人、發明說明: 【發明所屬之技術領域】 本發明係有關一種可強光、勻光及定射角並可調節遠 燈及左、右駕近燈之高照度投射光燈具,尤指一種利用高 照度投射光燈具中所建構的發光元件〔LED/SMD/晶片〕燈 泡,可分別用於車頭燈之遠光燈及近光燈分別投射者。 【先前技術】 按,LED作為光能,有節能電能、減碳及低熱、乾淨 及使用壽命長之優點,然用於車輛投射燈之光源,居於兩 車之會車安全需定投射角度,而LED晶片其投射角度約為 140°〜150°左右〔如第一圖所示〕;因此,一般均將led 固置在一圓V型之凹槽底〔如第二圖所示〕,v型凹槽上 緣之圓型端面與LED之晶片光源投射點形成所需之投射角BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-illumination projection light lamp capable of glare, uniform and fixed angles, and capable of adjusting a headlight and a left and right driving light, especially a utilization. The light-emitting elements (LED/SMD/wafer) bulbs constructed in the high-illumination projection light fixtures can be respectively used for the high beam and low beam of the headlights respectively. [Prior Art] According to LED, as light energy, it has the advantages of energy-saving electric energy, carbon reduction, low heat, cleanness and long service life. However, it is used as a light source for vehicle projection lamps, and it is necessary to set a projection angle for the safety of two vehicles. The projection angle of the LED chip is about 140°~150° (as shown in the first figure); therefore, the LED is generally fixed on the bottom of a circular V-shaped groove (as shown in the second figure), the v-shaped concave The rounded end face of the upper edge of the groove forms a desired projection angle with the projection point of the LED light source of the LED
度,如投射燈為30。’但這種的定角度設計,雖可將LED 之散射光截成30。光,但(140。-30。)之餘光,則在V型槽 熨内形成折射雜光,無助於照度之增加,反而形成無聚光 之散光’對於對方來車會形成會車時之刺眼,妨礙視線而 造成危險。 另外’將LED設計在鹵素燈頭上〔如第三圖所示〕, 浆置於一投射燈具〔如第四圖所示〕,但由於投射光之廣 射角在燈具上會形成55。〜1〇(Γ之大射角,對於會車之來 車亦是一大危險。更由於目前之LED投射燈設計,均以LED 為單一射角投光光源作為投射燈用,無法構建成車輛於夜 閛行車時之遠近燈交換使用。 今’本發明人即是鑒於上述現有之LED燈泡在實際實 施上應可再増設多處功效或可針對運用場所加強照射區 域,於是乃一本孜孜不倦之精神,並藉由其多年的專1夫。 識及實務經驗所輔佐,而加以改善,並據此創設出本發明 【發明内容】 , 爰是,本發明係有關於一種可強光、勻光及定射角立 可調節遠燈及左、右駕近燈之高照度投射光燈具’在一 A 座端面構建一台階,並固設一基板,且基板上端面固沒有 發光元件〔LED/SMD/晶片〕,另一端面則連設散熱座’且 導接一驅動變壓元件,另於LED外圍固設一束光圈’並於 LED之間隙和投射面上覆以導光膠形成集束光’另LED之 對應面設計一光學透光凸鏡,可形成具強光勻光、定射角 之投射燈具;接續,在鋁基板投射面之右上方或左上方45 °角適當位置為中心,聯結設立數LED及束光圈,並構建 雙驅動元件’以形成兩段投光,第一段投光以凸鏡圓心為 中心線之遠燈投射光;第二段投光則由凸鏡中心折射產生 一偏圓心之左下方投射光,可作為右駕車輛之偏左下方近 燈投射光;藉此,亦可將上述結構,構建在投射單燈式或 霧燈式之外加組裝之燈具上,將LED之所有射光全部集結 透射,不但可增加亮度並可將勻光度增加以達投射面之均 勻光線;且在LED之光源面與光學透光凸鏡之受光面可依 需要之投射角度,構建間距來增加亮度及讓勻光比加高。 【實施方式】 而為令本發明之技術手段能夠更完整且清楚的揭 路,茲請一併參閱所附圖式及圖號,並詳細說明如下: 首先,請參閱第五圖所示,係為本發明之剖視示意 圖’其該高照度投射光燈具,包含有: 請一併參閱第五〜七、十二〜十三圖所示,在一燈座 (1)端面構建一台階,並固設一基板(11)〔或PCB〕’在呂基 板(11)〔或PCB〕之上端面之中心部位固設一個或一個以 上的發光元件(12)〔LED/SMD/晶片〕,另〆端面則構建散 熱座(13),於散熱座(13)底部則設一具變壓的驅動元件 (14) ,於發光元件(12)〔LED/SMD/晶片〕之對應面設計一 光學透光凸鏡(15),其凸鏡(15)之受光面之直徑與凸鏡 (15) 之中心厚度成一定比例,可形成具強光勻光、定射角 之投射燈具。 請一併參閱第八〜十圖所示,續,於發光元件(12)〔 LED/SMD/晶片〕之外圍亦可固設一束光圈(16),束光圈(16) 需高於發光元件(12)〔LED/SMD/晶片〕之高度,並於發光 元件(12)〔 LED/SMD/晶片〕之間隙和發光元件(12)〔 LED/SMD/晶片〕之投射面上覆以導光膠(17),可讓一個或 一個以上的發光元件(12)〔LED/SMD/晶片〕之分別光源形 成集束光,可增強均光面。 請再一併參閱第i—、十四〜十六圖所示,延伸上述 設計基礎’在基板(11)中心部位之發光元件(12)〔 LED/SMD/晶片〕對基板(11)投射面之右上方45°角適當位 置或左上方45°角之適當位置為中心,聯結設立一個或一 個以上的發光元件(12)〔LED/SMD/晶片〕,並構建雙驅動 元件(14)’以形成兩段投光〔如第十一〜十三圖所示〕, 第一段投光以基板(11)中心部位發光元件(12)〔 LED/SMD/ 晶片〕直接透射於凸鏡(15)中心形成以凸鏡(15)圓心為中 心線之遠燈投射光(A);第二段投光則由右上方之發光元 件(12)〔LED/SMD/晶片〕之光源透射凸鏡(15)中心折射產 生一偏圓心之左下方投射光,可作為右駕車輛之偏左下方 1352789 之近燈投射光(B)。而由左上方之發光元件(12)〔 LED/SMD/ 晶片〕之光源透射凸鏡(15)而折射而成一偏圓心之右下投 射光,可作為之左駕車輛之偏右下方近光燈。另,發光元 件(12)〔LED/SMD/晶片〕亦可在其外圍設一高於發光元件 (12)〔LED/SMD/晶片〕之束光圈,並於發光元件(I〗)〔 LED/SMD/晶片〕塗佈導光膠(π),可形成發光元件(12)〔 LED/SMD/晶片〕的集光束結構〔如第十七〜十九圖所示〕。 請一併參閱第二十〜二十一圖所示,可將上述結構, 構建在投射單燈式或霧燈式之外加組裝之燈具上;再一併 參閱第二十二〜二十四圖所示,由發光元件(12)〔 LED/SMD/晶片〕透射於光學透光凸鏡(15),該光學透光凸 鏡(15)可將發光元件(12)〔 LED/SMD/晶片〕之所有射光全 部集結透射,不但可增加亮度並可將勻光度增加以達投射 面之均勻光線;且在發光元件(12)〔LED/SMD/晶片〕之光 源面與光學透光凸鏡(15)之受光面可依需要之投射角 度,構建間距(D)來增加亮度及讓勻光比加高。 