料21603 五、新型說明: t新型所屬之技術領' :' [00M] 本創作係一種R G B W四色混光C Ο B面光源模組 ’尤指一種多色混光之C Ο B (chip on board)面光 源模組之所屬技術領域者。 [先前技術] [0002] 按目前習知之 SMD 型(surface raountedMaterial 21603 V. New description: t new technology technology ':' [00M] This creation is a kind of RGBW four-color mixed light C Ο B surface light source module 'especially a multi-color mixed light C Ο B (chip on The technical field of the panel light source module. [Prior Art] [0002] According to the current SMD type (surface raounted
dev i ces ) L E D光源結構如第七圖所示,其SMD型L ED光源組(3 〇)係將晶片(3丄)利用接著劑(3 2)黏附在支架(3 3)上,該接著劑(3 2)大多係 為環氧樹脂與金屬粉末之混合物,藉由接著劑内環氧樹 脂高溫硬化之特性來固定晶片(31),並以接著劑内 添加之金屬粉末達到導電與導熱的目的,且其數支架( 3 3)在導接至基板體(34)之正負電極處(圖中未 示)’但其具有下列問題存在: _3] 1.結構穩定性差:其接著劑因材質屬性的問題,會使晶 片與支架有較大的距離,且接著劑之分子間空隙較大, 使其固著力較差而無法承受較大的推力與拉力,故其結 構穩定性差》 圆2.光源控制性差:其數支架係導接至基板體之正負電極 處’無法單獨控制晶片之發光及供電,故其光源控制性 差。 【新型内容】 [0005] <創作動機> 表單煸號A0101 第4頁/共19頁 M421603 [0006] 本創作有鑑於習知S M D型L E D光源結構穩定性 差及光源生成效率低之問題,乃完·成本創作之R G aw 四色混光C Ο B面光源模組。 [0007] <創作目的> [0008] 本創作之主要目的在於提供一種R G B W四色混光 C Ο B面光源模組,其陶瓷基板體設有一紅光發光區、 一綠光發光區、一藍光發光區及一白光發光區,其白光 發光區之藍光晶片體經螢光粉體激發出白光,而紅光發 光區、綠光發光區、藍光發光區及白光發光區之導電層 體係分別電接至數電源控制器模組,另亦可電接至一電 源控制器模組,藉由該一或數電源控制器模組,控制紅 光發光區、綠光發光區、藍光發光區及白光發光區之單 獨或全部點亮,且紅光發光區、綠光發光區、藍光發光 區及白光發光區分別具有獨立之電源輸入,以達結構穩 定性及光源控制性佳之功效。 【實施方式】 一 —v [0009] 為使貴審查委員能進一步瞭解本創作之結構,特 徵及其他目的,玆以如後之較佳實施例附以圖式詳細說 明如後,惟本圖例所說明之實施例係供說明之用,並非 為專利申請上之唯一限制者。 [0010] 請配合參閱第一至三圖所示,係本創作R G BW四 色混光C Ο B面光源模組之立體組合、分解及俯視狀態 示意圖,其係包括: [0011] 一陶瓷基板體(1 0 ),該陶瓷基板體(1 0 )係 表單編號A0101 .第5頁/共19頁 M421603 [0012] [0013] 表單編號Α0101 呈圓形或矩形,且該陶瓷基板體(丄〇 )設有一紅光發 . - '' - . 光區(1 1>、一綠先舂光區(i 2)、一藍光發光區 (13)及一白光發光區(14),而白光發光區(1 4)設於陶瓷基板體(1 〇)中央,且紅光發光區(1 1 )、綠光發光區(1 2)及藍光發光區(1 3 )圍繞 設於白光發光區(14)外側,該紅、綠、藍光發光區 (1 1 ) ( 1 2) ( 1 3)分別設有一導電層體(1 1 0) (120) (130),而導電層體(11〇)( 1 2 0 ) ( 1 3 0 )分別設有一正極導電部(11 〇A )(120A) (130A)及一負極導電部(11〇 B) (120B) (130B>,且該導電層體(11 0 ) ( 1 2 0 ) ( 1 3 0 )上方分別導接設有數紅、綠 、藍光晶片體(111) (121) (131),而該 導電層體(1 1 0 ) ( 1 2 0 ) ( 1 3 0 )及紅、綠、 藍光晶片體(1 1 1 ) ( 1 2 1 ) ( 1 3 1 )上方,覆 設有一透明封裝膠體(1 1 2 ) ( 1 2 2 ) ( 1 3 2 ) ,另白光發光區(14)設有一導電層體(140), 而導電層體(140)設有一正極導電部(1 4 0 A) 及一負極導電部(140B),且該導電層體(140 )上方導接設有數藍光晶片體(14 1),而該導電層 體(1 40)及Μ光晶片體(1 4 1 )上方,覆設有一 透明封裝膠體(14 2)及螢光粉體(1 4 3); 藉由上述結構之配合,以完成本創作r G BW四色 混光C Ο Β面光源模組。 請‘合參閱第四至六圖所示,係本創作r G B W四 第6頁/共19頁 色混光C Ο B面光源模組之第三圖A_A剖面、及結合一或 數組電源控制莽模組使用狀態參考圖,其白光發光區( 1 4)之藍光晶片體(1 4 1)經螢光粉體(1 43) 激發出白光,而紅光發光區(1丄)、綠光發光區(工 2)、藍光發光區(1 3)及白光發光區(丄4)之導 電層體(110) (120) (130) (140)係 電接至一電源控制器模組(2 〇),另亦可分別電接至 數電源控制器模組(2 0),藉由該一或數電源控制器 模組(2 0),控制紅光發光區(i )、綠光發光區 (12)、藍光發光區(13)及白光發光區(14) 之單獨或全部點亮及電量之輸入,且紅光發光區(1 1 )、綠光發光區(12)、藍光發光區(13)及白光 發光區(14)之導電層體(11〇) (120) (1 3 0 )( 1 4 0 )’分別具有獨立正極導電部(1 1 〇 A) (120A) (130A) (140A)及一負極 導電部(110B) (12QB) (130B) (14 0 B〉之電源輸入·,以違結翁篇光源控制性佳之 功效。 ⑷茲將本創作之優點論述如下: 5] 1.結構穩定性佳:其紅、綠、藍及白光發光區分別設有 一導電層體’而導電層體分別設有一正極導電部及一負 極導電部’且該導電層體上方分別導接設有數紅、綠、 藍光晶片體,而該導電層體及紅、綠 '藍光晶片體上方 ’覆設有一透明封裝膠體,另白光發光區之上方覆設有 一透明封裝膠體及螢光粉體,使其導接穩定並封裝緊密 表單編號Α0101 第7頁/共19頁 M421603 ,故其結構穩定性佳。 f f τ Ρ· \\ . * -二' ,V . , : : 2 , - [0016] 2.哭《源控制性佳:其紅、綠'、藍及白光發~光區分別設有 設有一導電層體,而導電層體分別設有一正極導電部及 一負極導電部,而該正、負極導電部電接至一電源控制 器模組,亦或分別電接至數電源控制器模組,以控制紅 、綠、藍及白光發光區之單獨或全部點亮及電量之輸入 ,故其光源控制性佳。 [0017] 綜上所述,本創作確實可達到上述諸項功能及目的 ,故本創作應符合專利申請要件,爰依法提出申請。 【圖式簡單說明】 [0018] 第一圖係本創作之立體組合狀態示意圖。 [0019] 第二圖係本創作之立體分解狀態示意圖。 [0020] 第三圖係本創作之俯視狀態視意圖。 [0021] 第四圖係本創作之第三圖A-Α剖面狀態示意圖。 [0022] 第五圖係本創作之結合一組電源控制器模組使用狀態參 考圖。 [0023] 第六圖係本創作之结合數組電源控制器模組使用狀態參 考圖。 [0024] 第七圖係本創作之習知S MD型L E D光源結構參考圖 〇 【主要元件符號說明】 [0025] ( 1 0 )陶瓷基板體 表單编號A0101 第8頁/共19頁 M4.21603 (1 l)紅光發光區 [0026] [0027] ' '(iri〇’r導電層、體「二一. . · ·. * , [0028] ( 1 1 ◦ A )正極導電部 [0029] ( 1 1 ◦ B )負極導電部 [0030] ( 1 1 1 )紅光晶片體 [0031] ( 1 1 2 )透明封裝膠體 [0032] (12)綠光發光區 [0033] ( 1 2 0 )導電層體 [0034] ( 1 2 0 A )正極導電部 [0035] ( 1 2 0 B )負極導電部 [0036] ( 1 2 1 )綠光晶片體 [0037] ( 1 2 2 )透明封裝膠體 [0038] ( 1 3 )藍光發光區 [0039] ( 1 3 0 )導電層體 [0040] ( 1 3 0 A )正極導電部 [0041] ( 1 3 0 B )負極導電部 [0042] ( 1 3 1 )藍光晶片體 [0043] ( 1 3 2 )透明封裝膠體 [0044] ( 1 4 )白光發光區 [0045] ( 1 4 0 )導電層體 表單編號A0101 第9頁/共19頁 M421603 [0046] ( 1 4 0 A )正極導電部 - ., - : - · [0047] ( 1 4 Ο B )負極導電部 [0048] ( 1 4 1 )藍光晶片體 [0049] ( 1 4 2 )透明封裝膠體 [0050] ( 1 4 3 )螢光粉體 [0051] ( 2 0 )電源控制器模組 [0052] (30) SMD 型 LED 光源組 [0053] ( 3 1 )晶片 [0054] (3 2)接著劑 [0055] ( 3 3 )支架 [〇〇56] ( 3 4 )基板體 表單编號A0101 第10頁/共19頁Dev i ces ) LED light source structure as shown in the seventh figure, its SMD type L ED light source group (3 〇) is to adhere the wafer (3 丄) to the support (3 3) with an adhesive (3 2), which is followed by The agent (3 2) is mostly a mixture of an epoxy resin and a metal powder, and the wafer (31) is fixed by the high-temperature hardening property of the epoxy resin in the adhesive, and the metal powder added in the adhesive is used to achieve electrical and thermal conduction. Purpose, and the number of brackets (3 3) are connected to the positive and negative electrodes of the substrate body (34) (not shown) but have the following problems: _3] 1. Poor structural stability: the adhesive is made of material The problem of the property will make the wafer and the bracket have a large distance, and the inter-molecular gap of the adhesive is large, so that the fixing force is poor and cannot withstand large thrust and tensile force, so the structural stability is poor. The controllability is poor: the number of brackets is connected to the positive and negative electrodes of the substrate body. 'The illumination and power supply of the wafer cannot be controlled separately, so the light source has poor controllability. [New Content] [0005] <Creation Motivation> Form nickname A0101 Page 4 of 19 M421603 [0006] This creation has the problem of poor stability of the structure of the SMD-type LED light source and low efficiency of light source generation. End·cost creation RG aw four-color mixed light C Ο B surface light source module. [0007] <Creation Purpose> [0008] The main purpose of the present invention is to provide an RGBW four-color mixed light C Ο B surface light source module, wherein the ceramic substrate body is provided with a red light emitting region, a green light emitting region, a blue light emitting region and a white light emitting region, wherein the blue light crystal body of the white light emitting region excites white light through the phosphor powder, and the conductive layer systems of the red light emitting region, the green light emitting region, the blue light emitting region and the white light emitting region respectively Electrically connected to the plurality of power controller modules, or electrically connected to a power controller module, wherein the one or more power controller modules control the red light emitting region, the green light emitting region, and the blue light emitting region The white light emitting area is individually or completely illuminated, and the red light emitting area, the green light emitting area, the blue light emitting area and the white light emitting area respectively have independent power input, so as to achieve the effects of structural stability and light source controllability. [Embodiment] One-v [0009] In order to enable the review board to further understand the structure, features and other purposes of the present invention, the following preferred embodiments are accompanied by a detailed description of the following, but the illustration is The examples are for illustrative purposes and are not the only limitations of the patent application. [0010] Please refer to the first to third figures, which is a schematic diagram of the