As shown in the fourth figure, 'the ring groove 13 is provided with a retaining member 〇 ring/0-_), and the wire holder 30 is provided with a ring end & The M378339 ring end 31 is embedded in the ring groove 13 and abuts the blocking member 13〇, and then the carrier 3〇 and the heat dissipation body 12 are screwed (not shown) to complete the consolidation and Has the waterproof effect of the end portion'. In summary, the improved structure of the light-emitting diode lamp of the present invention is provided by a dispersing body above the groove, and the lower receiving groove is provided with at least a hole in the groove, and the hole is communicated with the receiving groove. The light-emitting module is disposed in the recess, and a power circuit is disposed in the receiving slot and electrically connected to the light-emitting module. The connector is electrically connected to the light-emitting module via the hole. . In this way, the creation can increase the convenience of replacement of the improved structure of the light-emitting diode lamp, thereby saving cost and having excellent heat dissipation and water repellency. 'This creative department is - novel, progressive and available for industry paste, should meet the requirements of patent applications stipulated in China's patent law, no doubt, 提出 提出 提出 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作Feeling a prayer. However, the above-mentioned ones are only for the sake of the best-practice, and the scope of the present invention is limited, and the shape, structure, characteristics and spirit described in the scope of the patent application are equally changed. Modifications shall be included in the scope of the patent application of this creation. [Simple description of the diagram] The figure shows the structure of the improved structure of the light-emitting diode lamp of the prior art; the figure is the _--------------------------------------------------------------------- The light-emitting diode of the New Zealand is divided into two parts: the fourth picture is the cross-sectional view of the A_A direction of the second picture; and the figure of the five-A picture is the partial section of the groove of the other better compensation; Figure 2 is a partial cross-sectional view of the other preferred embodiment of the present invention; Figure 5 is a partial cross-sectional view of the groove according to another preferred embodiment of the present invention; The decomposition of the improved structure of the light-emitting diode lamp of the preferred shed and the seventh figure are the three-dimensional view of the circuit in which the circuit is placed on the touch. M378339 • . . [Main component symbol description]
習知技術: Γ 發光二極體燈具改良結構 11, 散熱殼體 12, 電壓轉換單元 13, 發光二極體 14, 透鏡 15, 開口 本發明 1 發光二極體燈具改良結構 12 散熱本體 120 散熱鰭片 122 散熱環 124 溝槽 126 内壁 128 螺栓 1242 阻擋件 1244 黏著劑 14 發光模組 140 基板 144 導件 142 發光二極體 16 電源電路 160 電極針腳 18 連接器 180 第一插頭 182 第一插座 M378339 20 凹槽 22 容置槽 24 孔洞 26 透鏡 262 嵌入件 30 承載座 13 接環槽 130 阻擋件 31 接環端 40 導熱體Conventional technology: 改良 Light-emitting diode lamp improved structure 11, heat-dissipating housing 12, voltage conversion unit 13, light-emitting diode 14, lens 15, opening 1 invention light-emitting diode lamp improved structure 12 heat-dissipating body 120 heat-dissipating fin Sheet 122 Heat sink ring 124 Groove 126 Inner wall 128 Bolt 1242 Blocker 1244 Adhesive 14 Light module 140 Substrate 144 Guide 142 Light-emitting diode 16 Power circuit 160 Electrode pin 18 Connector 180 First plug 182 First socket M378339 20 Groove 22 accommodating groove 24 hole 26 lens 262 insert 30 carrier seat 13 ring groove 130 blocking member 31 ring end 40 heat conductor