M3 5 8922 _ 五、新型說明: 【新型所屬之技術領域】 本創作係有關於-種照明用之LED結構,尤指—種「咖照明 發光模組結構」,其複數個發光源封裝於單一、基座上,並利用單一 透光件使光線形成橫向之矩形擴散,藉此消除光線之重叠,:不 會產生眩光而影響照明效果’俾以增加其舒適感。 且 【先前技術】 • 按,固態照明LED產業在上遊晶片製程不斷改進之下,LED 的發光效率已逐漸符合人類在_上的需求,❿LED為點光源且 其光源分布指向性較高’除了部份泛細_途不需铜定義光 源分布之外,大部份的燈具皆有明確的規範要求光學輸出的性 能,如第6圖所示,習知之-種照明用LED模組,其複數個發光 件(41)皆使用單晶方式進行封裝,並於每—發光件⑻之外端固 定有一透鏡(42),再透過陣列與傾斜組裝角度之方式,將發光件 • (41)組裝於燈具(43)之反射面(44)處,藉此達到照明所需要之亮 度0 詳觀上述習知結構不難發覺其尚存有些許不足之處,主要原 因係歸如下: (一)、複數個發光件(41)皆使用單晶方式進行封裝,並於每 一發光件(41)之外端固定有一透鏡(42),該發光件(41)所發出之 光線皆由透鏡(42)處形成擴散,並產生投射光線之交錯重疊,即 照明光線係會產生眩光效應,而令使用者感覺不適與刺眼。 M358922 : 其炙光件(41)係以單晶方式進行封裝,並以陣列與傾 斜《、且裝角度之方式組裝於反射面(44)處,即增加發光件⑷)之配 裝製程與光線分布雛過程,使其生產成本提高。 (二)、該光線透過透鏡(42)及反射面⑽而擴散投射,而複 數個發光源(12)之光線齡產生大量的交錯重#,使光線之利用 率降低,而增加額外電量之浪費。 有鑑於此,創作人本於多年從事相關產品之製造開發與設計 鲁 L驗’針對上述之目標,詳加設計與審慎評估後,終得一確具實 用性之本創作。 【新型内容】 欲解決之技術問題點: 習知之照明用LED模組,其複數個發光件皆使用單晶方式進 灯封裝,並於每一發光件之外端固定有一透鏡,再透過陣列與傾 斜組裝角度之方式’將發光件組裝於燈具之反射面處,該發光件 • 所發出之光線皆由透鏡處形成擴散,而產生投射光線之交錯重 疊,即照明光線係會產生眩光效應,而令使用者感覺不適與刺眼。 解決問題之技術特點: • 一種LED照明用發光模組結構,其包括有:一發光件、一導 光件及一透光件所組合而成,一發光件係由基座及發光源所構 成’該基座係為一具導熱功能之板體,並於基座之端面上設有發 光源’且發光源内封裝有複數個發光晶片,即形成多晶狀之發光 源’另基座之外緣係可鎖設有固定架,且該固定架具有熱傳導特 M3 5 8922 性’一導光件係結合於發光源之上端面處,並配合發光源之晶片 封裝位置上設有反射槽,該反射槽内壁係由底端向上呈漸擴之反 射面’且於反射面處塗佈有具反射效果之材質,一透光件係以内 凹曲面狀之下端面設置於導光件之上端,且能配合發光件及導光 件而形成長條狀之透鏡,又該透光件之上端面弧形凸出有折射 面’其中’透光件下端係可直接鎖設於基座上,亦可夾設固定架 而鎖設於基座。 • 其發光件之基座係為氧化鋁、氮化鋁或碳化矽材質所製成之 板體,並藉由該材質之高散熱性,使發光源產生之熱能可經由傳 .導方式而快速散熱,發光源係由半導體材料所製成,並於發光源 之兩極端處通入電流,經由電子電洞之結合可將能量以光形式激 發釋出而達到發光之效果,其發光源所發出之光線於穿過導光件 之反射槽時,部份光線投射於反射面而產生向上端反射之效果, 使發光源之光線集中於反射槽之面積大小,其光線再由下端面透 鲁射入透光件,並藉由折射面之曲面設計,使光線依適當的折射路 徑產生橫向之矩形擴散,即可達到發光源之照明效果者。 對照先前技術之功效: (一) 、其封裝於單一基座之發光源所發出之光線,係經由導 光件之反射而集中技射於透光件處’並利用單一透光件之曲面產 生折射,使光線形成橫向之矩形擴散,藉此消除光線之重疊,即 不會產生眩光而影響照明效果,俾以增加其舒適减。 (二) 、其複數個發光源封裝於單一基座上,並利用單一透光 M358922 件使光線形成橫向之矩形擴散,藉此減少複數個發光源之配裝製 耘與光線分布之調校過程,俾以簡易之封裝方式達到降低生產成 本之效果。 (二)、藉由單一之透光件將複數個發光源之光線形成矩形擴 散,即可消除光線之重疊,使光線之利用率提高,俾以降低其耗 電量者。 【實施方式】 • 為使貴審查委員對本創作之目的、特徵及功效能夠有更進一步 之瞭解與認識’以下茲請配合【圖式簡單說明】詳述如后: 先請由第1圖與第2圖所示觀之’一種LED照明用發光模組 結構,其包括有··一發光件(10)、一導光件(2〇)及一透光件(3〇) 所組合而成,一發光件(10)係由基座(11)及發光源(12)所構成, 該基座(11)係為一具導熱功能之板體,並於基座(1丨)之端面上設 有發光源(12),且發光源(12)内封裝有複數個發光晶片(13),即 # 形成多晶狀之發光源(12),另基座(11)之外緣係可鎖設有固定架 (14),且該固定架(14)具有熱傳導特性,一導光件(20)係結合於 發光源(12)之上端面處,並配合發光源(12)之晶片封裝位置上設 有反射槽(21),該反射槽(21)内壁係由底端向上呈漸擴之反射面 (22),且於反射面(22)處塗佈有具反射效果之材質,一透光件(3〇) 係以内凹曲面狀之下端面(31)設置於導光件(20)之上端,且能配 合發光件(10)及導光件(20)而形成長條狀之透鏡,又該透光件(31) 之上端面弧形凸出有折射面(32) ’其中,透光件(3〇)下端係可夾 6 M3 5 8922 設固定架(14)而鎖設於基座(ii),亦可直接鎖設於基座(丨丨)上(如 第4圖所示)。 其實際使用之情況,再請由第1、2、3圖所示觀之,其發光 件(10)之基座(11)係為氧化鋁、氮化鋁或碳化矽材質所製成之板 體’並藉由材質之高散熱性,使發光源(12)產生之熱能可經由傳 導方式而快速散熱,發光源(12)係由半導體材料所製成,並於發 光源(12)之兩極端處通入電流,經由電子電洞之結合可將能量以 φ 光形式激發釋出而達到發光之效果,其發光源(12)所發出之光線 於穿過導光件(20)之反射槽(21)時,部份光線投射於反射面(22) 而產生向上端反射之效果,使發光源(12)之光線集中於反射槽(21) 之面積大小,其光線再由下端面(31)透射入透光件(30),並藉由 折射面(32)之曲面設計,使光線依適當的折射路徑產生橫向之矩 形擴散,即可達到發光源(12)之照明效果者。 復請由第5圖所示觀之,其為本創作使用狀態之延伸,該基 # 座(11)之端面上設有發光源(12),且發光源(12)内所封裝有複數 個發光晶片(13),即形成多晶狀之發光源(12),又該透光件(3〇) 係配合發光件(10)及導光件(2〇)而形成長條狀之透鏡,使得發光 件(10)之發光源(12)係能軸向陣列於基座οι)上,另由發光源(12) 與基座(11)所構成之發光件(1〇),係能複數個發光件(1〇)呈軸向 陣列設置,並以單一導光件(2〇)與單一透光件(3〇)而形成結合, 經由導光件(20)之集光效果與透光件(3〇)之折射角度,即能保持 其照明特性者。 7 M3 5 8922 藉上述具體實施例之結構,可得到下述之效益:(一)其封裝 於單一基座(11)之發光源(12)所發出之光線,係經由導光件(2〇) 之反射而集中投射於透光件(3〇)處,並利用單一透光件(3〇)之曲 面產生折射,使光線形成橫向之矩形擴散,藉此消除光線之重疊, 即不會產生眩光而影響照明效果,俾以增加其舒適感;(二)其複 數個發光源(12)雖於單-基座⑻上,並_單—透光件⑽ 使光線形成橫向之矩形擴散,藉此減少複數個發光源(⑵之配裝 籲製程與光線分布之調校過程’俾以簡易之封裝方式達到降低生產 成本之效果;(三)藉由單—之透光件⑽將複數個發切、(⑵之 光線形成矩形擴散’即可消除光線之重疊,使光線之利用率提高, 俾以降低其耗電量者。 綜上所述’本創作確實已達突破性之結構設計,而且有改良 之創作内容,同時又能夠達職業上之细性與進步性,且本創 作未見於任何刊物,亦具新穎性,當符合專利法相關法條之規定, #鋒法提出新型專利申請’懇請釣局審查委員授予合法專利 權,至為感禱。 唯以上所述者’僅為本創作之—較佳實施例而已,當不能以 彻"卩纽蝴咐糊範圍所作之 均等H、修飾,皆應仍屬本創作專利涵蓋之範圍内。 M3 5 8922 【圖式簡單說明】 第1圖:係本創作之立體圖。 第2圖:係本創作之立體分解圖。 第3圖:係本創作之使用狀態之示意圖。 