請一併參閱第二十五〜二十八圖所示,為本發明另一 實施例示意圖,係延續上述結構而設,為可在紹基板中心 的發光元件(12)〔LED/SMD/晶片〕正上方適當位置延建一 個或一個以上的發光元件(12)〔LED/SMD/晶片〕、並構建 雙驅動元件,以形成兩段頭光,可為機車之頭燈用,中心 發光元件(12)〔LED/SMD/晶片〕為機車行車之遠光燈,正 上方之發光元件(12)〔 LED/SMD/晶片〕經折射成為機車頭 燈正下方之近光燈° 而近燈投光可將發光元件(12)〔 LED/SMD/晶片〕建構 暖光〔白帶黃光〕,可穿透下雨及濃霧時所造成視線不良。 增加行車安全。 由上所述,本發明之結構組成及實施說明可知,本發 明具有如下優點: 1. 本發明利用於發光元件〔LED/SMD/晶片〕之對應面設計 一光學透光凸鏡,其凸鏡之受光面之直徑與凸鏡之中心 厚度成一定比例,而形成具強光勻光、定射角之投射燈 具的優點。 2. 本發明利用於發光元件〔LED/SMD/晶片〕之外圍固設一 高於LED的束光圈及投射面上覆以導光膠,而讓光源形 成集束光,可增強均光面的亮度者。 3. 本發明利用於基板投射面之右上方45°角位置或左上方 45°角之適當位置處,聯結設立發光元件〔LED/SMD/晶 片〕,並構建雙驅動元件,以形成兩段投光之遠、近燈 投射光的設計。 4. 本發明之結構可構建在頭燈、投射單燈式或霧燈式之外 加組裝之燈具上,為使用性廣泛的結構設計者。 5. 本發明利用於基板投射面之正上方適當位置處,聯結設 立發光元件〔LED/SMD/晶片〕,並構建雙驅動元件,以 形成機車行車兩段投光之遠、近燈投射光的設計。 6. 本發明之近燈投光可將發光元件建構成白帶黃光的暖 色系光線,可穿透下雨及濃霧時所造成視線不良,以增 加行車安全。 綜上所述,本發明實施例確能達到所預期之使用功 效,又其所揭露之具體構造,不僅未曾見諸於同類產品中, 亦未曾公開於申請前,誠已完全符合專利法之規定與要 求,爰依法提出發明專利之申請,懇請惠予審查,並賜准 1352789 專利,則實感德便。 1352789 【圖式簡單說明】 第一圖:現有一示意圖 • 第二圖:現有二示意圖 . 第三圖:現有三示意圖 第四圖·現有四不意圖 第五圖:本發明之實施例一側視剖面圖 第六圖:本發明之實施例一俯視示意圖 第七圖:本發明之實施例一另一狀態俯視示意圖 • 第八圖:本發明之實施例二侧視剖面圖 第九圖:本發明之實施例二俯視示意圖 第十圖:本發明之實施例二另一狀態俯視示意圖 — 第十一圖:本發明之實施例三側視剖面圖 第十二圖:本發明之實施例三俯視示意圖 第十三圖:本發明之實施例三另一狀態俯視示意圖 第十四圖:本發明之光線投射示意圖(一) 第十五圖:本發明之光線投射示意圖(二) • 第十六圖:本發明之右駕車頭燈遠近燈示意圖 第十七圖:本發明之實施例四側視剖面圖 第十八圖:本發明之實施例四俯視示意圖 第十九圖:本發明之實施例四另一狀態俯視示意圖 第二十圖:本發明之實施例五侧視剖面圖 第二十一圖:本發明之實施例五俯視示意圖 第二十二圖:本發明LED燈泡之光線亮度、角度示意 圖 第二十三圖:本發明LED加光學凸透鏡之光線亮度、 角度示意圖(一) 12 t S3 1352789 第二十四圖:本發明LED加光學凸透鏡之光線亮度、 角度示意圖(二) 第二十五圖:本發明之實施例六俯視示意圖 第二十六圖:本發明之實施例六另一狀態俯視示意圖 第二十七圖:本發明之實施例六光線投射示意圖(一) 第二十八圖:本發明之實施例六光線投射示意圖(二) 【主要元件符號說明】 <本發明> (1) 燈座 (11) 基板 (12) 發光元件 (13) 散熱座 (14) 驅動元件 (15) 凸鏡 (16) 束光圈 (17) 導光膠 (Α) 遠燈投射光 (Β) 近燈投射光 (D) 間距 ί S3 13Degree, such as the projection light is 30. 'But this angled design cuts the scattered light of the LED into 30. Light, but (140.-30.) of the afterglow, the formation of refracting stray light in the V-slot ironing, does not help the increase of illuminance, but instead forms a astigmatism without concentrating 'for the other party will form a car when the car The glare that jeopardizes the line of sight and creates danger. In addition, the LED is designed on a halogen lamp head (as shown in the third figure), and the slurry is placed in a projection lamp (as shown in the fourth figure), but the angle of projection of the projected light forms 55 on the lamp. ~1〇(Γ大大角, is also a big danger for the car coming in. It is also because the current LED projection lamp design uses LED as a single-angle projection light source as a projection lamp, which cannot be built into a vehicle. In the light of the night, the inventors exchanged the light. In view of the above-mentioned existing LED light bulbs, the actual implementation of the existing LED bulbs should be able to set up multiple functions or strengthen the irradiation area for the application site, so that it is a tireless one. The spirit, and through its many years of expertise, assisted by practical experience, and improved, and according to the invention [invention], the present invention relates to a glare, uniform light And the high-illumination projection light fixture with the fixed angle and the left and right driving lights can be constructed with a step on the end face of the A seat, and a substrate is fixed, and the upper surface of the substrate is solid-free with no light-emitting elements [LED/SMD / wafer], the other end face is connected with a heat sink 'and a drive to drive the transformer element, and a beam of optics is fixed on the periphery of the LED and the light guide glue is formed on the gap and the projection surface of the LED to form a bundled light' Another LED design An optical transmissive convex mirror can form a projection lamp with a strong light uniformity and a fixed angle; the connection is centered at an upper right or upper left 45° angle