1352418 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種透鏡模組及發光裝置,且特別是有關 於一種具有螢光層的透鏡模組及發光裝置。 【先前技術】 近年來’由於發光二極體Qjght Emitting Diode, LED)具 有體積以及單-熱量低的優勢,LED __用越來^ 多H LED駐流細在於電子產品的背光卿,例如: 手機、筆記型電腦以及電視。這些電子產品所需要的背光是 白光’ ^光LED的製作方式為目前LED產業的重要議題之 3咖的製作方式大致可分為激發螢光粉 出先或疋利用二原色LED(紅、藍.、綠)混光兩種方式。 收之==發絲式粉接魏雜,若螢絲所接 Γίίΐ波長匹配正確’營光粉原子將會產生能階跳躍,致 ίίϊϋίίϋί咖得錄之絲° _,料光粉 ^,ίίίΪίΪίΐ極體所發射之先線以不同強度比例混 $藍^5) ^ϋ 配實際f求。以白光為例,可利 ===搭配三原色登光粉。由於激 目=====賴梅娜,因此 成型所製成,續财級高釘料變 降低,且不易製作出大面積封裝體的缺點。 梦詈另2外·^參閱台灣專利助7112 ’該專利揭露一種發光 ft ’盆所示。發光裝置2包含光學透鏡2〇、發 =2、基座24以及榮光層26。發光晶片22位於基座2^曰 ^光^層26之間。發光晶片22發光後可激發 鏡%出光。但是,為了容崎光層2^需 ftίϊ 行額外加卫處理以形成凹槽,增加了製 以光學透鏡20的複雜度。 1表 之問BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lens module and a light-emitting device, and more particularly to a lens module having a fluorescent layer and a light-emitting device. [Prior Art] In recent years, due to the advantages of the volume and single-calorie of the LEDs, the LED __ is used more and more. The H-LED resident is fine in the backlight of the electronic product, for example: Mobile phones, laptops and TVs. The backlights required for these electronic products are white light'. The way in which LEDs are produced is an important issue in the current LED industry. The way in which coffee is made can be roughly divided into exciting phosphor powders or using two primary color LEDs (red, blue, Green) mixed light in two ways. Accept == hairline type powder to pick up Wei miscellaneous, if the filament is connected Γ ίίΐ wavelength matching is correct 'the camping powder atom will produce energy level jump, ίίϊϋ ίίί 咖 录 录 ° ° _, material light powder ^, ί ί ί ί ΐ The first line emitted by the body is mixed with a different intensity ratio of $blue^5) ^ϋ with the actual f. Take white light as an example, the profit === with the three primary colors Dengguang powder. Since the masculine ===== Lai Mena, it is made by molding, and the high-grade nail material of the continuous wealth grade is reduced, and it is difficult to produce a large-area package. The nightmare of the other is to refer to Taiwan Patent Assistance 7112'. This patent discloses a luminous ft' basin. The light-emitting device 2 includes an optical lens 2, a hair sensor 2, a susceptor 24, and a glory layer 26. The light-emitting wafer 22 is located between the pedestal 2 and the light-emitting layer 26. After the illuminating wafer 22 emits light, it can excite the mirror to emit light. However, the complexity of making the optical lens 20 is increased in order to accommodate the sturdy layer 2 ft ϊ additional processing to form the grooves. 1 table
爰是,如何提供一種具有高透光率,且易於 :及易於加工處理的導線架,即為本發明中所U 【發明内容】 於如練供-種發繼.,峨光且易 事置範ί ’根據—具體實施例,本發明之發光 ϋ,發光晶^及主體°發光晶片位於透鏡 、=,且/、透鏡模組間隔一距離;主體用以承載發光晶片 iii模組。其中,透鏡模組包含平面玻璃、塑膠框體以ΐ 伟玻璃具有第n _框體包覆平面玻璃並 表面構成至少m螢光層位於該至少一第一 螢光層係以塗佈、喷墨或印刷方式形成於第一凹槽内。 藉^ ’利雌雜體包覆平面玻璃⑽不同形狀及大小 凹槽,螢光層可輕易且快速地填入於凹槽内。 塑膠框體能以射出成型方式包覆平面玻璃。藉此,製造 上能節省時間.以;目 塑膠框體有較佳的密封性,而且能依據需要改變 快速且ΐϊ^/及第—凹叙赌與从。因此,經由 變,以成型技術,凹槽大小可輕易地依需求改 運到精確控制螢光粉用量的目的。 可容:明利用塑膠框體包覆平面玻璃,以形成 = 槽,讓螢光層胁填充塗佈及控制用量。 加工 Μ ,發光裝置及透鏡模_簡單快速地進行製造 單、古咖^ =之發光裝置細平面麟,具有結構簡 早间耐熱度以及高透光率的優點。 