JVf324613 〜八、新型說明: 【新型所屬之技術領域】 本創作係關於一種LED車燈新組合,尤指一種LED車 燈具有一體成型之陣列式透鏡體之結構者。 【先前技術】 按’習知車用燈具構成之三大元件係為發光體、反射 鏡體及透鏡體。該發光體係已由LED (發光二極體)取代 •傳統之燈泡,作為車用燈具之光源。而該車燈為了符合有 '關管制車燈法規之規定,則必須使用多顆LED來達成該車 燈在法規上所要求之亮度。然而車燈若使用多顆LED作發 光體時,為了配合該LED則必須使用若干獨立之反射鏡體 及透鏡體,而造成該車燈整體體積變大;再者,該車燈使 用若干之透鏡體,在組裝上必須個別固定限位在相關之組 •件上不僅造成在組裝上之不便利,且單一透鏡體可能因 .、、且裝時有所偏差未能完全組設於相關之組件,而造成led '之光線未能在原設計之光學路徑上,進而影響車燈之光型 未能符合相關法規之規定。 若為避免LED車燈整體體積過於龐大,則有將該透鏡 、體之兩侧分別成型有切面,使各別之透鏡體以切面接觸貼 -合而形成為陣列式之透鏡,以達到縮小LED車燈之體積。 然而3亥透鏡體係以玻璃材質所製成,且該各別之透鏡體之 M324613 切面貼合處會形成有界面。告 士 f 田先線經反射進入該透鏡體 時’光線會同時進入兮只而 于進入°亥界面而形成有不當之折射或反射。 問世 有4a於此,吾等創作人遂針對習知⑽車燈使用時之 缺失進行研究,並在經過不斷研發及修改後而有本創作之 【新型内容】 緣是,本創作之目的係為提供一種LED車燈結構改良 之新型,藉由陣列式透鏡體係以塑膠材質採用一體成型之 方法所製成,使該陣列式透鏡體之内部不會有界面產生, 當光線通過該陣列式透鏡體時不會產生不當之折射或反 射,且可達到縮小LED車燈之整體體積,以及方便該陣列 式透鏡體在組設時,一次即與該燈座體連接結合,使陣列 式透鏡體係可精確定位在原設計之光路徑上不易偏離,以 避免車燈之光型或亮度未能符合相關法規規定之情形發 生。 為達致以上目的,本創作人特別設計一種led車燈結 構改良’該LED車燈係包含有一燈座體,該燈座體係設有 容置空間,且該燈座體設有至少一開口槽;至少一光源單 元,該光源單元係定位於該燈座體之容置空間,且該光源 單元係包含有至少二LED模組及一反射鏡體,用以使該 LED之光線藉由該反射鏡體反射出去;至少一透鏡單元, 一 M324613 該透鏡單元係定位於該底座之容置空間,且該透鏡單元係 匕3有P車列式透鏡體及一連接結構,該陣列式透鏡體係 •對應嵌入該燈座體之開口槽,且該陣列式透鏡體以塑膠材 質採:體成型方法所製成,該陣列式透鏡體朝向光線射出 方向係成型有至少二連續弧面’該連接結構係用以使該陣 列式透鏡體定位於該光源單元前方,並輔助該陣列式透鏡 、體定位於該燈座體之開口槽。 φ 依據上述構想,其中該LED模組及該反射鏡體之間係 可連接有一固定結構,該固定結構係包含有一基座及一固 .定架體’該基座係供該LED模組固設,該以架體係供該 基座及該反射鏡體固設。 依據上述構想’其巾該基座亦可為至少二基座所組 成,且該基座之數目與該LED模組之數目相同。 依據上述構想,其中該反射鏡體係成型有至少二連續 鲁弧面,且該反射體之弧面數目與該LED模組數目相同。 依據上述構想,其中該陣列式透鏡體係可於兩側分別 成型有一切面。 依據上述構想,其中該連接結構係可包含有一固定架 體及至少一支撐架體,該固定架體係用以辅助該陣列式透 鏡體定位於該燈座體之開口槽,該支撐架體係與該固定架 體及該光源單元連接固設,用以使該透鏡單元定位於該光 源單元之前方。 7 .M324613 依據上述構想,其中該固定架體係可設有開口槽。 依據上述構想,其中該固定架體之開口槽係可於其頂 緣及底緣成型有相對應之至少二連續圓弧。 依據上述構想,其中該燈座體之開口槽係可於其頂緣 及底緣成型有相對應之至少二連續圓弧。 【實施方式】 關於本創作人之技術手段,茲舉三較佳實施例配合圖 式於下文進行詳細說明,俾供鈞上深入了解並認同本創 作。 本創作LED車燈新組合係可應用於照明用之車燈,例 如頭燈、前霧燈及晝行燈等等。首先,請參閱帛一圖至第 三圖所示’係為本創作LED車燈新組合第一實施例之立體 外觀、分解,以及組合剖視示意圖。於本例中,該led車 燈係包含有一光源單元卜一透鏡單元2、-燈座體3, 其中: 該光源單元1係包含有四LED模組u、一固定結構 及一反射鏡體14,該LED模組u係由—聰u與一電 路基板112所組成,㈣定結㈣包含有四基座12及一 供該基座12連翻設之固定㈣13,該基座12係供該JVf324613 ~ VIII, new description: [New technical field] This creation is about a new combination of LED lights, especially one that has an integrated array of lens lenses. [Prior Art] The three major components of the conventional vehicle lamp are an illuminant, a mirror body, and a lens body. The illuminating system has been replaced by LEDs (light-emitting diodes) • A traditional light bulb that serves as a light source for automotive luminaires. In order to comply with the regulations governing the control of the lights, the lights must use multiple LEDs to achieve the required brightness of the lights. However, if a plurality of LEDs are used as the illuminator for the lamp, in order to cooperate with the LED, a plurality of independent mirror bodies and lens bodies must be used, which causes the overall volume of the lamp to become larger; further, the lamp uses a plurality of lenses. Body, the individual fixing limit must be assembled on the relevant group and parts, which not only causes inconvenience in assembly, but also the single lens body may not be completely set in the relevant component due to the deviation of the installation. However, the light caused by the LED's failed to be in the optical path of the original design, which in turn affected the light type of the lamp and failed to comply with the relevant regulations. In order to avoid the overall volume of the LED lamp is too large, the lens and the two sides of the body are respectively formed with a cut surface, so that the respective lens bodies are contact-contacted and formed into an array lens to reduce the LED. The volume of the headlights. However, the 3 liter lens system is made of glass material, and the interface of the M324613 cut surface of the respective lens body is formed.