three-dimensional combination, decomposition and top view of the RG BW four-color mixed light C Ο B surface light source module, which includes: [0011] a ceramic substrate Body (10), the ceramic substrate body (10) is a form number A0101. Page 5/Total 19 pages M421603 [0013] The form number Α0101 is circular or rectangular, and the ceramic substrate body (丄〇 There is a red light. - '' - . Light zone (1 1 >, a green first light zone (i 2), a blue light emitting zone (13) and a white light emitting zone (14), and the white light emitting zone (1) is disposed in the center of the ceramic substrate body (1 〇), and the red light emitting region (1 1 ), the green light emitting region (1 2), and the blue light emitting region (13) are disposed around the white light emitting region (14). On the outer side, the red, green and blue light-emitting regions (1 1 ) (1 2) (1 3) are respectively provided with a conductive layer body (1 1 0) (120) (130), and a conductive layer body (11〇) (1) 2 0 ) ( 1 3 0 ) respectively, a positive conductive portion (11 〇 A ) (120A) (130A) and a negative conductive portion (11 〇 B) (120B) (130B>, and the conductive layer body (11 0) ) ( 1 2 0 ) ( 1 3 0 ) Red, green, blue light wafer body (111) (121) (131), and the conductive layer body (1 1 0 ) (1 2 0 ) (1 3 0 ) and red, green, blue light wafer body (1 1 1 ) (1 2 1 ) ( 1 3 1 ) is overlaid with a transparent encapsulant (1 1 2 ) ( 1 2 2 ) ( 1 3 2 ), and the white light emitting region (14) is provided with a conductive layer body (140). The conductive layer body (140) is provided with a positive electrode conductive portion (1,40 A) and a negative electrode conductive portion (140B), and the conductive layer body (140) is connected with a plurality of blue light crystal bodies (14 1). Above the conductive layer body (1 40) and the phosphor wafer body (1 4 1 ), a transparent encapsulant (14 2) and a phosphor powder (1 4 3) are overlaid; Create r G BW four-color mixed light C Β Β surface light source module. Please refer to the fourth to sixth figure, this book is r GBW four page 6 / total 19 pages color mixing light C Ο B surface light source mode The third picture A_A section of the group, and the state reference diagram of the use of the one or array power control module, the blue light body (1 4 1) of the white light emitting region (14) is excited by the phosphor powder (1 43) White light, and red light emitting area (1丄) Conductive layer body (110) (120) (130) (140) of green light emitting area (Work 2), blue light emitting area (1 3) and white light emitting area (丄4) is electrically connected to a power controller module (2 〇), or separately connected to the power supply controller module (20), and the red light emitting area (i), green light is controlled by the one or several power controller modules (20) Single or full illumination and power input of the light-emitting region (12), the blue light-emitting region (13), and the white light-emitting region (14), and the red light-emitting region (1 1 ), the green light-emitting region (12), and the blue light emitting The conductive layer body (11〇) (120) (1 3 0 ) (1 4 0 )' of the region (13) and the white light emitting region (14) respectively have independent positive conductive portions (1 1 〇 A) (120A) (130A) (140A) and a negative conductive part (110B) (12QB) (130B) (14 0 B> power input ·, in order to violate the effect of the light source control. (4) The advantages of this creation are discussed as follows: 5] 1. Good structural stability: the red, green, blue and white light-emitting areas are respectively provided with a conductive layer body', and the conductive layer body is respectively provided with a positive electrode