齡叮崎縣述及所 【實施方式】 =曰月之發光裝置可承載多個發光晶片(例如:發光二極 ,)’亦利用激發營光方式發微砰峨稱.為光學透鏡.,. 如圖三A及圖三B所示。 如圖二A所示,發光裝置3包含透鏡模組3〇、發光晶片 32、主體34以及支架36。主體34用以承載發光晶片32及 透鏡模組30。其中,透鏡模組30包含平面玻璃3〇〇、塑膠框 體302、螢光層304以及抗紫外光膜3〇6。另外,發光裝置3 可與電路板(未顯示)電性連接,支架36電性連接至發^晶片 32,電路板可透過支架36提供電源給發光晶片32。 曰曰 於此實施例中’平面玻璃300具有第一表面3〇〇〇及與第 一表面3000相對之第二表面3002。塑踢框體3〇2包覆g面 玻璃300 ’塑膠框體302與第一表面3〇〇〇構成第一凹押 3020,且與第二表面3002構成第二凹槽3〇22。第一凹^ 3020朝向發光晶片32 ’螢光層304位於第—凹槽3〇2〇内。 ,光層30M系以塗佈、噴墨或印刷方式形成於第一 内。由於本發明之發光裝置3之透賴、组30於製造睹Ί〇 射出成型技術可輕易地且精確地形成多個不同形狀大、 槽,因此能精確地控制填充於凹槽内的螢光粉用量。、凹 相較於填膠黏合方式,由於塑膠框體3〇2以 ,包覆平面玻璃300,因此本發明之發光裝置3具 包覆性與密封性。如果平面玻璃有所缺損,塑 3〇2能輕易地將缺損處填補,同時不失其密封性。/ 於塑膠框體3G2彈性佳,能吸收平面玻璃獨所受^ 減少損壞或破碎的可能性。 田”入回檟照明時,例如:路燈或是球場照明 =夕個發光;32同時運作會產生高熱量。因此,本發 ΞΪίϊΪ 30設置於發光晶片%之上’且與發光晶片32間 ^一段距離,如圖三Β所示,進而透鏡模組3〇可 ’還可設置導制的物體或是填人具有導執效 ^的材料’用以導出發光晶片32所產生的熱量,讓熱ϋ 積於空間内而影響發光裝置3的運作。此外,相較於樹脂^ ^的塑膠材料’目前的j!藝技術能㈣地製造出高平整度、 南結,強度以及高透光度的平面賴,更切合於大面積照明 紅上所述,本發明之發光裝置利用塑膠框體包覆平面玻 裼以形成凹槽,讓螢光層易於填充塗佈及控制用量。並且, 於大照明上,本發明使用平面玻璃作為光學透鏡,具有 結構簡單、高耐熱度以及高透光率的優點。g此,本發明之 發光裝置具有成本低及製造簡易的優點。 另外,若發光裝置裝設在室外環境,就需注意抗紫外光 率, 5果紫1光膜於發光裝置崎了可降低紫外光對發光 :ϊ二之:發 技;發 還可用以填 充抗紫外光膜,如圖 ===== A至圖二c所示 ^示,ί光粉層304位於第—凹槽_内, Ϊί 槽3〇22内。如圖三C所示,螢 先層姻與抗紫外光膜條皆位於第 第之二上凹槽,4022内,之後再形成抗紫Ml 起以形成具有抗紫外 ;’節錢充時間及填充難 ism:?料細的填級跡,可視 此外,依發钱雜崎,_的做大小α 的榮光粉層之成份也可作相對應_整,如圖四所示。、 以交通號料例,圖四所示之魏她5 5〇2可形成三個_凹槽测,不_光粉比例及 光層504分別填入三個圓形凹槽細内,例如$成二2 及綠色榮光粉。當^,凹槽形狀不限於圖四 只 為其他形狀大小。並且’由於本發明之轉框體用射^ 成型技術形成,因此,可輕易地製造出所= 1352418 /J、〇 f外,為了讓發光裝置更加牢固’塑膠框體與主體除了 不之接合方式之外,於圖五A至圖五C中,塑膠框 n含-突起部’綠部可為柱狀突起或是脉突起, 猎此,透鏡模組能卡合於主體以增加之間的接合力。 於圖五A中,主體64包含能與突起部6024配合之凹陷 二凹陷部_可為凹孔、凹槽或是通孔。藉此,突起 。丨⑼24能銜接於該凹陷部64〇,塑膠框體6〇2與主體科之 間的組裝上較容易定位,且更能緊密地連接組合。 *圖五B所示之塑膠框體702係朝向發光晶片72之方向 =出二利賤出部蕭與主體74更緊密地貼合。除此之 卜塑膠框體702的突出部7024增加了第一凹槽7〇2〇的深 i您可填入較厚之螢光層704於第一凹槽麵内,以改 彎螢考層7〇4發光的強度,。 一 · - - · · — - ....................... _ ' * —···- ··· — . , ......- . _ 圖五C所示之塑環框體802係橫向往外突出(平行於 之方向)。突出部8〇24增加了主體84與塑膝框體 之間的縱向作用力面積。主體84與塑膠框體8〇2之間 作用力可分散於較大的接觸面積,進而避免壓力過大 主體84或塑膠框體8〇2。 相 相較於先剞技術,本發明利用塑膠框體包覆平面玻璃, 以$成可容納螢光層的凹槽,讓螢光層易於填充塗佈及栌制 用藉此’本發明之發光裝置及透鏡模組能簡單快速ς 仃裏^!^工。此外,本發明之發光裝置使用平面玻璃,具有 結構簡單、高耐熱度以及高透光率的優點。 >、有 ,由社較佳具體實侧之詳述,鱗望能更加 ’I·本發明之特徵與精神,而並非以上述所揭露的較佳具體^ 11 丄丄δ 丄丄δ 的解釋, 涵蓋各種改變及4目。相反地’其目的是希望能 撼發日綺申請之專利範圍的範,應該根 '12 【圖式簡單說明】 圖一係繪示先前技術之發光裝置之示意圖。 圖二係誇示先前技術之另—發錄置之示意圖。 施例之發光裝置之 圖三A係繪示根據本發明第一星體 爆炸圖。 '、 圖二B係緣示圖二a之組合圖。 示意^ C鱗示根據本發㈣二具體實補之發光裝置之 視圖圖四鱗報據本㈣第三具體實施例之透鏡模組之俯 示意Ξ ^ A崎本發明第规具體實.補^ 示意t B係_根據本發明第五具體實施例之發光裝置之 示意^五C雜减據本發縣六具體實麵之發絲置之 【主要元件符號說明】 30、50 :透鏡模組 . 34、64、74、84 :主體 20 :光學透鏡 1 ' 2'3 :發光裝置 22、32、72 :發光晶片 36 :支架 1352418 12 :發光二極體 14 :螢光填充體 18 :封裝體 24 :基座 300、800 :平面玻璃 640 :凹陷部 200 :凹槽 306、406 :抗紫外光膜 3000 :第一表面 3002 :第二表面 3022、4022 :第二凹槽 3020、5020、7020 :第一凹槽 6024、7024、8024 :突起部 302、502、602、702、802 :塑朦框體 26、304、404、504、704 :螢光層爰 , , 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何 如何According to a specific embodiment, the illuminating illuminator, the illuminating crystal and the main body illuminating wafer of the present invention are located at a distance between the lens, ???, and/or the lens module; and the main body is used to carry the illuminating chip iii module. Wherein, the lens module comprises a flat glass and a plastic frame, wherein the glass has an n-th frame covering