告士 f The field line is reflected into the lens body. The light will enter the 同时 at the same time and enter the 亥海 interface to form improper refraction or reflection. There are 4a in this world, and our creators have studied the lack of the use of the familiar (10) headlights, and after the continuous development and modification, there is a new content of this creation. The purpose of this creation is The invention provides a novel structure improvement of an LED lamp, which is formed by integrally forming a plastic material by an array lens system, so that no interface is generated inside the array lens body, and light passes through the array lens body. It will not produce improper refraction or reflection, and can reduce the overall volume of the LED lamp, and facilitate the connection of the array lens body to the lamp holder body once, so that the array lens system can be accurately Positioning on the light path of the original design is not easy to deviate, to avoid the situation that the light type or brightness of the lamp fails to comply with the relevant regulations. In order to achieve the above objectives, the creator specially designs a structure improvement of a led lamp. The LED lamp lamp includes a lamp holder body, the lamp holder system is provided with an accommodation space, and the lamp holder body is provided with at least one open slot. At least one light source unit, the light source unit is positioned in the accommodating space of the socket body, and the light source unit includes at least two LED modules and a mirror body for the light of the LED to be reflected by the LED The lens body is reflected out; at least one lens unit, a M324613 lens unit is positioned in the accommodating space of the base, and the lens unit system 3 has a P-type lens body and a connecting structure, and the array lens system Corresponding to the open slot embedded in the socket body, and the array lens body is made by a plastic material forming method, and the array lens body is formed with at least two continuous arc surfaces toward the light emission direction. The array lens body is positioned in front of the light source unit, and the array lens and the body are positioned in the open slots of the lamp holder body. According to the above concept, a fixed structure is connected between the LED module and the mirror body, the fixed structure includes a base and a fixed body. The base is for the LED module. The rack system is used to fix the base and the mirror body. According to the above concept, the base may also be composed of at least two bases, and the number of the bases is the same as the number of the LED modules. According to the above concept, the mirror system is formed with at least two continuous arcuate faces, and the number of arcuate faces of the reflector is the same as the number of the LED modules. According to the above concept, the array lens system can be formed with all sides