conductive portion and a negative electrode conductive portion. And a plurality of red, green and blue wafer bodies are respectively arranged above the conductive layer body, and the conductive layer body and the red and green 'blue light wafer body are overlaid with a transparent encapsulant, and the white light emitting region is overlaid. It is equipped with a transparent encapsulant and phosphor powder to make it stable and packaged. The form number is Α0101, page 7/19, M421603, so its structural stability is good. Ff τ Ρ· \\ . * -2', V . , : : 2 , - [0016] 2. Cry "The source control is good: its red, green', blue and white light ~ light zone is provided with one a conductive layer body, wherein the conductive layer body is respectively provided with a positive electrode conductive portion and a negative electrode conductive portion, and the positive and negative conductive portions are electrically connected to a power supply controller module, or are respectively electrically connected to the plurality of power supply controller modules. In order to control the single or full illumination of the red, green, blue and white light-emitting areas and the input of the electric quantity, the light source has good controllability. [0017] In summary, the creation can achieve the above functions and purposes, so the creation should meet the requirements of the patent application, and apply in accordance with the law. [Simple Description of the Drawings] [0018] The first figure is a schematic diagram of the three-dimensional combined state of the present creation. [0019] The second figure is a schematic diagram of a three-dimensional exploded state of the present creation. [0020] The third figure is a top view of the present invention as intended. [0021] The fourth figure is a schematic diagram of the cross-sectional state of the third diagram A-Α of the present creation. [0022] The fifth figure is a reference diagram of the use state of a set of power controller modules in the present creation. [0023] The sixth figure is a reference diagram of the use state of the combined array power controller module of the present invention. [0024] The seventh figure is a conventional SMD type LED light source structure reference drawing 〇 [main component symbol description] [0025] (1 0) ceramic substrate body form number A0101 page 8 / a total of 19 pages M4. 21603 (1 l) red light-emitting area [0026] [0027] ' '(iri〇'r conductive layer, body "two one. . · ·. *, [0028] (1 1 ◦ A) positive conductive part [0029] ] ( 1 1 ◦ B ) Negative Conductive Portion [0030] ( 1 1 1 ) Red Wafer Body [0031] ( 1 1 2 ) Transparent Encapsulant [0032] (12) Green Light Emitting Area [0033] (1 2 0 Conductive layer body [0034] (1 2 0 A ) positive electrode conductive portion [0035] (1 2 0 B ) negative electrode conductive portion [0036] (1 2 1 ) green light wafer body [0037] (1 2 2 ) transparent package Colloid [0038] (1 3 ) Blue light-emitting region [0039] (1 3 0) Conductive layer body [0040] (1 3 0 A) Positive electrode conductive portion [0041] (1 3 0 B ) Negative electrode conductive portion [0042] ( 1 3 1) blue light wafer body [0043] (1 3 2) transparent encapsulant [0044] (1 4) white light emitting region [0045] (1 4 0) conductive layer form number A0101 page 9 / 19 pages M421603 (1 4 0 A ) Positive Conductive Portion - ., - : - · [0047] ( 1 4 Ο B ) Negative Electrode Conductor [0048] (1 4 1 ) Optical wafer body [0049] ( 1 4 2 ) transparent encapsulant [0050] ( 1 4 3 ) fluorescent powder [0051] ( 2 0 ) power controller module [0052] (30) SMD type LED light source group [ 0053] (3 1 ) Wafer [0054] (3 2) Adhesive [0055] (3 3 ) Bracket [〇〇56] (3 4) Substrate Body Form No. A0101 Page 10 of 19