the plane glass and the surface is configured to form at least the m phosphor layer on the at least one first phosphor layer for coating, inkjet Or a printing method is formed in the first recess. The fluorescent layer can be easily and quickly filled into the groove by the ^ ’ 雌 female miscellaneous covering the flat glass (10) with different shapes and sizes. The plastic frame can cover the flat glass by injection molding. In this way, manufacturing can save time. The plastic frame has a better sealing property, and can be changed according to the needs of the fast and ΐϊ ^ / and the first - concave gambling and slave. Therefore, by changing the molding technique, the groove size can be easily changed to the purpose of precisely controlling the amount of phosphor powder. It can be used to cover the flat glass with a plastic frame to form a groove, so that the fluorescent layer is filled with coating and control dosage. Processing Μ, illuminating device and lens mode _ simple and rapid manufacturing single, ancient coffee ^ = illuminating device thin plane lin, has the advantages of simple heat resistance and high light transmittance.叮 叮 县 县 【 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰 曰As shown in Figure 3A and Figure 3B. As shown in Fig. 2A, the light-emitting device 3 includes a lens module 3A, a light-emitting chip 32, a main body 34, and a holder 36. The main body 34 is used to carry the light emitting chip 32 and the lens module 30. The lens module 30 includes a flat glass 3, a plastic frame 302, a fluorescent layer 304, and an anti-ultraviolet film 3〇6. In addition, the illuminating device 3 can be electrically connected to a circuit board (not shown). The cradle 36 is electrically connected to the dies 32, and the circuit board can supply power to the illuminating chip 32 through the cradle 36. In this embodiment, the flat glass 300 has a first surface 3A and a second surface 3002 opposite the first surface 3000. The plastic kick frame 3〇2 covers the g-face glass 300'. The plastic frame 302 and the first surface 3〇〇〇 constitute a first recess 3020, and the second surface 3002 constitutes a second recess 3〇22. The first recess 3020 faces the luminescent wafer 32' and the phosphor layer 304 is located within the first recess 3'2'. The optical layer 30M is formed in the first portion by coating, inkjet or printing. Since the illuminating device 3 of the present invention can easily and accurately form a plurality of different shapes and grooves in the manufacturing process, the phosphor powder filled in the groove can be accurately controlled. Dosage. The concave portion is coated with the flat glass 300 because of the plastic frame 3〇2, so that the light-emitting device 3 of the present invention has coating property and sealing property. If the flat glass is defective, the plastic 3〇2 can easily fill the defect without losing its seal. / The plastic frame 3G2 is excellent in elasticity and can absorb the flat glass alone to reduce the possibility of damage or breakage. When the field is returned to the lighting, for