on both sides. According to the above concept, the connecting structure may include a fixing frame body and at least one supporting frame body, wherein the fixing frame system is used to assist the positioning of the array lens body in the open slot of the lamp socket body, and the supporting frame system and the The fixing frame body and the light source unit are connected and fixed to position the lens unit in front of the light source unit. 7. M324613 According to the above concept, the mounting system can be provided with an open slot. According to the above concept, the open slot of the fixing frame can be formed with corresponding at least two continuous arcs at its top and bottom edges. According to the above concept, the open slot of the socket body can be formed with at least two consecutive arcs at its top and bottom edges. [Embodiment] With regard to the technical means of the present creator, the three preferred embodiments are described in detail below with reference to the drawings, and the present invention is deeply understood and recognized. The new LED lamp combination can be applied to lighting lamps, such as headlights, front fog lamps and daytime running lights. First, please refer to the three-dimensional appearance, decomposition, and combined cross-sectional view of the first embodiment of the novel LED lamp assembly according to the first to third figures. In this example, the LED lamp system includes a light source unit, a lens unit 2, and a lamp holder body 3, wherein: the light source unit 1 includes four LED modules u, a fixed structure and a mirror body 14. The LED module u is composed of -Congu and a circuit substrate 112, and (4) the junction (4) includes a four base 12 and a fixed (four) 13 for the base 12 to be flipped, the base 12 is for the
LED拉組11固設(前述四該美 、月』it u/邊|厓! 2係分別供四該lED模 組11固設,亦可將該基座丨?并么 %丞1 U改為早一基座12而供四LEE 〜,M324613 .、·模組11固設),該基座12係設有四固定孔121,該固定 架體13係設有供該LED111本體穿設之開口槽ι31,並於 该固定架體13設有若干固定孔132,用以供鎖固元件(如 第一圖所示之螺桿)對應穿設該固定孔丨,令該鎖固元 件鎖固於該基板12之固定孔121,該反射鏡體14係藉由 鎖固兀件固設於該固定架體丨3之頂端面,且該反射鏡體 • 14係成型有連續四弧面141,用以使該LED111之光線藉 籲由該反射鏡體U之弧面141反射出去; ' 該透鏡單元2係包含有一陣列式透鏡體21及一連接 、、Ό構,違陣列式透鏡體21係以塑膠材質採一體成型方法 所製成,且該陣列式透鏡體21係朝向光線射出方向成型 有呈水平軸向排列之四連續弧面211,且該陣列式透鏡體 21之頂緣212及底緣213分別成型有四連續圓弧,並於 該陣列式透鏡體21之二侧邊各形成有一切面214,該連 #接結構係包含有一固定架體22及一對支撐架體23,該固 定架體22係位於該陣列式透鏡21之後方,用以辅助該陣 列式透鏡體21抵掣定位,且該固定架體22設有開口槽 221,用以供該光源單元丨所投射之光線穿設進入該陣列 式透鏡體21,該開口槽221係於其頂緣222及底緣223 成型有相對應之四連續圓弧,並於該固定架體22之兩侧 各设有二固定孔224,該一對之支撐架體23係皆呈τ字 型狀,且該支撐架體23之前臂桿231設有固定孔233, 9 M324613 〆 、 用以供鎖固元件對應穿設該固定孔233,並鎖固於該固定 架體22之固定孔224,令該前臂桿231與該透鏡單元2 之固定架體22連接固設,並於該支撐架體23之後臂桿 232設有固定孔234,用以供鎖固元件對應穿設該固定孔 • 234,並鎖固於該固定架體13之固定孔132,令該後臂桿 232與該光源單元1之固定架體13連接固設,使該透鏡 • 單元2定位於該光源單元1之前方; φ 該燈座體3係包含有一底座31及一燈殼32,該底座 ‘ 31内設有容置空間311,用以供該光源單元1及該透鏡單 元2容置固設,並於該底座31朝向前方之一端成型有開 口端’該燈殼32係卡掣固設於該底座31之開口端,並供 該透鏡單元2之固定架體22卡掣定位,且該燈殼32設有 供該陣列式透鏡體21對應嵌入之開口槽321,該開口槽 321係於其頂緣322及底緣323成型有相對應之四連續圓 _弧,用以使該圓弧抵掣於該陣列式透鏡體21之頂緣212 及底緣213。 當組設時,該LED模組11係固設於該基座12適當 處,该基座12係固設於該固定架體a之底端面,該反射 鏡體14係固設於該固定架體η之頂端面,並使該LED11 與该反射鏡體14之弧面141相對應,再將一對該支樓架 體23之後臂桿232係分別連接固設於該固定架體13之兩 侧端,且該支撐架體23之前臂桿231連接固設於該固定 M324613 ·、架體22之兩側,同時將該陣列式透鏡體21對應嵌入於該 燈殼32之開口槽32卜並將該固定架體22卡掣定位於該 4 λ又32敢後將遠光源單元1及該透鏡單元2容置於該 底座31之容置空間311,並以該燈殼32卡掣定位於該底 座31之開口端,即完成該LED車燈之組設。同時,再將 該LED車燈固設於汽車本體適當處,用以作為汽車本體之 -照明燈,並將該LED車燈與該汽車本體為電性連接。 • 當使用時,該led車燈被啟動後,該LED模組n所 產生之光線朝向該反射鏡體14之弧面141投射,則該光 線藉由該弧面141朝向該陣列式透鏡體21反射,並使該 光線經過該陣列式透鏡體21向前方投射。 