M332169 八、新型說明: 【新型所屬之技術領域】 本創作係關於一種發光二極體照明裝w θ一、, 衣直,尤指一種可 提高光線集中度之發光二極體照明裝置。 【先如技術】 目釗發光一極體已大幅取代傳統的電燈泡,其田大 • 優勢,即在於發光二極體之連續使用時間較長,且不致因 發熱而浪費許多無用之熱能,由此可知,發光二極體不久 將取代傳統燈絲電燈泡之地位。 目前常見將發光二極體應用在霧燈、車尾燈、方向燈、 -剎車燈或車頭燈等之設計,常見的方式有反射式設計和投 射式設計。 所謂的反射式設計,係將一發光二極體設於一反射罩 上,该反射罩之前側面係由一可反射光源的材質構成,而 鲁·该發光二極體則是設於該反射罩之前側面上,藉由反射罩 -將發光二極體所發出之光線集中後再加以反射出;而所謂 的投射式没計’則是在一基座上設置一發光二極體,並於 該基座上另設置一反射罩,此反射罩係罩設於該發光二極 體上方’且該反射罩之底側面係由一可反射光源的材質構 成,以將發光二極體所發出之光線反射出。 然由於無論是反射式或是投射式之設計,發光二極體 所發射之光線雖均是經該反射罩反射後射出,惟由於不同 入射角度的光線係被以不同的反射角度射出,因此其射出 4 M332169 之光線較為散雜,導致投射式發光二極體照明裝置或反射 式發光二極體照明裝置之照射距離較短。 然若採用所謂的氙氣燈,雖因其係單點光源發光,而 可具有較長的照射距離,惟氙氣燈不但體積較一般發光二 極體妝明裝置之體積大。因此,現有的照明裝置尚有待進 一步之改進方案。 【新型内容】 為 本幻作之主要目的在提供一種發光二極體照明 裝置’其可提高光線的集中度,進而延長照射距離。 為達成前述目的所採取之主要技術手段係令前述發光 二極體照明裝置包括: 一座體,係具有一前開口,又該座體内係形成有一容 至忒谷至之底側面係具有一前水平部和一後傾斜部,其 中該後傾斜部係自該前水平部之後端向下傾斜; 一反射罩,係設於該容室内,且係呈彎弧狀,以對應 覆蓋該容室之底側面; 一發光二極體模組,係設於該容室底側面之後傾斜部 上,亚包括一電路板和至少一發光二極體,其中該電路板 係設於該容室底側面之後傾斜部上,而該至少一發光二極 體係設於該電路板上,且該至少一發光二極體所發出之一 部分光線係直接由該反射罩朝向該座體之前開口反射,· 一集光件,係設於該發光二極體模組上,並具有至少 一穿孔,各穿孔係對應一發光二極體,又各穿孔之内側面 M332169 上係為一傾斜反射部,該傾斜反射部係供將該至少一發光 二極體所發出之另一部分光線反射至該反射罩,後再:該 反射罩將之朝向該座體之前開口反射; 一透鏡,係與該反射罩連結且對應該前開口。 利用上述技術手段,發光二極體所發出之光線即可被 有效地集中後再射出’有如一點光源在發光般,如此一來, 不但令發光二極體照明裝置不致發出散雜光線,且藉由將 务出之光線集中為點光源,更可使此發光二極體照明裝置 之照射距離拉長,達到有如氤氣燈發光之效果;,然由於本 旬作係以發光—極體作為發光源,因此整體體積又較氣氣 燈之體積更小。 【貫施方式】M332169 VIII. New description: [New technical field] This creation is about a light-emitting diode lighting device w θ I, clothing straight, especially a light-emitting diode lighting device that can improve the light concentration. [Before technology] The light-emitting one has greatly replaced the traditional light bulb, and its advantage is that the continuous use of the light-emitting diode is long, and it does not waste a lot of useless heat due to heat. The light-emitting diode will soon replace the status of traditional filament light bulbs. Light-emitting diodes are commonly used in fog lamps, taillights, directional lights, brake lights or headlights. The common methods are reflective design and projection design. The so-called reflective design is to set a light-emitting diode on a reflector, the front side of the reflector is made of a material that can reflect the light source, and the light-emitting diode is disposed on the reflector. On the front side, the light emitted by the light-emitting diode is concentrated by the reflection cover and then reflected; and the so-called projection type is to provide a light-emitting diode on a base, and A reflector is further disposed on the pedestal, and the reflector is disposed above the LED body and the bottom surface of the reflector is made of a material capable of reflecting light to emit light from the LED. Reflected out. However, due to the reflective or projection design, the light emitted by the LED is reflected by the reflector, but since the light of different incident angles is emitted at different reflection angles, The light emitted from 4 M332169 is relatively scattered, resulting in a shorter illumination distance of the projection LED illumination device or the reflective LED illumination device. However, if a so-called xenon lamp is used, although it can emit light with a single point source, it can have a longer irradiation distance, but the xenon lamp is not only bulky than the general light-emitting diode device. Therefore, there is still a need for further improvement of the existing lighting device. [New content] The main purpose of this illusion is to