第4圖:係本創作之透光件鎖設方式之示意圖 第5圖:係本創作之另一使用狀態之立體圖。 第6圖:係習知之照明用LED模組之示意圖。 【主要元件符號說明】 本創作部份: 發光件----(10) 發光源----(12) 固定架----(14) 導光件----(20) • 反射面----(22) 透光件----(30) 折射面----(32) 基座 發光晶片-- 反射槽--- 下端面一一 習知部份: 發光件----(41) 透鏡---- 燈具-----(43) 反射面--- -(11) -(13) -(21) -(31) -(42) -(44) 9M3 5 8922 _ V. New description: [New technical field] This creation is related to the LED structure for lighting, especially the "cafe lighting module structure", in which a plurality of light sources are packaged in a single On the pedestal, a single light-transmissive member is used to diffuse the light into a lateral rectangular shape, thereby eliminating the overlap of the light: no glare is generated and the lighting effect is affected 俾 to increase the comfort. [Previous technology] • According to the continuous improvement of the upstream wafer process in the solid-state lighting LED industry, the luminous efficiency of LEDs has gradually met the needs of human beings. The LED is a point source and its light source has a high directivity distribution. In addition to the definition of the light source distribution, most of the lamps have clear specifications to determine the performance of the optical output. As shown in Figure 6, the conventional LED module for illumination, the plural Each of the illuminating members (41) is packaged by a single crystal method, and a lens (42) is fixed at an outer end of each illuminating member (8), and the illuminating member (41) is assembled through the array and the oblique assembly angle. The reflecting surface (44) of the luminaire (43) is used to achieve the brightness required for illumination. 0 The above-mentioned conventional structure is not difficult to find that there are still some shortcomings. The main reasons are as follows: (1) Each of the illuminating members (41) is packaged by a single crystal method, and a lens (42) is fixed at an outer end of each illuminating member (41), and the light emitted by the illuminating member (41) is received by the lens (42). Forming a diffusion and producing an interlaced overlap of projected rays I.e., an illumination system produces glare light effects, and the glare makes the user feel uncomfortable. M358922: The calendering member (41) is packaged in a single crystal mode, and is assembled and applied to the reflecting surface (44) in an array and tilted manner, that is, the fitting process and light of the illuminating member (4) are added. The distribution process increases the production cost. (2) The light is diffused and projected through the lens (42) and the reflecting surface (10), and the light age of the plurality of light sources (12) generates a large amount of staggered weights, which reduces the utilization of the light and increases the waste of the extra power. . In view of this, the creator has been engaged in the manufacturing development and design of related products for many years. In response to the above objectives, after detailed design and careful evaluation, the author has finally realized the practical use of this creation. [New content] The technical problem to be solved: The conventional LED module for illumination, in which a plurality of illuminating members are all packaged in a single crystal mode, and a lens is fixed at the outer end of each illuminating member, and then transmitted through the array and The method of tilting the assembly angle is to assemble the illuminating member on the reflecting surface of the illuminating device, and the light emitted by the illuminating member is diffused by the lens, and the staggered overlap of the projected light is generated, that is, the illuminating light has a glare effect, and Make the user feel uncomfortable and glaring. Technical features for solving the problem: • A light-emitting module structure for LED lighting, comprising: a light-emitting member, a light-guiding member and a light-transmitting member, wherein a light-emitting member is composed of a base and a light source. 