續請參閱第四圖所示,係為本創作LED車燈新組合第 二實施例之前視示意圖。於本例中,該LED車燈係將前述 之一光源單元1及一透鏡單元2構成為單一 LED車燈模 φ組,並以二組該LED車燈模組定位於該燈座體i内部,其 中,該LED車燈之燈殼4係設有呈縱向排列之三開口槽, 該開口槽之頂緣41及底緣42成型有相對應之四連續圓 弧,用以供三組該led車燈模組之該陣列式透鏡體21分 別嵌入,並使該陣列式透鏡體21定位於該燈殼4。 當組設時’將三組由該光源單元丨及該透鏡單元2所 組成之該LED車燈模組,容置於該燈座體3之底座31容 置空間311 (圖式未顯示),並使該透鏡單元2之該陣列 .M324613 、 式透鏡體21,分別對應嵌入於該燈殼4之開口槽,再將 遠燈设4卡掣定位於該底座31之開口端,即完成該LED 車燈之組設。同時,再將該LEd車燈固設於汽車本體前 方’用以作為汽車本體之前燈,並將該LED車燈與該汽車 ' 本體為電性連接。 當使用時,該LED車燈被啟動後,該LED模組11所 ~產生之光線朝向該反射鏡體14之弧面141投射,則該光 籲線藉由該弧面141朝向該陣列式透鏡體21反射,並使該 -光線經過該陣列式透鏡體21向前方投射。 續請參閱第五圖所示,係為本創作LED車燈新組合第 二實施例之前視示意圖。於本例中,該LED車燈係將前述 之光源單元1及一透鏡單元2構成為單一 LED車燈模 組,並以二組該LED車燈模組定位於該燈座體i内部,其 中,該透鏡單元2之陣列式透鏡體5係朝向光線射出方向 鲁成型有呈水平軸向排列之六連續弧面,且該LED車燈之燈 设6係設有呈縱向排列之二開口槽,該開口槽之頂緣6上 及底緣62成型有相對應之六連續圓弧,用以供二組該[肋 車燈模組之該陣列式透鏡體5分別嵌入,並使該陣列式透 鏡體5定位於該燈殼6。 當組設時,將二組由該光源單元丨及該透鏡單元2所 組成之該LED車燈模組,容置於該燈座體3之底座31容 置空間311 (圖式未顯示),並使該透鏡單元2之該陣列 12 M324613 式透鏡體5,分別對應嵌入於該燈殼6之開口槽,再將該 燈殼6卡掣定位於該底座31之開口端,即完成該LED車 燈之組設。同時,再將該LED車燈固設於汽車本體前方, 用以作為汽車本體之前燈,並將該LED車燈與該汽車本體 為電性連接。 當使用時,該LED車燈被啟動後,該LED模組11所 產生之光線朝向該反射鏡體14之弧面141投射,則該光 線藉由該弧面141朝向該陣列式透鏡體21反射,並使該 光線經過該陣列式透鏡體21向前方投射。 經由上述說明可知本創作與習知最大差異係在於, 1. 本創作LED車燈新組合之陣列式透鏡體係以塑膠 材質採用-體成型之方法所製成,除了可達到縮小led車 燈之整體體積外,係方便鱗列式透鏡體在組設時,一次 =該燈座體之燈殼連接結合,使該陣列式透鏡體係可精 確定位在原設計之光路徑上不县 不易偏離,以避免車燈之光型 或焭度未能符合相關法規規定之情形笋生。 2. 本㈣⑽車燈新組合之陣料透鏡體係以靜 有所製成,該陣列式透鏡體之内部不-有^產生’使光線通過該陣列式透鏡體時,亦不: 不富之折射或反射之現象。 _產生 綜上所述,本創作所揭露之 目的與功效,同時更解決習知襄H又確可達致預期之 I罝之種種問題及缺點而具 M324613 二遠ΓΓ;減屬專利法所稱之新型無誤,羡依法提出 …J 、=上惠予詳審並賜准新型專利,至感德馨。 惟以上所述者,僅為本創作之較佳實施例,當不能以 此限疋本創作實施之範圍,即大凡依本創❹請專利範圍 及創作說明書内容所作之等效變化與修飾,皆應仍屬本創 作專利涵蓋之範圍内。 【圖式簡單說明】 弟囷係本創作led車燈新組合第一實施例之立體 外觀示意圖。 第二圖係係本創作LED車燈新組合第一實施例之立 體分解不意圖。 第三圖係本創作led車燈新組合第一實施例之組合 剖視示意圖。 第四圖係本創作LED車燈新組合第二實施例之前視 不意圖。 第五圖係本創作led車燈新組合第三實施例之前視 不意圖。 【主要元件符號說明】 1 光源單元 11 LED模組 111 LED 112 電路基板 12 基座 121 固定孔> M324613LED pull group 11 is fixed (the above four beauty, month) it u / side | cliff! 2 series for the four lED module 11 fixed, can also be the base 并? and % 丞 1 U changed The pedestal 12 is provided with four fixing holes 121, and the fixing frame 13 is provided with an opening for the body of the LED 111. a slot ι31, and a plurality of fixing holes 132 are defined in the fixing frame body 13 for the locking component (such as the screw shown in the first figure) to be correspondingly disposed through the fixing hole, so that the locking component is locked a fixing hole 121 of the substrate 12, the mirror body 14 is fixed on the top end surface of the fixing frame body 3 by a locking member, and the mirror body 14 is formed with a continuous four-arc surface 141 for The light of the LED 111 is reflected by the curved surface 141 of the mirror body U; 'The lens unit 2 includes an array lens body 21 and a connection, a structure, and the array lens 21 is plastic. The material is formed by an integral molding method, and the array lens body 21 is formed with four continuous curved surfaces 211 arranged in a horizontal direction toward the light emission direction, and The top edge 212 and the bottom edge 213 of the array lens body 21 are respectively formed with four continuous arcs, and each surface 214 is formed on each of two sides of the array lens body 21, and the connection structure includes a fixing frame. The body 22 and the pair of supporting frame bodies 23 are located behind the array lens 21 for assisting the