of the projection surface of the aluminum substrate, and a plurality of LEDs and a beam aperture are connected And constructing a dual driving element 'to form two sections of light, the first stage of the light projecting the light from the center of the convex mirror center line; the second stage of the light is refracted by the center of the convex mirror to produce a left and right projection of the center of the circle The light can be used as a light to the left lower side of the right-hand drive vehicle to project light; thereby, the above structure can be constructed on a lamp that is assembled by a single lamp type or a fog lamp type, and all the light beams of the LED are collectively transmitted. Not only can increase the brightness and increase the uniformity to reach the uniform light of the projection surface; and the light-emitting surface of the LED and the light-receiving surface of the optical transmissive convex mirror can be constructed according to the required projection angle to increase the brightness and make the uniform light [Embodiment] In order to make the technical means of the present invention more complete and clear, please refer to the drawings and drawings, and explain in detail as follows: First, please refer to the fifth figure. Shown It is a schematic cross-sectional view of the present invention. The high-illumination projection light fixture includes: Please refer to the fifth to seventh, twelve to thirteenth drawings as shown in the figure, and construct a step on the end surface of a lamp holder (1). And fixing a substrate (11) [or PCB] to fix one or more light-emitting elements (12) [LED/SMD/wafer] at the center of the upper end surface of the substrate (11) [or PCB], and The heat-dissipating seat (13) is formed on the end surface of the crucible, and a variable-voltage driving element (14) is arranged on the bottom of the heat-dissipating seat (13), and an optical transmission is designed on the corresponding surface of the light-emitting element (12) [LED/SMD/wafer]. The light convex mirror (15) has a diameter of a light receiving surface of the convex mirror (15) which is proportional to a center thickness of the convex mirror (15), and can form a projection lamp having a strong light uniformizing and a fixed angle. As shown in the eighth to tenth views, a beam (16) can be fixed on the periphery of the light-emitting element (12) [LED/SMD/wafer], and the beam aperture (16) needs to be higher than the light-emitting element (12). The height of the LED/SMD/wafer] is on the gap between the light-emitting element (12) [LED/SMD/wafer] and the projection surface of the light-emitting element (12) [LED/SMD/wafer] Overlying the light-guiding glue (17), the respective light sources of one or more of the light-emitting elements (12) [LED/SMD/wafer] can form a bundled light to enhance the uniformity. Please refer to the i-th, fourteenth to sixteenth drawings together, and extend the above design basis 'the light-emitting element (12) [LED/SMD/wafer] at the center of the substrate (11) to the projection surface of the substrate (11) Centering on the right upper 45° angle or the upper left 45° angle, one or more light-emitting elements (12) [LED/SMD/wafer] are connected and a dual-drive component (14) is constructed. Forming two sections of light (as shown in the eleventh to thirteenth figures), the first section of light is directly transmitted to the convex mirror (15) by the light emitting element (12) [LED/SMD/wafer] at the center of the substrate (11) The center forms a high-beam projection light (A) centered on the center of the convex mirror (15); the second-stage