example: street light or stadium lighting = illuminating; 32 simultaneous operation will generate high heat. Therefore, the present invention is disposed above the illuminating wafer %' and with the illuminating chip 32 The distance, as shown in FIG. 3Β, may further “set a guided object or fill a material with a conductive effect” to derive the heat generated by the light-emitting chip 32, so that the heat is generated. It accumulates in the space and affects the operation of the light-emitting device 3. In addition, compared with the plastic material of the resin, the current j! art technology can (4) produce a flat surface with high flatness, south knot, strength and high transparency. Lay, more suitable for large-area illumination red, the light-emitting device of the present invention uses a plastic frame to cover the plane glass to form a groove, so that the phosphor layer can be easily filled with coating and control dosage, and, for large illumination. The present invention uses planar glass as an optical lens, and has the advantages of simple structure, high heat resistance, and high light transmittance. Thus, the light-emitting device of the present invention has the advantages of low cost and simple manufacturing. Outdoor environment, you need to pay attention to the anti-ultraviolet rate, 5 fruit purple 1 light film in the light-emitting device can reduce the ultraviolet light on the light: ϊ二之: hair technology; hair can also be used to fill the anti-ultraviolet film, as shown in Figure === == A to Fig. 2c shows that the light powder layer 304 is located in the first groove__, Ϊί groove 3〇22. As shown in Fig. 3C, the first layer of the fire and the anti-ultraviolet film are Located in the second ridge on the groove, 4022, and then formed anti-purple Ml to form with anti-UV; 'saving money filling time and filling difficult is: material fine fill level trace, visible in addition, according to the money Saki, _ the size of the glory layer of the size α can also be used as the corresponding _ whole, as shown in Figure 4., according to the traffic number, the figure shown in Figure 4 Wei 5 5 〇 2 can form three _ In the groove measurement, the non-light powder ratio and the light layer 504 are respectively filled into three circular groove fines, for example, $2 and green glory powder. When ^, the groove shape is not limited to the figure 4 and only other shapes and sizes And 'Because the frame of the present invention is formed by the injection molding technique, it is easy to manufacture the = 1352418 /J, 〇f, in order to make the light-emitting device more secure' In addition to the manner in which the plastic frame and the main body are not joined, in the fifth to fifth embodiments of the plastic frame, the plastic frame n includes a protrusion portion, and the green portion may be a columnar protrusion or a pulse protrusion. The engaging body is engaged with the main body to increase the engaging force. In Fig. 5A, the main body 64 includes a recessed recessed portion _ which can be engaged with the protruding portion 6024, and can be