positioning of the array lens body 21, and the fixing frame body 22 is provided with an opening slot 221, The light for the light source unit 投射 is inserted into the array lens body 21, and the opening groove 221 is formed with a corresponding continuous arc of the top edge 222 and the bottom edge 223, and the fixing frame is The two sides of the body 22 are respectively provided with two fixing holes 224, and the pair of supporting frame bodies 23 are all in the shape of a τ shape, and the front arm 231 of the supporting frame body 23 is provided with fixing holes 233, 9 M324613 〆, The fixing hole 233 is correspondingly disposed for the locking component, and is fixed to the fixing hole 224 of the fixing frame body 22, so that the front arm bar 231 is fixedly connected with the fixing frame 22 of the lens unit 2, and is supported by the supporting body. After the frame 23, the arm 232 is provided with a fixing hole 234 for the locking element to pass through the fixing hole. The 234 is fixed to the fixing hole 132 of the fixing frame 13 to connect the rear arm 232 to the fixing frame 13 of the light source unit 1 to position the lens unit 2 before the light source unit 1 The lamp holder body 3 includes a base 31 and a lamp housing 32. The base portion 31 is provided with an accommodating space 311 for accommodating the light source unit 1 and the lens unit 2, and The base 31 is formed with an open end toward the front end. The lamp housing 32 is fastened to the open end of the base 31, and the fixing frame 22 of the lens unit 2 is locked and positioned. There is an opening groove 321 corresponding to the array lens body 21, and the opening groove 321 is formed on the top edge 322 and the bottom edge 323 to form a corresponding four continuous circle arc for abutting the arc The top edge 212 and the bottom edge 213 of the array lens body 21. When assembled, the LED module 11 is fixed to the base 12, and the base 12 is fixed to the bottom end surface of the fixing frame body a. The mirror body 14 is fixed to the fixing frame. The top surface of the body η corresponds to the arc surface 141 of the mirror body 14 , and then the pair of the arm frame 232 of the frame body 23 are respectively connected and fixed to the two fixed frame bodies 13 . The side end of the support frame body 23 is fixedly connected to the fixed M324613 and the two sides of the frame body 22, and the array lens body 21 is correspondingly embedded in the opening groove 32 of the lamp housing 32. Positioning the fixing frame 22 to the λ and 32, and accommodating the remote light source unit 1 and the lens unit 2 in the accommodating space 311 of the base 31, and positioning the lamp housing 32 in the housing The open end of the base 31 completes the assembly of the LED lights. At the same time, the LED lamp is fixed to the appropriate part of the automobile body for use as an illumination lamp of the automobile body, and the LED lamp is electrically connected to the automobile body. When the led light is activated, the light generated by the LED module n is projected toward the curved surface 141 of the mirror body 14, and the light is directed toward the array lens body 21 by the curved surface 141. The reflection is made and the light is projected forward through the array lens body 21. Continued, please