projection light is transmitted from the light source of the upper right-emitting element (12) [LED/SMD/wafer] (15) The central refraction produces a left-side projection of the center of the circle, which can be used as a near-light projection light (B) at the lower left side of the right-hand drive vehicle at 1352789. The light source of the upper left light-emitting element (12) [LED/SMD/wafer] is transmitted through the convex mirror (15) to be refracted into a right-bottom projection light of the center of the circle, which can be used as the right lower beam low beam of the left-hand drive vehicle. . In addition, the light-emitting element (12) [LED/SMD/wafer] may also be provided with a beam aperture above the light-emitting element (12) [LED/SMD/wafer] on the periphery thereof, and in the light-emitting element (I) [LED/ The SMD/wafer is coated with a light-guiding glue (π) to form a light-collecting structure of the light-emitting element (12) [LED/SMD/wafer] (as shown in FIGS. 17 to 19). Please refer to the twentieth to twenty-first figure together. The above structure can be constructed on a fixture that is assembled with a single lamp or fog lamp. See also the twenty-second to twenty-four figure. As shown, the light-emitting element (12) [LED/SMD/wafer] is transmitted through the optical transmissive convex mirror (15), which can illuminate the light-emitting element (12) [LED/SMD/wafer] All of the light is collected and transmitted, which not only increases the brightness but also increases the uniformity to reach the uniform light of the projection surface; and the light-emitting surface of the light-emitting element (12) [LED/SMD/wafer] and the optical transmissive convex mirror (15) The light-receiving surface can be constructed with a pitch (D) to increase the brightness and increase the uniformity ratio according to the required projection angle. Please refer to FIG. 25 to FIG. 28 for a schematic view of another embodiment of the present invention. The illuminating element (12) (LED/SMD/chip) which can be used in the center of the substrate is provided. 〕 One or more light-emitting elements (12) [LED/SMD/wafer] are extended at an appropriate position directly above, and a dual-drive component is constructed to form two-stage headlights, which can be used for headlights of locomotives, central light-emitting elements ( 12) [LED/SMD/wafer] is the high beam of the locomotive driving. The light-emitting component (12) [LED/SMD/wafer] directly above is refracted into the low beam below the headlight of the locomotive. The light-emitting element (12) [LED/SMD/wafer] can be constructed with warm light [leucorrhea yellow light], which can penetrate the rain and dense fog, resulting in poor line of sight. Increase driving safety. From the above, the structural composition and implementation description of the present invention show that the present invention has the following advantages: 1. The present invention utilizes an optical transmissive convex mirror for a corresponding surface of a light-emitting element [LED/SMD/wafer], and a convex mirror thereof The diameter of the light receiving surface is proportional to the center thickness of the convex mirror, and the projection lamp having a strong light uniformity and a fixed angle is formed. 2. The invention is used for fixing the periphery of the light-emitting element [LED/SMD/wafer], the beam aperture above the LED and the projection surface coated with the light-guiding glue, so that the light source forms the bundle light, and the brightness of the uniform surface can be enhanced. By. 3. The present invention utilizes a 45° angular position on the upper right side of the projection surface of the substrate or an appropriate 45° angle on the upper left side to establish a light-emitting element [LED/SMD/wafer] and constructs a dual-drive component to form a two-stage projection. The design of the light of the far and near light projection. 