'The base is a heat-conducting plate body, and a light source is provided on the end surface of the base, and a plurality of light-emitting cells are packaged in the light source, that is, a polycrystalline light source is formed. The rim can be locked with a fixing frame, and the fixing frame has a heat conduction characteristic M3 5 8922. A light guiding member is coupled to the upper end surface of the illuminating source, and a reflecting groove is disposed on the chip packaging position of the illuminating source. The inner wall of the reflecting groove is a reflective surface that is gradually enlarged from the bottom end, and is coated with a reflective material at the reflecting surface, and a light transmitting member is disposed at the upper end of the light guiding member with a concave curved lower end surface, and The light-emitting member and the light guiding member can be combined to form a long lens, and the upper end surface of the light-transmitting member is curved with a refractive surface, wherein the lower end of the light-transmitting member can be directly locked on the base, or The fixing bracket is clamped and locked to the base. • The base of the illuminating member is made of alumina, aluminum nitride or tantalum carbide. The high heat dissipation of the material enables the heat generated by the illuminating source to be quickly transmitted. Heat dissipation, the light source is made of a semiconductor material, and a current is applied to the two extremes of the light source. The combination of the electron holes can excite the energy in the form of light to achieve the effect of light emission, and the light source emits When the light passes through the reflection groove of the light guide member, part of the light is projected on the reflection surface to produce an effect of reflecting at the upper end, so that the light of the illumination source is concentrated on the area of the reflection groove, and the light is then transmitted through the lower end surface. The light-transmitting member is inserted into the light-transmitting member, and the curved surface of the refracting surface is designed to make the light diffuse in a lateral direction according to an appropriate refractive path, thereby achieving the illumination effect of the light-emitting source. Compared with the effects of the prior art: (1) The light emitted by the light source encapsulated in a single base is concentrated by the reflection of the light guide member at the light transmitting member' and generated by the curved surface of the single light transmitting member. Refraction causes the light to form a laterally rectangular diffusion, thereby eliminating the overlap of the light, that is, it does not cause glare and affects the illumination effect, so as to increase its comfort reduction. (2) The plurality of illumination sources are packaged on a single pedestal, and the light is formed into a horizontal rectangular diffusion by using a single light transmission M358922, thereby reducing the adjustment process of the assembly and the distribution of the plurality of illumination sources. , 俾 to achieve the