refer to the fourth figure, which is a front view of the second embodiment of the new LED lamp combination. In this example, the LED lamp system comprises one of the light source unit 1 and the lens unit 2 as a single LED lamp mode φ group, and two sets of the LED lamp module are positioned inside the lamp holder body i. The lamp housing 4 of the LED lamp is provided with three open slots arranged in a longitudinal direction, and the top edge 41 and the bottom edge 42 of the open slot are formed with corresponding four continuous arcs for three sets of the led The array lens bodies 21 of the lamp module are respectively embedded, and the array lens body 21 is positioned on the lamp housing 4. When the group is set, the LED light module of the light source unit and the lens unit 2 is disposed in the accommodating space 311 (not shown) of the base 31 of the socket body 3, And the array of the lens unit 2, the M324613, and the lens body 21 are respectively embedded in the open slots of the lamp housing 4, and then the card holder 4 is positioned at the open end of the base 31, that is, the LED is completed. The set of lights. At the same time, the LEd lamp is fixed in front of the automobile body as a front light of the automobile body, and the LED lamp is electrically connected to the automobile body. When in use, after the LED lamp is activated, the light generated by the LED module 11 is projected toward the curved surface 141 of the mirror body 14, and the optical line is directed toward the array lens by the curved surface 141. The body 21 reflects and causes the light to be projected forward through the array lens body 21. For the continuation, please refer to the fifth figure, which is a front view of the second embodiment of the new LED lamp combination. In this example, the LED lamp system comprises the light source unit 1 and the lens unit 2 as a single LED lamp module, and the two sets of the LED lamp module are positioned inside the lamp holder body i, wherein The array lens body 5 of the lens unit 2 is formed with six continuous arc surfaces arranged in a horizontal direction toward the light emission direction, and the LED lamp 6 is provided with two open slots arranged in a longitudinal direction. The top edge 6 of the open groove and the bottom edge 62 are formed with corresponding six continuous arcs for respectively inserting the array lens body 5 of the two sets of the rib lamp module, and the array lens is embedded The body 5 is positioned on the lamp housing 6. When assembled, the LED lamp module composed of the light source unit and the lens unit 2 is accommodated in the accommodating space 311 of the base body 31 of the lamp holder body 3 (not shown). And the array 12 M324613 lens body 5 of the lens unit 2 is respectively embedded in the open slot of the lamp housing 6, and the lamp housing 6 is latched and positioned at the open end of the base 31, that is, the LED vehicle is completed. The set of lights. At the same time, the LED lamp is fixed in front of the automobile body to serve as a front lamp of the automobile body, and the LED lamp is electrically connected to the automobile body. When the LED lamp is activated, the light generated by the LED module 11 is projected toward the curved surface 141 of the mirror body 14, and the light is reflected