a recessed hole, a recess or a through hole. The 丨(9)24 can be connected to the recessed portion 64〇, and the assembly between the plastic frame body 〇2 and the main body is easier to position and more closely connected and combined. * The plastic frame 702 shown in Fig. 5B is oriented The direction of the illuminating wafer 72 = the squeezing portion is tightly attached to the main body 74. In addition, the protruding portion 7024 of the plastic frame 702 increases the depth of the first recess 7 〇 2 您 you can fill The thicker fluorescent layer 704 is placed in the first groove surface to change the intensity of the luminescent layer 7 〇4. One· - - · · - - ....................... _ ' * -···- ··· - . , ..... .- . _ The plastic ring frame 802 shown in Figure 5C protrudes laterally outward (parallel to the direction). The projections 8〇24 increase the longitudinal force area between the body 84 and the knee frame. The force between the main body 84 and the plastic frame 8〇2 can be dispersed over a large contact area, thereby avoiding excessive pressure of the main body 84 or the plastic frame 8〇2. Compared with the prior art, the present invention utilizes a plastic frame to cover the flat glass, so as to accommodate the groove of the fluorescent layer, so that the fluorescent layer can be easily filled and coated, thereby using the light of the present invention. The device and the lens module can be easily and quickly operated. Further, the light-emitting device of the present invention uses flat glass and has the advantages of simple structure, high heat resistance, and high light transmittance. >, Yes, by the details of the specific real side of the society, the scale can be more 'I. The characteristics and spirit of the present invention, and not the explanation of the preferred specific ^ 11 丄丄 δ 丄丄 δ disclosed above , covering all kinds of changes and 4 orders. On the contrary, the purpose is to express the scope of the patent scope of the Japanese application, which should be described as a schematic diagram of the prior art light-emitting device. Figure 2 is a schematic representation of another prior art recording. Figure 3A shows a first star exploded view in accordance with the present invention. ', Figure 2B shows the combination of Figure 2a. The schematic diagram of the illuminating device according to the present invention is based on the fourth embodiment of the illuminating device. The fourth embodiment of the illuminating device is shown in the fourth embodiment. Illustrated t B system _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ 34, 64, 74, 84: main body 20: optical lens 1 '2'3: light-emitting device 22, 32, 72: light-emitting chip 36: bracket 1352418 12: light-emitting diode 14: fluorescent filler 18: package 24 : pedestal 300, 800: flat glass 640: recessed portion 200: recess 306, 406: anti-ultraviolet light film 3000: first surface 3002: second surface 3022, 4022: second recess 3020, 5020, 7020: a groove 6024, 7024, 8024: protrusions 302, 502, 602, 702, 802: plastic frame 26, 304, 404, 504, 704: fluorescent layer