provide a light-emitting diode illumination device which can increase the concentration of light and thereby extend the illumination distance. The main technical means for achieving the foregoing purpose is that the light-emitting diode lighting device comprises: a body having a front opening, and the body is formed with a front to the bottom of the valley to have a front side a horizontal portion and a rear inclined portion, wherein the rear inclined portion is inclined downward from a rear end of the front horizontal portion; a reflector is disposed in the chamber and is curved to cover the chamber a light-emitting diode module is disposed on the inclined portion of the bottom surface of the chamber, and includes a circuit board and at least one light-emitting diode, wherein the circuit board is disposed behind the bottom surface of the chamber On the inclined portion, the at least one light emitting diode system is disposed on the circuit board, and a part of the light emitted by the at least one light emitting diode is directly reflected by the reflective cover toward the front of the seat body, and a light is collected. The device is disposed on the LED module and has at least one perforation, each perforation corresponding to a light-emitting diode, and the inner side surface M332169 of each perforation is an inclined reflection portion, and the inclined reflection portion is For this Emitted by a light emitting diode to another portion of the reflected light reflector, then: the reflector will be reflected towards the opening of the base body before; a lens system coupled to the reflector and to be the front opening. By using the above technical means, the light emitted by the light-emitting diode can be effectively concentrated and then emitted. "There is a light source that emits light, so that the light-emitting diode illumination device does not emit scattered light, and borrows By concentrating the light to be a point light source, the illumination distance of the light-emitting diode illumination device can be extended to achieve the effect of emitting light like a xenon lamp; Source, so the overall volume is smaller than the volume of the gas lamp. [Continuous application method]
一關於本創作之—較佳實施例,請參閱第一與二圖所 一係包括座體(10)、一反射罩(20)、一發光 二極體模組(3 〇 )、—集光件(4 〇 0 )。 上述座體(1 0 )係具有一前開口,且該座體(1 0 ) Μ係形成有一究宮f 1 1^ ^ 取’谷至(1 1 ),該容室(1 1 )之底側面係 包含一前水平部和一後傾斜部;於本實施例中,該座體(工 〇)係由南導熱係數材質所製作,且該座體(1〇)之外 側頂面與該容t (]_]_)之頂面係呈一彎弧狀,又該座體 二(1〇)之外側頂面上形成有複數散熱鰭片(i 2),而 Λ奋室(1 1 )底側面之前水平部和後傾斜部之間係進一 6 M332169 步垂直容室(1 1 )底側面形成有一定位擋片(1 3 ); 而該座體(1 〇 )之前水平部和後傾斜部之間夾角可為任 意角度,於本實施例中係為20度。 上述反射罩(2 0 )係設於該容室(1 1 )内,且係 呈彎弧狀,以對應覆蓋該容室(1 1 )之底側面;請配合 參閱第二圖所示,於本實施例中該反射罩(2 0 )係螺合 固定於該容室(1 1 )之底側面的前水平部上,且該反射 罩(2 0 )於對應該定位擋片(1 3 )處係形成有凹槽(2 1 ) ’以供該定位播片(1 3 )嵌入固定,而輔助將該反 射罩(20)固定於該座體(10)上。 上述發光二極體模組(3 0 )係設於該容室(1 1 ) 底側面之後傾斜部上,並包括一電路板(3 1 )和至少一 發光二極體(3 2 ),其中該電路板(3 1 )係設於該容 室(1 1 )底側面之後傾斜部上,而該至少一發光二極體 (3 2 )係設於該電路板(3 1 )上,由於該發光二極體 板組(3 0 )係設於該容室(1 1 )底側面之後傾斜部上, 因此一部分由該發光二極體(3 2 )所發出之光線係可集 中地射至該反射罩(2 0 )上,而由該反射罩(2 〇 )將 之朝向該座體(1 0 )之前開口反射射出。 上述集光件(4 0 )係設於該發光二極體模組(3 〇 ) 上’並具有至少一穿孔(4 1 ) ’各P孔(4丄)係對應 )之内側面上係 部(4 1 1 )係 部分光線反射至 —發光二極體(32),又各穿孔(4ι 為一傾斜反射部(4 1 1 ),該傾斜反射 供將該發光二極體(3 2 )所發出之另一 M332169 該反射罩(2 〇 )上’後再由該反射罩(2 〇 )將之朝向 該座體(1 0 )之前開口反射。 上述透鏡(5 0 )係與該反射罩(2 〇 )連結且對應 該前開口,故所有經該反射I ( 2 〇 )反射之光線將會通 過該透鏡(5 Q ),以由該透鏡(5 Q )將光線加以擴散, •令此發光二極體照明裝置具有廣角發光之效果;此外,該 透鏡(5 0 )係以壓克力為材質所製成,因此可為一錐形、 • 一半橢圓形、一半圓形、一弧形…等形狀,於本實施例中 該透鏡(5 0 )係為-弧形,以提高照明範圍,而達到廣 角的效果。 