effect of reducing production costs in a simple package. (2) By using a single light-transmitting member to form a rectangular diffusion of light of a plurality of light-emitting sources, the overlapping of light can be eliminated, and the utilization of light can be improved to reduce the power consumption. [Embodiment] • In order to enable your review committee to have a better understanding and understanding of the purpose, characteristics and efficacy of this creation, please refer to the following section for a brief description of the following: First, please refer to Figure 1 and 2 shows a structure of a light-emitting module for LED lighting, which comprises a combination of a light-emitting member (10), a light-guiding member (2〇) and a light-transmitting member (3〇). A light-emitting member (10) is composed of a base (11) and a light-emitting source (12). The base (11) is a heat-conducting plate body and is disposed on an end surface of the base (1丨). There is a light source (12), and the light source (12) is packaged with a plurality of light emitting chips (13), that is, a polycrystalline light source (12) is formed, and the outer edge of the base (11) can be locked. There is a fixing frame (14), and the fixing frame (14) has heat conduction characteristics, and a light guiding member (20) is coupled to the upper end surface of the light emitting source (12) and matched with the chip packaging position of the light emitting source (12). The reflection groove (21) is provided, and the inner wall of the reflection groove (21) is a reflection surface (22) which is gradually enlarged from the bottom end, and is coated with a reflection effect on the reflection surface (22). The light-transmissive member (3〇) is disposed on the upper end of the light guide member (20) with a concave curved bottom end surface (31), and can be formed by the light-emitting member (10) and the light guide member (20). The strip lens and the upper end surface of the light transmissive member (31) are convexly curved with a refractive surface (32) 'where the lower end of the light transmissive member (3〇) can be clamped 6 M3 5 8922 is provided with a fixing frame (14) The lock is placed on the base (ii) and can be directly locked to the base (as shown in Fig. 4). For the actual use, please view it as shown in Figures 1, 2 and 3, and the base (11) of the light-emitting member (10) is made of alumina, aluminum nitride or tantalum carbide. The body's thermal energy generated by the light source (12) can be quickly dissipated via conduction by the high heat dissipation of the material, and the light source (12) is made of a semiconductor material and is used by the light source (12). The current is applied to the extremes, and the energy is excited by the φ light to achieve the illuminating effect through the combination of the electron holes, and the light emitted by the illuminating source (12) passes through the reflecting groove of the light guiding member (20). (21), part of the light is projected on the reflecting surface (22) to produce an effect of reflecting at the upper end, so that the light of the light source (12) is concentrated on the area of the reflecting groove (21), and the light is further reflected by the lower end surface (31). The light transmissive member (30) is transmitted through the curved surface of the refracting surface (32), so that the light is diffused in a lateral direction according to an appropriate refractive path to achieve the illumination effect of the light source (12). The drawing is shown in Fig. 5, which is