4. The structure of the present invention can be constructed on a luminaire assembled with a headlight, a projection single lamp or a fog lamp, and is a structural designer with a wide range of uses. 5. The invention utilizes a suitable position directly above the projection surface of the substrate, and establishes a light-emitting element [LED/SMD/wafer], and constructs a dual-drive component to form a locomotive driving two-stage light-emitting and near-light projection light. design. 6. The light projection of the present invention can construct the illuminating element to form a warm white light of leucorrhea yellow light, which can penetrate the rain and dense fog to cause poor line of sight, so as to increase driving safety. In summary, the embodiments of the present invention can achieve the expected use efficiency, and the specific structure disclosed therein has not been seen in similar products, nor has it been disclosed before the application, and has completely complied with the provisions of the Patent Law. And the request, the application for the invention of a patent in accordance with the law, please forgive the review, and grant the patent 1352789, it is really sensible. 1352789 [Simple description of the diagram] The first picture: the existing one diagram • The second picture: the existing two diagrams. The third picture: the existing three diagrams, the fourth picture, the existing four, the fifth picture: the side view of the embodiment of the present invention 6 is a top view of a first embodiment of the present invention: a top view of another embodiment of the present invention: an eighth embodiment: a second side view of the present invention The second embodiment of the present invention is a top view of the second embodiment of the present invention. FIG. 12 is a top plan view of the third embodiment of the present invention. Thirteenth Embodiment: Embodiment 3 of the present invention is a top view of another state. FIG. 14 is a schematic view of light projection of the present invention (1). FIG. 15: Schematic diagram of light projection of the present invention (2) • FIG. FIG. 17 is a side view of a fourth embodiment of the present invention. FIG. 18 is a side view of the fourth embodiment of the present invention. FIG. Embodiment 4: a top view of another state. FIG. 20 is a side view of the fifth embodiment of the present invention. FIG. 11 is a top view of the fifth embodiment of the present invention. Angle diagram 23: The brightness and angle of the LED plus optical convex lens of the present invention (1) 12 t S3 1352789 The twenty-fourth figure: the brightness and angle of the LED plus optical convex lens of the present invention (2) Twenty-fifth Figure: Embodiment 6 of the present invention is a top view of the twenty-sixth embodiment: Embodiment 6 of the present invention is a top view of another state. FIG. 17 is a schematic view of the sixth embodiment of the present invention (1) Eighteenth Embodiment: A ray projection diagram of the sixth embodiment of the present invention (II) [Description of main component symbols] <The present invention> (1) Lamp holder (11) Substrate (12) Light-emitting element (13) Heat sink (14) Drive element (15) Convex mirror (16) Beam aperture (17) Light-guiding glue (Α) Far-light projection light (Β) Near-light projection light (D) Spacing ί S3 13