請配合參閱第三圖所示,由上述可知,發光二極體(3 2 )所發出之一部分光線將直接由該反射罩(2 〇 )反射, 並、、工過,亥透鏡(5 〇 )後射至此發光二極體照明裝置外; 而該發光二極體(3 2 )所發出之另一部分光線,則係先 由該集光件(4 0 )予以反射至該反射罩(2 〇 )後,再 由該反射罩(2 0 )反射朝向該座體(工〇 ),而經過該 透鏡(5 0 )發射至此發光二極體照明裝置外;此外,該 發光二極體(3 2 )所發出之又一部分光線則在經過集光 件(4 0 )和反射罩(2 〇 )之反射後,遭該定位擋片(丄 3 )阻擋而無法射至此發光二極體照明裝置外;如此一來, 發光二極冑(3 2 )所發出之光線將有部分會被集中由該 反射罩(2 0 )反射朝向開口,而被射至該座體(1 〇 ) 外’整體視之就有如一點光源發光I,因此本創作之發光 二極體照明裝置相較既有的發光二極體照明裝置將具有較 8 M332169 長的照明距離,且相較同是點光源發光的氙氣燈而言,本 創作之整體體積將可製作得比氙氣燈小,因而可增加可應 用性和降低成本;此外,由於該座體(i 〇 )係以高導熱 :數材質製成,且該座冑(i 0 )之外側頂面上又形成有 硬數散熱鰭片(1 2 )’如此一纟’即可有效地散逸發光 二極體(3 2 )發光時所產生之熱。 、’’不上所述,本創作貫為一極具進步性與實用性之佳 作,且未見於刊物或公開使用,符合新型專利之申請要件, 爰依法提出申請。 【圖式簡單說明】 第一圖··係本創作一較佳實施例之外觀示意圖。 第二圖:係本創作一較佳實施例之分解圖。 “第三圖:係本創作一較佳實施例之部分剖面圖暨一發 光二極體所發出光線路徑示意圖。 【主要元件符號說明】 (1 0 )座體 (1 1 )容室 (1 2 )散熱鰭片 (13)定位擋片 (2 〇 )反射罩 (2 1 )凹槽 (3 0 )發光二極體模組 9 M332169 (3 1 )電路板 (3 2 )發光二極體 (4 0 )集光件 (4 1 )一穿孔 (4 1 1 )傾斜反射部 (5 0 )透鏡For a preferred embodiment of the present invention, please refer to the first and second embodiments, including a base (10), a reflector (20), a light-emitting diode module (3 〇), and a light collection. Pieces (4 〇 0 ). The seat body (10) has a front opening, and the seat body (10) is formed with a palace f 1 1 ^ ^ taking a valley to (1 1 ), the bottom of the chamber (1 1 ) The side surface includes a front horizontal portion and a rear inclined portion. In the embodiment, the seat body (worker) is made of a material of a south thermal conductivity coefficient, and the outer surface of the seat body (1 〇) and the top surface thereof The top surface of t (]_]_) is curved, and a plurality of fins (i 2) are formed on the outer surface of the outer side of the body (1 〇), and the exciting chamber (1 1 ) A positioning flap (1 3 ) is formed on the bottom side of the vertical portion (1 1 ) between the horizontal portion and the rear inclined portion before the bottom side; and the horizontal portion and the rear inclined portion of the seat body (1 〇) The angle between the angles can be any angle, which is 20 degrees in this embodiment. The reflector (20) is disposed in the chamber (1 1 ) and is curved to cover the bottom side of the chamber (1 1 ); please refer to the second figure, In this embodiment, the reflector (20) is screwed and fixed on the front horizontal portion of the bottom side of the chamber (1 1 ), and the reflector (20) is corresponding to the positioning flap (13). A groove (2 1 ) is formed for the positioning piece (13) to be fixedly fixed, and the reflector (20) is assisted to be fixed to the seat body (10). The light emitting diode module (30) is disposed on the inclined portion of the bottom surface of the chamber (1 1 ) and includes a circuit board (31) and at least one light emitting diode (32). The circuit board (3 1 ) is disposed on the inclined portion of the bottom side of the chamber (1 1 ), and the at least one light emitting diode (32) is disposed on the circuit board (31), The light-emitting diode plate set (30) is disposed on the inclined portion of the bottom surface of the chamber (1 1 ), so that a part of the light emitted by the light-emitting diode (32) can be concentratedly incident on the light-emitting diode (31) The reflector (20) is reflected by the reflector (2 〇) toward the opening of the seat (10). The light collecting member (40) is disposed on the light emitting diode module (3 〇) and has at least one through hole (4 1 ) 'corresponding to each of the P holes (4 丄)) (4 1 1 ) part of the light is reflected to the