an extension of the state of use of the creation. The end face of the base #11 (11) is provided with a light source (12), and the light source (12) is packaged with a plurality of The light-emitting chip (13) forms a polycrystalline light source (12), and the light-transmitting member (3) is matched with the light-emitting member (10) and the light guide member (2) to form a long lens. The illuminating source (12) of the illuminating member (10) can be axially arrayed on the pedestal οι), and the illuminating member (1 〇) composed of the illuminating source (12) and the pedestal (11) can be plural The light-emitting members (1〇) are arranged in an axial array, and are combined with a single light-transmitting member (2〇) and a single light-transmitting member (3〇), and the light collecting effect and light transmission through the light guiding member (20) The angle of refraction of a piece (3〇), that is, the ability to maintain its lighting characteristics. 7 M3 5 8922 By the structure of the above specific embodiment, the following benefits can be obtained: (1) the light emitted by the light source (12) packaged in a single base (11) is via the light guide (2〇) The reflection is concentrated and projected on the light-transmitting member (3〇), and the surface of the single light-transmitting member (3〇) is used to refraction, so that the light forms a lateral rectangular diffusion, thereby eliminating the overlap of the light, that is, no generation The glare affects the lighting effect, so as to increase the comfort; (2) the plurality of light sources (12) are on the single-base (8), and the _ single-light-transmitting member (10) causes the light to form a lateral rectangular diffusion. This reduces the number of illumination sources ((2) the assembly process of the assembly process and the light distribution adjustment process 俾 the effect of reducing the production cost in a simple package manner; (3) the multiple transmissions by the single-transparent member (10) Cut, ((2) the light forms a rectangular diffusion' to eliminate the overlap of light, so that the utilization of light is increased, so as to reduce the power consumption. In summary, this creation has indeed achieved a breakthrough structural design, and Improved content and ability to Up to the fineness and progress of the profession, and this creation is not found in any publications, but also novelty. When complying with the relevant provisions of the Patent Law, #锋法proposes a new type of patent application. It is the prayer of the present. Only the above-mentioned ones are only the preferred embodiment of the present invention. When the H and the modifications cannot be made in the scope of the "Breakfast", they should still belong to this creation patent. M3 5 8922 [Simple description of the diagram] Figure 1 is a perspective view of the creation. Figure 2: An exploded view of the creation. Figure 3: Schematic diagram of the state of use of the creation. 4Fig.: Schematic diagram of the way of locking the light-transmissive part of the creation. Figure 5: A perspective view of another state of use of the creation. Figure 6: Schematic diagram of the LED module for lighting. 】 This part: Light-emitting parts----(10) Light source----(12) Fixing frame----(14) Light guide----(20) • Reflecting surface---- (22) Translucent member----(30) Refractive surface----(32) Substrate light-emitting chip--reflecting groove--- lower end surface One-to-one part: Light-emitting parts----(41) Lens---- Luminaire-----(43) Reflecting surface----(11) -(13) -(21) -(31 ) -(42) -(44) 9