by the curved surface 141 toward the array lens body 21. And causing the light to be projected forward through the array lens body 21. According to the above description, the biggest difference between the creation and the knowledge is that 1. The array lens system of the new LED lamp combination is made of plastic material by body molding, in addition to reducing the overall size of the led lamp. Outside the volume, it is convenient for the scalar lens body to be assembled, once = the lamp housing connection of the lamp holder body is combined, so that the array lens system can be accurately positioned on the light path of the original design, and the county is not easy to deviate to avoid the car. The light type or intensity of the lamp failed to meet the requirements of relevant laws and regulations. 2. The (4) (10) new combination of the lamp lens system of the lamp is made of static, and the inside of the array lens does not have the 'production' to pass light through the array lens, nor: not rich in refraction Or the phenomenon of reflection. _ In summary, the purpose and effect of the work disclosed in this work, and at the same time, to solve the problems and shortcomings of the I 襄H that can be expected to be expected, and M324613 is far-sighted; Nothing wrong, 提出Proposed in accordance with the law...J,= Shanghui gave detailed review and granted a new type of patent to Sendexin. However, the above is only the preferred embodiment of the present creation. When it is not possible to limit the scope of the creation of this creation, that is, the equivalent changes and modifications made by the company in accordance with the scope of the patent and the content of the creation manual. It should remain within the scope of this creation patent. [Simple description of the drawing] The younger brother is the three-dimensional appearance of the first embodiment of the new LED lamp combination. The second figure is a schematic decomposition of the first embodiment of the novel LED lamp combination. The third figure is a schematic cross-sectional view of the first embodiment of the new combination of the LED lamp of the present invention. The fourth figure is not intended to be the second embodiment of the novel LED lamp combination. The fifth figure is not intended to be the third embodiment of the new combination of the LED lamp. [Explanation of main component symbols] 1 Light source unit 11 LED module 111 LED 112 Circuit board 12 Base 121 Fixed hole > M324613
13 固定架體 131 開口槽 132 固定子匕 14 反射鏡體 141 5瓜面 2 透鏡單元 21 陣列式透鏡體 211 5瓜面 212 頂緣 213 底緣 214 切面 22 固定架體 221 開口槽 222 頂緣 223 底緣 224 固定孔 23 支撐架體 231 前臂桿 232 後臂桿 233 固定孔> 234 固定子L 3 燈座體 31 底座 311 容置空間 32 燈殼 321 開口槽 322 頂緣 323 底緣 4 燈殼 41 頂緣 42 底緣 5 陣列式透鏡體 6 燈殼 61 頂緣 62 底緣 1513 Fixing frame 131 Opening groove 132 Fixing pin 14 Mirror body 141 5 Melon surface 2 Lens unit 21 Array lens body 211 5 Melon surface 212 Top edge 213 Bottom edge 214 Cut surface 22 Fixing frame body 221 Opening groove 222 Top edge 223 Bottom edge 224 fixing hole 23 support frame body 231 front arm bar 232 rear arm bar 233 fixing hole > 234 stator L 3 lamp holder body 31 base 311 accommodation space 32 lamp housing 321 opening slot 322 top edge 323 bottom edge 4 lamp housing 41 top edge 42 bottom edge 5 array lens body 6 lamp housing 61 top edge 62 bottom edge 15