light-emitting diode (32), and each of the perforations (4ι is an inclined reflecting portion (4 1 1 ), the oblique reflection is provided for the light-emitting diode (3 2 ) The other M332169 is emitted from the reflector (2 〇) and then reflected by the reflector (2 〇) toward the opening of the base (10). The lens (50) is attached to the reflector ( 2 〇) is connected and corresponds to the front opening, so all light reflected by the reflection I ( 2 〇) will pass through the lens (5 Q ) to diffuse the light by the lens (5 Q ). The diode illumination device has the effect of wide-angle illumination; in addition, the lens (50) is made of acrylic material, so it can be a cone, a half ellipse, a half circle, an arc... In the embodiment, the lens (50) is curved in order to increase the illumination range and achieve a wide-angle effect. As seen from the third figure, as can be seen from the above, part of the light emitted by the light-emitting diode (32) will be directly reflected by the reflector (2 〇), and will be processed by the lens (5 〇). So far, the light emitting diode (3 2 ) emits another portion of the light, which is first reflected by the light collecting member (40) to the reflecting cover (2 〇). And being reflected by the reflector (20) toward the body (the workpiece), and emitted through the lens (50) to the outside of the LED illumination device; in addition, the LED (3 2 ) is emitted After another part of the light is reflected by the light collecting member (40) and the reflecting cover (2〇), it is blocked by the positioning blocking piece (丄3) and cannot be emitted outside the light emitting diode lighting device; The light emitted by the light-emitting diode (3 2 ) will be partially concentrated by the reflector (20) toward the opening, and will be shot outside the body (1 〇). The light source emits light I, so the light-emitting diode lighting device of the present invention is compared with the existing light-emitting diode lighting device With a longer illumination distance than 8 M332169, and compared to a xenon lamp that is also a point source, the overall volume of the creation can be made smaller than a xenon lamp, thus increasing applicability and reducing costs; The seat body (i 〇) is made of high thermal conductivity: number material, and the hard surface fins (1 2 ) are formed on the outer top surface of the seat 胄 (i 0 ). The heat generated when the ground emitting diode (3 2 ) emits light. ''Not at all, this creation is a highly progressive and practical work, and it is not found in publications or publicly used, in line with the new type. The application requirements of the patent, 提出 apply in accordance with the law. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic view of the appearance of a preferred embodiment of the present invention. Second Figure: An exploded view of a preferred embodiment of the present invention. "Third Figure: A partial cross-sectional view of a preferred embodiment of the present invention and a schematic diagram of the light path emitted by a light-emitting diode. [Explanation of main component symbols] (1 0) Seat (1 1 ) Room (1 2 ) Heat sink fins (13) Positioning flaps (2 〇) Reflector (2 1 ) Groove (3 0) Light-emitting diode module 9 M332169 (3 1 ) Circuit board (3 2 ) Light-emitting diode (4 0) Light collecting member (4 1 ) a perforated (4 1 1 ) oblique reflecting portion (50) lens
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